ARMOUR, VOLUME 7, USER MANUAL
Contents
1. peo e noejeq synej ou j 6 Suodai pue Buiseo pejeiedes 40 5001391235940 s1e8j9 punoj J Buiseo poyesedes 104 pue pog eui uonesedes unB eui suononaisqo Jo unB eui 2949 g JE uononi sqO st 4 Aq uonoy pue mou 5 2 Sau pue mou suodei s ejey O1 Sail pue suodes 8 se pue suode i 9 uoneaipu Asepuoses Jeuuns Aq uoneoipu Figure 11 7 1 Sheet 3 of 3 Setting UP Stoppages Figure 11 7 2 The coaxial Machine Gun Cradle Figure 11 7 3 Top of Link Exit Chute SETTING UP STOPPAGES FOR INSTRUCTORS 7 Stoppages for instructional purposes may be set up in accordance with Figure 11 7 4 PROBABLE METHOD OF SETTING UP CAUSE Load the gun Trapped belt Pull the third round back and push the fourth round forward Load the gun Defective Place a rimless round as the first round in the belt round Load the gun Separated case Place a rimless round as the first round Place a separated case in the chamber Load the gun As trainee examines the first round order Rounds correct Feed Load the gun Question the class on feed faults mechanism D2. H3ONVWNO9 NOIL9310Hd 30 Sunaivunigo LINN SH3LLNHS JOHLNOO NOIL9310Hd SINOVE H3INNONVO 31138NOL v1 30 53181503 X S31jo08 x08 3snd HL 31N3130 HOLIMS 1 135 XO8 HOLIMS 40103135 31138NOL vi WdlONIHd S N 13881 3N009 VI 30 314311vV8 303108 HNIL NYUYILNI AHILLYS S N SSH Figure 5 4 2 Main Gun Firing Circuits 141VIXVO9 3SN3TIIVELIN V13G 3HIVONO93S 1INDUID ABVONO23S XYOI 3SN3TUVELIN VI 30 WdlONidd bli 9 AdVWiud HU 30 31N3130 HOLIMS EMIL 3THHhOl Y vu 30 297 30 a EE unaioaias ASNSTIVELIN VI 1108 30JONJ10S HOLIMS 105 3579 40193135 2972 30 31vO3d 1003 XV 02 3 vi 30009 VI VdIONIHd NOILONOF 3G TVdIONIBd 314311V8 HNILANHUYILNI 3108 De S N 13880 S A TINH Figure 5 4 3 Coaxial Firing Circuits SECTION 5 SERVICING TRAVERSE GEARBOX 1 The crew is required to check the three mounting bolts keep the equipment clean lubricate the traverse handle with 3G 335 and grease the turret ring The gearbox is serviced b
3. 5 FOREWORD 1 B GL 305 007 MS 002 Armour Volume 7 User Manual Cougar Part 2 Armament is issued on authority of the Chief of the Defence Staff 2 B GL 305 007 MS 002 is effective on receipt d Any loss or suspected compromise of this publication or portions thereof shall be reported in accordance with A SJ 100 001 A5 000 Chapter 34 4 Forward suggestions for changes through normal channels to LFC HQ Attention SSO Armour RECORD OF CHANGES o0 D 3 Signature Date Entered CONTENTS CHAPTER 1 GENERAL INTRODUCTION SECTION 1 PURPOSE AND SCOPE AIM SCOPE RELATED DOCUMENTS GENERAL BACKGROUND SECTION 2 COUGAR GENERAL DATA THE TURRET FLOOR ARMAMENT GUN CONTROLS CREW POSITIONS AND OBSERVATION EQUIPMENT AMMUNITION STOWAGE SUMMARY CHAPTER 2 GUN 76 MM L23A1 SECTION 1 INTRODUCTION GENERAL DESCRIPTION COMPONENTS SECTION 2 THE 76 MM BARREL L1A3 DESCRIPTION SECTION THE BREECH RING DESCRIPTION SECTION 4 THE YOKE DESCRIPTION SECTION 5 THE BREECH MECHANISM DESCRIPTION COMPONENTS BREECH BLOCK FIRING CIRCUIT COMPONENTS BREECH CLOSING SPRING ACTUATING SHAFT THE BREECH MECHANISM LEVER SECTION 6 HANDLING SAFETY PRECAUTIONS TO CLOSE THE BREECH TO LOAD TO FIRE MAKE SAFE UNLOAD EASE SPRINGS TO REMOVE A JAMMED CA
4. Cocking lever Sear spring Sear spring pin Bolt stud Driving spring rod Driving spring Firing pin shoulder Firing pin Cocking lever pin Lower projections Breech lock recess Sear Sear notch Sear platform Sear cam Extractor Cartridge retaining plunger and TEE RTE Levier d armement Ressort de g chette Goupille du ressort de g chette Tenon de la culasse Tige du maitre ressort Maitre ressort paulement du percuteur Percuteur Goupille du levier d armement Prolongement inf rieur chancrure du verrou de culasse G chette Encoche de la g chette M plat de la g chette Came de la g chette Extracteur Poussoir de retenue des cartouches et ressort Figure 11 4 6 Sheet 2 of 2 The Bolt Exploded View 16 Sear Spring and Pin The bolt is held in the same manner as for stripping The sear spring and pin are replaced in the pin hole The pin not the spring is pushed down and slight pressure is exerted on the sear spring to move it into the right slot in the bolt 17 Sear The sear is inserted from the bottom with the platform to the front of the bolt The sear spring is pressed down and to the left to engage in its recess in the sear 18 Driving Spring and Rod The driving spring is placed on the rod with the slotted end of the rod resting on the same surface that was used for stripping As much of the spring as po
5. 03 eJnyiej JO punos pasysiy pue A eui U PUNOI 351 pue ou ji epijs 10 981 X8 eu you sey XU 1ueds 2942 speojun CIE puno i 9 P3peoJ suodes pue speo Wwey uejufie 18 1202200 Sau 10 2942 pue 1981109 pue jeu xoeuo eyes YEN pepeol suode pue pos 104 5342942 53209 4 Jed se uonov c Aq uonov sou pue mou sAejoy e6eddoys peBuojosd uodey z sel pue mou sAejay 5 suodey Z peBuojoud suodey 2 Jeuung ei j9ye 0 ste suns i ue Buunp 50035 ung wi 03 5 uonesipuy Figure 11 7 1 Sheet 2 of 3 Setting Up Stoppages 2 1 suodeem 0 eut 01 sey ins UNB jj EL pepeo suodas pue speojes Bun pue Buisedspeay yoq eDueuo 6 JE punoj ele ou j LL SJUSUOdWOD 9 29jep seoejdei pee 941 2942 1013U09 pieM10
6. a serviceability ie the operation of the fan b security of the fan casing and e security of the electrical connections SPOTLIGHT NO 1 MARK 2 2 Check the operation of the spotlight security and electrical cable and connections for fraying 3 To change a lamp filament use the following procedure a disconnect the electrical source b remove the four rim clamps c remove the light rim light unit and rear seal together d grasp the lamp filament and turn counter clockwise and pull out e insert new lamp filament by pushing in and turning clockwise f replace the light rim light unit and rear seal together and g replace the four rim clamps HATCHES AND SEATS 4 Check the hatches and seats as follows a check for proper operation b inspect for damages broken or worn parts inspect for rips and tears and d lightly oil all working parts PERISCOPES 5 Remove remove periscope use following procedure undo the captive securing screw on each side of the b push the periscope upward carefully remove it upward and forward from the mounting and c take care not to damage the sealing ring 6 To Replace a Periscope To replace a periscope use the following procedure a check that the mounting and periscope body are Clean and lightly relubricate all mating surfaces using grease XG 315 silicone grease b ensure that the sealing ring is in pl
7. sdi 2 10 9211X3 Figure 11 9 7 Extraction ejo eAnoo np ep eure WEI 19409 H Figure 11 9 8 Ejection Jnaj12e41x2 awed ap JIOSSNOd ine oe41xe ue ep awed ej ep wed 10 o8JX3 Figure 11 9 9 Loading First Phase ep Z JnejoeJxe ep euo JOJDBIXJ Buuds 18409 Wed Loading Second Phase Figure 11 9 10 enusjei Ian uoua awed e ANUPY D 181197 D NESSSI NOD W udo med jeg med pee jeg pnis 010016 1199 epiis pee jeg 4 3 c Feeding First Phase Figure 11 9 11 Var var 1 Guide de cartouches Cartridge guide 1 Figure 11 9 12 Feeding Second Phase COCKING 17 As the bolt moves to the rear the cocking lever is rammed forward by the recess in the top plate This action forces the lower rounded nose of the cocking lever to the rear bringing the firing pin with it The firing pin spring held between the firing pin spring pin and sear sp
8. 1 Power in 1 Alimentation 2 Gun pulse m 2 Impulsions du canon 3 Sight connections 3 Raccords du viseur 4 Auxiliary 28 V out for laser when fitted tc 4 Prise auxiliaire de 28 V pour laser lorsque Radnis celui ci est fix au Radnis 5 Window wiper fuse Fusible de l essuie glace T moin du syst me antibuee ON Fusible principal 6 Warning lamp for head heater ON Main tuse Figure 6 1 7 Radnis Control Unit 5 a Qro E 7 Q 8 9 Q EN 10 not O 2 13 14 uec 5 Q 16 17 18 EE 19 20 Beet Seng 21 22 Figure 6 1 8 Radnis Night Graticule Pattern SECTION 2 OPERATION COMPONENT ADJUSTMENT AND OPERATION OF THE NO 71 SIGHT 1 Face Mask To adjust the face mask and interocular setting use the following procedure a remove the eyepiece cap and b position the forehead against the mask and adjust it until it is comfortable by sonia 1 unlocking the locking nuts situated on the top right and top left of the metal frame of the mask 2 rotating the three adjusters until the desired position is obtained and 3 locking the locking nuts to secure the face mask 2 Switching on the Sight To switch on the sight use the following procedure a set the hull and turret battery master switches to the ON position and b turn the graticule lamp dimmer
9. Elements to checked Actions to be taken Lubricant GUN CONTROLS AND MOUNTING Turret floor rollers Electrical connections Traverse gear Elevation gear Cradle Recoil system Clean inspect and lubricate Check for security and damage Clean inspect check security and operation Carry out test Clean inspect including gaiter check security Test operation over full movement Clean inspect check security Lubricate where necessary Gun cradle liners 2 nipples SA cam and spring Anti rotation key and keyway Deflector guard Recoil indicator check setting Clean inspect check security Check recuperator nitrogen pressure 200 PSI Top up buffer Check position of recuperator tell tale rod Check system for leaks Pull back gun inspect buffer piston rod L O GU N CONTROLS AND MOUNTING Quadrant fire control Clean inspect check security Zero and test the operation over full movement PERISCOPES AND SIGHTS Washers Wipers Periscopes Gunner s sunvisor Check reservoir clean nozzles test operation Clean inspect blades test operation Clean inspect check security Test operation of black out shutters Test operation Elements to checked Actions to be taken Lubricant PERISCOPES AND SIGHTS cont d Sights No 71 No 54 Radnis and mountings Sight adjustment Clean inspect lub
10. 1 Cartridge guide 1 Guide de cartouches 2 Link stripper 2 Extracteur de maillons 3 Retaining pin 3 Goupille de retenue 4 Belt holding 4 Cliquet de retenue de la bande Figure 11 5 5 Feedway Mechanism Belt holding pawl Belt holding pawl spring Link guide Cartridge guide Cliquet de retenue de la bande Ressort du cliquet de retenue de la bande Guide de maillons Guide de cartouches Pons Figure 11 5 6 Feedway Mechanism Exploded View 22 Feed Slide and Pawl The slide is removed from the cover The pawl and spring are compressed between the thumb and forefinger the feed pawl pin is pushed out the pawl and its spring are removed from the slide 23 Cover Extractor Spring Press down with the thumb on the locking end and disengage it from the recess in the cover extractor cam Carefully under control the tension is released and the spring is then removed 24 Cover Latch The latch is removed by sliding it to the rear ASSEMBLING THE COVER GROUP 25 Cover Latch The latch is pushed forward 26 Cover Extractor Spring The notched end of the cover extractor spring is hooked over the stud in the cover It is then pressed down and in on the projection until it is engaged in the cover extractor cam recess 27 Feed Pawl and Slide The slide is placed on flat surface with the underside facing upward The small end of the feed pawl spring is placed over the stud in the
11. siow 5 ep inessidue np no seg o ep 5 ap adA eueuo e spiod ep Y20 S ep OJSWNN L MIN 8t ON 40 diro S 6 98 6 z19 1epwodunB lueyjadoig dno 2 S JO f MA GL ON eDpuueo uorssnoJed Jeu 3 1884 pue uiuouj Bury jo jem jo JO ON 10 Buy jo 1u616 ON VEG 3 ois ui Blank Cartridge Figure 13 1 12 SECTION 2 SMALL ARMS AMMUNITION GENERAL 1 In Canada and the United Kingdom UK the term small arms is applied to weapons which have a calibre of 25 mm or less In the United States the calibre is 15 mm or less The NATO upper limit is 20 mm TERMINOLOGY 2 The term cartridge is applied to the assembly which consists of a cartridge case b primer percussion cap c propellant charge and d bullet 3 Cartridge Case Brass is generally used in manufacturing of small arms ammunition cases This is a copper zinc alloy of approximately 70 30 composition 4 For low velocity weapons such as the pistol the case is not normally necked but 15 short with parallel walls For high velocity weapons such as rifles and machine guns the case must be longer To keep the round compact and yet contain the heavier charge the diameter is usually enlarged at the base and necked down to the bullet
12. 1 X1 circle bulb ace and lock und lt a 0 D o c 3 og D 2 Night fo 8 X1 and X9 X10 selector lever 9 Laser return window not used 10 Object mirror tilting control 2 10 Plaque d acc s de l ampoule 1x Volet 1x et verrou Fen tre de grossissement 1x Logement de la lampe du jour nuil Oculaire Apoui tront Levier de r glage du foyer Leviers de s lection 1x et 9 10 Fen tre de retour du laser non utilis e Bouton de r glage du miroir Figure 6 1 6 55126 Commander s Radnis 24 9 Image Intensification System The X9 eyepiece is the same as that for X10 day optics Focus can be adjusted by a focus control lever mounted on the underside of the sight main case An injected graticule pattern is incorporated within the eyepiece the brightness is controlled by the forward of the two rheostat knobs mounted on the right underside of the sight The sight contains a flash shutter which operates when the firing switch is pressed 25 The Object Mirror Assembly This is common to both the day and night systems It is fitted in the top case by a pivoting mount and trunnions Tilting the mirror raises and lowers the line of sight The angle of the mirror is controlled by the rotation of the object mirror tilting on the left side of the sight 26 The Radnis Control Box This is located on the turret wall to the right and forward o
13. E e np ajidnon 2 Duude 2 181197 Jang 2 I Cocking Action Figure 11 9 13 uoueo np uosseH Duude 2 Locking Figure 11 9 14 AUTOMATIC FIRING 23 With the trigger raised the trigger cams engage the sear cams each time the bolt moves forward forcing the sear down and releasing the firing pin The gun fires automatically and repeats the operation described above until the trigger is released or the ammunition is expended see Figure 11 9 15 Release of the firing pin takes place approximately 1 5 mm before the recoiling parts are fully forward but after the breech is locked EI ep seuJe e e ep 2 189S Automatic Firing Figure 11 9 15 SECTION 10 MACHINE GUN SERVICING INTRODUCTION 1 General Proper care and cleaning of the machine gun is essential Due to the close fit of the working surfaces and the high speed at which the gun operates all surfaces must be kept free of burrs rust dirt and grease if the gun is to fire properly LUBRICANTS AND THEIR USES 2 The recommended oil for cleaning lubricating and preserving small arms including machine guns is 3GP 335 It is to be used under all temperate conditions PREPARATION FOR SER
14. Figure 13 5 1 Page 1 of 2 72 Rocket Launcher and Rocket Front sight Detent lever assembly Trigger safety handle catch Trigger mechanism assembly Rear sight Guide rail Firing pin rod Firing pin spring Firing pin mechanism housing Danger label Rebound spring Outer tube Rear cover Safety pull pin Tuner tube O type seal Piezo electric element Copper cone Octol 2 Charge assembly Round hock Booster pellet Fuse M412 lgniter Percussion primer Transmission line Mire avant M canisme de d tente Cran de s ret pour g chette M canisme de d tente Mire arri re Rail guide Tige de percuteur Ressort de percuteur Logement du m canisme de tir Note d advertissement Ressort antirecul Tube ext rieur Couvercle arri re Goupille de s ret Tube int rieur Join torique l ment pi zo lectrique C ne en cuivre Octol 2 Charge de propulsion Organe de repliement Charge de sur propulsion Fus e M412 Organe de mise feu Amorce C ble de percuteur Figure 13 5 1 Page 2 of 2 M72 Rocket Launcher and Rocket Vertical range line Head marker Ranger marker Stadia lines Ligne de hausse Rep re de vis e Rep re de distance Lignes de d rivation BON fons Figure 13 5 2 M72 Front Sight Operation The procedure
15. 0 Een 2 Eeer 0 gt EN 0 PLUS RES OR TT 2 XXVI XXV 2 2 9 4 to 2 9 9 2 9 10 0 0 SUT ns 0 ped 0 3 2 1 to 3 2 13 3 2 14 0 EE eege 2 3 3 1 to 3 3 5 3 3 6 0 EE EE 0 EE 0 1 2 9 to 1 2 11 1 2 12 2 0 Se an 0 11 4 9 11 4 10 2 SE RE 0 e ee 0 e Den nn 0 STOD ange 0 D EE te Gi 2 ES em 2 ee 0 11 5 9 to 11 5 15 11 5 16 0 SA 0 11 6 1 to 11 6 8 0 DO 0 11 7 1 to 11 7 7 11 7 8 2 SE 2 11 8 1 to 11 8 5 0 6 3 1 to 6 3 3 6 3 4 7 1 1 to 7 1 6 7 2 1 to 7 2 4 7 3 1 7 3 2 8 1 1 8 1 2 8 4 1 to 8 4 3 8 4 4 9 1 1 to 9 1 5 9 1 6 9 2 1 to 9 2 3 9 2 4 to 9 2 6 9 3 1 9 3 2 9 4 1 9 4 2 9 5 1 9 5 2 9 6 1 to 9 6 7 9 6 8 10 1 1 10 1 2 10 2 1 10 2 2 10 3 1 10 3 2 10 4 1 10 4 2 10 5 1 10 5 2 11 2 1 to 11 2 5 11 2 6 11 3 1 to 11 3 5 11 3 6 11 4 1 to 11 4 3 11 4 5 to 11 4 8 14 2 1 to 14 2 3 14 2 4 to 14 2 6 14 3 1 to 14 3 4 15 1 1 to 15 1 4 11 10 1 to 11 10 5 11 10 6 11 11 1 to 11 11 4 NON 5 Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch Ch CC CC iCH T T e P Contact Officer G3 Armour 3 Doc
16. Plaque de logement Capuchon Cartouche couleur naturelle Poudre explosive G20 Charge combin e de phosphore rouge et de caoutchouc butyle 380g Cylindre de la grenade Marques noires au pochoir Figure 13 3 3 Grenade Discharger Smoke Screening L8 TYPE OF GRENADE BODY COLOUR Grenade discharger smoke L5 Deep bronze green with eau de Nil band Grenade discharger smoke Deep bronze green with eau de green L7 Nil band CCC symbol in green Grenade discharger smoke L8 Natural finish Top of cylinder is painted eau de Nil Body is made of moulded rubber Figure 13 3 4 Cougar Grenade Recognition SECTION 4 FLARES MINI FLARES 1 There are three versions of the same basic flare projector in use in the Canadian Forces Two of these projectors are almost the same the cocking piece is painted red One has a large cocking piece 20 mm in length while the other one has a cocking piece only 6 mm in length Both projectors have Projector Pyrotechnic NSN 1095 21 804 8889 stamped on the barrel The third projector differs slightly in that the spring guide is 61 mm in length the cocking piece is black in colour and there are no markings on the body DESCRIPTION 2 The projector consists of an aluminium body locking cap pencil clip striker spring guide spring and cocking piece The aluminium body is internally threaded at the lower end to accept the knurled locking cap which retains the pen
17. 2 The breech ring is machined from a solid steel block and includes drillings for the breech mechanism 3 The breech ring is of the open jaw type with a vertical sliding block Its front end forms the housing for the yoke A projection of the anti rotation key slides into a keyway cut into the front face To retain the breech ring to the barrel and to prevent its rotation a locking plate is fitted centrally at the top of the breech face The breech ring number can be found on the top face of the breech ring A recocking lever on the left face of the breech ring can be hand operated to the safe fire and recock positions 4 There is a lubrication point located on top of the anti rotation key 1 Anti rotation key projection 1 Protuberance de la clavette Lubricabon point 2 Point de lubedication 3 Breech ring number Num ro de l anneau de culasse 4 Yoke C 5 Firing plunger 6 End cap 7 Actuating shaft retaining plunger 7 Piongeur de retenue de l arbre de commande eur de tir on d extr mit joo Figure 2 3 1 Breech Ring Right Hand Side 1 Recocking lever 1 Levier de r arm Breech mechanism lever 2 Levier du m canisme de culasse Figure 2 3 2 Breech Ring Left Hand Side SECTION 4 DESCRIPTION 1 The yoke sections are clamped together to form a collar around the front of the breech ring The yoke is also attached to the buffer and recuperator piston end
18. Steel case Fuse charge and top contact assembly Eau de Nil band Eau de Nil stencilling Composition code Filled lot number Initials or monogram of filler 10 Date of filling 11 Model number 12 Colour effect symbol 13 Body painted deep bronze green 0 100RON On A GREN DISCHARGER SMK SCR GREEN L7At Charge de l amorce Charge fumig ne Contenant en acier Charge de fus e et ensemble du contact Bande vert Marques au pochoir vert p le Code de la composition fumig ne Num ro de lot au remplissage initiales ou monogramme du remplisseur Date du remplissage Num ro de mod le Symbole de couleur de la fum e Corps peint en vert fonc Figure 13 3 2 Grenade Discharger Smoke Screening Green L7 Electrical contact clips Bag Propellant G20 gunpowder Bush Tray Ree composition G40 gunpowder ut Glazeboard washer Burster container 10 Rubber body 11 Locating plate 12 Plug 13 Body natural finish 14 Gunpowder G20 15 Red phosphorous butyl rubber filing 380 9 16 Cylinder of grenade eau de nil 17 Black stencilling 00002082 GREN DSCHGR SMK SCR t8 Doigts de contact lectrique Sac Charge propulsive G20 Manchon Plateau Poude G40 pastill e al s e crou Rondelle en carton vemi Charge de fragmentation Corps en caoutchouc
19. ADJUSTING THE SIGHT SECTION 5 EXAMPLE CALCULATION OF THE MEAN READING PROCEDURE SECTION 6 ZEROING GENERAL ZEROING PROCEDURE ZEROING WITH STANDARD VALUES ZEROING REGISTRATION FORM CHAPTER 10 THE MULTI BARREL SMOKE GRENADE DISCHARGER SECTION 1 INTRODUCTION GENERAL SECTION 2 DESCRIPTION THE DISCHARGER SWITCH BOX THE GRENADE SECTION 3 OPERATION LOADING FIRING UNLOADING MISFIRE DRILL SECTION 4 SERVICING CIRCUIT TEST CLEANING SECTION 5 MEDICAL TREATMENT TREATMENT OF PHOSPHOROUS BURNS CHAPTER 11 MACHINE GUN 7 62 MM 5 1 SECTION 1 INTRODUCTION GENERAL PARTICULARS AND PERFORMANCE SECTION 2 DESCRIPTION OPERATION BARREL SIGHTS SECTION 3 HANDLING TO PROVE THE GUN TO HALF LOAD TO LOAD FROM THE HALF LOAD TO FIRE TO MAKE THE GUN SAFE TO LOAD FROM THE MAKE SAFE TO UNLOAD THE GUN ACTION FORWARD TO UNLOAD THE GUN MAKE SAFE POSITION TO EASE SPRINGS SECTION 4 STRAPPING AND ASSEMBLING GENERAL NORMAL STRIPPING OF THE GUN TO STRIP THE BOLT TO ASSEMBLE THE BOLT ASSEMBLING THE GUN SECTION 5 ADDITIONAL STRIPPING AND ASSEMBLING GENERAL STRIPPING THE LOCK FRAME ASSEMBLING THE LOCK FRAME STRIPPING THE BARREL EXTENSION ASSEMBLING THE BARREL EXTENSION STRIPPING THE FEEDWAY MECHANISM ASSEMBLING THE FEEDW AY MECHANISM STRIPPING THE COVER GROUP ASSEMBLING THE COVER GROUP STRIPPING THE FRONT BARREL BEARING AND PLUG ASSEMBLING THE FRONT BARREL BEARING AND PLU
20. E Shell stencilling golden yellow nature of fillin Model number Middle pravm vend i Body painted eau de nil Body painted black Inscriptions sur la face oppos e de l ogive num ro de lot apr s remplissage code monoligne marque du remplisseur date du remplissage et ann e code de l agent propulsi o charge marqu e au pochoir en jaune or sur l ogive Num ro de mod le Bande brun roux Corps peint en vert p le Corps peint en noir Figure 13 6 5 Round 76 mm Armd C Smoke BE 76mm C CANISTER 158A Q CNSTR L33A1 5 d Shell inscription in white nature of filler Stencilling on reverse of shell body filled lot number initials or monogram or filler date of filling 3 Model number Body painted deep bronze green 5 Body painted black Inscriptions en blanc sur le contenant nature du remplissage Inscriptions sur la face oppos e du contenant num ro de lot apr s remplissage soulign marque du remplisseur ann e de fabrication Num ro de mod le Corps peint en vert fonc Corps peint en noir Figure 13 6 6 Round 76 mm Armd C Canister Shot Jo eeuue Je siow o6essidue ap 5 np saenu o6nou nssn ue enbsig ep WNN ensindoid e ep e ap
21. Je AA NO wi XNVI8 19 Joquinu yoyeq 1284 pue Bunty jo aep Je JO JO S eniui 9SIP Jequinu JO 1u619M NO Figure 13 6 7 Cartridge Blank 76 mm Armd C L2A1 SECTION 7 AMMUNITION MARKING GENERAL 1 Ammunition is primarily identified by using of various colours The paint not only enables ammunition to be identified but also acts as a preservative and a method of camouflage In addition t painting each complete round will have its components stamped and stencilled with various code numbers and symbols This enables individual parts to be identified and traced if difficulties o defects appear 2 This section briefly describes the Canadian marking system as contained in CFTO C 74 050 001 MD 000 Identification and Ammunition which is based on NATO Standardization Agreements STANAGS Older or foreign ammunition which does not folio this system may be encountered therefore details of some of this ammunition are contained in the reference mentioned above MARKING OF AMMUNITION PACKAGING 3 The information in the following paragraphs does not apply to small arms ammunition below 20 mm 4 Packages constructed or manufactured from aluminium galvanized steel glass reinforced plastic fibreboard or wood are generally left unpainted There will be instances however when some or
22. inajoajoid L 1029 01d peasy zo S 26 02 YILINVIG ul SS I g TIVH3AO HLONIT Figure 13 4 3 Cartridge colours red and green b burning time 4 to 8 seconds c ejection height 45 m minimum d illumination 6000 lux minimum e distance visible 2 4 km bright sunlight and f distance visible 19 2 km night PACKAGE DATA 5 The flares are packaged as follows a 12 per plastic bag b 144 per fibreboard container and e NATO Stock Number 1370 21 804 8890 INSPECTING THE CARTRIDGE 6 Before the cartridge is installed in the projector it will be inspected for the following a security of the top closure or sealing disc b security of the primer percussion cap cracks dents distortion in the case and d damaged threads WARNING Under no circumstances will a damaged cartridge be installed in the projector TO OPERATE THE PROJECTOR 7 To operate the projector with the mini flare use the following procedure a the projector open end striker recess 15 inspected for foreign matter and freedom of movement The cocking piece is retracted and engaged in the safe notch the projector is held with the open end pointed in a safe direction The cartridge is screwed into the projector to fire it the projector is held at arm s length and pointing upward The cocking piece is then moved from the safe
23. Commander s and Gunner s Hatches To close either hatch use the following procedure a push down on the back of the hatch to take the pressure off b lift the latch by releasing it from the stud on the latch hinge the equilibrator assembly will assist in closing the hatch and c grasp the strap and close the hatch To lock the hatch use the following procedure a push upward on the hatch lock left or right b turn counter clockwise one quarter turn lock in position by pulling rearward and up d repeat with the outer hatch lock To open the hatch use the following procedure a pull down on the hatch lock b rotate clockwise one quarter turn c lift the hatch holding on to the strap d fully open the hatch until the back comes in contact with the hatch stop and e ensure that the hatch latch which is spring loaded has fully seated itself to the stud on the hatch spring Driver s Hatch To close the hatch use the following procedure a unlock the latch lock by pulling up to the vertical position b close the hatch and c rotate the hatch handle to lock the position ensure that the handle is fully locked or the microswitch for power traverse will not be engaged 5 open the hatch use the following procedure a rotate the hatch handle to the unlock position b open the hatch push the hatch lock down until a click is heard to signal it is in position d attempt to c
24. Figure 13 7 2 stamped on the base of the cartridge case of small arms ammunition SAA a NATO design mark if applicable b manufacturer s initials or recognized identification letters and c the last two digits of the year of manufacture 10 Bullet Markings The tip of each bullet is coloured in accordance with the following code LYW 656 ON 1eurejuoo E sjueuny Duyoeg 7 LIN 9 9 UONUNWWY LUN 652 ou JUBUSJUOO E se10ss800y 2 LAN 2920 SUONIUNU ep jueuejuot a Figure 13 7 1 Typical Marking on Outer Ammunition Boxes Except those Containing Small Arms Ammunition SEI NVLO 11 OLYN E np saenu 2 Senu 2 uoneouqej eeuuy einjogjnueui JO 968A Figure 13 7 2 Typical Stampings Applied to Base of Small Arms Ammunition Cartridge Cases ball no marking b tracer red c armour piercing black d armour piercing incendiary silver observing yellow and incendiary blue 11 If an ammunition has more than one role a combination of the appropriate colours 15 used The colouring will extend minimum of 6 mm down from the tip but under circumstances will it appear on the bearing surface of the bullet 12 Packaging Markings The following markings are found
25. Left Hand Side Turret Front View Turret Floor 1 of 2 Turret Interior 2 of 2 Turret Interior The Gun The Barrel Breech Ring Right Hand Side Breech Ring Left Hand Side The Yoke 1 of 2 Breech Left Hand Side 2 of 2 Breech Left Hand Side 1 of 2 Breech Right Hand Side 2 of 2 Breech Right Hand Side Breech Mechanism Key Removing Jammed Cartridge 1 of 2 Breech Block Components 2 of 2 Breech Block Components 1 of 2 Striker Mechanism Assembly 2 of 2 Striker Mechanism Assembly Gauging the Striker Protrusion Mantlet Interior View Mantlet Exterior View Front Mantlet Exterior View Deflector Guard Cradle Left Hand Side Cradle Right Hand Side Buffer and Replenisher Cylinders Yoke Buffer Replenisher Recuperator and Hydro Pneumatic Cylinders Recuperator and Hydro Pneumatic Cylinders Recoil Indicator Recoil System Fault Cause Chart Main Circuit Breaker 225 Amp Turret Rotary Base Junction Turret Master Switch Turret Fuse Box Radnis Control Unit The Power Traverse Control Unit Figure 4 2 6 Figure 5 2 1 Figure 5 2 2 Figure 5 2 3 Figure 5 2 4 Figure 5 2 5 Figure 5 2 6 Figure 5 2 7 Figure 5 4 1 Figure 5 4 2 Figure 5 4 3 Figure 6 1 1 Figure 6 1 2 Figure 6 1 3 Figure 6 1 4 Figure 6 1 5 Figure 6 1 6 Figure 6 1 7 Figure 6 1 8 Figure 7 1 1 Figure 7 1 2 Figure 7 1 3 Figure 8 2 1 Figure 8 3 1 Figure 8 3 2 Figure 9 1 1 Figure 9 1 2 Figure 9 1 3 Figure 9 6 1 Figure 11 1 1 Figure 11 2 1
26. Pendant le test de la saillie de ce coulisseau pousser coulisseau d alimentation vers la gauche pour supprimer le jeu Figure 11 6 2 Feed Slide Test SECTION 7 7 62 MM STOPPAGE DRILLS 7 62 MM STOPPAGE DRILLS 1 The immediate and secondary actions are the actions taken to ensure that the gun works properly after a stoppage 2 The Immediate Action IA is a drill while the secondary action is a systematic check of the gun in a logical sequence to expose faults as quickly as possible 3 The importance of being able to carry out the actions properly and instinctively cannot stressed enough Personnel must know the weapon and its working parts well so quick identification and correction of stoppages are possible 4 Proper preparation and careful checking of all working parts and components especially ammunition for cleanliness and defects will greatly reduce the risk of stoppages J A stoppage on the coaxial MG may be caused by incorrect crew drills a failure in the electrical circuit mechanism or by an obstruction or fault in the weapon Obviously the gun will also stop when ammunition is expended end of the belt The gunner will usually notice the stoppage first because there will be no reaction to pressure on the firing switch However the commander may notice that a faulty feed is liable to cause a stoppage In either case the person concerned will report Stoppage and the gunner will not attempt to fire until
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28. Step Sear and spring Screw retaining sear Projection Cocking link Lug Striker mechanism assembly Plunger and spring Recocking crank Retaining screw Cocking link springs Recocking crank shaft Retaining screw Securing screws Cocking link cover plate es es D O O1 amp ss ss D A HN O OU Bloc culasse Cran Ressort et g chette Vis de retenue de la g chette Coulisseau d armement Tenon M canisme du percuteur Ressort et plongeur Doigt d armement Vis de retenue du plongeur Ressorts de glissi re Axe du doigt de r armement Vis de retenue du doigt de r armement Vis Plaque couvercle du coulisseau d armement Figure 2 7 1 Page 2 of 2 Breech Block Components Figure 2 7 2 Page 1012 Striker Mechanism Assembly ss PON Colliers Bo tier du percuteur Manchon du percuteur Percuteur Cran d armement Face inclin e Tenon d arr t du percuteur Ressort du percuteur Percuteur Bo tier du percuteur Logement du poussoir de retenue Sens du d montage Cran d armement Tenon d arr t du percuteur 2 S NO U 8 w D E 14 Interrupted collars Striker case Sleeve Firing pin Bent Inclined face Striker lug Striker spring F
29. TURRET ELECTRICAL SYSTEM SECTION 1 INTRODUCTION INTRODUCTION 1 The Cougar electrical system is designed for 24 DC with a permissible operating voltage of 20 to 28 V 2 The electrical source consists of four 12 V 100 amp batteries located in the hull behind the driver The batteries are hooked up in series parallel providing 24 V 200 amps 3 Power to the turret is controlled by the hull master switch located to the left rear of the driver s compartment and the turret master switch which is located on the turret wall to the right of the gunner Both master switches must be on to have power transferred from the hull to the turret 4 Fuses which protect the various components and circuits of the turret electrical system are found mounted in the turret to the right of the gunner 5 A main 225 amp circuit breaker located behind the driver protects the electrical supply to the turret and the hull Figure 4 1 1 Mam Circuit Breaker 225 Amp SECTION 2 COMPONENTS TURRET ROTARY BASE JUNCTION 1 The rotary base junction RBJ see Figure 4 2 1 is bolted to the centre of the turret floor It transmits from the batteries the power required in the turret Three cables connected to the RBJ provide power to the turret master switch radio facilities to the driver and the electrical connection to the driver s traverse safety switch TURRET MASTER SWITCH 2 The turret master switch 15 located on the turret wall to the right o
30. results of the above mentioned inspections and programmes and e defects and malfunctions which appear to be the result of previous misuse 20 Failed or defective ammunition should not be returned without prior advice from technical ammunition personnel 21 Details of reporting defects are contained in CFAOs and range standing orders SECTION 9 AMMUNITION STOWAGE GENERAL 1 The amount of ammunition carried on the Cougar is as follows a 76 mm 40 rounds b 7 62 mm 17 boxes stowed c smoke grenades 16 grenades L5 L7 or L8 d anti personnel grenades 10 M67 e signal flares 1 mini projector and 24 flares f para flares 4 C3 hand held para flares g 5 56 mm as per SOP and h M72 LAW 3 STOWAGE POSITION 2 The 76 mm rounds are stowed in following positions a 30 rounds in rear hull container 30 round stowage bin and b 10 rounds to the rer of the gun basket 10 round ready bin NOTES 1 When loading ammunition in the 30 round stowage bin ensure that the rounds are inserted in the bottom row of the tubes first then the second row etc finishing with the top row of tubes 2 When replenishing the 10 round ready bin start with the top row of tubes and work downward after emptying each row of tubes consecutively and ending with the bottom row of tubes 3 The 7 62 mm ammunition is stowed in the following locations one box immediate supply in the feed tray to the left of the coaxial b three box
31. 1 1 The Gun calibre normal barrel recoil length of barrel with breech ring length of barrel without breech ring number of grooves in the rifling ratio of twist direction of twist weight of breech ring weight of breech block Equivalent full charge EFC number of EFC rounds which can be fired between examinations condemning limits 4750 rounds 76 mm 28 cm 2 156 m 2 029 m 20 1 turn in 20 calibres uniform right hand 43 79 kg 15 99 1 EFC value all ammunition including blanks 250 rounds examination at least once a year and SECTION 2 THE 76 MM BARREL L1A3 DESCRIPTION 1 The barrel is called the L1A3 The barrel registration number part number year of manufacture and the manufacturer s initial are found on the rear face of the barrel It 1s fitted with a safety collar The barrel is attached to the breech ring by interrupted threads Barrel rotation 1s prevented by a locking plate which is secured within the breech ring and breech face of the barrel Inside the barrel are 20 grooves in the rifling which provide right hand twist to the projectile during its movement out of the barrel The barrel has a condemning limit of 4750 rounds apunges ooch 481109 AES E ep 2 5 soBejor awid Bui201 2 spegiy peidnueju ra The Barrel Figure 2 2 1 SECTION 3 THE BREECH RING DESCRIPTION
32. 2 GUN 76 MM L23A1 SECTION 1 INTRODUCTION GENERAL 1 The 76 mm gun is the main armament on the Cougar The gun is capable of firing medium and low velocity ammunition The following types can be fired a High Explosive Squash Head HESH b High Explosive HE e Smoke Base Ejection BE d Canister e Squash Head SH Practice f High Explosive HE Practice and g Blank ammunition DESCRIPTION l The following information is provided for the 76 mm gun a name Gun 76 mm L23A1 b calibre 76 mm and muzzle velocities 1 medium HESH 533 m sec SH Practice 533 m sec HE Practice 514 m sec Canister not calculated and 2 low Smoke 290 m sec 2 The gun 15 loaded by hand with percussion initiated cartridge When fired the gun recoils approximately 28 cm under the control of a buffer replenisher assembly and is returned to the firing position by a hydro pneumatic type recuperator During run out the breech is opened mechanically and the fired cartridge case is ejected The breech remains open until the next round is loaded COMPONENTS 3 The gun is comprised of the following main components a the 76 mm barrel b the breech ring breech 2 The following technical data pertain to the 76 mm gun barrel 1 c e c E o O The Th 2 3 nism a e breech mech 4 Figure 2
33. 2 Fuse Nose Time No 390 24 Action of the Fuse When the gun is fired set back causes the detonator holder to compress the spring and the detonator to impinge on the striker The flash from the resultant ignition passes through the flash channels in the stem of the body and fires the mealed powder in the oblique channel of the top time ring This ignites the composition in the powder train channel and the gunpowder pellet in the gas escape hole The sealing disc in the escape hole is blown out providing a vent for the escape of gases generated by the burning composition 25 During flight the composition in the top time ring burns until the flame reaches the powder pellet in the bottom time ring the interval of time is determined by the setting The pellet is fired igniting the composition in the powder channel and blowing out the closing disc in the escape hole The composition in the bottom time ring burns in the reverse direction until the flame reaches and fires the powder pellets assembled in the elbow shaped channel in the flange of the fuse body the interval of time is determined by the setting The resulting ignition passes to the gunpowder in the magazine which explodes blowing out the brass disc in the base plug and passing through the flash hole to the shell 26 To Set the Fuse No 390 To set the fuse No 390 use the following procedure a remove the brass cover from the fuse with the aid of a pair of pliers b place
34. 2322 Minimum Marking for the Identification of Ammunition and its packaging e 2329 Links for Disintegrating Belts for use with NATO 7 62 mm Cartridge and f 4090 Small Arms Ammunition 9 mm Parabellum 2 The following America Britain Canada Australia ABCA Quadripartite Standardization Agreements QSTAGS have been sholly or partially incorporated into this manual a 302 76 mm Ammunition for Guns L5 and L23 b 454 L8 Smoke Grenade 584 Scorpion Turret and d 597 Draft Handheld Laser Rangefinder AN GVS 5
35. 2945 Figure 11 1 1 Machine Gun 7 62mm C5 1 2 3 4 mechanical breakdown barrel overheating detection from smoke muzzle blast and flash and the machine gun cannot be used for overhead fire during peacetime during battle only under ideal situations should it be used for overhead fire SECTION 2 DESCRIPTION OPERATION 1 The gun is a short recoil weapon which is fitted with a muzzle booster this will be referred to throughout the chapter as a front barrel bearing and plug The muzzle booster traps some of the gases which increases the rate of fire and ensures the positive recoil of the recoiling parts These are a the barrel b the barrel extension and c the bolt 2 The driving spring forces these recoiling parts forward BARREL 3 The gun has a heavy barrel which has a chrome plated chamber bore and barrel bearing see Figure 11 2 1 This barrel is slow to heat because of its large surface Air circulating between the barrel and the perforated barrel jacket carries off some of the heat caused by firing SIGHTS 4 The gun is equipped with a folding adjustable blade type front sight which is attached to the front of the receiver by bracket and locking screws see Figure 11 2 3 5 The sight is folding leaf type fixed to rear sight base and 15 adjustable for windage and elevation see Figure 11 2 4 6 To allow the gunner to follow the fall of shot there 18 usually a ratio of
36. 32 serrations into which the plunger of a clicker device fits This plunger can be disengaged by pulling and rotating the knob The handle incorporates the electrical firing switch 12 Elevating Gearbox The elevating gearbox is bolted to the underside of the turret flange A hinge pin connects the elevating gear screw to the two lugs on the underside of the cradle All rubber gaiter protects the elevating gear screw when it is extended from the gearbox 1 Supports anti choc 2 Disjoncteur de 25 amp res Electrical connector Jt 3 Connecteur Ji 4 Hesikent mounts 25 amp circuit breaker 4 Electrical connector J2 Connecteur J2 Figure 5 2 2 Power Traverse Control Unit v 1 Hand traverse handle traverse shaft Traverse gear box i B gt Poign e de pointage manuel direction 2 Arbre de commande du syst me de pointage manuel en 3 m canique pointa ge en direction Figure 5 2 3 Manual Traverse Engaged t 1 Electrical motor 1 Moteur lectrique 2 Hand traverse handle 9 o clock 2 Poign e de pointage manuel position engaged en direction position 9 heures en prise 3 Gunner s power controller 3 Commande m canique de pointage en direction pour le canonnier 4 Electrical connectors 4 Connecteurs Figure 5 2 4 Power Traverse Engaged on N os Vehicle power supply Commander s pow
37. 6 or 6 1 delayed arming unit and a magazine 11 Safety Arrangements of the Fuse L19A5 The safety arrangements are as follows a the shutter of the delayed arming unit is retained in the safe or unarmed position by the spring loaded safety plunger which engages in the locking plate This provides bore and muzzle safety by ensuring a specified minimum distance from the gun before arming commences b when the shutter is in the unarmed position its detonator is screened off from the striker and the stemmed chemical explosive CE channel leading to the CE pellets in the magazine c the escapement mechanism provides a slight delay before the shutter reaches the armed position Shell filling RDX WX8 88 12 Fuse percussion base medium L19 Driving band Washer Adaptor Inert composition 7 Felt disc 8 Paper tube 9 Plug 10 Tracer LS 11 Sealing composition 12 Copper washer NO UMP CN 11 12 Charge l obus RDX WX8 88 12 Fus e de percussion base L19 Bague guide Rondelle Adaptateur Composition inerte Disque en feutre Tube en papier Bouchon Traceuse L5 Composition d tanch it Rondelle en cuivre Figure 13 1 2 Shell 76 mm Armd C HESH d the striker locking segments prevent the striker from moving forward before firing and holds the striker in the safe position in handling loading and transit and the creep
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39. Data The following data pertain to the MBSGD a covering arc 3200 mils b distance 60 metres time of build up for smoke screen 8 to 12 seconds L8 WP is instantaneous and d duration approximately 90 seconds SECTION 2 DESCRIPTION THE DISCHARGER 1 Each discharger consists of a base plate and four barrels These barrels are fitted with a male adaptor which forms part of the electrical jack type connection with the self projecting grenade There is a drain hole at the lowest point in each barrel 2 The barrels will be covered by the issued rubber cups to prevent the loaded grenades from being dislodged and to prevent water mud and dust from entering the discharger barrels SWITCH BOX 3 The dischargers are connected electrically to the switch box which has two firing buttons one for the left hand discharger and one for the right hand discharger The switch box is situated to the left of the commander s position on the left hand side of the turret 4 The electrical circuit for the dischargers 15 protected by fuse 5 on the turret box THE GRENADE De The grenade contains the female part of the electrical connection fuse and propelling charge Three types of grenades are used the LS for white smoke L7 for green smoke and the L8 red phosphorous which emits white smoke SECTION 3 OPERATION LOADING 1 To load the grenades use the following procedure a remove the rubber cups b
40. EQUIPMENT GRATICULE LAMP SERVICING THE SIGHT WASHER SYSTEM TEST FOR PARALLAX CHAPTER 7 GUNNER S SIGHTING EQUIPMENT SECTION 1 COMPONENTS INTRODUCTION THE SIGHT MOUNTING THE TURNBUCKLE FIRE CONTROL ARMOURED FIGHTING VEHICLE NO 26 MARK 1 THE SIGHT PERISCOPIC ARMOURED VEHICLE NO 54 MARK 1 GUNNER S RADNIS SECTION 2 OPERATION COMPONENT ADJUSTMENT AND OPERATION OF THE NO 54 SIGHT MOVING THE NO 54 SIGHT TO THE STOWED POSITION RELEASING THE NO 54 SIGHT FROM THE STOWED POSITION COMPONENT ADJUSTMENT AND OPERATION OF THE GUNNER S RADNIS SECTION 3 SERVICING MOUNTING DISMOUNTING THE NO 54 SIGHT OPTICAL SERVICING CHAPTER 8 GUN LAYING INSTRUMENTS SECTION 1 INTRODUCTION GENERAL SECTION 2 TRAVERSE INDICATOR FUNCTION DESCRIPTION OPERATION SECTION 3 QUADRANT FIRE CONTROL FUNCTION DESCRIPTION OPERATION OF THE TRILUX LAMPS SAFETY PRECAUTIONS FOR TRILUX LAMPS OPERATIONS SECTION 4 SERVICING TRAVERSE INDICATOR TO TEST THE ACCURACY OF THE TRAVERSE INDICATOR QUADRANT FIRE CONTROL QUADRANT FIRE CONTROL DRIVE TO ZERO THE QUADRANT FIRE CONTROL CHAPTER 9 BORESIGHTING SECTION 1 BORESIGHT AND SCREEN DESCRIPTION SECTION 2 BORESIGHTING GENERAL DEFINITION OF BORESIGHTING PREPARATION BEFORE BORESIGHTING E METHOD OF BORESIGHTING ZEROING PROCEDURE FOR COUGAR AVGP SECTION 3 VISUAL BORESIGHTING NO BORESIGHT PROCEDURE SECTION 4 CONVERGING THE COMMANDER S SIGHT GENERAL PREPARATION
41. Figure 11 2 2 Figure 11 2 3 Figure 11 4 1 Figure 11 4 2 Figure 11 4 3 Figure 11 4 4 Figure 11 4 5 Figure 11 4 6 Figure 11 4 6 Figure 11 5 1 Figure 11 5 2 Figure 11 5 3 Figure 11 5 4 Figure 11 5 5 Figure 11 5 6 Gun Selector Switch Box Traverse Gearbox Power Traverse Control Unit Manual Traverse Engaged Power Traverse Engaged Diagramatic Arrangement of Power Traverse System Elevating Gearbox Elevating Gearbox Gearing 76 mm Firing Gear Main Gun Firing Circuits Coaxial Firing Circuits Mount Armoured Vehicle Periscope No 45 Mark 1 Sight Periscopic Armoured Vehicle No 71 Day Graticule Pattern Sights Graticule Pattern Explained 55126 Commander s Radnis 55126 Commander s Radnis Radnis Control Unit Radnis Night Graticule Pattern Sight Periscopic Armoured Vehicle No 54 Day Sight Graticule Pattern Sights Radnis Night Graticule Pattern Traverse Indicator Quadrant Fire Control No 16 Mark 1 Trilux Lamps Boresight Armoured Fighting Vehicle No 3 Mark 1 Boresight Armoured Fighting Vehicle No 3 Mark 1 76 mm Boresighting Screen Cougar Zeroing Registration Form 3 Sheets Machine Gun 7 62mm C5 Barrel Components Front Sight Rear Sight Removing Lock Frame and Barrel from Receivers stripped components Barrel Extension Barrel Extension and Lock Frame The Bolt 1 of 2 The Bolt Exploded View 2 of 2 The Bolt Exploded View Lock Frame Lock Frame Exploded View Barrel Extension
42. Figure 5 2 7 Elevating Gearbox Gearing SECTION 3 OPERATION MANUAL TRAVERSE 1 To operate the manual traverse system use the following procedure a pull the hand traverse handle fully down b rotate the hand traverse handle clockwise to traverse right and c rotate the hand traverse handle counter clockwise to traverse left POWER TRAVERSE 2 the power traverse system use the following procedure a ensure there are no external or internal obstructions to interfere with turret rotation b turn on the hull master switch c start the engine the system can be operated for short periods of time if the batteries are charged well d close the driver s hatch e turn on the turret master switch f rotate the hand traverse handle to the 9 o clock position and push fully up and g operate the system by using the gunner s or commander s controller TO TEST THE OPERATION OF THE POWER TRAVERSE 3 Prior to testing the operation of the power traverse prepare the system for operation and ensure the vehicle is on level ground 4 Driver s Traverse Safety Switch To test the driver s traverse safety switch use the following procedure a b open the driver s hatch and check that the system will not operate and close the driver s hatch and pull the traverse handle to the DOWN position and check that the system will not work when using the power controller 5 Response To test the system for response use the f
43. a the front barrel bearing and plug b the bore and exterior of the barrel the face of the bolt d the exterior of the gun and the gun mount CLEANING AFTER FIRING 10 Immediately after firing while the machine gun is still warm fouling will be removed from the bore chamber and face of the bolt by dry cleaning After this has been done the part will be oiled to prevent corrosion 11 Upon return to harbour or camp the machine gun will be stripped completely and the bore will be cleaned The bore and chamber are dry cleaned first This is repeated until the bore is clean The bore is examined for metallic fouling which is removed with the wire brush and cleaning rod The wire brush will be oiled before use If it is impossible to remove the metallic fouling in this way the barrel will be handed over to a weapons technician The threads of the barrel will be thoroughly cleaned and examined for distortion The carbon on the muzzle face is softened within oil and removed with a wire brush or steel wool take care not to scratch the barrel All other parts are dry cleaned and inspected Re oiling will take place after inspection The gun is reassembled and the seven point check is carried out If faults have occurred during firing the cause should be determined and corrected if possible When the cause cannot be determined or if major repairs are needed report to a weapons technician The barrel will be cleaned inspected and re oil
44. a knurled knob on the side of the fan casing When the switch is activated fumes are extracted from the turret and exhausted through an outlet port which is protected by a ballistic cap OPERATION 2 operate the extractor fan grip knurled control knob and pull outward Then rotate knob through 90 degrees and release WARNING During operation do not insert fingers or any other foreign objects into the rear recess of the fan drive as it may cause injuries or damage to the equipment 1 Knurled knob 1 Bouton molet 2 Fan drive recess 2 Commande du ventilateur logement 3 Fan casing and motor 3 Moteur et boitier du ventilateur Figure 12 1 1 Extractor Fan SECTION 2 SPOTLIGHT NO 1 MARK 2 DESCRIPTION 1 The spotlight and mounting bracket see Figure 12 2 1 are fitted to the commander s sight The bracket 15 a three piece assembly with two turn buckles which permit the light to be easily swivelled or deflected The light is stem mounted to the bracket ball and socket joint 15 incorporated between the light body and stem A handle fitted to the body provides another method of controlling the swivel of light slacken off the stem nut first 2 The lamp is the double filament type 50 50 watt used in headlight units The dipped filament is shorted out and only the main filament is used when fitted to the spotlight 3 The spotlight is provided with an ON OFF toggle switch which is fitted to the bod
45. alimentation Cliquet d alimentation Coulisseau d alimentation Vis du pivot du levier d alimentation Rondelle antivibration Goupille du levier du pivot d alimentation 10 Levier d alimentation KREE Figure 11 5 8 Cover Group Exploded View STRIPPING THE FRONT BARREL BEARING AND PLUG 30 The locking ring is punched out of the front barrel bearing and barrel jacket 31 The front barrel bearing and plug removed ASSEMBLING THE FRONT BARREL BEARING AND PLUG 32 Ensure that the locking ring is in place and serviceable 33 The front barrel bearing and plug are screwed on the barrel jacket 34 The locking ring is punched into the front barrel bearing and barrel jacket THE BLANK FIRING ATTACHMENT 35 Attaching the Blank Firing Attachment attach the blank firing attachment use the following procedure a open the cover and ensure the gun is clear Withdraw the feedway mechanism retaining pin Remove the cartridge guide and replace it with the cartridge discriminator Push in the feedway mechanism retaining pin fully forward and CAUTION The cartridge discriminator 15 painted yellow for easy identification It must be used to fire blank ammunition or when using drill rounds It also prevents a live round from being fed into the gun b remove the front barrel bearing and plug Remove the locking ring Ensure that the muzzle piece is clean Screw the muzzle piece into barrel jacket and ensure it i
46. all of these may be painted to restore the original protective surface for camouflage purposes or to eradicate former markings which may cause confusion 5 Outer Packages The following markings are found on the outer packages a Canadian Transport Commission CTC shipping nomenclature This is applied to all ammunition offered for transport by rail in Canada Usually it is stencilled directly on the container It may however be applied in the form of a label b Government Explosive Group GEG and Safety Distance Category SDC applied either by stencilling or in the form of a label and Miscellaneous markings such as package number special depot Canadian Forces Ammunition Depot CFAD markings 6 More details on outer packaging are contained in Figure 13 7 2 MARKING OF AMMUNITION 7 The following minimum markings should appear on each item of ammunition calibre or mass b model designation c lot designation and d special characteristic markings as applicable 8 In addition to the minimum requirements the Following national markings will appear a description nomenclature b nature of filling e weight of filling d monogram of loading activity date of loading f serial number g propellant type or charge design h operating instructions safety precautions preparation for use etc and j DND ammunition code SMALL ARMS AMMUNITION 9 Cartridge Case The following minimum markings
47. as an alternative to the preventive servicing guide it is complementary to it There will be occasions when preventive servicing is carried out immediately before firing In these circumstances it is not necessary to carry out before firing tasks However on active service and during a period of open range firing in peacetime before and during firing servicing will be an automatic daily task 4 The schedule has been written on the assumption that all equipment is in serviceable state If any defects become apparent repair of serial sequence 15 left to the commander s discretion RESPONSIBILITY 5 Correct servicing of the armament is the direct responsibility of the crew commander The troop leader has the overall responsibility for correct servicing within the troop FREQUENCY OF SERVICING 6 Armament servicing should be carried out at the following times a once a week b once every month e quarterly d immediately before firing e during a lull in firing and f after firing 7 Although all aspects of servicing have been written for general world wide application the weekly and monthly servicing may be required more frequently in adverse conditions Notification of changes in servicing frequency will be made to all concerned through the usual channels Circumstances will also affect the type of oil used in extreme temperatures and abnormal weather conditions these changes will be notified through commands 8 Week
48. be scoured with oil as soon as it is cool enough to handle 16 On return to camp or harbour the gun should cleaned 17 The cleaning sequence is as follows a scour the barrel in the following manner 1 pour oil onto the brush and insert it into the muzzle scour the bore throughout its length adding oil to the brush from time to time Using the chamber stave and the brush scour the chamber and 2 disconnect the brush and push the staves through the bore to the breech Clean the brush wrap it with one thickness of clean cloth connect it to the staves then dry clean the bore and inspect b dry clean and inspect the breech block and breech ring paying particular attention to the following 1 the face of the block and striker hole 2 the bottom of the breech block 3 the guide ways in the breech ring and 4 the extractors 18 Re oil the gun in the same manner as for routine cleaning 19 During each of the next three days while the barrel is still sweating the gun should be dry cleaned and re oiled in the same manner as for routine cleaning SPECIAL CONDITIONS 20 Cold Climate Before firing in temperatures below zero degrees Celsius strip the gun completely and wash it in a varsol bath This removes all traces of temperate lubricant grease and dirt Temperate oil and grease will congeal during sub zero temperatures Apply oil 3 GP 335A to only the working surfaces If the proper oil is not available it is bet
49. by rotating the circular plate attached to the scale A cursor with a line provides the means of setting the drum adjuster 4 The scales on the range drum are marked as follows a the fixed drum left hand is mils scale which can also be used as an angle of sight scale It is marked every two mils and numbered every 20 mils from 0 320 in elevation and 0 120 in depression On either side of zero are the letters E and D indicating elevation and depression b the movable drum right hand is a range scale for HE HESH and SMOKE The HE HESH scale on the left side is marked every 100 metres and numbered every 500 metres from 100 5000 In addition there is the figure 4 indicating the 400 m mark The SMOKE scale on the right side is marked and numbered every 100 m from 0 3700 m 5 Trilux Lamps Three trilux lamps are used to illuminate the clinometer and range drum scales small trilux lamp is mounted to the rear of the clinometer bubble Two large trilux lamps are mounted inside the below the cursor and underneath the range scales to provide illumination of the scales OPERATION OF THE TRILUX LAMPS 6 The trilux lamps consist of a small capsule of glass coated internally with a layer of phosphor The capsule contains a radioactive gas which activates the phosphor and produce visible light 7 Nuclear lamps self illuminating do not require any external power supply and do not need to be exposed to daylight
50. centrifuge s ins re dans l orifice de l obturateur Les segments sont cart s et le percuteur est en position arm Obturateur en position arm Corps de l obturateur Figure 13 1 3 Page 2 of 2 Fuse Percussion Base Medium L19A5 16 Fuse Nose Percussion Direct Action 1746 The L17A6 fuse is of the direct action detonating type and consists principally of a body fairing shutter shutter spring detonator holder detonator plug detonator plug detonator needle assembly detent detent spring and plug and bottom cap 17 Safety Arrangements of the Fuse L17A6 Until the gun has fired the shutter is retained in the unarmed position by the shutter spring and by the spring loaded detent In the unarmed position the hole in the shutter containing stemmed is out of alignment with the detonator above it and the stemmed CE in the platform below it 18 Action of the Fuse L17A6 When the gun is fired the acceleration of the shell in the bore causes the detent to set back away from the shutter The shutter is then retained in the unarmed position by its spring and by friction 19 During flight centrifugal action causes the shutter to compress its spring and swing outwards until the stemmed CE is in alignment with the stemmed CE in the platform and the detonator is in its holder 20 On impact the needle assembly is forced downward causing the needle to penetrate the detonator The detonator passes to the stemmed CE in
51. clockwise and adjust the brilliance as required 3 Eyepiece Heater To operate the eyepiece heater use the following procedure a set the heater switch to the ON position and b note whether the warning lamp beside the switch illuminates 4 Traverse the Sight To traverse the sight use the following procedure a unclamp the sight mounting by moving the clamp lever clockwise b if the sight is in the lined up position pull the plunger to the left and rotate the sight as required e read off the amount of sight traverse from the scale which is positioned on the underside of the turret roof d reclamp the sight in any position by moving the clamp counter clockwise and if line up is required rotate the sight until the plunger engages in the recess of the traverse arc COMPONENT ADJUSTMENT AND OPERATION OF THE COMMANDER S RADNIS 5 To Switch On Day To switch the sight on for day use use the following procedure a b g ensure the daylight protection shutter is closed ensure the day night selector is set to day switch on the power at the Radnis control unit select X1 rotate the lamp brightness control knob to check the illumination of the field defining graticule seen in the X1 unity window select X10 and check the illumination of the ballistic graticule To Switch Off Day Switch the power off at the Radnis control box To Switch on Night To switch the sight on for night use use the followi
52. cm weight 0 32 kg and e burning time 30 to 35 seconds 11 The following procedure will be adhered to when firing the flare a remove the end cap b with arm outstretched hold the flare at an angle away from the body c hold the firing cord at an angle tot he flare to avoid backblast and d pull the cord udi PI op ANA Figure 13 4 4 Page 1 of 2 Flare Parachute Hand Fired C3 CO NO End cap Propellant charge Delay Expelling charge Quickmatch Parachute Parachute string Neoprene Closing cap Outer body Cardboard spacer Tubular plastic spacer Candie Cardboard spacer Windshield Release pin and ring Pull cord Pea ball Igniter support Striker spring Positioning spring igniter housing Plastic positioner Striker Primer Venturi Plastic fin assembly Flare Direction of firing gt Capouchon d xtr mit Charge propulsive M canisme de retardement Charge d expulsion Cordon de mise feu Parachute Fil du parachute Rondelle en n opr ne Capouchon de fermeture Corps ext rieur Entretoise en carton Entretoise tubulaire en plastique Charge clairante Entretoise en carton Coupe vent Anneau et goupille de d ploiement Code d extraction Bille Support du syst me de mise feu Ressort de percuteur Ressort de retenue Log
53. controls and QFC or plumb bob d depress the gun slightly below level and top up the buffer cylinder until oil overflows at both filler holes B level and depress the gun several times to purge the oil taking care not to elevate above level as this could induce air into the system level the gun again and top up if necessary until more oil flows from both the buffer and replenisher filler holes after ensuring both sealing washers are serviceable replace and tighten the buffer and replenisher filler plugs and check the system for leaks security and cleanliness NOTES When the buffer is cold there should be approximately 11 4 cm of the tell tale rod protruding from the rear of the replenisher During firing the oil in the buffer expands into the replenisher this reduces the amount of protrusion of the tell tale rod During subsequent cooling the oil contracts and is returned from the replenisher to the buffer thus increasing the amount of protrusion of the tell tale rod During intense sustained fire the tell tale rod may disappear completely from view While it is safe to continue firing there is a likelihood of pressure build up which will stop the gun from running out fully this prevents firing 6 It must be clearly understood that the tell tale rod on the expansion tank assembly indicates only the presence of heat expanded oil in the buffer expansion tank system The tell tale rod does not and will not indicate insuf
54. direction Goupille du levier d armement goupilie de d tente de boulon du pied arri re du tr pied M2 Serre joint de bouche Boulon de pivot Goupille de l jecteur Figure 11 10 1 Universal Tool CLEANING AND RE OILING THE BORE 5 To clean and the bore with the gun mounted lock the working parts to the rear The bore and chamber are cleaned with a clean piece of 10 cm by 5 cm flannelette attached to the cleaning rod loop The flannelette is then examined If indications of rust or fouling are present on the flannelette the gun is stripped and examined If no rust or fouling is present on the flannelette the bore and chamber are re oiled and the gun and mount are wiped with an oiled cloth 6 The headspace adjustment must be redone whenever the bore is cleaned as a large piece of flannelette on the cleaning rod may cause the barrel to rotate and upset the headspacing Vs Care must be taken not to damage the face of the bolt with the cleaning rod NORMAL CLEANING 8 For normal cleaning use the following procedure a strip the gun in the same manner as normal stripping b dry clean and lightly re oil all parts including the bore exterior of the gun and the gun mount and if the machine gun has become wet or excessively dirty the gun must be stripped completely and all parts dry cleaned and re oiled CLEANING BEFORE FIRING 9 Before firing the following parts will be left dry
55. feed lever 15 to the left g close the cover h fire the action by raising the trigger and j inspect all drill rounds before periods of instruction NOTE During periods of instruction all rounds and ammunition boxes are inspected to ensure that all rounds are drill rounds TO HALF LOAD 3 To half load the GPMG take the following steps a open the cover and ensure that the bolt is forward b place the belt in the feedway with the open side of the link down until the first round comes in contact with the cartridge guide and link guide c ensure that the tail of the leading link is under the link guide this does not apply to a new ammunition belt d lower the extractor ensuring that it engages in the groove of the round and e ensure that the stud on the feed lever is to the left and close the cover TO LOAD FROM THE HALF LOAD 4 To load the weapon the cocking handle is pulled fully to the rear and released TO FIRE 5 The MG can be fired two methods mounted or on the tripod 6 To fire the coaxially mounted MG with the firing switch use the following procedure a set the turret and hull master switches to the ON position b set the gun selector switch to ensuring that the indicator light illuminates and c report Firing now and press the firing switch on the elevating handwheel 7 To fire the coaxially mounted MG with the foot pedal use the following procedure a set the turret and hull master switc
56. for operating the is as follows a pull the pin and place the rear cover downward allowing the front cover and adjustable sling assembly to fall free do not discard the sling assembly until the rocket 1s fired to extend the launcher grasp the rear sight cover and sharply pull the launcher to the rear until it locks into position Extending the launcher slowly can result in failure to cock the launcher place the launcher on the shoulder pull the safety handle to the ARM position aim the launcher and depress the trigger bar If the trigger safety handle will not remain in the ARM position the launcher is not fully extended and in the event the launcher is not fired it may be returned to the carry position by doing the following 1 return the trigger safety handle to the SAFE position 2 depress the barrel detent 3 collapse the launch tube 4 guide the front and rear sight into position and 5 replace the sling assembly Misfire Procedure Should the M72 fail to fire use the following procedure a b re squeeze the trigger If the round does not fire wait 10 seconds keep the launcher trained on target place the trigger safety handle on the SAFE position and remove the launcher from the shoulder once the launcher is removed from the shoulder wait one minute depress the detent and collapse the launcher approximately 10 cm Grasp the rear sight cover and re extend the launcher this should
57. go Insert the recocking crank shaft with the projection on the large end at the three o clock position Check the operation and then fit the retaining screw position the breech block on its face NOTE The recocking crank must be inserted in the correct position prior to assembling the breech block into the breech ring If this is not done the recocking lever cannot be used h replace the striker mechanism assembly retaining plunger and spring insert the cocking link springs and cover plate ensuring that the springs are engaged on the pintles of the cover plate and gauge the striker protrusion see section 9 paragraph 24 TO REPLACE THE BREECH BLOCK 10 The breech block is replaced as follows insert the breech block partially into the breech ring Raise the breech block and at the same time engage the crank with the crank path when the breech block has been raised as high as it will go move the semi automatic SA cam to the left and raise the breech block until the extractors engage disengage the extractors from the breech block Push the breech block up to the fully closed position Fit the spanner onto the actuating shaft end cap with the handle in the six o clock position Push on the actuating shaft retaining plunger with the brass drift and rotate the spanner upward once the end cap has cleared the plunger remove the brass drift Continue the rotation of the spanner until the flat surface on the e
58. guide is removed by lifting it up and out 15 Belt Holding Pawl The belt holding pawl is pressed down and held there The feedway mechanism retaining pin is withdrawn which releases the belt holding pawl The belt holding pawl and its spring are removed 16 Cartridge Guide The cartridge guide is removed and the cartridge guide spring is separated from the cartridge guide ASSEMBLING THE FEEDWAY MECHANISM 17 Cartridge Guide The cartridge guide spring is assembled in the cartridge guide The cartridge guide is replaced 18 Belt Holding Pawl The belt holding pawl spring is replaced in its recess in the feedway The belt holding pawl is placed over its spring pressed down and held there The feedway mechanism retaining pin is replaced 19 Link Guide The link guide is replaced in its recess The feedway mechanism retaining pin is pushed fully forward STRIPPING THE COVER GROUP 20 Feed Lever Pivot see Figure 11 5 8 The screw is removed from the bushing The shakeproof washer is removed By pushing the pivot pin from the underside of the cover the pivot pin is removed 21 Feed Lever The feed lever is withdrawn from its recess in the feed slide and 1s removed from the cover 1 Breech lock 2 T lug 3 Breech lock pin 4 Barrel locking spring Verrou de la culasse Tenon en T Goupille du verrou de la culasse Ressort de verrouillage du canon Figure 11 5 4 Barrel Extension Exploded View
59. in the turret The driver s compartment is positioned to the left front of the vehicle hull The driver is controlled by the commander through the vehicle intercom IC system When the driver s hatch is closed the driver has three periscopes for observation and driving There is an image intensification II device for driving and observation at night There is a traverse safety switch which prevents the turret from being traversed electrically unless the driver s hatch is fully closed and locked AMMUNITION STOWAGE SUMMARY 15 The following is a summary of ammunition stowage a ammunition for 76 mm gun 1 ready bin 10 2 stowage bin 30 and b ammunition for 7 62 mm machine gun 1 one box 1 the coaxial feed tray 2 three boxes under the gun basket and 3 thirteen boxes in the hull ammunition for personal weapons 1 5 56 mm as per Standing Operating Procedures SOPs grenades 1 eight smoke grenades in dischargers 2 eight smoke grenades stowed on the exterior of the turret and 3 ten fragmentation hand grenades M72 three in hull four para flares C3 in the hull and signal flares one projector and 24 flares Dy A Figure 1 2 5 Sheet 1 of 2 Turret Interior JNeJBINUSA D ej uns eyueieq uonoeuip ue ep ejeAluelA 9j94n0 ej ep salqisny e ejje4no ep inejdneju uonoeuip ue eBejuiod ep jnejeorpu
60. lot whereas the number of other components eg fuses in a lot never exceeds 2 000 Therefore during the manufacture of these 10 000 rounds other components from several component lots will be used C HESH SX 334GF NESH 12883 on sons Shell stencilling golden yellow nature of filling Tracer symbol Stencilling on reverse of shell body filled lot number initials or monogram of filler date of filling Ogive golden yellow Model number Body painted black Propellant code initials or monogram of assembler date of assembly batch details Nature de la charge marqu e au pochoir en jaune or sur l ogive Symbole de la tra euse Inscriptions au pochoir sur la face oppos e de l ogive num ro du iot apr s remplissage initiales ou monogramme du remplisseur date du remplissage Ogive jaune or Num ro de mod le Corps peint en noir Code de la charge propulsive initiales ou monogramme du monteur date de montage d tails du lot Figure 13 6 2 Round 76 mm Armd C HESH 76mm ARMD C HE SX WGE ROX TNT HE L24A4 on NONA wN Shell stencilling golden yellow nature of fillin Tracer symbol Stencilling on reverse of shell body filled lot number initials or monogram of filler date of filling del number Golden yellow band Body painted deep bronze green Propellant code initials or
61. monogram of assembler date of assembly batch details Nature de la charge marqu e au pochoir en jaune or sur l ogive Symbole de la tra euse Inscriptions au pochoir sur la face oppos e de l ogive num ro du lot apr s remplissage initiales ou monogramme du remplisseur date du remplissage Num ro de mod le Bande jaune or Eo peint en vert fonc la charge propulsive initiales ou monogramme du monteur date de montage d tails du lot Figure 13 6 3 Round 76 mm Armd C HE 7 C PPAG INE SX 136A PRAC 25 4 1 Shell stencilling in white nature of filling D pus w Stencilling on reverse of shell body filled lot number initials or monogram of filler date of filling Model number Body painted deep saxe blue Tracer symbol Body painted black Nature de la charge marqu e au pochoir en blanc sur l ogive Inscriptions au pochoir sur la face oppos e de l ogive num ro du lot apr s remplissage initiales ou monogramma du remplisseur date du remplissage Num ro de mod le Ogive peinte bleu Saxe fonc Symbole de traceuse Corps peint en noir Figure 13 6 4 Round 76 mm Armd C Practice Tomm ARMO SMK BE SX 4536 pure M SMK BE L32A5 p se Nature de Stencilling on reverse of shell body filled lot number initials or monogram of filler date of llin
62. of the breech mechanism and consist of a the firing plunger b the sear and e the striker mechanism assembly 8 The firing plunger is attached to the breech ring It relays a mechanical signal from the firing lever to the sear 9 The sear is mounted in the breech block and it releases the striker when the firing plunger is pushed 10 The striker mechanism assembly is contained in the breech block and is held there by an end cap The striker mechanism when released by the sear strikes the primer of the round BREECH CLOSING SPRING 11 The breech closing spring consists of a cased actuating shaft which has 17 torsion springs on the inside Both ends of the shaft are secured by end caps The right end cap is locked in place by the actuating shaft retaining plunger which causes the springs to twist when the actuating shaft is rotated Figure 2 5 1 Page 1 of 2 Breech Left Hand Side 1 ring 1 Anneau culasse 2 Recocking lever 2 Levier de r arm 3 Stud 3 Tenon 4 Crank lever 4 Bras du levier de manivelle 5 End plate 5 Plaque de blocage du tube 6 Circuit breaking cam 6 Came du rupteur 7 Barrel locking plate 7 Plaque de blocage du tube 8 Retainer plunger 8 Plongeur de retenue 9 Striker mechanism assembly 9 M canisme du percuteur 10 Cocking link cover plate 10 Plaque couvercle du coulisseau 11 Breech block 11 Bloc culasse 12 Closing stop 12 But e fermeture d
63. on SAA packages a b quantity of ammunition is indicated by numerals on all packages nomenclature and calibre is indicated on all packages in distinct letters and numerals NATO design mark will be indicated on all packages which contain ammunition manufactured to a design that satisfies a NATO Standardization Agreement the type of pack bulk charger clip belted or bandolier will be indicated by symbols on all packages see Figure 13 7 3 The model of charger or clip belt or link will also be indicated if applicable lot number manufacturer s initial or recognized identification letters the last two digits of the year of manufacture or packaging will be indicated on all packages in numerals and letters smaller than those used for the calibre the nature of the bullet contained in all packages will be indicated with the appropriate symbols see Figure 13 7 4 When the pack contains bullets of different types the symbols will show their arrangement For example the quantity of the first type is followed by its symbol the quantity of the second type is followed by its symbol the interchangeability symbol to denote the operational interchangeability of ammunition is placed on the outer package only NOTE Interchangeability as denoted by the NATO symbol of all items in a package ammunition links chargers etc is indicated by the symbol of interchangeability clover leaf enclosed by square add
64. on the end of the rectangular bar use the tool removing multi primer as a bar if extra leverage is required screw the head of the spindle handle tight into the base of the cartridge pass the hole of the rectangular bar over the spindle and fit the bar across the breech ring horizontally screw the handle on the spindle up against the bar to withdraw the cartridge and dismantle and restow the key removing jammed cartridge 4 Rectangular bar 1 Barre rectangulaire 2 Spindle 2 Tige 3 Handle threaded 3 Poign e filet a 4 Tool removing multi primer 4 pour enlever les amorces Figure 2 6 1 Key Removing Jammed Cartridge SECTION 7 STRIPPING AND ASSEMBLING THE GUN INTRODUCTION 1 Normal stripping of the gun is carried out on the following occasions a before and on completion of firing b if the gun has become wet for thorough cleaning and inspection c for an examination of the gun and d when required by the servicing schedule THE RULES OF STRIPPING AND ASSEMBLING 2 The rules of stripping and assembling are as follows a ensure that the gun is unloaded prove the gun b use the correct sequence e use the proper tools correctly d do not use force and place the parts so they will not become damaged or dirty EQUIPMENT REQUIRED Ox The following equipment is required for stripping and assembling a a screwdriver b a 1 2 x 7 16 inch AF Spanner e a spanner OS single ende
65. optical systems The field of view of the X10 system is 115 mils Both optical systems can have the field of view raised 700 mils or depressed 200 mils from the horizontal by means of the object mirror tilting control 0 700 mils in elevation E and 0 200 mils in depression D A pointer to the right of the control indicates the angle of tilt The control is situated on the left of the sight 7 The X1 Unity Viewing System The viewing window for the X1 system is immediately above the X10 sighting system The window is protected by spring loaded blackout shutter which can be held in the closed position by a clamp on the left hinge 8 Inside the sight is a laser filter which is moved by a control on the left side of the sight body The filter is in the vertical operative position when the control is in the DOWN position When the control is in the UP position the filter is moved to the horizontal position away from the line of sight 9 A two position mirror inside the sight determines whether the image path 15 reflected from the object mirror into the X1 system The position of the mirror is determined by the rearward of the two controls on the left side of the sight With the control in the UP X1 position the mirror reflects into the X1 unity window With the control in the DOWN X10 position the mirror is clear of the image path 1 Levier de serrage 2 Plunger assembly 2 Tirette d aligne
66. purpose machine gun GPMG 7 62 mm C5A1 coaxially mounted to the main armament c eight smoke grenade dischargers 4 mounted on each side of the turret and d personal weapons GUN CONTROLS 11 The Cougar has an electrically powered system and a manual system to lay the gun The weapon systems are fired either electrically or mechanically The power controls provide power traverse for the gunner and an override controller for the Commander 12 The manual controls provide manual traverse and elevation for the gunner The firing controls provide Muzzle cover 1 1 Couvre bouche 2 Barrel 2 Tube 3 Protective cover 3 Bache protectrice 4 Camouflage eyelets 4 Oeillets camouflage 5 Lifting eyes 5 Oeillets d ancrage 6 Stowage bin smoke grenades 6 Boite d entreposage des grenades 7 Periscope fumig nes B Antenna mount 7 piscope 8 Reel cable 8 Socle d antenne 10 Stowage bin 9 Cable 10 Boite d entreposage Figure 1 2 1 Turret Side View Right Hand Side 1 Camouflage net stowage bag 1 Sac de rangement du filet de camouflage 2 Ballistic cap for turret extractor fan 2 Capuchon profil de protection de l vacuateur de ventilation Figure 1 2 2 Turret Side View Left Hand Side 1 Crew commander s sight 1 Viseur du chef char 2 Gunners sight 2 Viseur du canonnier 3 Mantlet 3 Bouclier 4 Puli back eyelet 4 Oeuillet d ancrage pour recul manuel 5 7 62 mm C5 aperture
67. rotary half into which the sight is secured A clamp fitted into the slot in the traverse arc is provided for joining the two parts A scale and pointer allows the commander to read the amount by which the sight is traversed away from the centre zero position A spring loaded plunger fitting into a recess in a traverse arc determines the line up position and enables it to be selected Initial setting up of the correct line up position can be achieved by fine tuning the adjusting bolts on either side of the plunger assembly THE SIGHT WASHER SYSTEM 4 A spray system is provided for both the commander s and gunner s sights The system is supplied from a 1 7 litre plastic reservoir mounted on the right hand turret wall Hand operated plungers provide independent operation for both the commander and gunner They are situated in the turret roof forward of each sight The spray nozzles can be unscrewed for cleaning purposes THE SIGHT PERISCOPIC ARMOURED VEHICLE NO 71 5 The sight consists of the upper case which contains movable object mirror and the main case which houses the remainder of the optical systems together with the mechanical components for operating them three pin electrical connector 15 located on the left hand side of the front face of the sight sight wiper motor is mounted on top and in front of the sight The wiper blade is operated by the switch situated on the left hand wall of the turret 6 The sight has X1 and X10
68. screw control located on the left rear of the mounting THE TURNBUCKLE FIRE CONTROL ARMOURED FIGHTING VEHICLE NO 26 MARK 1 3 This is a sight link bar which connects the Sight Periscope AV No 54 Mark 1 to the gun mounting so that elevation or depression of the gun is transmitted to the sight On the rear end of the link bar is a cone shaped connector which fits into the sight connection lug this is operated by a lever Adjustment of the link bar will be carried out only by a weapons technician 4 When the link bar is disconnected the sight can be pushed forward and retained in the forward position by a spring catch This is situated to the right of the sight and is bolted to the turret roof THE SIGHT PERISCOPIC ARMOURED VEHICLE 54 MARK 1 5 The sight consists of a detachable sighting head and main case which houses the remainder of the optical systems and their mechanical operating components A four pin electrical connector is located on the front face of the sight The sight has 1 and X10 optical systems the field of view of the X10 system is 120 88 mils 6 The X1 Unity Viewing System The unity viewing window for the X1 system is immediately above the X10 eyepiece The window is protected by a black out shutter which is operated by a lever located above the window A circle positioned in the X1 unity window encloses half the field of view of the X10 optical system 7 The X10 Optical System The X10 eyepiece
69. shipping nomenclature DND ammo code Lot number GEG amp SDC 1 2 3 4 5 6 7 8 9 10 11 12 13 Num ro de stock Nombre de cartouches Calibre Agencement Genre de paquetage Poids brut et volume d exp dition Num ro de lot Symbole OTAN Code OTAN d interchangeabilit D signation CTC d exp dition GEG et SDC Num ro de lot Code MDN pour munition Figure 13 7 6 Method of Marking Outer Boxes Containing Small Arms Ammunition SECTION 8 CARE AND HANDLING OF AMMUNITION GENERAL 1 Rough handling of ammunition whether it is packaged or not impairs efficiency shortens storage life and is likely to cause accidents Any handling which tends to deform or damage the ammunition or package is prohibited In particular packages or unboxed rounds must not be dragged along the ground or rolled end over end they must be lifted from place to place 2 The following principles should be followed a do not unpack more ammunition than is necessary for immediate bombing b repack all unexpended ammunition in original containers prior to storing it and c do not store unserviceable ammunition at the storage site 3 Tank ammunition is built to very fine tolerances The round fits snugly into the chamber Dirt on the round could prevent chambering damage the gun or make a dent in the round Consequently if rounds get dirty they should be wiped clean before they are stowed in the
70. situation The order Carry on will be given by the commander after remedial action has been taken CLEAR GUNS 6 The order Clear guns will be given by the commander when firing is no longer anticipated If the smoke grenade dischargers require unloading the commander will not attempt to clear them until all other weapons have been cleared On the Clear guns order the following actions are carried out a the commander will 1 unload the main armament and ease the springs 2 unload the coaxial machine gun and ease the springs 3 switch off all unnecessary lights and switches 4 tell the driver when it is safe to open up the hatch and 5 jettison all empty cases and empty coaxial ammunition boxes b the gunner will 1 set the gun selector switch to the OFF position 2 engage the locking bar under the 76 mm foot firing pedal 3 set the coaxial electrical foot firing pedal to the UP position 4 switch off all unnecessary lights and switches 5 assist the commander with the removal of empty cases etc and 6 if the gun is fitted with Radnis the gunner ensures the proper closing down procedure is carried out JAMMED CARTRIDGE 7 Jammed cartridges are usually the result of badly stowed damaged ammunition or dirty chamber If a cartridge 15 jammed and cannot be removed by the leverage of the breech mechanism lever it will be removed with the key removing jammed cartridge 8 The commander will rep
71. size As chamber pressures in high velocity weapons may be high the extraction of a cylindrical case after firing would be difficult Therefore cases are generally tapered 5 rimless base provides extractor groove Positioning 18 done by the shoulder of the case 6 Primer The 7 62 mm cartridges have a centre fire primer cap chamber is formed in the base of the case and 15 connected to the interior by one or more flash holes The cap composition is contained in a cup fitted into the primer pocket The anvil is an integral part of the primer Caps are flush with the base of the case The space between the walls of the primer cap the annulus and the case is usually sealed with lacquer In the UK pattern ammunition this lacquer is coloured and serves as a method of identifying the type of round 7 Propellants Two types of propellant used chopped tubular cordite or nitro cellulose Nitro cellulose powders erode less than cordite the first indication that the limit of the barrel s life is being reached is a sudden breakdown in range and accuracy Cordite effects are gradual 8 Bullets Small arms bullets with the exception of special types ie tracer and incendiary may be considered as solid projectiles which consist of a jacket or envelope core and tip These components are a jackets which consist of cupro nickel 80 per cent copper and 20 per cent nickel gilding metal 85 per cent to 90 per cent copper an
72. spring prevents the striker from moving forward during flight The tendency of the striker to do this is due to the deceleration of the shell after it leaves the gun 12 Action of the Fuse L19A5 Firing causes friction to set back and retain the shutter the striker locking segments and the striker in the unarmed position 15 During flight centrifugal forces created by the spin of the shell cause the striker locking segments to move outward against their springs leaving a clear passage for the striker to move forward When the spin reaches a predetermined number of revolutions per minute the safety plunger overcomes its spring and withdraws from the locking plate The shutter now free to move rotates under control of the escapement mechanism for the first 60 degrees of its travel after which the segment disengages from the escape pinion and the shutter swings to the fully armed position It is locked in this position by the locking plate which has moved out to engage with a recess in the shutter body The shutter detonator is now in alignment with the striker needle and the diaphragm over the stemmed CE channel 14 On impact or graze the momentum of the striker compresses the creep spring and carries the striker needle forward to fire the detonator The resulting detonating wave penetrates the diaphragm ignites the stemmed CE in the channel and the CE pellet in the magazine HIGH EXPLOSIVE L24 15 Shell High Explosive HE ammunition i
73. test and g barrel jacket front barrel bearing and plug and sights BUFFER DISC ASSEMBLY 3 Check the adjustment of the buffer disc assembly as follows a b fully tighten the adjusting screw ensure that part of the last thread on the adjusting screw is still visible working from the right side of the gun use a screwdriver to screw the barrel all the way into the barrel extension insert the Headspace Gauge 0 127 inch into the T slot working from the left side of the gun screw the barrel out one notch Release the bolt and check to see if the recoiling parts close clamping the gauge between the rear face of the barrel and cartridge seat on the face of the bolt If not repeat the process until it does once the recoiling parts close which clamps the gauge between the face of the barrel and the cartridge seat on the face of the breech block headspacing is correct and g fire the action If action does not fire change the trigger bar 8 Causes of Improper Functioning The causes of improper GPMG functioning as they relate to headspacing are as fellows a Tight Headspace This occurs when the breech lock is unable to enter completely into its recess in the bolt This may cause damage to the barrel extension bolt or breech lock A symptom of tight headspacing is the hesitant or sluggish operation of the gun or b Loose Headspace This occurs when the breech lock enters too freely into its rece
74. test the electrical circuit if time is available ensure that hull and turret master switches are off d insert the grenade from the top of the turret from the outside to the inside push the grenade until it engages in the first female clip push the grenade fully home until it engages with the second female clip and give a half turn to ensure positive contact replace the rubber cups and f ensure that there are no personnel in the danger area then turn the master switches on CAUTION 1 Do not expose any part of the body in front of dischargers during loading or unloading or when the master switch is turned on 2 Grenades will not be loaded or unloaded from the discharger if a radio antenna is in the transmit mode two metres or less from the dischargers FIRING 2 To fire press either one or both firing buttons UNLOADING 3 To unload the grenades use the following procedure a ensure the turret and hull master switches are off b remove the rubber cups from the barrels e remove the grenades from the top of the turret from the inside toward the outside and stow them and d replace the rubber cups MISFIRE DRILL 4 The drill for misfired grenades is as follows a wait 30 minutes b unload replace in containers and d transport to disposal area and dispose as per range standing orders NOTE This applies to all three grenades the L5 L7 and L8 SECTION 4 SERVICING CIRCUIT TEST 1 The fol
75. the appropriate drills have been carried out STOPPAGE DRILLS 6 Figure 11 7 1 sets out the drills to be followed The drill in each serial follows a numerical sequence peo eunjie j Bunny e1ejduic je2u329je U21IAS 10128195 yas 284J02U suodes pue pes 10 SH98U9 8209 E sinq pejo43uoo OW oui Buisn seu E Aq UONIV amou suodai sAejoy y 98eddois uodey cz yoda eje1 cz Buu 100 asy pue Buni NIYIN 199 9S v Youms 10198Jes 2euo pue 5 e 01 195 YIUMS 10129199 E pue mou 1 XBOD 399185 uouMs 01 385 10126195 pue 10129j8 e8eddois uodeu Z uoneoipur Jeuung Aq 18664 OW ey Buisn ueuM op Sieg is UPD tL pesseid si jeped 1004 DIN or se ung sang jeniur pesseJd si youms ayy ueym 8414 0 anq leiu passasd si youms 34 Sje UND uoneoipu Figure 11 7 1 Sheet 1 of 3 Setting Up Stoppages JO punos Ul 10 punou
76. the buffer THE HYDRO PNEUMATIC RECUPERATOR 15 Components The hydro pneumatic recuperator is comprised of an oil filled cylinder mounted parallel and interconnected to an oil and nitrogen filled cylinder in a mounting block A floating piston separates the nitrogen and oil in the hydro pneumatic cylinder see Figure 3 2 5 LLLLLLLL d LN RM KI AU Tell tale rod d 1 Tige indicatrice 2 Filler plug 2 Bouchon de l orifice de complissage 3 Cylinder 3 Oylindre 4 Front end cap 4 Capuchon d extr mit avant 5 Piston 5 Piston 6 Body 6 Corps 7 Piston return springs 7 Ressorts de rappel du piston Figure 3 2 4 Replenisher 16 The mounting block forms an extension of the cylinders internal lateral oil gallery joins the cylinders at the rear Interconnected air channels in the left hand end of the block are threaded to receive the Schraeder air valve pipe union and nitrogen pressure gauge union The nitrogen pressure gauge is mounted on the left side of the turret and is connected to the recuperator by a flexible pipe 17 Therecuperator cylinder is externally threaded at both ends The rear is secured in the mounting block and the front is sealed by an end cap Four breather holes are drilled through the cap and a filter is positioned inside the cap over the holes The front end of the cap passes through the mantlet and is retained by a threaded collar tab
77. the safety plunger to withdraw from the locking plate allowing the shutter to rotate under the control of the escapement mechanism Escapement mechanism The shutter is locked in position by the shutter locking plate which under centrifugal force engages in a slot in the Shutter body Segments fully open striker in the armed position Shutter in the fully armed position Shutter body 23 Percuteur 25 26 27 28 29 30 31 32 Capouchon Couvercle Percuteur Ressort de rappel Segments sur ressorts comprim s Corps l impact le percuteur frappe la tige de inte turi es Ion 8 amp D NO UP GR Plaque de retenue Obturateur d tonateur Segments Porte segments L obturateur est retenu dans la position Grains CE Manchon Tige CE Obturateur Porte segments Disque de fermeture Anneau de verrouillage Plongeur de s ret M chanisme d chappement Rondelle CE met les grains de CE feu et provoque la d tonation de la charge explosive non arm par le plongeur de s ret ressort comprim Plongeur de s ret Segments et percuteur retenus en position non arm La force centrifuge carte les segments La force centrifuge extrait le plongeur de s ret de la plaque de retenue et le m chanisme d chappement fait tourner l obturateur M chamisme d chappement L obturateur est cal par sa plaque de retenue qui sous l effet de la force
78. the shutter and in the platform and from there to the CE pellet in the magazine D 2 O NO 1 B GO N Gtazed board discs Sealing composition Felt disc Exploder Driving band Base plate Tracer Fuse TNT topping Paper tube Shell filling ROX TNT Bituminous coating gt 2 Disques en carton maill Composition d tanch it Disque en feutre Charge explosive RDX BWX Anneau guide Plaque de fond Tra ante Fus e Charge de TNT Tube en papier Explosif RDX TNT Enduit bitumineux Figure 13 1 4 Shell 76 mm Armd C HE SMOKE BASE EJECTION L32 21 Shell Smoke Base Ejection BE is a carrier shell consisting of a body base plate three smoke containers a burster and a time fuse No 390 A copper driving band is pressed into a groove around the body about 15 cm from the base The No 390 time fuse is pre set by the commander to the desired range When the gun is fired the detonator is ignited after an interval of time which is determined by the fuse setting the flame reaches and fires the powder pellets in the fuse body The burster charge is initiated by the fuse and ignites the smoke composition in the containers At the same time the force of the explosion ejects the base plate and the containers from the shell The ignited containers fall to the ground to make the smoke screen while the body continues on its trajectory For recog
79. the springs MONTHLY CLEANING 9 Monthly cleaning shall be done once month 10 Step 1 Dry cleaning Dry cleaning gun components is done as follows a strip dry clean and inspect the breech block and the breech ring and b dry clean the barrel in the same manner as for routine cleaning 11 Step 2 Re oiling The re oiling is done as follows a re oil the barrel in the same manner as for routine cleaning b re oil the breech ring assemble and re oil the breech block d carry out the Striker Protrusion Test replace the breech block and f carry out the Breech Closing Spring Test CLEANING BEFORE FIRING 12 Strip the 76 mm gun Clean inspect and lubricate but leave the following parts dry a bore and chamber b face of the breech block and c firing pin 13 To reassemble use the following procedures a gauge the striker protrusion b assemble the gun c test the breech closing spring and d ensure the depression limit stops are in place CLEANING DURING FIRING 14 Every opportunity should be taken to clean examine and lubricate the gun during lulls in firing Dusty conditions will demand extra care Special attention should be given to the SMA and chamber which are gas affected The crank stop retaining screw must be checked for security at the beginning of each day s firing CLEANING AFTER FIRING 15 When doing range work if there is to be no more firing within the next 72 hours the bore should
80. the striker to the rear and withdraws the firing pin into the breech block 4 Action of the Continued rotation of the BML moves the crank rollers onto the lower surface of the crank path in the breech block forcing the breech block downward During this movement the crank forces the cocking link to the rear compressing the striker spring When the bent on the front of the striker lug 1s to rear of the step in the seat the sear spring drives the sear to the right If the sear spring fails the striker is moved far enough to the rear to bring the inclined face on the striker lug and the gear into engagement the sear is then mechanically forced to move in front of the bent 5 Breech Closing Spring While opening the breech tension is applied to the breech closing spring The spring is locked on the right hand side of the breech ring by the end cap and retaining plunger As the actuating shaft rotates the springs are twisted and tensioned 6 Action of the Extractors As the breech block moves down the shoulders on the breech block strike the short arm of the extractors This causes the upper arms to move to the rear This allows the extractor plunger springs to reassert and hold the extractors to the rear T Open Position of the Breech Block The downward movement of the breech block is finally limited by the crank contacting the crank stop on the breech ring The operating lever on the BML can now be released and the BML retur
81. weather and tactical considerations permit to allow the free circulation of air Armoured Vehicles General Purpose AVGPS should be exposed to sunlight as often as possible and the interior compartments dried out daily When not in use gun barrels should be kept fully depressed lubricating oils should be carefully strained to remove water before use Oil containers should be kept tightly sealed and stored on their sides At frequent intervals the gun will be stripped completely dry cleaned inspected thoroughly for rust and re oiled before assembly AII parts of the mounting will be frequently dry cleaned and re oiled TESTS 23 Equipment Required To conduct tests the following equipment is required a tools for stripping b the gauge contact protrusion No 16 and 76 mm round drill or live see note to paragraph 25 TO GAUGE THE STRIKER PROTRUSION 24 To gauge the striker protrusion see Figure 2 9 1 use the following procedure a with the breech block removed from the gun place the striker into the recess for the striker mechanism assembly press in on the sear to disengage the sear step from the striker lug b push the striker sleeve fully forward and maintain pressure throughout the test e position the No 16 gauge on the front face of the breech block and at right angles to it Slide the gauge over the firing pin The minimum part of the gauge should foul the pin and the maximum part should clear it d
82. which is used to clear any obstructions in the chute Figure 11 8 2 Cartridge Trap NOTE If the solenoid does not energize after checking the electrical leads and fuse F8 report to a technician E To dismount the MG use the following procedure a unscrew and remove the front mounting pin b remove the rear mounting pin c withdraw the machine gun from the mounting and d replace the front mounting pin CAUTION If the machine gun has been firing use asbestos mitts when removing it otherwise severe burns will result TRIPOD MOUNT M2 8 The M2 mount is used with the gun in its ground mounted role The tripod head serves as a front support for the gun the traversing bar serves as the rear support The mount cannot be adjusted for height 9 In the tripod head is a bushing which holds the pintle in position by means of the gun pintle latch 10 The traversing bar supports the traversing and elevating mechanism when the gun is mounted It is divided into 100 mil divisions sub divided in 5 mil divisions from 450 mils left to 425 mils right for a total of 875 mils traverse Pintle bushing Tripod head Sleeve Position head Rear leg Position stop Graduated scale Traversing bar Front leg Gun pintle latch lever Traversing bar sleeve latch JONNA WN 12 Position stop E Douille du pivot T te de l aff t tr pied Manchon T te de positionnement Patt
83. 2 2 Wooden Wire Wrapped Crate os e dek H 14 0346 0 NI 101 m 35 1 zL AN neZ 14 noce 81 SGLM 101 f Z XW 08 ON SNOLUVI M ZU OG ON We t 9 aca XNV18 4 gt DIN NG pus H NW 6 e 1 ZL0E 53904 0882 608 12 5081 son Ka ik P Figure 13 2 3 Cartons for 9 mm Ammunition 10 5107 eDejquiesse p ou 1e ameu ajoquiAs 91qE9 Seuonoueo ep 8 QUON nod NOW NV LO 0 GONG Jequunu 107 S10 yoed jo pue joquAs Anjuenb jueureBueuy aged jo Anuenp epoo yew O1VN ONG Figure 13 2 4 Metal Container for 9 mm Ammunition SECTION 3 GRENADES TYPES OF GRENADES 1 The following smoke grenades may be issued a grenade discharger smoke screening 15 b grenade discharger smoke screening coloured L7 and grenade discharger smoke screening white phosphorous L8 GRENADE DISCHARGER SMOKE SCREENING 15 2 The L5 Grenade This grenade is fired from an electrically operated discharger and provides white smoke which persists for approximately 90 seconds The grenades are fired in groups of four and p
84. 27 JOpeBJuos zU uojsid 4 0 deo pug 1 pol aigt Iel uoisig uiqqog Buynis WO POs uoisig deo pu3 OA OD n 2 v II 7 18 Xu LD o Figure 3 2 5 Recuperator and Hydro Pneumatic Cylinders 225 The tell tale rod extends through the cylinder extension A housing is machined in the cylinder extension for the tell tale rod bearing the chevron packings and the front end of the tell tale rod cover 23 The tell tale rod cover is bolted to the rear of the hydropneumatic cylinder NORMAL N and CEASE FIRE CF lines are engraved on the edge of a slot machined in the side of the cover An engraved line on the tell tale rod is visible through the slot This line s position in relation to the NORMAL and CEASE FIRE marks indicate the recuperator oil quantity 24 The bracket is welded to the cylinder exterior forward of the oil filling hole A hole in the bracket accepts a resilient mounting bush which secures the cylinder to the cradle 25 Oil filling and drain holes are provided in the top arid lower sides of the cylinder These holes are sealed by threaded plugs fitted with seals 26 Operation As the gun recoils the recuperator cylinder piston rod which is connected to the yoke is withdrawn from the cylinder The pi
85. 5 Ouverture pour la mitrailleuse C5 de 7 62 mm 6 Counter Weight 6 Contrepoids 7 Multi barrel smoke 7 Lance grenade fumig nes LGF grenade dischargers MBSGD multitubes Figure 1 2 3 Turret Front View wee ENR Zeg 2n 3 FILTER Figure 1 2 4 Turret Floor an electrical firing circuit for main gun and coaxial machine gun b an emergency mechanical firing circuit for the main gun c a secondary electromechanical firing circuit for the coaxial MG and d an independent firing control for the multi barrel smoke grenade dischargers 13 The armament may be fired using direct semi indirect indirect or fixed line procedures CREW POSITIONS AND OBSERVATION EQUIPMENT 14 Commander The commander s position is to the left rear of the turret It is provided with an adjustable seat and foot rest Convenient to the right hand and attached to the No 71 Commander s sight is the power traverse override controller The coaxial MG is mounted in the cradle convenient to the right hand All around observation is provided by seven periscopes mounted in the turret roof 15 Gunner The gunner is positioned on an adjustable seat on the right hand side of the armament The fire control systems and gun control equipment are conveniently positioned to the front and near the gunner s right hand There are two observation periscopes mounted in the turret roof 16 Driver The driver is the only member of the crew not
86. ARMOURED VEHICLE NO 48 AND NO 43 BINOCULARS DESCRIPTION SECTION 5 THE LASER RANGE FINDER GVS 5 THE LASER RANGE FINDER GVS 5 PARTICULARS AND PERFORMANCE DESCRIPTION AND COMPONENTS PREPARATION FOR USE OPERATION SECTION 6 SERVICING EXTRACTOR FAN SPOTLIGHT NO 1 MARK 2 HATCHES AND SEATS PERISCOPES LASER RANGE FINDER GVS 5 CHAPTER 13 AMMUNITION SECTION 1 76 MM AMMUNITION INTRODUCTION TYPES OF AMMUNITION COMPONENTS OF 76 MM AMMUNITION BASE CLIP NO 48 MARK 1 HIGH EXPLOSIVE SQUASH HEAD L29 HIGH EXPLOSIVE L24 SMOKE BASE EJECTION L32 CANISTER SHOT L33 PRACTICE SQUASH HEAD 140 SHELL PRACTICE L25 TRACER SHELL L5A2 BLANK CARTRIDGE 76 MM AMMUNITION PACKING SECTION 2 SMALL ARMS AMMUNITION GENERAL TERMINOLOGY 7 62 MM AMMUMITION 9 MM AMMUNITION PACKAGING OF SMALL ARMS AMMUNITION SECTION 3 GRENADES TYPES OF GRENADES GRENADE DISCHARGER SMOKE SCREENING L5 GRENADE DISCHARGER SMOKE SCREENING L7 GRENADE DISCHARGER SMOKE SCREENING L8 SECTION 4 FLARES MINI FLARES DESCRIPTION PROJECTILE DATA PACKAGE DATA INSPECTING THE CARTRIDGE TO OPERATE THE PROJECTOR ILLUMINATION FLARE FLARE PARACHUTE HAND FIRED C3 SECTION 5 PERSONAL ANTI ARMOUR WEAPON PERSONAL ANTI ARMOUR WEAPON 72 1 and M72 1 1 SECTION 6 BATCHING DEFINITION CARTRIDGE LETTER BATCH NUMBER SUB BATCH LETTER SECTION 7 AMMUNITION MARKING GENERAL MARKING OF AMMUNTION PACKAGING MARKING OF AMMUNIT
87. B GL 305 007 MS 002 ARMOUR VOLUME 7 USER MANUAL COUGAR PART TWO ARMAMENT BILINGUAL WARNING ALTHOUGH NOT CLASSIFIED THIS PUBLICATION OR ANY PART OF IT MAY BE EXEMPTED FROM DISCLOSURE TO THE PUBLIC UNDER THE ACCESS TO INFORMATION ACT ALL ELEMENTS OF INFORMATION CONTAINED HEREIN MUST BE CLOSELY SCRUTINIZED TO ASCERTAIN WHETHER OR NOT THE PUBLICATION OR ANY PART OF IT MAY BE RELEASED Issued on Authority of the Chief of the Defence Staff OPI LFCHQ G3 ARMOUR 1989 06 30 Ch 2 1994 12 09 LIST OF EFFECTIVE PAGES Insert latest changed pages dispose of superseded pages in accordance with applicable orders NOTE The portion of the text affected by the latest change 1s indicated by a black vertical line in the margin of the page Changes to illustrations are indicated by miniature pointing hands or black vertical lines Dates of issue for original and changed pages are Original Dane 1989 06 30 Chess Russes 1992 10 19 Ch 2 1994 12 09 Zero in Change No Column indicates an original page Total number of pages in this publication is 530 consisting of the following Page No Change No Page No Change No TUE EE TS 2 ee EE ee 0 E 2 22 ean 0 EE 1 EE 0 ER oes ta ce 0 ded DAL patata un 0 X MEN 2 TM 0 gt TE 1 2 6 1 to 2 6 6 0 gt GE E 2 STO 257 10 preg 0 xvii to XXIVA xxiVB 1 2 8 1 2 8 6
88. Barrel Extension Exploded View Feedway Mechanism Feedway Mechanism Exploded View Figure 11 5 7 Figure 11 5 8 Figure 11 5 9 Figure 11 6 1 Figure 11 6 2 Figure 11 7 1 Figure 11 7 2 Figure 11 7 3 Figure 11 8 1 Figure 11 8 2 Figure 11 8 3 Figure 11 8 4 Figure 11 9 1 Figure 11 9 2 Figure 11 9 3 Figure 11 9 4 Figure 11 9 5 Figure 11 9 6 Figure 11 9 7 Figure 11 9 8 Figure 11 9 9 Figure 11 9 10 Figure 11 9 11 Figure 11 9 12 Figure 11 9 13 Figure 11 9 14 Figure 11 9 15 Figure 11 10 1 Figure 11 11 1 Figure 12 1 1 Figure 12 2 1 Figure 12 4 1 Figure 12 4 2 Figure 12 5 1 Figure 12 5 2 Figure 12 5 3 Figure 12 6 1 Figure 13 1 1 Figure 13 1 2 Figure 13 1 3 Figure 13 1 3 Figure 13 1 4 Figure 13 1 5 Figure 13 1 5 Figure 13 1 6 Figure 13 1 7 Cover Group Cover Group Exploded View Blank Firing Attachment Headspacing and Timing Gauge Feed Slide Test The Coaxial Machine Gun Cradle Top of Link Exit Chute Setting Up Stoppages Spent Casing Bag Cartridge Trap Tripod Mount M2 Traversing and Elevating Mechanism Recoiling Parts in Forward Position Trigger Action in Cocked Position Trigger Action Fire Position Unlocking First Phase Unlocking Second Phase Unlocking Third Phase Extraction Ejection Loading First Phase Loading Second Phase Feeding First Phase Feeding Second Phase Cocking Action Locking Automatic Firing Universal Tool Parts to Check Before During and After Firing
89. Block 1 Record the Cougar CFR date of zeroing and the crew commander s name and gunner s name Block 2 Record the weather conditions and wind direction and speed Block 3 Record examination of ordnance date and EFC counts Block 4 Record the ammunition batch number Block 5 Record the azimuth and elevation boresight readings from the graticule adjusters Block 6 Record the location of each shot of the zeroing practice Block 7 Record the exact location in centimetres of each zeroing round from the centre of the zeroing screen in both azimuth and elevation and compute as follows 1 Column Total Total azimuth left right columns and elevation plus minus columns 2 Difference Subtract the azimuth left column total from the right column total and record the difference in the appropriate column Subtract the elevation plus column total from the minus column total and record the difference in the appropriate column 3 MPI CM Divide the azimuth and elevation column by 3 to determine the MPI cm for azimuth and elevation Round off both results to the nearest centimetre 4 MPI Mils Convert the MPI cm to mils for azimuth acrid elevation Round off to the nearest tenth of a mil to convert move the decimal two places left Block 8 Record initial settings and MPI in mils add them up and record the physical readings from the graticule adjusters setting Block 9 Record the standard values for azimuth and elev
90. CONTROLS AND MOUNTING Electrical connections Traverse gear Traverse indicator Elevation gear Check for security and damage Clean inspect check security Test operation over full movement Clean inspect check security and operation Carry out test Clean inspect including gaitor check security Test operation over full movement Elements to checked Actions to be taken Lubricant Cradle Recoil system Quadrant fire control Clean inspect check security Lubricate where necessary Deflector guard Recoil indicator Check setting Clean inspect and check security check recuperator nitrogen pressure 200 PSI Top up buffer Check position of recuperator tell tale rod Check system for leaks Clean inspect check security Zero and test the operation over full movement O PERISCOPES AND SIGHTS Washers Wipers Gunner s sunvisor Sights No 71 No 54 Radnis and mountings Sight adjustment Check reservoir clean nozzles test operation Clean inspect check security Test operation of the black out shutters Test operation Clean inspect lubricate check security Test operation of heaters filters graticule illumination graticule adjusters face mask and focus Test for parallax Carry out complete boresighting procedure including adjustment of commanders sight AMMUNITION STOWAGE Ammunition stowage Clean and insp
91. DE REP RE INITIAL g POUR CIBLE MOBILE SC EE SS ret G 3 10 5 fa 10 ME e SE M 11 12 gt 12 POINT VIS E 1250m 13 2 4 13 was POINT VISEE ee 14 D OBUS A MITRAILLE Weil re A 15 16 tote ov 16 rech v m D M 18 _ 18 l 19 i 19 20 20 E 1 d 21 22 13 22 d POINT DE REP RE D AJUSTEMENT POUR TECHNICIEN Figure 6 1 4 Graticule Pattern Explained 17 Day Optics The sight has both X1 and 10 optical systems for day observation The field of view of the X10 system 15 113 mils Both optical systems can have the field of view raised 700 mils or depressed 200 mils from the horizontal position by using the optical mirror tilting control 18 Unity Viewing System The viewing window for the system is immediately above the X10 eyepiece 19 A two position flip mirror inside the sight determines whether the image path is reflected from the object mirror into the X1 system The position of the mirror is determined by the control lever mounted on the left side of the sight main case With the lever in the horizontal UP position the mirror reflects into the X1 unity window With the lever in the DOWN position the mirror is clear of the image path 20 A circle positioned in the X1 unity window encloses half the field of view of the X10 optical system 21 X10 Optical System The X10 eyepiece is positioned below
92. Driving Spring The protruding end of the driving spring rod is placed on a soft firm surface such as a block of wood The bolt is held upright with the palm of the right hand over the face of the bolt The bolt is pressed down and at the same time it is pivoted one quarter turn counter clockwise this releases the driving spring rod from its recess in the bolt The bolt is allowed to rise approximately 7 5 cm The protruding end of the driving spring and rod is grasped with the free hand The bolt is then quickly taken straight away from the rod and spring so the driving spring does not buckle Locking frame plunger recess a Logement du plongeur de l abri de culasse b Trigger access pin b Goupille d acc s la d tente Lock frame Abri de culasse Figure 11 4 1 Removing Lock Frame and Barrel from Receiver Barrel a Canon a b Bolt b Culasse c Extractor c Extracteur d Lock frame d Abri de culasse e Barrel extension e Raccord de canon f Backplate f Plaque arri re Figure 11 4 2 Stripped Components NONVO NONVO 39VT1NOHH3A 1HOSS3H Ki NONVO Figure 11 4 3 Barrel Extension eBepin6 PIU9J9P e seooe p ejdnoc UOUE np p1029eH essejno do UT Bn aping 1666111 uoisuajxe 9 awed 4907 Figure 11 4 4 Barrel Extension and Lock Frame CAUTION If for
93. Dry Cleaning To dry clean use the following procedures a insert the staves into the muzzle and push through to the breech ring Place one thickness of clean cloth around the brush connect it to the staves and draw it through the bore Inspect the cloth for signs of rusting and moisture if these signs are apparent scour barrel b inspect the bore and repeat sub para 7a above if necessary with a clean cloth wrapped on the brush attached to the stave for the chamber wipe the walls of the chamber Inspect the chamber and bore to ensure that all oil moisture and dirt have been removed and NOTE To inspect the front end of the chamber properly an inspection lamp should be inserted into the chamber d dry clean and inspect all the working parts including the breech block and the breech ring 8 Step 2 Re oiling To re oil the gun use the following procedure a re oil the bore and chamber as follows 1 insert the staves into the muzzle end push through to the breech ring then attach the oil brush to the staves 2 saturate the bore with oil 3 draw the staves and brush through the bore to the muzzle and 4 wipe the walls of the chamber with a well oiled cloth b inspect to see that a complete film of oil covers the bore and chamber If it does not re oil e re oil the breech block and breech ring d re oil all parts of the breech block with a thin film of oil and assemble the gun close the breech and ease
94. ERAL 1 The Cougar is equipped with gun laying instruments so the gun may be fired on fixed lines semi indirect or indirect These instruments are a the traverse indicator and b the quadrant fire control SECTION 2 TRAVERSE INDICATOR FUNCTION 1 The traverse indicator is mounted on top of the traverse gear box It indicates any movement of the turret in azimuth permits the gunner to apply line corrections as ordered by the commander and allows the gunner to measure and apply angles in line from a given point DESCRIPTION 2 The instrument which is mechanically driven is flexibly mounted with a bracket on top of the traverse gearbox The dial is marked with outer and inner scales which are used in conjunction with the long and short pointers 3 A combined light switch and dimmer control is positioned on top of the instrument This controls scale illumination through four bulbs one in each corner of the instrument The bulbs are accessible through screwed adaptors 4 Two pointer zeroing knobs are provided below the dial 5 The outer scale is marked in single mils and numbered every 10 mils from 0 100 in red for left rotation and green for right rotation The scale is used in conjunction with the long pointer which is zeroed with the right hand knob 6 The inner scale is marked in hundreds of mils from 0 3200 and is numbered every 1000 mils from 1000 to 3000 for left and right rotation The scale is used in conjunction with the shor
95. Extractor Fan Spotlight No 1 Mark 2 Graticule Pattern binoculars 7 x 50 ELCAN Periscope Armoured Vehicle No 48 and no 43 Laser Range Finder GVS 5 Exterior Control Laser Range Graticule Pattern Target Acquisition Laser Range Finder Remedy Chart Primer Percussion Quick Fire Cartridges No 15 Mark 5 Shell 76 mm Armd C HESH 1 of 2 Fuse Percussion Base Medium L19A5 2 of 2 Fuse Percussion Base Medium L19A5 Shell 76 mm Armd C HE 1 of 2 Fuse Nose Percussion Direct Action L17A6 2 of 2 Fuse Nose Percussion Direct Action L17A6 Shell 76 mm Armd C Smoke Be 1 of 2 Fuse Nose Time No 390 Figure 13 1 7 Figure 13 1 8 Figure 13 1 9 Figure 13 1 10 Figure 13 1 11 Figure 13 1 12 Figure 13 2 1 Figure 13 2 2 Figure 13 2 3 Figure 13 2 4 Figure 13 3 1 Figure 13 3 2 Figure 13 3 3 Figure 13 3 4 Figure 13 4 1 Figure 13 4 2 Figure 13 4 3 Figure 13 4 4 Figure 13 4 4 Figure 13 5 1 Figure 13 5 1 Figure 13 5 2 Figure 13 6 1 Figure 13 6 2 Figure 13 6 3 Figure 13 6 4 Figure 13 6 5 Figure 13 6 6 Figure 13 6 7 Figure 13 7 1 Figure 13 7 2 Figure 13 7 3 Figure 13 7 4 Figure 13 7 5 Figure 13 7 6 Figure 14 2 1 Figure 14 2 2 Figure 14 3 1 Figure 14 3 1 Figure 14 3 1 Figure 15 3 1 Figure 15 3 1 2 of 2 Fuse Nose Time No 390 Canister Shot 76 mm Armd C Shell Practice Squash Head 140 Shell Practice High Explosive L25 Tracer Shell 15A2 Black Cartridge Cardboard Container 7 62 mm Ammuni
96. Figure 9 1 3 76 mm Boresighting Screen NOTES lines are 2 cm thick The centre circle inside diameter is 16 cm The centre circle outside diameter is 25 cm Each grid square is 25 cm Total dimensions are 210 cm x 210 cm for each screen SECTION 2 BORESIGHTING GENERAL 1 It is important that the sighting equipment is aligned with the axis of the main armament bore If this alignment does not exist the sights may possibly be laid on to a target while the main armament is pointing elsewhere DEFINITION OF BORESIGHTING 2 The definition of boresighting 15 to establish the correct relationship between gun and the sight by aligning the axis of the bore and the aiming mark of the sight at a range appropriate to the equipment PREPARATION BEFORE BORESIGHTING 3 To prepare the system for boresighting use the following procedure a complete all servicing tests of the sighting equipment b place the vehicle on firm level ground if possible e prove all guns and leave the main armament breech open d traverse the gun to 3 o clock or 9 o clock e ensure that the vehicle engine is switched OFF leave master switches ON f position the boresighting screen 600 metres from the AFV under service conditions a suitable target should be selected at a range of 600 metres g ensure the laser filter is either all the way in or out on the AV 54 gunner s sight and h insert the boresight No 3 into the muzzle of the 76 mm gun with the eyep
97. G THE BLANK FIRING ATTACHMENT SECTION 6 PREPARATION FOR FIRING SEVEN POINT CHECK GENERAL BUFFER DISC ASSEMBLY HEADSPACING TIMING FIRING PIN PROTRUSION FEED MECHANISM FEED SLIDE TEST BARREL JACKET FRONT BARREL BEARING AND PLUG AND SIGHTS SECTION 7 7 62 MM STOPPAGE DRILLS 7 62 MM STOPPAGE DRILLS 5 STOPPAGE DRILLS SETTING UP STOPPAGES FOR INSTRUCTORS SECTION 8 THE 7 62 MM MACHINE GUN MOUNTS GENERAL THE COAXIAL MACHINE GUN CRADLE MOUNTING ADJUSTING AND DISMOUNTING THE MACHINE GUN TRIPOD MOUNT M2 TRAVERSING AND ELEVATING MECHANISM LAYING THE GUN TRIPOD MOUNTED AIMING TRIPOD MOUNTED AIMING OFF FOR WIND TRIPOD MOUNTED FIRING THE GUN TRIPOD MOUNTED SECTION 9 MECHANISM GENERAL TRIGGER ACTION UNLOCKING EXTRACTION AND EJECTION LOADING FEEDING COCKING LOCKING AUTOMATIC FIRING SECTION 10 MACHINE GUN SERVICING INTRODUCTION LUBRICANTS AND THEIR USES PREPARATION FOR SERVICING CLEANING AND RE OILING THE BORE NORMAL CLEANING CLEANING BEFORE FIRING CLEANING AFTER FIRING SERVICING THE MACHINE GUN CRADLE SPECIAL CONDITIONS SPARE PARTS AND TOOLS SECTION 11 INSPECTION AND SERVICING GUIDES INSPECTION GUIDE CHAPTER 12 ANCILLARY SYSTEMS AND COMPONENTS SECTION 1 EXTRACTOR FAN DESCRIPTION OPERATION SECTION 2 SPOTLIGHT NO 1 MARK 2 DESCRIPTION SECTION 3 HATCHES AND SEATS OPERATION OF HATCHES OPERATION OF SEATS SECTION 4 OBSERVATION EQUIPMENT PERISCOPES
98. ION SMALL ARMS AMMUNITION SECTION 8 CARE AND HANDLING OF AMMUNITION GENERAL RULES FOR HANDLING MAIN ARMAMENT AMMUNITION SMALL ARMS AMMUNITION GRENADES AMMUNITION MALFUNCTIONS AND DEFECTS SECTION 9 AMMUNITION STOWAGE GENERAL STOWAGE POSITIONS CHAPTER 14 GUN DRILLS SECTION 1 INTRODUCTION GENERAL SECTION 2 NORMAL DRILLS ACTION DRILL TABLE OF COMMANDER S ACTIONS TABLE OF GUNNER S ACTIONS REPLENISH CHECK GUNS MAKE SAFE STILL CLEAR GUNS JAMMED CARTRIDGE SECTION 3 76 MM MISFIRE DRILL GENERAL CHAPTER 15 SUMMARY OF ARMAMENT SERVICING SECTION 1 GENERAL SERVICING SUMMARY SERVICING GENERAL RESPONSIBILITY FREQUENCY OF SERVICING SECTION 2 LUBRICANTS OIL GREASE SECTION 3 SERVICING GUIDE TABLE WEEKLY SERVICING ANNEX A RELATED DOCUMENTS FIGURE Figure 1 2 1 Figure 1 2 2 Figure 1 2 3 Figure 1 2 4 Figure 1 2 5 Figure 1 2 5 Figure 2 1 1 Figure 2 2 1 Figure 2 3 1 Figure 2 3 2 Figure 2 4 1 Figure 2 5 1 Figure 2 5 1 Figure 2 5 2 Figure 2 5 2 Figure 2 5 3 Figure 2 6 1 Figure 2 7 1 Figure 2 7 1 Figure 2 7 2 Figure 2 7 2 Figure 2 9 1 Figure 3 1 1 Figure 3 1 2 Figure 3 1 3 Figure 3 1 4 Figure 3 1 5 Figure 3 1 6 Figure 3 2 1 Figure 3 2 2 Figure 3 2 3 Figure 3 2 4 Figure 3 2 5 Figure 3 2 6 Figure 3 2 7 Figure 3 3 1 Figure 4 1 1 Figure 4 2 1 Figure 4 2 2 Figure 4 2 3 Figure 4 2 4 Figure 4 2 5 LIST OF FIGURES TITLE Turret Side View Right Hand Side Turret Side View
99. ION 6 HANDLING SAFETY PRECAUTIONS 1 The following actions must be carried out before any work 1s started on the gun a check that the recuperator nitrogen pressure is not less than 200 PST b trip the loader s safety switch by pushing the front bottom lever forward e unscrew the stop running back SRB and place it in its retaining clip d open the breech by first pressing in on the operating level and releasing the breech mechanism lever BML from its retaining catch Maintaining pressure on the operating lever pull the BML fully to the rear until the pawl engages with the crank lever of the actuating shaft Continue to maintain pressure on the operating lever and push the BML forward until the breech is fully open and the extractors have engaged with the breech block Release the operating lever return the BML to the fully forward position ensuring it is engaged by the BML catch look from the top of the chamber to the bottom of the muzzle end confirm that the chamber and bore are completely clear of any ammunition or fouling fouling 18 anything that can obstruct the passage of the projectile through the barrel and f if no further work is to be carried out close the breech TO CLOSE THE BREECH 2 To close the breech the following procedure is used a release the BML catch by pressing in on the operating lever Maintaining pressure on the lever pull the BML slightly to the rear to engage the pawl then push the BML
100. If the light does not illuminate inspect the bulb and fuse F8 press the firing switch the solenoid should energize and fire the gun if the solenoid is not energized check that the electrical connectors are tight if they are report to a technician and cock the MG place the selector switch to MAIN and fire using foot firing pedal TO ADJUST THE COAXIAL MACHINE GUN FIRING GEAR 6 To adjust the coaxial firing gear use the following procedure a loosen the locking nut on the solenoid adjusting nut b loosen or tighten the adjusting nut until it just clears the trigger bar c tighten the locking nut d test both the foot firing pedal and the firing switch on the elevating handwheel and e if after checking the electrical leads and fuse F8 the solenoid does not energize report to a technician CHAPTER 6 COMMANDER S SIGHTING EQUIPMENT SECTION 1 COMPONENTS INTRODUCTION 1 The commander is provided with Sight Periscope Armoured Vehicle AV No 71 ora combined day night 55126 Commander s Radnis Either sight can be traversed approximately 500 mils either side of centre The mounting has a scale with a pointer which indicates the amount that the sight is traversed THE SIGHT MOUNTING 2 The sight is mounted in Mounting Sight AV No 45 This mounting enables the whole sight to be rotated 500 mils left or right of centre 3 The mounting consists of a fixed half installed in the turret roof and a
101. MM AMMUNITION PACKING 33 Rounds are double packed as follows a the outer packing is a rectangular steel container which holds two rounds fitted with a lid and two lifting handles and b the inner Packing is a cylindrical moulded polythene container fitted with a cap and lifting handle SjuBdel ep JUEUS uouonog oseg epin6 neeuuy 1isqng NO 19991 6unueseidei eseg eimnsqns Buy 945 01 lt 10 Shell Practice High Explosive L25 Figure 13 1 10 amawa ep saided ua agn 131V ue 5002 emjeuno neeuuy ap SIA 66 HS sures6 09 e UONSOdWO 242 YS sures6 Opi UOJIAUS eunoeuo ET I WW 96 EG ww gp Oo o de Buisojo sse1g eqni jeded je915 Buu qH 66 YS sups 09 uonisodwoo 24 HS op Ajejeuxoudde uoeo sjayjad 189211 Q eist Tracer Shell LSA2 Figure 13 1 11 LAN ejunoos 6 982 64 219 ens ndoud earsojdxe a1pnod ep ajjednon G nO p SAWN GI 40 UOISSNJJ d e
102. NG THE MOUNTING 12 To service the mounting use the following procedure a lubricate the nipples for the two phosphor bronze bushings and the SA cam pivot pin with grease 3GP 641 b ensure the four bolts securing the cradle to the mantlet are tight clean and wipe with an oiled cloth the anti rotation key and SA cam spring and d lubricate the anti rotation keyway nipple FAULT 1 Gun fails to fully run out a Obstruction between seating faces REMEDY Burred or distorted anti rotation key Lack of grease on barrel sleeve b Report to technician c Grease Top up buffer with oil Insufficient oil in buffer Insufficient nitrogen pressure in recuperator 2 Violent recoil or run out 3 Recoil violent and failure to run out 4 Short recoil and violent run out Report to technicien Report to technician Excess nitrogen pressure in recuperator 5 jerky Run out is a Dry liners b Grit between liners and barrel burrs Air lock in system Report to technician 6 Recoil normal failure to run out 7 Recoil normal no control to run out during last 3 inches Air lock in system Worn control chamber washer Report to technician Figure 3 3 1 Recoil System Fault Cause Chart CHAPTER 4
103. R SWITCH TURRET FUSE BOX RADNIS CONTROL UNIT THE POWER TRAVERSE CONTROL UNIT THE GUN SELECTOR SWITCH BOX TURRET LIGHTS CREW COMMANDER S MAP READING LIGHT SECTION 3 SERVICING PROCEDURES CHAPTER 5 THE GUN CONTROL EQUIPMENT SECTION 1 INTRODUCTION GENERAL GUN LAYING SYSTEMS GUN CONTROLS FIRING CIRCUITS SECTION 2 COMPONENTS OF THE GUN LAYING SYSTEM TRAVERSE GEARBOX MANUAL TRAVERSE POWER TRAVERSE ELEVATING SYSTEM SECTION 3 OPERATION MANUAL TRAVERSE POWER TRAVERSE TO TEST THE OPERATION OF THE POWER TRAVERSE ELEVATION SYSTEM SECTION 4 FIRING CIRCUITS INTRODUCTION 76 MM GUN FIRING CIRCUIT 76 MM GUN MECHANICAL CIRCUIT COAXIAL PRIMARY FIRING CIRCUIT COAXIAL SECONDARY FIRING CIRCUIT VEHICLES FITTED WITH RADNIS SECTION 5 SERVICING TRAVERSE GEARBOX SERVICING ELEVATING GEAR TEST THE 76 MM FIRING GEAR ADJUSTING THE 76 MM GUN FIRING GEAR TESTING THE COAXIAL MACHINE GUN FIRING GEAR TO ADJUST THE COAXIAL MACHINE GUN FIRING GEAR CHAPTER 6 COMMANDER S SIGHTING EQUIPMENT SECTION 1 COMPONENTS INTRODUCTION THE SIGHT MOUNTING THE SIGHT WASHER SYSTEM THE SIGHT PERISCOPIC ARMOURED VEHICLE NO 71 COMMANDER S RADNIS SECTION 2 OPERATION COMPONENT ADJUSTMENT AND OPERATION OF THE NO 71 SIGHT COMPONENT ADJUSTMENT AND OPERATION OF THE COMMANDER S RADNIS SECTION 3 SERVICING OBJECT PRISMS AND OBJECT GLASSES OCULAR PRISMS AND EYE LENSES GENERAL INSPECTION OF OPTICAL AND SIGHTING
104. RT Muzzle ends clear Driver s hatch closed No obstruction My side free to traverse 200 Ibs SRB removed and stowed Bore clear MG half loaded Action Figure 14 2 1 Table of Commander s Actions SERIAL TABLE OF GUNNER S ACTIONS DRILL Ensure that ail necessary lights and switches are ON Set the gun selection switch to OFF position Disengage the safety locking bar from the 76 mm foot firing pedal Set the MG foot firing pedal to the DOWN position Check interna stowage for obstructions to free traverse Engage the hand traverse handle in the UP position Place hands on the controls and observe through the sight Figure 14 2 2 Table of Gunner s Actions REPORT Master switch ON Radnis ON Selector switch OFF Locking bar DOWN Foot pedal DOWN My side free to traverse Power traverse engaged Hand on my controls observing to my front REPLENISH 2 The order Replenish will be given by the commander when it becomes necessary to replace the ready rounds from the other stowage positions This order may be combined with the order Check guns at the commander s discretion On this order the following actions carried out a the commander will 1 tell the gunner which position to traverse the turret 2 replenish the supply of ready rounds jettison all empty cases and empty co ax ammunition boxes and b the gunner will
105. RTRIDGE SECTION 7 STRIPPING AND ASSEMBLING THE GUN INTRODUCTION THE RULES OF STRIPPING AND ASSEMBLING EQUIPMENT REQUIRED PREPARATION TO REMOVE THE STRIKER MECHANISM ASSEMBLY TO REMOVE THE CRANK STOP TO REMOVE THE BREECH BLOCK TO STRIP THE BREECH BLOCK TO ASSEMBLE THE BREECH BLOCK TO REPLACE THE BREECH BLOCK SECTION 8 MECHANISM GENERAL ACTION OF THE BREECH MECHANISM WHEN OPENED BY HAND ACTION OF THE BREECH MECHANISM ON LOADING ACTION OF THE BREECH MECHANISM ON FIRING ACTION ON UNLOADING ACTION OF THE RECOCKING MECHANISM SAFETY ARRANGEMENT SECTION 9 SERVICING THE GUN GENERAL LUBRICANTS ROUTINE CLEANING WEEKLY PREPARATION MONTHLY CLEANING CLEANING BEFORE FIRING CLEANING DURING FIRING CLEANING AFTER FIRING SPECIAL CONDITIONS TESTS TO GAUGE THE STRIKER PROTRUSION TO TEST THE BREECH CLOSING SPRING SPARE PARTS AND TOOLS CHAPTER 3 THE MOUNTING AND RECOIL SYSTEM SECTION 1 THE MOUNTING INTRODUCTION THE MANTLET THE GUN BASKET SECTION 2 THE RECOIL SYSTEM INTRODUCTION THE BUFFER NO 10 MARK 1 THE REPLENISHER THE HYDRO PNEUMATIC RECUPERATOR THE RECOIL INDICATOR SECTION 3 SERVICING SERVICING THE RECOIL SYSTEM TO TOP UP THE BUFFER CHECK THE RECUPERATOR SET THE RECOIL INDICATOR MONTHLY SERVICING SERVICING THE MOUNTING CHAPTER 4 TURRET ELECTRICAL SYSTEM SECTION 1 INTRODUCTION INTRODUCTION SECTION 2 COMPONENTS TURRET ROTARY BASE JUNCTION TURRET MASTE
106. Switzerland The hull and the turret are assembled by General Motors of Canada in London Ontario 8 The Cougar is amphibious with minimum preparation time It has no nuclear biological and chemical NBC protection capability this option is available but was not purchased 9 Some of the Cougars have the Radnis Image Intensification sight which gives them a night fighting capability GENERAL DATA 1 Crew Weights Bridge classification Length Width Height Range on roads Maximum speed in water Maximum road speed Engine Vertical step Maximum gradient Maximum side slope Angle of approach Main armament gun Secondary armament GENERAL TURRET DATA 2 SECTION 2 COUGAR Commander gunner driver gross vehicle weight 10 500 kg 12 approximately 5 97 m approximately 2 5 m approximately 2 62 m approximately 600 km approximately 10 km h approximately 100 km h 6V 53T GM Detroit Diesel producing 278 85 HP CV at 2 800 RPM 0 4 0 5m 70 depending on adhesion 35 depending on adhesion 4096 76 mm L23A1 X GPMG 7 62 mm 5 1 Turret crew 2 men commander gunner Weight of turret approximately 6800 kg Weight of complete gun 150 59 kg Elevation range 600 mils Depression range 140 mils Traversing range 6400 mils Rated voltage 24 V Permissible operating voltage 22 5 to 28 V THE TURRET 3 The turret houses the armament the fire control systems the gun control equipment and communicati
107. TURE BULLETS SYMBOLES INDIQUANT LE TYPE DE BALLES BASIC SYMBOLS SYMBOLES DE BASE 4 HB 1 BALL 2 TRACANTE 3 ARMOUR PIERCING 4 INCENDIARY A BALLES TRACER DE RUPTURE INCENDIAIRE 4 w 5 OBSERVING A BLANC D OBSERVATION BLANK 6 CARTIDGE NON METALLIC BULLET SHORT RANGE CARTOUCHE BALLE NON METALLIQUE I BASIC SYMBOLS SYMBOLES DE BASE 8 ARMOUR PIERCING INCENDIARY 9 ARMOUR PIERCING TRACER DE RUPTURE INCENDIAIRE DE RUPTURE TRACANTE diim B ss 10 ARMOUR PIERCING INCENDIARY TRACER 11 INCENDIARY TRACER DE RUPTURE INCENDIAIRE TRACANT INCENDIAIRE TRACANT 12 OBSERVING TRACER D OBSERVATION TRACANT Figure 13 7 4 Symbols Denoting Nature of Bullets for Small Arms Ammunition design mark DND ammunition code Quantity of C and GS packed Calibre Quantity symbol nature model number Type of pack Mixed lots Lot number gom Marque du design OTAN Code MDN pour munition Quantit de cartouches Calibre Quantit symbole nature et num ro de mod le Genre de paquetage Lots mixtes Num ro de lot Figure 13 7 5 Method of Marking Inner Boxes Containing Small Arms Ammunition Stock number QTY of ctgs Calibre Arrangement etc Type of pack Gross weight amp shipping cube Lot number NATO design mark NATO symbol of interchangeability CTC
108. The recoil system consists of a buffer replenisher and a hydro pneumatic recuperator The buffer and recuperator are mounted between the mantlet and the yoke The replenisher 15 interconnected to the buffer by a flexible pipe It is an expansion cylinder for oil displaced from the buffer due to rise in temperature 2 The purposes of the recoil system are as follows a to dissipate recoil energy b to return the gun to the firing position c to buffer the gun during run out and d to hold the gun in the firing position through all angles of elevation 3 The normal recoil is 28 cm THE BUFFER NO 10 MARK 1 4 Components The buffer is connected between the mantlet and the yoke above and to the left of the cradle It is connected by a flexible oil pipe to the replenisher It has a capacity of 86 litres of 3GP 26 oil 5 The buffer cylinder is machined with four shallowing grooves which decrease in depth from the front to the rear of the cylinder An end housing sealed by a Q ring is screwed into the front of the cylinder with a control chamber machined in the housing The front of the end housing passes through the mantlet and is secured to it by a threaded bushing and lock plate The bushing incorporates an adaptor for pulling back the gun 6 The piston rod passes through the centre of the cylinder it is machined at the front end to form a control plunger and piston The rear end is threaded to receive the yoke bobbin 7 The stuffin
109. VICING 3 When servicing the gun the parts will be dry cleaned inspected and lubricated in the sequence in which they are assembled As each part is dealt with it will be reassembled to ensure that it does not become damaged or dirty If more than one gun is being serviced ensure that parts are replaced in the same gun from which they were taken All spares and tools must be complete and serviceable A seven point check will be made to ensure that the gun is in satisfactory mechanical condition c inspect all parts for damage and all bearing surfaces for roughness burrs and sharp edges this can be detected by running a finger along suspected parts and d any faults that cannot be rectified must be reported to a weapons technician Elevating mechanism screw Elevating mechanism nut M2 mounting tripod head bolt nuts M2 mount cover bolt nut b Traversing dial guide nut C Pintle bolt nut d Buffer adjusting screw e Traversing screw nut f Cocking lever pin trigger pin g Rear leg bolt nut M2 mount h Muzzie glan j Pintle bolt k Ejector pin ao Vis du m canisme de pointage en hauteur crou du m canisme de pointage en hauteur crous de boulon t te du tr pied M2 crou de du couvercle du tr pied M2 crou de guidage du cadran de pointage en direction Ecrou de boulon du pivot Vis de r glage de l amortisseur de vis de pointage en
110. ace and is undamaged e carefully lower the periscope into position from above d check that the sealing ring is correctly positioned and locate the two securing screws into the threaded holes on the periscope body carefully tighten each screw and f wipe the glass surfaces free of finger marks LASER RANGE FINDER GVS 5 ds Preventive Maintenance Before operation of the laser range finder check for the following a completeness b dirt and moisture on external surfaces and parts and that a sharp focus can be obtained while looking through the eyepiece LASER RANGE FINDER FAULT REMEDY CHART SE TESTER CORRECTIVE RIAL MALFUNCTION INSPECTION ACTION LOW BATT Check to be Replace the indicator sure a charged battery illuminates after battery is the PWR ON installed switch is set to ON and either the FIRE switch or the MIN RNG switch is pressed The image is Check to be sure Adjust the blurred when the eyepiece can eyepiece for focussed be adjusted best image sighting No illumination The RET BRT Turn the RET of the graticule Control is not BRT unti the after the PWR adjusted for graticule is ON switch is set brightness illuminated to to ON and the the desired RET switch is brightness pressed Figure 12 6 1 Laser Range Finder Remedy Chart 13 AMMUNITION SECTION 1 76 MM AMMUNITION INTRODUCTION 1 Quick Fire QF fixed ammunition is used with the 76 mm gun m
111. actory and date of manufacture the percussion cap which is fitted into a recess in the base of the case immediately below the anvil A flash hole connects the cap chamber with the propellant charge The cap contains a pellet of cap composition and d the propellant charge gives the bullet a muzzle velocity of approximately 823 m per second 11 Tracer The components except for the bullet of the 7 62 mm tracer round are the same as for ball ammunition The tracer bullet has a lead core in the front and a tracer composition with an igniter charge in the rear The tracer bullet is identified by a red painted tip Tracer ammunition has a muzzle velocity of approximately 828 m per second 9 MM AMMUNITION 12 The 9 mm ball Mk 1Z or Mk 2Z is used in the sub machinegun The complete round consists of the bullet the cartridge case the percussion cap and the propellant charge These components are described as follows a the bullet consists of an envelope of either gilding metal or steel coated with cupro nickel which encloses a lead and antimony alloy b the case which is made of drawn brass and is provided with a cannelure for extraction percussion cap which is fitted into a recess in the base of case immediately below the anvil A flash hole connects the cap chamber with the propellant charge The cap contains a pellet of cap composition and d the propellant charge which consists of a quantity of nitro cellulose NC po
112. advantages The gun has certain disadvantages that can be minimized by careful siting and maintenance They include M S 99UM puey 42945 25 4349 1201 opus 42845 pasodxa Ajjenba smaJos 91ns ug ue1uBn 10 uge peuonisod Auedoid pue pajio pau aq pjnous syed usiueuooeui pue BuisisAeil Buryiom pue uea eq pinous uoje jou 5 5891 U93e eAae s BUIS18A Aju 195 pesn Buieq 12edsui uge 42945 0497 0182 3e 195 00 18 195 55925001 004 3e 195 14615 1894 pue ueyqBn uee 5 403 46 5 104 159 5 14615 1014 pue sure pepeeu ji 195 Buuds Buryo eBneB 1981109 peGeBuesiBuudsBuryo OJ 158 19S 9H st Buloedspeay 4924 Oj 5 989 pue sued usxo1q sued 91nsu3 40 juaq UIOM 159 njout sued Aig pue ualdv 340434 SLUVd 1VIH3S pue ue9 9 dus pue Buueeq pue uee 5 1u04j10sseu1u8n
113. ance is obtained and c if the graticule fails to illuminate check fuse F1 3 Washer and Wiper To operate the wiper use the following procedure a if it is not raining first operate the washer to avoid scratching the window surface and b set the left hand switch on the underside of the sight mounting to the ON position MOVING THE NO 54 SIGHT TO THE STOWED POSITION 4 To move the sight to the stowed position use the following procedure a ensure that all sight switches are set to OFF and that the black out shutter control is set to SHUT release the sight link bar and stow and swing the sight forward and retain it in the stowed position by engaging the spring catch with the right side of the sight RELEASING THE NO 54 SIGHT FROM THE STOWED POSITION 5 To release the sight from the stowed position use the following procedure a support the sight and pull the spring catch to the right and b carefully swing the sight down lift the sight link bar into alignment with the sight connection lug Turn the turn buckle connection lever a quarter turn clockwise to engage 1t with the sight COMPONENT ADJUSTMENT AND OPERATION OF THE GUNNER S RADNIS 6 To Switch On Day To switch on the sight for day use use the following procedure a ensure the daylight protection lever is closed b set the day night selector to day c switch on the power at the Radnis control unit d select X1 e rotate the lamp brightness co
114. and stored on their sides SPARE PARTS AND TOOLS 19 spare parts will be assembled in the machine gun to ensure that they fit and are serviceable When they have been tested they will be oiled to prevent rust and stowed in their correct place Spares will be dry cleaned and inspected during weekly cleaning of the armament before and after firing Tools will be kept clean serviceable and if they are made of steel lightly oiled SECTION 11 INSPECTION AND SERVICING GUIDES INSPECTION GUIDE 1 The exterior appearance should be inspected as follows a surface 1 it should have a dark blued surface and should be lightly oiled front barrel bearing and plug 1 they must be tight and free of fouling and 2 the locking ring should be in place and punched barrel jacket 1 it should not be bent or cracked and 2 it should be secured to the receiver front sight 1 check security and 2 the post must remain in folded and elevated positions backsight 1 the numbers must be legible 2 the backsight must remain in folded and elevated positions and 3 elevation and wind ages crews must turn freely throughout their entire runs cover 1 it must remain in a closed position or b two open positions and g backplate with the adjusting screw tight at least part of one thread must be exposed 2 To field strip the following procedure 15 used a barrel 1 examine for rust and fouling a
115. any reason it is necessary to lift the bolt after making the down left movement extreme care must be exercised ensuring that the driving spring rod is properly locked back into the bolt This is an extremely dangerous procedure an injury will result if the rod flies out and strikes someone 12 Sear The bolt is held in the hand face toward the body with the forefinger under the sear The sear spring is pushed down and to the right seating it in the slot inside the bolt The sear will drop out of the bottom of its slide 13 Sear Spring and Pin The sear spring is returned to its normal position The tail of the cocking lever slides under the spring until it touches the pin The pin but not the spring is pried up 14 Firing Pin The bolt is tilted away from the body and the firing pin is allowed to fall into the hand TO ASSEMBLE THE BOLT 15 Firing Pin The firing pin is placed into its recess in the bolt with the square shoulders downward Slide it forward until the striker protrudes through the face of the bolt 1n8 921 x3 D np np uossei D SWE e ep jueuJeuue p 19137 1019811X3 uid 2 Buds 940016 wed 109 Je e Duro Qi lt rasen Figure 11 4 5 The Bolt Figure 11 4 6 Sheet 1 of 2 The Bolt Exploded View
116. ased adjust the firing gear as detailed in paragraph 4 which follows ADJUSTING THE 76 MM GUN FIRING GEAR 4 To adjust the 76 mm firing gear use the following procedure a prove the gun close the breech do not ease springs b ensure that the solenoid is fully forward If it is not loosen the solenoid clamp bolts move the solenoid forward to the end plate Tighten the solenoid clamp loosen the locking nut on the bowden cable d using the adjusting nut adjust the cable until the firing lever is just clear of the firing plunger tighten the locking nut on the bowden cable f press the foot firing pedal the gun should fire g set the hull and turret master switches to the ON position h set the gun selector switch to MAIN 1 cock the gun using the recocking lever make the loader s safety switch and ensure that the Gun Ready light illuminates m press the firing switch on the elevating handwheel and n if either the electrical or mechanical gears fail to operate correctly report to a technician TESTING THE COAXIAL MACHINE GUN FIRING GEAR 5 To test the coaxial machine gun firing gear use the following procedure a b ensure that the procedure for mounting the MG has been completed correctly set the hull and turret master switches to the ON position 2 prove the machine gun but do not fire the action set the selector switch to CO AX and ensure that the indicator light illuminates
117. assist the commander as required NOTE The commander may use the traverse controller to position the turret CHECK GUNS 3 The order Check guns will be given by the commander when the opportunity exists for the crew to check the weapons This order may be combined with Replenish On the Check guns order the commander will a wipe clean and re oil any parts of the main armament breech mechanism that have become dirty b check the security of the crank stop and e lubricate the working parts of the coaxial machine gun MAKE SAFE 4 The order Make Safe will be given by the commander when there is a danger that loaded guns may be trained on our own troops On this order the following procedures are carried out a the commander will 1 make safe the 76 mm gun and 2 make safe the coaxial MG and b the gunner will set the gun selector switch to the OFF position and set the locking bar up STILL 5 The emergency cry Still may be given by any member of the crew who observes any defect or hazard likely to imperil them or the vehicle When the members of the fighting compartment hear this cry they will freeze The crew member who gave the order will report the nature of the defect or hazard and the commander will order the appropriate action to be taken Under most normal conditions the vehicle will be stationary but if the vehicle is moving the commander will order the driver to halt unless this would aggravate the
118. ate the spanner downward and lower the breech block under control to its first stop and b remove the spanner from the end cap reposition it with the handle in the horizontal position Push in the actuating shaft retaining plunger Rotate the spanner downward until the breech block is completely clear of the breech ring Remove the breech block to a convenient position TO STRIP THE BREECH BLOCK 8 The breech block is stripped as follows a b position the breech block on its front face with the horns forward remove the four screws securing the cocking link cover plate remove the cover plate and springs remove striker mechanism assembly retaining plunger and spring remove the recocking crank shaft by pulling it to the left remove the recocking crank and cocking link and push in slightly on the sear and remove the screw retaining sear Remove the sear and spring TO ASSEMBLE THE BREECH BLOCK 9 The breech block is assembled as follows a insert the screw and sear push in slightly on the sear and fit the screw retaining sear rotate the breech block on its side with the opening of the striker mechanism assembly facing towards the right insert the cocking link from right to left until it is fully to the left insert the recocking crank with the convex side the toe facing the breech block into the crank path recess ensuring that the toe of the crank is in the recess of the cocking link as far as it will
119. ation by calculating the difference between boresighting and zeroing values L 2 WEATHER CONDITIONS WIND al 3 GUN DATA Exam of ordnance date a ea 4 AMMUNITION DATA NATURE BATCH NO SH PRACTICE Drow arrow amp howing direction of wind and write the opprox speed le SN km h Figure 9 6 1 Sheet I of 3 Cougar Zeroing Registration Form 5 BORESIGHT SETTINGS conducted 600 m IAW Cougar Turret Manual COORDINATES IN CENTIMETRES azmu ELEVATION ES Figure 9 6 1 Sheet 2 of 3 Cougar Zeroing Registration Form INITIAL SETTING MPI IN TOTAL PHYSICAL MILS READING INITIAL SETTING in Block 8 is the setting at which the 3 rounds were fired to establish the MPI 9 STANDARD VALUES peu os o t Figure 9 6 1 Sheet 3 of 3 Cougar Zeroing Registration Form CHAPTER 10 THE MULTI BARREL SMOKE GRENADE DISCHARGER SECTION 1 INTRODUCTION GENERAL 1 The multi barrel smoke grenade dischargers MBSGD are designed to provide an immediate self protection screen of short duration and at short range 2 There two smoke grenade dischargers one fitted on either side of the turret front The barre is are mounted at a fixed elevation and provide a range of approximately 60 m and a lateral spread covering an arc of 3200 mils when both dischargers are fired The dischargers are operated electrically from inside the turret 3 General
120. auge striker protrusion Figure 2 9 1 Gauging the Striker Protrusion CHAPTER 3 THE MOUNTING AND SYSTEM SECTION 1 THE MOUNTING INTRODUCTION 1 The mounting on the Cougar supports the gun the coaxial machine gun and the recoil system This mounting is designed to provide an elevation of 600 mils and a depression of 140 mils throughout the 6400 mils of the turret traverse Movement in the vertical plane is obtained by a nut and screw type elevation gear The two main components of the mounting are a the mantlet and b the cradle THE MANTLET 2 The mantlet is supported in the turret by trunnions Two sealing strips are located in grooves on the right and left hand faces to prevent water and dust from entering into the turret A recess houses the front end of the cradle four bolts in the rear face locate and secure the cradle to the mantlet An aperture on the left side houses the front part of the coaxial mounting four bolts secure the coaxial mounting to the mantlet Between the mantlet and the turret an asbestos shield is mounted to keep foreign material out of the turret The replenisher is also secured to the mantlet On the exterior of the mantlet mounted to the turret two metal to prevent entry of foreign material between the mantlet and the turret Elevation and depression limit stops are also mounted there To pull back the gun an eyelet is connected to the rear end of t
121. before they become effective 8 The colour of the emitted light which can lie in a number of bands within the visible spectrum is determined by the type of phosphor selected The trilux lamp in the Cougar emits a green light Curseur Molette de r glage du tambour de distance de serrage Vis de r glage Techniceux seulement Niveau Echelle des milli mes Echelle HE HESH Echelle pour fumig ne gt Cursor Range drum adjuster Clamping nut Adjusting screws Technician only Bubble assembly Mil scale HE HESH scale Smoke scale AB0057 B GL 305 007 MS 002 Figure 8 3 1 Quadrant Fire Control No 16 Mark 1 HS3H 3H 818093 Sep 818093 2 NESAIN 1 epos HS3H 3H 2 SJEIS IW c ajqqng 1 e Figure 8 3 2 Trilux Lamps 9 The type of lamp currently used in the service trilux lamp contains tritium gas an isotope of hydrogen which emits electrons beta particles of low energy only There is negligible radiation from these lamps as the beta particles are absorbed by the glass walls of the capsule and the total radioactive content of the lamps employed in a single equipment is limited to a maximum of 10 curies If however the capsule is broken certain precautions must be observed SAFETY PRECAUTIONS FOR TRILUX LAMPS 10 The following is an extract from ins
122. block presses the round into the chamber The slight forward inclination of the guides in the breech ring continue to force the round more tightly into the chamber until further upward movement of the breech block is prevented by the closing stops contacting the breech ring 11 Locking the Breech Although the breech block is now prevented from rising any higher further rotation of the actuating shaft moves the crank past the top and dead centre position and the breech becomes locked The rotation of the crank is stopped when the top of the crank contacts the upper face of the crank path ACTION OF THE BREECH MECHANISM ON FIRING 12 The Firing Circuit When either the electrical firing switch the foot firing are pressed the firing lever presses inward on the firing plunger of the breech ring Movement of the firing plunger forces the sear to the left disengaging the bent on the sear from the lug on the striker The striker spring is now free to drive the striker forward and the firing pin strikes the percussion cap in the base of the round When the percussion cap in the primer is struck the flash produced ignites the powder in the magazine of the primer which in turn ignites the propellant charge 13 Sealing the Breech The rapidly increasing gas pressure caused by the burning propellant charge causes the case to expand radially against the inner walls of the chamber This action seals the breech and prevents any escape of gas
123. cil clip and the spring The upper end of the body houses the striker protrusion hole and is internally threaded to accept the cartridge The striker is attached to the external cocking piece which functions under pressure to compress the internal spring and cock the projector 3 There are two cartridges available red and green These cartridges consist of an aluminium casing which contains the igniter and tracer composition Each is closed at the upper end by a fibreboard disc and is sealed with NC varnish The lower end of the cartridge casing embodies a rimfire blank cartridge and is externally threaded to mate with the upper end of the projector PROJECTILE DATA 4 The mini flare has the following performance data 1 1 Cartouche 2 Cocking piece red 2 Dispositif d armement 3 Safe position notch 3 Encoche du cran de s ret 4 Projector 4 Lance fus es 5 Locking cap 5 Capouchon 6 Pencil clip 6 Agrafe 7 Red 7 Rouge 8 Black 8 Noir Figure 13 4 1 Three Different Types of Projectors Used by the Canadian Forces Aluminium body Locking cap Pencil clip Striker Spring guide Internal spring Cocking piece Cartridge ooonoosfkom D ND ER op Tube d aluminium Capouchon de verrouillage Agrafe Percuteur Guide du ressort Ressort interne Dispositif d armement Cartouche Figure 13 4 2 Description of Projector ep
124. control unit is securely mounted in the rear of the turret on the turret flange It receives its power through the turret master switch and it controls all the functions of the power traverse system A 25 amp circuit breaker is located on the face of the control unit There are two electrical connectors marked J1 and J2 as well as a ground strap 5 Driver s Traverse Safety Switch The driver s traverse safety switch is mounted in the hull to the right of the driver When the hatch is closed and locked the switch is depressed which completes the electrical circuit The switch is connected via the rotary base junction directly to the power traverse control unit Poign e pointage manuel en direction 5 2 o gt st 5 Aaa 2 985 B 89255 5055 lt 2 aie uw 4 2 5 c E 885 Sao EL 55265 SGESS Do Sc o 20 og gc 99 gt Ee E E ZANT DN C 4 vi ol Figure 5 2 1 Traverse Gearbox 6 Electric Motor The 24V DC electric motor is mounted to the front of the traverse gearbox When the system 1s activated the motor drives the traverse gears causing the turret to rotate 7 Hand Traverse Handle The hand traverse handle mounted on the traverse gearbox is the means by which the manual and power traverse systems are engaged or disengaged With the handle at the 9 o clock position and pushed up the spline on the handle shaft is disengaged from the gears in the gearbo
125. cted to the correct and polarity and operate the laser range finder in the same manner as with the battery however mobility is limited to the length of the power cable NOTE Disregard the LOW indicator when using the power cable If the range finder does not range check the external power source voltage 1 Objective lens cover 1 Coiffe de la lentille 2 Eyepiece focus adjustment 2 Mise au point de l oculaire 3 MIN range switch 3 S lecteur de distance minimale 4 PWR switch 4 Interrupteur d alimentation 5 Fire switch 5 D clencheur 6 MIN range set switch 6 S lecteur de r glage de la distance minimale 7 RET on switch 7 Bouton poussoir d alimentation du r ticule 8 brightness knob 8 Rh ostat du r ticule 9 Battery cover 9 Couvercle de la batterie Figure 12 5 1 Laser Range Finder GVS 5 Exterior Control eee ep napu souoe p 1nejyeoipu LL sese np Joyeolpul poling Joyeolpul ejdsip MOPUIAA se ON OT Figure 12 5 2 Laser Range Pattern 1 THOUSANDS 2 HUNDREDS 8 TENS 4 UNITS 1 MILLIERS 2 CENTAINES 3 DIZAINES 4 UNITES Figure 12 5 3 Target Acquisition SECTION 6 SERVICING EXTRACTOR FAN 1 To service fan the following
126. ction of the intended movement prior to the initial registering of zero gt 2 7 3030 7 gt S IN Combined light switch and dimmer control Unit mils zeroing knob long pointer Hundreds of mils zeroing knob short pointer Light bulbs gt interrupteur et rh ostat d clairage Bouton de mise z ro grande aiguille Bouton de mise z ro petite aiguille Ampoules Figure 8 2 1 Traverse Indicator SECTION 3 QUADRANT FIRE CONTROL FUNCTION 1 The quadrant fire control AFV No 16 Mark 1 is bolted to bracket on the right side of the gun cradle It consists of a range drum and clinometer The quadrant fire control QFC is used a to fire semi indirect indirect and on fixed lines b to set a range for HE HESH over 2000 m for semi indirect fire c to set a range for smoke from 0 3700 m d to measure and apply an angle of sight e to apply quadrant elevation to the gun and f to determine minimum safe range MSR DESCRIPTION 2 The Clinometer This is a simple spirit level It is attached to a spring loaded arm which at its other extremity rests on an eccentric cam Attached to the cam is a range drum 3 The Range Drum This consists of two main parts fixed and movable each with its separate scale The two main parts are clamped together by a wing type clamping nut within a knurled handwheel When unclamped the right hand scale can be moved
127. cts the replenisher body to the buffer cylinder Butter piston rod Stuffing box assembly Filler plug and chain Tell tale rod Filler plug Buffer cylinder Securing bracket Connecting pipe Replenisher cylinder ON D Tige du piston de l amortisseur Bo te de bourrage Bouchon de remplissage et chaine Tige indicatrice Bouchon de remplissage Cylindre de l amortisseur Support de retenue Conduite d huile Cylindre du compensateur Figure 3 2 1 Buffer and Replenisher Cylinders 1 Bobbin 2 Yoke 3 Anti rotation key securing screws ON Bobine Collier Boulons de fixation de la clavette anti rotation Figure 3 2 2 Yoke aupuyAg euiqog eb6eunoq ap ep uoyonog 1 uoysid oft uodue aquieu januew noa anod e6ejoue p 18 180 ep uoisid ap hat JEPUl D OL uqqog Buyjnis po uojsid 2 k xoeq 1eBunid uojsid p 16 NO D OR DM ESS Figure 3 2 3 Buffer 11 The replenisher cylinder screws into the front of the replenisher body cannelure formed inside the body houses Q ring providing a seal between the cylinder and body An oi
128. d rotate the handwheel rearward to elevate NOTE Due to the meshing of the gears when laying on to a target the final movement of the handwheel must be one of depression to eliminate the effect of backlash in the gearing SECTION 4 FIRING CIRCUITS INTRODUCTION 1 The firing circuits for the 76 mm and coaxial 7 62 mm machine gun MG are of the electromechanical type In addition the 76 mm gun is fitted with a completely mechanical firing gear pA The following components are common to both the 76 mm gun and the coaxial 7 62 mm electrical firing circuits a batteries which supply the power for the vehicle electrical system and are located in the hull The batteries are charged when the vehicle engine is running b a hull master switch which supplies current from the hull to the turret to have power in the turret the hull master switch must be ON the rotary base junction which is the means for power transfer from the hull to the turret d the turret master switch which is located on the turret wall to the right of the gunner s position It is a semi rotary switch with ON OFF positions the turret fuse box which is positioned adjacent to the turret master switch Fuse F8 on this box protects the firing circuit f the gun selector switch box which is located on the turret wall to the right of the gunner s sight The switch has three positions CO AX OFF and MAIN and g the firing switch which is positioned on the hand
129. d 10 per cent to 15 per cent zinc or mild steel coated with either cupro nickel or gilding metal to prevent rust b lead cores for 7 62 and 9 mm ammunition and e tips usually of a lighter material than the core which give steadiness in flight 9 Types of Bullets Small arms bullets can be classified into the following three types a ball which is cheaply produced and used against personnel and light material targets The bullet may be solid lead a lead core with or without a light tip in a jacket or a mild steel core in an b tracer which leaves a visible trace and when fired with other types of small arms ammunition SAA shows the gunner the trajectory of the other bullets It has a lead core forward with tracer composition behind 16 and e blank which usually consists of a cartridge case containing a quantity of propellant and a primer NOTE For more information refer to C 74 050 006 M D 000 7 62 MM AMMUNITION 10 Ball Ammunition The complete 7 62 mm ball consists of the bullet the cartridge case the percussion cap and the propellant charge They are described as follows a the bullet consists of a lead antimony case contained in a gilding metal jacket The bullet has a straight body and is not streamlined at the base the cartridge case is of the rimless head type The anvil is not an integral part of the case One fire hole is used Stampings on the base of the case indicate the f
130. d 2 26 inch d a 1 16 inch alien key 3 16 inch alien key and f a brass drift NOTES 1 During periods of instruction students will not be positioned within the fighting compartment forward of the breech because parts could release under pressure and cause injury 2 Stripping and assembling the main armament will always be carried out as a two person task PREPARATION 4 Preparation consists of the following a proving the gun and b easing the springs TO REMOVE THE STRIKER MECHANISM ASSEMBLY 5 Set the recocking lever into the SAFE position Press in the striker mechanism assembly retaining plunger Rotate the end cap counter clockwise as far as possible see Figure 2 7 2 Pull the striker mechanism assembly partially out of the breech block until it clears the sear push in and rotate the end cap clockwise to ease the spring and then remove the end cap from the breech block TO REMOVE THE CRANK STOP 6 Remove the crank stop securing screw with the 3 16 inch alien key then remove the crank stop TO REMOVE THE BREECH BLOCK i breech block is removed as follows a support the breech block Fit the OS 2 26 inch spanner onto the actuating shaft end cap with the handle of the spanner in the horizontal position Insert the brass drift into the hole on the quadrant fire control QFC bracket Push up on the spanner and at the same time push on the actuating shaft retaining plunger with the brass drift Rot
131. d and the lock frame with the other with the forefinger supporting the accelerator The breech lock depressors are aligned with the recesses in the barrel extension The claws of the accelerator are placed underneath and in front of the T lug A quick forward movement of the lock frame secures it to the barrel extension The accelerator tips are pressed down to ensure a positive lock 24 Lock Frame Barrel Extension and Barrel The lock frame barrel extension and barrel are inserted into the gun until the trigger axis pin contacts the rear of the receiver The trigger axis pin is pressed in with a screwdriver or the nose of a round the forward pressure is continued A distinct click will be heard when the trigger axis pin reseats itself By pulling back on the trigger the working parts are checked to ensure they cannot be pulled out of the receiver 25 Bolt and Bolt Stud The bolt is cocked by rotating the cocking lever fully forward The bolt is inserted by pressing down on the trigger to cause the bolt to ride up and over the accelerators The bolt stud is replaced and the bolt is pushed forward far enough to allow the backplate to be replaced 26 Backplate The cover latch is pushed forward The backplate is replaced and the cover latch pulled to the rear 27 Releasing the Driving Rod Spring The bolt is pulled fully to the rear and held by the cocking handle Using a screwdriver the driving rod is turned counter clockwise until the sl
132. ded with a transit lock mounted on the left top side of the sight This lock is used only when the sight is removed from the vehicle When locked it prevents the head mirror from moving CAUTION The gunner must ensure that the transit lock is screwed out when the sight is mounted If it is in the locked position damage to the sight could result 1 Graticule illumination switch 1 Interrupteur d clairage du r ticule 2 Graticule dimmer 2 Rh ostat du r ticule 3 Trunnion locking lever safety catch 3 Cale de s curit du levier de blocage des 4 Trunnion locking lever tourillons 5 Window heater switch 4 Interrupteur antibu e de la fen tre du capot 6 Window wiper switch 6 Interrupteur d essuie giace 7 Laser filter control 7 Bouton de filtre laser 8 Graticule illumination lamp unit 8 Logement de la lampe du r ticule 9 Graticule elevation adjuster 9 Bouton de r glage du r ticule l vation 10 Levier de blocage du bouton de r glage 10 Adjuster locking lever 11 Graticule deflection adjuster 11 Bouton de r glage du r ticule direction 12 Adjuster locking lever 12 Levier de blocage du bouton de r glage 13 Turnbuckle connection lever 13 Poign e de fixation de la tringlerie 14 Sight link bar 14 Tringlerie 15 Sight connecting lug 15 Tenon de raccord du viseur 16 X1 window blackout shutter lever 16 Levier de l obturateur 1x 17 Sun visor screw control 17 Vis de contr le du pare soleil 18 X10 adjus
133. e prove all guns leave the breech open ensure that the vehicle engine is switched OFF master switches ON ensure the laser filter is either all the way in or out on the AV 54 gunner s sight select an object with a well defined right angle at a range of 600 metres place a piece of greased cotton or thread accurately into the vertical scribe marks on the muzzle of the 76 mm gun and another into the horizontal scribe marks and secure them in position with grease or tape remove the striker mechanism assembly from the 76 mm gun align the bore roughly on to the corner of the object selected and close the breech place the left tube of a pair of binoculars ie the tube without the graticule pattern against the recess in the breech block which holds the striker mechanism assembly and focus the binoculars until the cross threads at the end of the muzzle are clear and the object is clear and sharply defined order the gunner to traverse and elevate depress until the cross threads are laid onto the right angle of the object ensure that the final movement of the gun is one of depression order the gunner to adjust the sight graticule with the graticule adjusters so that the MBS 76 mark of the graticule is aligned on to the same corner of the object when this is done the gunner will ensure that the adjusters are firmly locked order the gunner to traverse and elevate off the object and then re lay ensure that the final movement of the gun
134. e Power Traverse Control Unit Figure 4 2 6 Gun Selector Switch Box SECTION 3 SERVICING PROCEDURES 1 Servicing The servicing of the electrical system consists of the following a inspection b operation c check for cleanliness d replacement of fuses and e replacement of bulbs 2 Inspection At least once month thorough inspection shall be carried out by the crew The inspection shall include the following a security of all components and b serviceability of all components 3 Operation Normal operation will prove the various electrical components and systems 4 Cleanliness When checking for cleanliness all components must be free from dirt oil and grease All protective caps must be mounted on the connectors when they are not in use 5 Replacement of Fuses If a component or system fails to function a check of all circuit breakers and fuses pertaining to that system will be carried out Circuit breakers are reset by pushing them in Fuses will be replaced by removing the fuse holder and inserting a replacement fuse of the correct amperage 6 To replace fuses the turret master switch will be switched OFF 7 If after resetting a circuit breaker replacing fuse the system still does not operate the circuit breaker 1s tripped or the fuse 1s blown again the fault must be reported to a technician 8 Replacement of Bulbs If a bulb has to be changed the turret master switch will be swi
135. e arri re Rut e de positionnement chelle gradu e Barre de pointage en direction Patte avant Levier du verrou du pivot Verrou du manchon de la barre de pointage en direction But e de positionnement Figure 11 8 3 Tripod Mount M2 bel KREE e Traversing micrometer scale Locking nut Traversing handwheel Traversing screw Upper elevating screw Engraved scale Lower elevating screw Traversing bar Left side of slide used as index Mounting pin y Elevating handwheel assembly 12 Traversing slide lock lever Traversing bar scale 10 11 12 13 chelle microm trique de pointage en direction crou de blocage Volant de pointage en direction Vis de pointage en direction Vis sup rieure de pointage en hauteur chelle grav e Vis inf rieure de pointage en hauteur Barre de pointage en direction C t gauche de la coulisse qui est utilis comme index Goupille de montage Volant de pointage en hauteur chelle gradu e de la barre de pointage en direction Levier de blocage de la coulisse de pointage en direction Figure 11 8 4 Traversing and Elevating Mechanism e secure the traversing and elevating mechanism to the ground mount by placing the traversing slide onto the traversing bar and engaging the traversing slide lock lever LAYING THE GUN TRIPOD MOUNTED 16 Unlock the slide
136. e de l oculaire T moin Obturateur XI Bouton de r glage de l appui front Attache de l appui front Appui front Oculaire avec r ticule Vis du boitier de la lampe chelle interoculaire Couvercle de l appui front Figure 6 1 2 Sight Periscopic Armoured Vehicle 71 10 circle positioned in the X1 unity window encloses half the field of view of the X10 optical system 11 The X10 Optical System The X10 eyepieces are positioned below the X1 unity window They are fitted with heaters that can be switched ON or OFF by a switch to the left of the eyepieces 12 An adjustable face mask 15 over the eyepieces The mask can be removed by quick release plunger and can be moved forward and backward by adjusters 13 The right eyepiece is rigidly mounted The left eyepiece mounted in movable can be adjusted by the interocular setting control positioned on the left side of the main case This adjustment is recorded on a scale below the eyepiece Both eyepieces have fixed focus 14 An etched graticule pattern 1s incorporated within the right eyepiece see Figure 6 1 3 The graticule is illuminated by lamp unit situated below the X10 eyepiece This lamp is controlled by the graticule lamp dimmer situated above the eyepiece heater switch The electrical circuit of the sight is protected by the fuse F3 15 The Object Mirror Assembly This is common to both the and X10 optical syst
137. e firing pin rod assembly and locks the launcher in the extended position through the detent lever assembly The firing pin rod assembly locks under the trigger assembly and cocks the weapon upon extension and b Rocket The rocket is made up of the 66 mm HEAT warhead M18 the point initiating base detonating fuse M412 and the rocket motor M54 Attached to the muzzle of the rocket motor are six spring loaded fins which are folded forward along the motor when the rocket is within the launcher Once the rocket motor has been ignited all of the propellant is burned before the rocket leaves the launcher The rocket s momentum carries it to the target 3 The characteristics of the PAW are Sights length firing position 80 cm length closed position 68 cm weight complete system 1 15 kg and firing mechanism percussion A description of the PAW sights is as follows Front Sight The front sight contains an embossed vertical range line with ranges from 50 to 350 metres in 25 metre increments Two curved stadia lines are etched on the front sight to aid the gunner in range estimation On each side of the vertical range line are 24 km h aim off marks and Rear Sight The rear sight consists of a steel rear bar sight bracket a plastic rear sight and a rubber sight boot Inside the plastic rear sight is the rear sight aperture plate which is attached to a spring that automatically compensates for temperature change
138. e if mounted Gun Strip clean inspect lubricate carry out seven point check during assembly Firing Gear Mount machine gun test operation SMOKE GREDANE DISCHARGERS Smoke grenade dischargers Service if fired PERISCOPES AND SIGHTS External Clean Internal Clean and check security QUATERLY SERVICING Quaterly servicing 1s carried out on the following instances upon reception of a refitted or new vehicle and atleast once every three months Elements to be checked Actions to be taken Lubricant Turret rack and traverse gear Clean inspect and lightly grease box pinion Periscopes and mountings Remove periscopes clean inspect lubricate Replace and check security Figure 15 3 1 Sheet 1 of 2 Lubrication Chart 5 Lr9 dO fot dO S dO WO Stt do 35 330 W9 dD d9 3104 AJON nojespodeA 096 6 8 12 0916 JLOMAATON 1 96 6 9 12 0516 WL dO OO dt d9 EE JOIAHIS 30 VI HNOd N311381N3 0 TINNVIN 31 HALINSNOY POE dO 30 NIN dO E HISTULN SINDILOUV SNOILIONO9 HNOd 3LON Mag eua ep IEN WED SH RUUD NE suos opono nour op nosse 6 UNG i use sbupseq uni epdouud ouw
139. e la culasse 13 Breech mechanism lever 13 Levier du m canisme de culasse 14 Fire 14 Tir FIRE 15 Safe 15 D sarmer SAFE 16 Recock 16 R armement RECOCK Figure 2 5 1 Page 2 of 2 Breech Left Hand Side Figure 2 5 2 Page 1 of 2 Breech Right Hand Side mE O 3 Retaining screw Firing plunger and spring Striker mechanism assembly Cocking link cover plate and screws Closing stop Yoke housing Barrel Barrel stop Actuating shaft end Actuating shaft retaining plunger Torsion spring cover plate and screw Operating lever Breech mechanism lever Breech block d m BON Vis de retenue Plongeur et ressort M canisme du percuteur Plaque couvercle et vis du coulisseau d armement But e fermeture de la culasse Logement du collier Tube Cale tube Extr mit de l arbre de commande Plongeur de retenue de l arbre de commande Vis et plaque couvercle du ressort torsion Levier de manoeuvre Levier du m canisme de culasse Bloc culasse Figure 2 5 2 Page 2 of 2 Breech Right Hand Side ACTUATING SHAFT 12 The actuating shaft is mounted horizontally in the breech ring Attached to the actuating shaft are the following a the left and right extractors b the crank and c the breech mechanism lever 13 The extractors eject
140. e zeroing screen at 900 m ensuring that the same point of aim is used for each round fired If first round does not hit the zeroing screen adjust the graticule by doing the following a if the round is minus move the graticule using the graticule adjuster from the centre of the zeroing screen to where the projectile hit the ground b if the round is plus move the graticule using the graticule adjuster from the center of the zeroing screen to the spot where the tracer flew over the zeroing screen 6 Proceed down range and measure the distance in cm from the centre of the circle on the zeroing screen to each round both in azimuth and elevation Record the readings on the registration form and then a calculate the MPI in cm by adding the columns determining the difference and dividing by three to find the MPI in cm for both azimuth and elevation b mark the MPI on the zeroing screen with red paint mark or cover the previous shots on the screen and return to the Cougar e have the gunner lay 900 m aiming mark on to the centre of the zeroing screen using the hand traverse and elevation unlock the graticule adjusters and move the graticule using the graticule adjusters to the MPI on the zeroing screen and lock the graticule adjuster once completed 7 Confirm that the difference between total column and physical Reading column at No 7 on registration form is no greater than 0 2 mils otherwise repeat paragraph 6 a b c 8 Relay t
141. ect the condition of all ammunition and stowage containers HATCHES SEATS INTERNAL LIGHTS Hatches seats internal lights Test Operation STOWAGE Stowage Check internal and external stowage HEATING AND VENTILATION UNIT Heating and ventilation unit Check operation MONTHLY SERVICING Monthly servicing is carried out on the following instances upon reception of a refitted or new vehicle including the four monthly tasks at least once a month just prior to a firing period or imminent usage and after firing Elements to be checked Actions to be taken Lubricant MAIN ARMAMENT Bore and chamber Clean inspect re oil if no firing is expected within 72 hours Breech block and striker Strip clean inspect lubricate Striker protrusion Test Reassemble breech block and insert in the breech ring Breech closing spring Test Firing gears Clean inspect lubricate Test O operation of electrical and mechanical Phosphor bronze bushing Clean and grease Y Gauge plug and bore Pass the gauge through the bore MACHINE GUN Remove if mounted Mounting Clean inspect lubricate check security including exit chutes and trunking Gun Strip clean inspect lubricate carry O out seven point check during reassembly Firing gear Mount machine gun Test operation SMOKE GRENADE DISCHARGERS Smoke grenade dischargers Service and test circuits
142. ed down The trigger cams engaged with the sear cams force the sear down This releases the firing pin shoulders from their engagement with the sear notch The firing pin is forced forward by the expansion of the firing pin spring thereby striking the primer and exploding the cartridge UNLOCKING 6 At the moment of explosion the recoiling parts are locked in their forward position The bolt is locked to the barrel extension and against the rear of the barrel The breech lock is positioned on top of the breech lock cam and fully into its recess in the bottom of the bolt 7 The firing pin strikes the primer exploding the cartridge This explosion forces the recoiling parts to the rear During the first 8 mm of travel there coiling parts remain locked together During the next 8 mm the bolt becomes unlocked from the barrel extension and moves freely to the rear away from the barrel see Figure 11 9 3 When the breech lock rides down off the breech lock cam it unlocks and is forced down by the breech lock depressors on the lock frame acting on the breech lock pin The barrel depressors on the lock frame act on the breech lock pin The barrel and barrel extension move a total of 1 6 mm to the rear 8 The rear of the barrel extension strikes the curved surfaces of the accelerator which causes it to pivot to the rear As the accelerator rotates its tips strike the lower projections on the bolt accelerating its movement to the rear As the bolt
143. ed daily for at least 72 hours after firing 3 days SERVICING THE MACHINE GUN CRADLE 12 Clean all traces of carbon from the cradle including outside the ballistic cap 13 Ensure that the bolts holding the cradle to the mantlet and the four alien screws on the link exit chute are tight 14 Lightly lubricate the trunnion pins with oil 15 Wipe all unpainted surfaces with an oiled cloth SPECIAL CONDITIONS 16 Sand or Dust Sand or dust will affect the mechanism of the machine gun by creating friction on the working surfaces and causing rapid wear of these parts The machine gun should be stripped and cleaned frequently Lubrication should be reduced to a minimum The working parts must be lightly oiled to prevent rust and to lubricate the gun during firing Keep the outer and non frictional surfaces of the gun absolutely dry The bore should be protected by a flimsy paper muzzle cover which can be blown off when the gun fires I Cold Conditions If oil 3GP 335 is not available dispense with all lubricants rather than use those which would congeal To avoid condensation clean the machine gun outside heated shelters 18 Tropical Conditions In tropical climates humidity is high so special precautions must be taken to prevent rust The machine gun must be stripped clean and inspected for rust and re oiled frequently All lubricating oils should be carefully strained before use to remove water Oil containers should be kept tightly sealed
144. efective boit Load the gun Figure 11 7 4 Method of Setting Up SECTION 8 THE 7 62 MM MACHINE GUN MOUNTS GENERAL 1 The machine gun 7 62 mm GPMG C5 can be mounted coaxially to the main gun or used on the M2 tripod in the ground mounted role THE COAXIAL MACHINE GUN CRADLE 2 The Cradle The cradle is in two parts the front part 15 fixed to the mantlet on the left of the 76 mm cradle by four bolts the link exit chute and spent casing chute form the other part of the MG cradle These parts are secured to the MG cradle by four alien screws The machine gun is held by two trunnion pins The forward one is threaded and is tightened by a tommy bar held captive by a chain attached to the cradle The rear pin is not threaded but is the push pull type held captive by a chain attached to the MG cradle NOTE Any adjustment to the machine gun mount is carried out by a weapons technician The crew needs to only check security 3 The Link Exit Chute and Spent Casing Chute This chute is formed in the bottom of the rear part of the cradle The chute is surrounded by the circular attachment for the spent case trunking it also incorporates the exit for the links which are expelled from the right side of the MG At its lower end the trunking is attached to the top of the frame supporting the spent casing bag at the front of the main armament gun basket A hole in the top of the chute allows the entry of the link casing clearing tool
145. em It is fitted in the top case by a pivoting mount and trunnions Tilting the mirror will raise or lower the line of sight The angle of the mirror is controlled by rotating the object mirror tilting control on the left side of the sight COMMANDER S RADNIS 16 The Radnis comprises optics for both day and night viewing It consists of an upper case which contains a movable object mirror and the main case which houses the remainder of the optical systems with their mechanical components An electrical connector is located on the lower left front of the sight 201816 141210 8 6 4 2 2 4 6 B 10 12 14 16 18 20 ti 4 4 4444 4 MBS76 MBS MG E phequ up S 6 sie 2 6 A 4 poc Ppa x 8 8 9 3 EE ae 10 DRE ee 10 PEER ee AE um 11 EOR 127 x SR he 12 13 ET 13 I i 4 14 poe MA 15 15 16 16 17 o 17 i mer ie ee Le 18 3 19 e 19 20 E i 2 Figure 6 1 3 Day Graticule Pattern Sights 2018161412108 6 4 2 246 Kl Prrrer rere 8 10121416 18 20 AUi Goes 7MILLI ME SIMBLEAU DE BOUCHE 76mm TN SIMBLEAU DE BOUCHE MG B 5 POINT DE VIS E BATAILLE 6 POUR OBUS HE HESH MG 7 _ gud 7 POINT
146. ement de syst me de mise feu Guide en plastique Percuteur Amorce Orifice d tranglement Ailettes en plastique Fus e clairante Sens de tir Figure 13 4 4 Page 2 of 2 Flare Parachute Hand Fired C3 SECTION 5 PERSONAL ANTI ARMOUR WEAPON PERSONAL ANTI ARMOUR WEAPON M72A1 and M72 A1E1 1 The 66 mm HEAT rocket M72A1 and 72 1 1 is a lightweight self contained anti tank system consisting of a rocket packed within its own launcher When issued the launcher serves as a watertight packing container for the rocket However when the launcher is placed into the firing position it serves to ignite and guide the rocket on its initial flight toward the target The launcher houses a percussion type firing mechanism to activate the rocket 2 Description A description of the Personal Anti armour Weapon PAW is as follows a Launcher The launcher for the M72A1 and 72 1 1 is composed of two concentric tubes The inner tube is oriented to the outer tube by a channel assembly which rides in an alignment slot in the trigger assembly The outer tube has the following parts fixed to it 1 the trigger housing assembly located on the upper surface of the outer tube 2 trigger assembly 3 trigger safety handle 4 rear sight assembly 5 front sight assembly and 6 rear cover The inner tube is constructed of aluminium It will extend telescopically along the channel assembly which houses th
147. ength of gun weight 1 gun 2 tripod 3 barrel 4 pintle elevating and traversing mechanism 5 220 round belt of ammunition in a cardboard metal box d sight range system of operation cyclic rate of fire 2 range 7 62 mm 86cm 14 kg 5 kg 3 2 kg 1 6 kg 7 4 kg 2000 m gas assisted recoil and spring 500 600 rounds per minute up to 1500 m depending on observation muzzle velocity approximately 846 m per second j trace burn out 850 to 1200 m k effective range 700 m Characteristics The operating characteristics of the GPMG are described below a Sustained Accurate Concentrated Volume of Fire It is belt fed and has a heavy mechanism b Accurate Fire at Night Targets can be engaged effectively at night using artificial white light or by mounting an II sight The weapon can also be fired very effectively at night on fixed lines however preparation must be made during daylight hours c Effective Fire at Longer Ranges The maximum effective range is 1500 m if the GPMG is mounted on a tripod or fixed mount and observation conditions are ideal d Small Target Due to its low silhouette on the tripod it presents a small target e Flexibility The gun can engage targets rapidly when mounted on a vehicle or without moving the tripod when it is ground mounted f Mobility The gun and equipment can be carried by three individuals or can be mounted on a vehicle and g Dis
148. ent This adjusts the focus of the telescope 5 The MIN RNG Spring Loaded Push Button Switch This switch displays the minimum range setting on the RANGE METRES display 6 The PWR ON Switch This switch turns on the laser range finder 7 The Graticule Pattern This provides the operator with sighting axis the centre 1 mil circle is the aiming point 8 The MULT TGT Indicator This indicates more than one target within the one mil circle during a ranging 9 The RANGE METRES Display This displays in metres the distance to target or the minimum range setting 10 The LOW BATT Indicator This indicates that the battery needs to be replaced 11 The FIRE Switch This is pressed and held until the range appears the appearance is then noted 12 The MIN RNG SET Control This control sets the minimum range 13 The ON Switch This illuminates the graticule 14 The Control This adjusts the brightness of the graticule pattern 15 The Battery Cover This provides access to the battery compartment for battery replacement or installation of the external power cable 16 The Eyepiece Lens Cover This protects the lens when it is not in use PREPARATION FOR USE LA To prepare the laser range finder for use first remove the range finder from the carrying case and perform a visual inspection for physical damage 18 To determine if a battery is installed or if the battery needs to be replaced use the followi
149. er traverse control handle Traverse gearbox Hamess Power traverse control unit To driver s safety switch connection on Rotary base junction RBJ Electrical hamess N Alimentation du char Poign e de commande M canisme de pointage en direction Faisceau de fils Bloc de commande Vers l interrupteur de s ret du conducteur connection au RBJ ite de junction rotative Faisceau de fils lectriques Figure 5 2 5 Diagrammatic Arrangement of Power Traverse SYSTEM el SJ Gear housing Rubber gaiter Gaiter securing clamp Hinge pin Trunnion Securing bracket Shaft housing Clicker device Handwhee Handie with firing switch CO no Din o9 ow Logementes engrenages Gu tre en caoutchouc Attache fixation de la gu tre Tige d articulation Tourillon Support de retenue Logernent de l arbre Dispositif cliquet Volant 10 Poign e avec d tente de tir Figure 5 2 6 Elevating Gearbox Roller bearing Elevating gear nut Roller bearing Roulement galets crou d engrenage de pointage en hauteur Roulement galets 1 Elevating gear screw 1 Vis d engrenage de pointage en hauteur 2 Gimbal bearing 2 Palier cardan 3 bearing 3 Roulement billes 4 Handwheel shaft 4 Arbre du volant 5 Ball bearing 5 Roulement billes 6 Seal 6 Bague 7 7 8 8 9 9
150. es on the right sponson and 10 boxes on the left sponson and e three boxes on the floor under the gun basket 4 Smoke grenades are stowed as follows a eight grenades fitted in the dischargers and b eight grenades in stowage bins fitted externally to the right side of the turret 5 There ten anti personnel grenades in the stowage bin located inside the vehicle left rear 6 Signal flares are stowed as per SOP 7 Four para flares should be in the stowage bin located on the fire wall below the first ad kit stowage bin 8 Three M72 PAW are in the stowage receptacles located on the hull roof to the rear of the vehicle 8 9 mm ammunition may be stowed in the following locations a 10 round magazines fitted to weapons b three 30 round magazines stowed left forward of the commander e three 30 round magazines stowed left forward of the gunner and d three 30 round magazines stowed to the right rear of the driver 9 Three M72 PAW are in the stowage receptacles located on the hull roof to the rear of the vehicle CHAPTER 14 GUN DRILLS SECTION 1 INTRODUCTION GENERAL 1 To provide a uniform system of orders and actions for handling the weapons and equipment a system of drills has been devised These drills must be carried out as ordered to a save time and reduce the possibility of misunderstanding an order b ensure an automatic reaction to a familiar order understress and c for standardization to assist replacement cre
151. f the gunner s position Power for the sight is provided by the batteries and the circuit is protected by a 15 amp fuse on the Radnis control unit The following switches and connectors are located on the box a the power switch for the sights is an ON OFF toggle switch situated on the bottom right corner of the box b the wiper switch for the sights is an ON OFF toggle switch situated on the top right corner of the box c the heater switch for the sights is an ON OFF toggle switch situated between the power and wiper switches A warning lamp is also provided d the power input is connected to a plug situated on the top left corner of the box PL 10 in Figure 6 1 7 and e two output sockets that allow connection of the Radnis Sights are SKT 9 and SKT 19 in Figure 6 1 7 NOTE With the heater switch in the ON position it will cut out the power supplied to the graticule illuminations bulbs 27 Graticule Adjuster Knobs These are located on the right side of the main case The upper knob vertically adjusts the graticule for both day and night The lower knob adjusts the graticule horizontally Each adjuster is marked every 11 5 mil numbered every 2 mils and has a run of 0 24 mils A locking lever is provided for both 28 Day Night Selector This is located on the lower right side of the sight It is a lever with two positions UP for day and DOWN for night WARNING Do not select night optics DOWN POSITION during daylight
152. f the gunner s position It is a semi rotary switch with an ON OFF position When the turret master switch is turned to the ON position it provides power to the turret if the hull master switch is also positioned ON TURRET FUSE BOX 3 The turret fuse box is secured on the turret wall to the right of the gunner The various circuits are protected by 10 amp fuses The toggle switch located top centre of the fuse box is not used The electrical connection below fuse F13 is used to provide power to the spotlight information required regarding fuses is located on a colour coded identification plate directly above the fuse box A Cougar without Radnis has a black fuse box and a Cougar with Radnis has a red one RADNIS CONTROL UNIT 4 If the Cougar is fitted with Radnis there will be an additional control unit with two additional fuses The 3 amp fuse protects the commander and gunner s sight wipers The 15 amp fuse protects the electrical system for Radnis The control unit is mounted on the turret to the right of the gunner 1 Connector to turret master switch 1 Connecteur pour l interrupteur principal de 2 Connector to driver s traverse safety switch la tourelle 3 Connector to the radio facilities driver 2 Connecteur pour l interrupteur de s ret conducteur 3 Connecteur pour les installations radio conducteur Figure 4 2 1 Turret Rotary Base Junction Figure 4 2 2 Turret Master Switch Fi
153. fety switch b switch the gunner s selector to OFF and c move the foot firing pedal locking bar to the UP position UNLOAD 6 To unload an unfired round use the following sequence a trip the loader s safety switch b switch the gunner s selector to OFF c move the foot firing pedal locking bar to the UP position d open the breech supporting the round as it is ejected until the cartridge rim is clear of the breech ring and e fit a base clip on the cartridge then completely remove the round from the gun and stow it EASE SPRINGS 7 To ease the springs use the following sequence a close the breech b fire the action by means of the electrical firing circuit the loader s safety switch should be made prior to giving order or c fire using the foot firing pedal TO REMOVE A JAMMED CARTRIDGE 8 Jammed cartridges are usually the result of badly stowed or damaged ammunition or a dirty chamber If a cartridge is jammed and cannot be removed by leverage of the BML it will be removed with the key removing jammed cartridge No 9 Mark 2 which consists of the following a a rectangular bar with a hole drilled through the centre which is fitted with two pintles at either end b a spindle with a threaded head and a partially threaded shaft c a handle which is internally threaded and d a tool removing multi primer remove the jammed cartridge the commander will a unscrew the primer by means of the pintles
154. ficient oil in the system T The only way to ensure that the buffer expansion tank assemblies are properly charged with oil is to follow the procedure outlined above CHECK THE RECUPERATOR 8 To check the recuperator use the following procedure a check that the recuperator nitrogen pressure is not less than 200 PSI If it is report C this to a weapons technician check the tell tale rod at the rear of the hydro pneumatic cylinder If it has reached the CEASE FIRE position report to a weapons technician and check the system for leaks security and cleanliness SET THE RECOIL INDICATOR 9 To set the recoil indicator use the following procedure clean and lubricate the indicator b push the slide until the white line of the slide is in line with the line marked NORMAL on the bracket and c loosen the three retaining bolts slide the bracket until there are 28 cm from the rear face of the breech ring to the end of the lug on the slide and then tighten the retaining bolts 10 After firing the first round check the relative positions of the lines on the slide bracket If the line on the slide is on or past the CEASE FIRE line the gun must not be fired until the recoil system has been checked MONTHLY SERVICING 11 The recoil system must be checked by a weapons technician at monthly intervals or every 250 rounds The gun is pulled back and the buffer piston rod is checked for scoring and free rotation SERVICI
155. forward to take the pressure of the breech block off the extractors b press forward on the extractors and allow the breech block to rise under control until fully closed e release the operating lever return the BML to the fully forward position and ensure that it is engaged by the BML catch and d fit the SRB if no further actions are to be carried out on the gun LOAD ES To load the following procedure is used a open the breech b select the nature of ammunition required insert the nose of the round into the chamber and remove the base clip c with the knuckles of the right fist push the round fully into the chamber d make the loader s safety switch by pulling the operating lever to the rear and e report Loaded TO FIRE 4 To fire the gun use the following procedure a electrical firing gear 1 set the selector switch to MAIN check that the red indicator light and gun ready light are illuminated 2 report Firing now press the firing switch on the elevating handwheel then release the firing switch and b using the mechanical firing gear 1 report Firing now press the foot firing pedal and then remove foot from the pedal and 2 to fire from make safe the locking bar must be disengaged from the foot firing pedal NOTE To avoid injury crew commanders must ensure they are clear of all recoiling parts MAKE SAFE 5 To make safe use the following sequence a trip the loader s sa
156. four ball to one tracer Tracer burnout 15 from approximately 0 850 to 1200 m depending on the barrel temperature Belts hold 220 rounds at a ratio of four ball to once trace esse no 2 pjio29eH 0 awe 6ur420 UOISUBXA jaueg jaueg do Figure 11 2 1 Barrel Components eue Sd109 uoddns np SIA yoddns ap SIA JneBuojd np euisiueoogyWw oDeues ap SIA JUBJUON JUBAE anw EI SWE 19AI1928H M S poq 194921g M919S Buyo07 usiueuoeul 1eBunjg M S juno apeiq 146 5 4 f i6 oi Qi f i0 OR Figure 11 2 2 Front Sight Elevation adjuster Elevation scale Windage screw Windage scale BON BON Vis de r glage de pointage en haute Echelle de pointage en hauteur Vis de correction en azimuth Echelle de correction Figure 11 2 3 Rear Sight SECTION 3 HANDLING TO PROVE THE GUN 1 Safety precautions must be rigidly observed at the start of and during all training periods or at any time when live firing takes place 2 To prove the gun use the following procedure a pull the bolt to the rear and engage the cocking handle on the rear cocking handle guide bracket b raise the cover e inspect the interior of the receiver and chamber d allow the bolt to go forward under control e brush the extractor down f ensure that the stud on the
157. g box screws into the rear of the cylinder It is machined internally to receive a set of chevron packings the piston rod bearing and a seal housing The screw plug and washer seal the oil filler hole in the top rear of the cylinder 8 Operation As the gun recoils the piston rod attached by the bobbin to the yoke is drawn out of the cylinder Oil in the rear of the cylinder displaced as the piston head moves rearward flows over the piston head through the shallowing grooves into the front of the cylinder The reduction in flow space in the shallowing grooves combined with an increase in the recuperator nitrogen pressure absorbs the recoil energy gradually which brings the gun to a halt 9 When the nitrogen pressure reasserts and run out commences the piston rod since it is attached to the yoke is forced into the cylinder the piston head moving forward in the cylinder forces oil over the piston head through the shallowing grooves into the rear of the cylinder The resistance to the oil flow decreases and the depth of the grooves increases At 76 mm from the fully run out position the control plunger enters the control chamber The clearance between the control plunger and chamber allows oil to be displaced from the control chamber at a rate which cushions and provides a final control to run out THE REPLENISHER 10 Components The replenisher is bolted to the mantlet above and to the right of the cradle A flexible oil pipe conne
158. gure 4 2 3 Turret Fuse Box Figure 4 2 4 Radnis Control Unit THE POWER TRAVERSE CONTROL UNIT 5 The power traverse control unit is mounted in the rear of the turret on the turret flange it controls all functions of the power traverse system It is independent of the turret fuse box and has a 25 amp circuit breaker THE GUN SELECTOR SWITCH BOX 6 The gun selector switch box is located on the turret wall to the right of the gunner s sight It has a three position switch CO AX OFF and MAIN This box has three lights the orange light illuminates when CO AX is selected the red light illuminates when MAIN is selected and the red Gun Ready light illuminates when the loader s safety switch is made and MAIN is selected The lights brilliance can be controlled by rotation of the plastic covers TURRET LIGHTS 7 Two turret lights mounted in the to provide white light only Each has rheostat to control the brilliance CREW COMMANDER S MAP READING LIGHT 8 The crew commander s map reading light is mounted on the turret roof it provides the crew commander with a light for map reading at night The light can be stowed by a clip when not in use and has a rheostat to vary the brilliance The flexible rod by which the light is extended provides the commander with map reading facilities without having to hold the light It has a 24V 5W double contact push pull type bulb e _ Figure 4 2 5 Th
159. h c rotary base junction d turret master switch e turret fuse box f gun selector switch box this must be set at MAIN and the red light illuminated g foot firing pedal which is positioned on the turret floor in front of the gunner it consists of a hinged pedal and electrical switch which only operates when the gun selector switch is at MAIN and h solenoid VEHICLES FITTED WITH RADNIS 7 The commander s and gunner s Radnis sights are fitted with a protection shutter This shutter operates only when the Day Night switch is at NIGHT and the main gun is fired using the electrical firing circuit It does not operate in the DAY mode or when firing CO AX The timing and signal control is located in the Radnis Control Unit Stirrup Inner bowden cable Lock nut Bowden cable adjuster Solenoid core Horizontal rod Pivoted lever OM trier C ble bowden int rieur Ecrou de blocage Ecrou de r glage du cable bowden Corps du sol noide Tige horizontale Levier pivotant Figure 5 4 1 76 mm Firing Gear SNDINVOJN ww 92 30 VOINVHOIN NONVO HIL NN 31W03d 3n01H1937 7V9141937 ONIUIS 92 ng 313uns 30 METRE CENT 105 H IAFT HOLIMS AL33VS GION310S 13431 ND SES
160. h handling storing phosphorus ammunition should be familiar with the first aid methods for burns or phosphorous contamination 2 The following first aid is to be administered to any person burned or contaminated by phosphorous a if possible immediately immerse the burned area in water or pour liberal quantities of water over the burned area NOTE No other preparation is to be used as phosphorous is soluble in oil or grease and may be absorbed into the system resulting in poisoning b apply a large wet dressing and ensure that it is kept wet or burning will recur and d If phosphorous is splashed into the eyes of an individual thoroughly flush the eyes with water and apply a wet dressing in the form of a pad This dressing is to be kept wet by pouring water onto it it is not to be removed or allowed to dry because burning will recur WARNING No preparations found in the vehicle first aid kit are to be included as part of the first aid treatment for phosphorous burns CHAPTER 11 MACHINE GUN 7 62 MM C5A1 SECTION 1 INTRODUCTION GENERAL 1 The 7 62 mm general purpose machine gun GPMG C5 A1 came into general issue in the Canadian Forces in 1978 it replaced the 7 62 mm GPMG C1 Both guns are similar in appearance in fact the 7 62 mm C5 GPMG is basically a C1 GPMG with a number of components remachined and repositioned in the gun PARTICULARS AND PERFORMANCE 2 The particulars of the GPMG are a calibre b l
161. he 900 m aiming mark on the centre of the zeroing screen using the gun controls and fire one confirming round the confirming round should be close to the centre of the tgt or at least on the shooting in screen NOTE If the zeroing round only can be fired the following procedure will be followed boresighting as per 1 add standard values difference between boresighting and zeroing values fire 1 round as per 9 and if the projectile hits the zeroing screen the gun is considered zeroed NOTE Last lay always in depression with a round in the chamber and last lay always in elevation with the boresight in the muzzle end 9 To check boresighting b return to prerecorded boresighting values order the gunner to lay MBS 76 mark of the sight graticule on the centre of the aiming circle ending the last lay in elevation check that the boresight dot is again in the centre of the aiming circle and if not re boresight as per complete procedure stated in B GL 305 007 MS 002 NOTE When confirming if the round misses the zeroing screen the crew will check the following gunner s actions settings on graticule adjusters boresighting and 1f no fault is found re zero SECTION 3 VISUAL BORESIGHTING NO BORESIGHT PROCEDURE 1 To prepare and adjust the system use the following procedure b complete servicing and testing the sighting equipment place the vehicle on firm level ground if possibl
162. he buffer which also serves to secure and lock the buffer to the mantlet The recuperator 1s also secured to the mantlet The gas laser simulator bracket can be mounted on the mantlet using the four drillings provided A canvas protective cover bolted to the mantlet prevents entry of foreign material between the barrel and the phosphor bronze bushing Coaxial mounting Asbestos shield Replenishe U P ig strip Min Bouclier Berceau de la mitrailleuse coaxiale Ecran d amiante Jande d tanch it du bouclier Tourilions Campensataur Figure 3 1 1 Mantlet Interior View THE CRADLE 4 The cradle see Figure 3 1 5 supports the barrel in two phosphor bronze bushings These are positioned internally at the front and rear of the cradle Two grease nipples for lubricating the bushings are positioned on the right rear side of the cradle Three welded lugs secure the cradle to the mantlet Attached to the cradle are the following components a the firing gear b the quadrant fire control QFC c the anti rotation keyway d the hydro pneumatic cylinder e the support bracket for the buffer f the deflector guard g the connector for the elevating mechanism h the loader s safety switch and j the semi automatic cam 5 The firing gear is secured on the right hand side of the cradle by three bolts It consists of the following components a b the electric firing so
163. he locking nuts and plunger assembly securing bolts after establishing the correct line up position pull out the plunger and rotate the sight away from the object and f rotate the sight back to the line up position and check that the MBS 76 mark has returned to the object 4 Commander s Radnis If the MBS 76 mark is not correct for line adjust the graticule using the azimuth graticule adjustor If there is insufficient adjustment report to a technician SECTION 5 EXAMPLE CALCULATION OF THE MEAN READING PROCEDURE 1 After boresighting record the following readings on the boresighting knobs a elevation 2 4 mils and b deflection 1 8 mils 2 Rotate the boresight 3200 mils the dot in the boresight 15 out of the 16 cm circle The gunner should now readjust to the centre of the circle Final readings on the boresight knobs are a elevation 2 8 mils and b deflection 1 4 mils 3 Now add the two together for both elevation and deflection and divide by two 2 Elevation 2 4 Deflection 1 8 2 8 14 5 2 3 2 5 2 2 2 6 3 2 2 1 6 Elevation 2 6 Deflection 1 6 4 The commander should now have the gunner put these readings on the boresight knobs a Elevation 2 6 and b Deflection 1 6 GENERAL SECTION 6 ZEROING 1 After the sighting equipment has been boresighted it is important to confirm the gun sight relationship by firing a number of rounds onto a target at a range appropriate to
164. hes to the ON position b set the gun selector switch to MAIN ensuring that the indicator light illuminates and report Firing now and press the foot firing pedal downward 8 To fire the MG mounted on the tripod raise up on the trigger TO MAKE THE GUN SAFE 9 To make the gun safe the cocking handle is pulled fully to the rear and held for five seconds then engaged on the rear guide bracket TO LOAD FROM THE MAKE SAFE 10 To load from the make safe position the cocking handle is pulled to the rear and up then is released TO UNLOAD THE GUN ACTION FORWARD 11 unload the gun use the following procedure 2 pull the cocking handle fully to the and hold for five seconds engage the cocking handle on the rear guide bracket open the cover and remove the belt pull the cocking handle fully to the rear raise the extractor and with a screwdriver placed on the rim of the cartridge push down to clear the round or empty casing from the T slot on the face of the bolt re engage the cocking handle on the rear guide bracket inspect the chamber and the interior of the gun to see that they are clear and report Gun clear TO UNLOAD THE GUN MAKE SAFE POSITION 12 To unload the gun from the make safe position use the following procedure a open the cover and remove the belt b pull the cocking handle fully to the rear raise the e tractor and with screwdriver placed on the rim of the cartridge p
165. i pue BuisisAeil Buryiom pue uea eq pinous uoje jou 5 5891 U93e eAae s BUIS18A Aju 195 pesn Buieq 12edsui uge 42945 0497 0182 3e 195 00 18 195 55925001 004 3e 195 14615 1894 pue ueyqBn uee 5 403 46 5 104 159 5 14615 1014 pue sure pepeeu ji 195 Buuds Buryo eBneB 1981109 peGeBuesiBuudsBuryo OJ 158 19S 9H st Buloedspeay 4924 Oj 5 989 pue sued usxo1q sued 91nsu3 40 juaq UIOM 159 njout sued Aig pue ualdv 340434 SLUVd 1VIH3S pue ue9 9 dus pue Buueeq pue uee 5 1u04j10sseu1u8n 2945 Parts to Check Before During and After Firing Figure 11 11 1 CHAPTER 12 ANCILLARY SYSTEMS AND COMPONENTS SECTION 1 EXTRACTOR FAN DESCRIPTION 1 The extractor fan assembly is mounted on the front left side of the turret where it may be reached by the vehicle commander The assembly contains an axial flow fan and micro switch and outlet valve which are controlled by
166. i punos pesysiw eu uonoe ur jonas ueeq seu deo oui j e jeuiud eu jo deo ou pue unB y peojun sejnumu daou 193v L NOLLOV AHVINOO3S smvwm YAGNVWWOD NOILOV YINNND A8 NOILOY NOILVOIQNI vidas Figure 14 3 1 Sheet 3 of 3 76 mm Misfire Drill CHAPTER 15 SUMMARY OF ARMAMENT SERVICING SECTION 1 GENERAL SERVICING SUMMARY SERVICING GENERAL 1 The servicing requirement for the armament on the Cougar is based on the following four principles a the armament is kept in good operating condition by regular periodic servicing done at weekly monthly and quarterly intervals This will reduce to a minimum amount the essential servicing required immediately before firing b operational servicing should be reduced to a minimum This is essential to keep the armament completely battle worthy and is practical under operational firing conditions c the number of different servicing occasions must be kept to a minimum and d the servicing guide is flexible so it can be carried out under all conditions 2 The servicing guide is written in a logical sequence which must be strictly followed to if servicing is to be done in the shortest possible time and cover all items of the equipment 3 The sections in the servicing guide which cover before and during firing servicing have been written to include both peacetime and active service conditions Before firing servicing is not intended
167. iciency of locking devices and safety catches graticules are sharp and clearly defined and when looking through an instrument from the object end the internal optics can be viewed clean unfilmed and free of fungus or cracks When hand operated controls are fitted to an equipment they should be used by hand only Under no circumstances must mechanical aids be used to force them A technician should be informed immediately of any difficulty or malfunction GRATICULE LAMP 6 To change the graticule lamp a b C d set the graticule illumination switch to the OFF position slacken the screw on the lamp unit cover plate remove the unserviceable lamp and replace it with a new one and close the cover and secure it SERVICING THE SIGHT WASHER SYSTEM 7 The sight washer system will serviced as follows a keep the reservoir filled with water to the correct level during cold weather anti freeze will be used b check the operation of the system e check for clogged or leaking connections d report any defects to a technician NOTE It is important in dry conditions to operate the washer system before using the sight wiper This will prevent the glass surface from becoming scratched TEST FOR PARALLAX 8 Test for parallax as follows lay on to aiming mark at not less than 600 metres b rotate the head while looking at the aiming mark e if the graticule moves with the head then parallax is prese
168. iece on the sight box to the left NOTE If the laser filter is not completely in or out an error in boresighting will occur METHOD OF BORESIGHTING 4 The following method is used to boresight a order the gunner to lay the MBS 76 mark of the sight graticule onto the aiming circle of the screen look through the boresight eye piece and order the gunner to traverse and elevate as required until the boresight dot is laid on to the centre of the aiming circle the final movement of the gun is one of elevation order the gunner to adjust the sight graticule with the graticule adjusters so that the MBS 76 mark of the graticule is again in the centre of the aiming circle the gunner will now ensure that the graticule adjusters are firmly locked order the gunner to traverse and elevate off the target and then relay the MBS 76 mark of the sight graticule on to the centre of the aiming circle ending the lay in elevation check that the boresight dot is again in the centre of the aiming circle if the boresight dot is not in the centre of the aiming circle then 1 the gunner has made an incorrect adjustment or 2 the gunner s lay is inconsistent or 3 the fire control equipment is faulty NOTE If any fault stated in sulparagraph g is discovered it will be rectified immediately and the boresighting procedure will be repeated if there is no fault as stated in subparagraph g above the gunner will record the readings
169. if the pin is too long or too short it must be changed e to change the firing pin 1 remove the striker sleeve from the breech block 2 remove the screw securing the firing pin retaining nut from the striker sleeve 1 16 inch alien key 1 2 x 7 16 inch AF Spanner 3 remove the firing pin from the retaining nut and 4 change the firing pin assembling in the reverse order and f gauge the protrusion of the new firing pin TO TEST THE BREECH CLOSING SPRING 25 To test the breech closing spring use the following procedure examine the breech block guides for damage and ensure that the breech ring and breech block are correctly lubricated b ensure that the end cap is correctly assembled and c load the gun If the breech closes sluggishly or fails to close report to a weapons technician NOTE Whenever possible this test will be carried out with a drill round If a drill round is not available the test may be done with a live round provided that the striker mechanism assembly is removed SPARE PARTS AND TOOLS 26 All spare parts for the gun must be inserted and tested to ensure that they are serviceable and fit When they have been tested they will be oiled to prevent rust and stowed in the correct place in the Cougar Spares will be dry cleaned and inspected during gun cleaning as well as before and after firing Tools will be kept clean serviceable and if they are made of steel lightly oiled g
170. in front of the gunner The pedal has a pivoting safety locking bar which when raised prevents the pedal from being depressed the bowden cable extends from the foot firing pedal to a bracket on the right of the 76 mm gun cradle The cable adjuster is fitted into the bracket The inner cable passes through the bracket and is attached to a stirrup at the top of a pivoted lever The lower end of the lever contacts the horizontal rod which operates the firing lever mounted on the cradle and from the firing lever the circuit is completed the same as the normal firing circuit see paragraph 3 CAUTION When the 76 mm mechanical firing circuit is used the loader s safety switch is bypassed and provides no safety for the commander COAXIAL PRIMARY FIRING CIRCUIT 5 The coaxial primary firing circuit consists of the following components a batteries b hull master switch c rotary base junction d turret master switch e turret fuse box f gun selector switch box this must be set to CO AX and the orange light illuminated and 9 solenoid which is located on the rear of the mount and is connected into the circuit by a socket when the firing switch is pressed the solenoid moves a rod which operates the trigger on the machine gun COAXIAL SECONDARY FIRING CIRCUIT 6 The coaxial secondary firing circuit is used when the primary circuit fails It consists of the following components a batteries b hull master switc
171. ion produce the required effect For recognition the nose cap of the shell is painted golden yellow and the body is painted black Golden yellow stencilled markings on the shell body indicate the nature of the round and the type of filling The T symbol indicates that a tracer is fitted Gunpowder G12 82 grains Magazine Copper ball Plug Composition Q3 1 2 grains Anvil Cap Body Paper envelope Paper disc Model number ings Lot number initials or monogram of manufacturer year of make ings Lot number initials or monogram of filler date of filling month 9oouoonsipmo _ _ year 12 22 to 22 5 mm diameter 14 threads per in 56 threads per cm Explosif G12 82 grains Magasin Bouchon de mise jeu Composition Q3 1 2 grains Percuteur Capsule Corps de l amorce Enveloppe en papier 10 Disque en papier 11 No de mod le marques vide num ro de lot initiales ou monogramme du fabricant ann e de fabrication Marques apr s remplissage num ro de lot initiales ou monogramme remplisseur date du remplissage mois et ann e 12 Diam 22 amp 22 5mm 5 6 filets par cm Figure 13 1 1 Primer Percussion Quick Fire Cartridges No 15 Mark 5 10 Fuse Percussion Base Medium L19A5 The 1945 base fuse is a graze action detonating type which incorporates a delayed arming unit and a striker locking segment assembly locking ring No
172. iring pin Striker case Dismantling and assembly alignment groove Direction and instruction for dismantling Bent Striker lug Figure 2 7 2 Page 2 of 2 Striker Mechanism Assembly SECTION 8 MECHANISM GENERAL 1 Knowledge of the gun mechanism is necessary because it instills confidence in the crew allows them to handle the gun with understanding and permits them to diagnose any faults should they occur ACTION OF THE BREECH MECHANISM WHEN OPENED BY HAND 2 Breech Mechanism Lever The breech mechanism lever BML is released from the locked position by pressing the operating lever This disengages it from the retaining catch in the bracket on the breech ring With pressure maintained on the operating lever the BML is rotated rearward until the paw forced by a spring engages in the recess on the actuating shaft 3 Withdrawal of the Firing Pin With the operating lever still pressed downward rotation of the BML causes the actuating shaft and the crank to rotate The initial movement brings the crank from its position at forward of top and dead centre breaking the mechanical lock During this movement of the crank and before the breech block starts to move the cocking link is forced to the rear by the cam groove on the crank bearing against the projection on the front of the cocking link The lug on the upper surface of the cocking link being in contact with the rear projection of the lug on the striker forces
173. is one of depression the commander will now check that the cross threads on the muzzle are correctly positioned on the object if they are the sight is adjusted correctly if they are not the adjustment must be carried out again and replace the striker mechanism assembly SECTION 4 CONVERGING THE COMMANDER S SIGHT GENERAL 1 For the commander to accurately lay the gunner on the line the commander s and gunner s sights must be properly aligned PREPARATION 2 To converge the commander s sight to the gunner s the following procedure will be followed a select a well defined object at a range of not less than 2000 m order the gunner to lay the MBS 76 mm mark of the sight graticule on to a specific point on the object and maintain the lay throughout the period of adjustment and b move the commander s sight to the line up position ensuring that the plunger is engaged in the recess for Radnis ensure graticule adjusters are at the centre of their run Adjust the tilting mirror in the commanders sight so that the object is visible through the X10 eye piece ADJUSTING THE SIGHT 3 Sight Armoured Vehicle No 71 If the MBS 76 mark is not correct for line adjust the position of the sight mounting as follows a loosen the two plunger assembly securing bolts b loosen the two locking nuts securing the adjusting bolts e rotate the adjusting bolts until the MBS 76 mark is on the same aim point as the gunner d tighten t
174. is positioned below the X1 window It is fitted with a heater which can be switched ON or OFF by a switch on the right underside of the sight mount The eyepiece can be focussed by rotating the focussing adjuster A face mask fits over the eyepiece and can be positioned for either left or right eye viewing 8 A graticule pattern is incorporated within the eyepiece Illumination is provided by a lamp unit situated in the bottom of the sight The lamp is controlled by a switch and a dimmer located on the right side of the sight Two graticule adjusters are fitted to the sight The deflection adjuster is on the left side and the elevation adjuster is on the bottom of the main case Both are calibrated in mils from 0 to 36 numbered every 2 mils and graduated in fifth of a mil intervals Each adjuster has a locking lever 9 A laser filter is contained within the sight The position of the filter is determined by control on the right side of the sight on which the positions IN and OUT are engraved 10 The electrical circuit of the sight is protected by fuse F1 on the turret fuse box GUNNER S RADNIS 11 The gunner s Radnis is similar to the commander s Radnis except that the movable object mirror is linked to the gun by a link bar Therefore this sight does not have the object mirror tilting control The gunner may elevate or depress the gun to vertically change the view The sight cannot be rotated 12 Transit Lock The gunner s Radnis is provi
175. itional marking or words may be applied at the discretion of national authorities but must never be of a size greater than that used to indicate the calibre Canadian Transport Commission CTC shipping nomenclature is applied to all ammunition offered for transport by rail in Canada Usually it is stencilled directly on the container it may however be applied in the form of a label NATO stock numbers and DND the ammunition code gross weight shipping volume Government Explosive Group GEG and Safety Distance Category SDC are applied either by stencilling or in the form of a label miscellaneous markings such as package number or special depot CFAD marking and packages containing mixed lots of SAA have a functional lot number assigned and the word FUNCTIONAL precedes the word LOT After the word LOT the letter B or 1 is added to indicate if the ammunition is packed in web befits B or metallic link belts L SYMBOLS TO DENOTE THE TYPE OF SYMBOLES INDIQUANT LE TYPE D EMBALLAGE niii ill 1 LINKED 2 BELTED 3 CLIP OR CHARGER BANDE ARTICULEE CEINTURON ATTACHE OU CHARGEUR 4 BANDOLIER BANDOULIERE BANDOLIER CONTAINING CLIPS BANDOULIERE AVEC ATTACHES on 7 BULK CARTON pm NO SYMBOL EN VRAC BOITE DE CARTON AUCUN SYMBOLE BANDOLIER CONTAINING LINKED ROUNDS BANDOULIERE ARTICULEE Figure 13 7 3 Symbols Denoting Type of Pack for Small Arms Ammunition SYMBOLS DENOTE THE NA
176. ject target b note which part of the graticule aligns with the other object fall of shot and calculate the difference in mils each vertical line on the graticule 15 10 mils from the adjacent vertical line 10 MILS 5 MILS r Figure 12 4 1 Graticule Pattern Binoculars 7 50 ELCAN PERISCOPE AV NO 48 EPISCOPE VCB NO 48 PERISCOPE AV NO 43 EPISCOPE VCB NO 43 Figure 12 4 2 Periscope Armoured Vehicle No 48 and No 43 SECTION 5 THE LASER RANGE FINDER GVS 5 THE LASER RANGE FINDER GVS 5 1 The laser range finder 1s designed to quickly and accurately measure the range to target thereby increasing the possibility of a first round hit It is an individually operated portable distance measuring device capable of determining the range to targets to an accuracy of plus or minus 10 m PARTICULARS AND PERFORMANCE 2 The particulars and performance of the laser range finder GVS 5 are as follows a name laser range finder GVS 5 b operating temperature 10 C to 52 C burst rate 6 ranging minute for 2 minutes d sustained rate 2 ranging minute e sighting telescope X7 magnification f ranging data Range 200 9990 m in 10 m increments 10 m g dimensions 8 2 cm high 22 5 cm deep 20 5 cm wide h weight with battery 2 6 kg DESCRIPTION AND COMPONENTS 3 The Objective Lens Cover This protects the lenses when they are not in use 4 The Eyepiece Focus Adjustm
177. l filling hole is positioned at the top rear of the body it is sealed by a plug and sealing washer groove is cut across the plug threads allowing oil to bleed from the replenisher when the plug is loosened A push rod bearing and Q ring seal are housed in the body The left side of the body is drilled and tapped to receive the oil pipe union 12 The end cap seals the front of the cylinder The cap provides a seat for the piston return springs and a housing for the air filter and front push rod seal The push rod passes through the replenisher it is a guide for the piston and it also functions as a tell tale rod 15 The piston comprised of a piston head two packings Qrings and a washer is retained on the push rod by a circling Inner and outer piston return springs fit in the cylinder between the piston and the front end cap 14 Operation Oil from the buffer cylinder expanding due to temperature rise flows through the flexible connecting pipe into the replenisher The replenisher piston is forced forward compressing the piston springs As the oil contracts during cooling the compressed piston return springs reassert forcing the piston to the rear and returning the oil from the replenisher into the buffer cylinder Air flows through the air filter in the end cap during the operating cycle relieving pressure on the front piston packing during expansion of the oil and preventing a vacuum in the front of the cylinder as the oil returns to
178. la d tente l obturateur revient au point mort En cours de trajectoire la force centrifuge carte la d tente de l axe du projectile et la cale sous la saillie interne du corps Figure 13 1 5 Page 2 of 2 Fuse Nose Percussion Direct Action L17A6 uoisindxe p eBieuo 219 eipnog 008 Nd 252 HS uonisoduio neeuuy puo ep ep uoyonde LE LYN 06 ou e esiu ep eesny ep SIA jueujejosi p enbsiq epin6 enBeg ajjepuoy eueDiun neeuuy astoen cn 1e1sing Jepmodun zue 008 Nd uonsodwog 292 HS uonisoduo Bul Buyees Jeqqny J A09 asny M S Jee L 10 LUN ON euin asny 12 195 ejeid ayyeg pueq unuq jeuseM Sun O CO sf 10 00 OD Figure 13 1 6 Shell 76 mm Armd C Smoke BE Figure 13 1 7 Page 1 of 2 Fuse Nose Time 390 Detonator holder Cap Spring Top ring Filled Markings mark number added lot number initials or monogram of filler date of filling month and year Detonator 1 to 9 grams LP Securing pin preventing top ring fr
179. le of the elevating handwheel 76 MM GUN FIRING CIRCUIT 3 The 76 mm gun firing circuit is completed as follows a the loader s safety switch is mounted on the underside of the semi automatic cam bracket which is attached to the gun cradle There are two operating levers one located on top of the box to make the switch work which must be pulled to the rear The other lever is located on the underside of the box and is used to manually trip the safety switch by pushing the lever forward When the gun fires a cam on the breech ring automatically trips the switch the solenoid is mounted on the right side of the cradle The rear of the solenoid core 15 in contact with the front end of the horizontal rod This rod is in contact with the firing lever mounted on the cradle the firing lever is attached to the cradle and exert pressure on the firing plunger the firing plunger is mounted on the breech ring and when pressed inward by the firing lever it presses on the sear the sear is mounted in the breech block and is forced to the left by the firing plunger and releases the striker and the striker mechanism assembly is mounted in the breech block The striker is released by the sear allowing it to move forward and strike the percussion cap in the base of the round 76 MM GUN MECHANICAL CIRCUIT 4 The mechanical firing circuit see Figure 5 4 1 is completed as follows a the foot firing pedal is positioned on the turret floor
180. lenoid the bowden cable 1 Canvas protective cover 2 Pull back eyelet buffer aperture 3 7 62 mm aperture Recuperator aperture 5 Counter balance N gt Bache protectace d ancrage pour recul manuel ouverture de l amortisseur Ouverture de 7 62 mm Ouverture du r cup rateur Gontrepoxds Figure 3 1 2 Mantlet Exterior View Front ession elevation limit stops Butoirs cele n et dabaissement p crapers 2 Grattoirs en m tal Figure 3 1 3 Mantlet Exterior View the horizontal d the stirrup and e the firing lever 6 The QFC is also secured to the firing gear bracket lit is used by the gunner to fire semi indirect indirect and fixed line 7 The anti rotation keyway is welded to the top centre of the cradle to accommodate the anti rotation key which prevents rotation of the breech ring during the recoil and run out of the gun 8 The hydro pneumatic cylinder is secured to the cradle on a mounting pad welded to the left side of the cradle 9 The buffer support bracket is mounted directly forward of the stuffing box on the buffer Its purpose is to support the buffer during recoil and run out preventing damage to the buffer piston 10 The deflector guard is secured to the cradle on the right side by four bolts two directly above the QFC and two above the electric firing solenoid On the left side the deflector guard is secured by two bolts
181. lock lever and swing the gun so it points in the direction of the target Lock the slide locking lever With the elevating handwheel elevate or depress the gun onto the target Fine lateral adjustment of not more than 5 mils left or right of zero may be made by using the traversing handwheel AIMING TRIPOD MOUNTED 17 The point of aim will normally be at the centre base of the target This point of aim ensures that the top half of the beaten zone goes through the target and the lower half causes ricochet hits AIMING OFF FOR WIND TRIPOD MOUNTED 18 If fire is affected by a crosswind the following procedure can be used a re lay onto the target b move the rear sight laterally with the windage scale until the line of sight 1s on the fall of shot c re lay onto original point of aim and d the gun is now laid with the correct wind allowance on the gun TRIGGER ACTION 3 When the gun is cocked and ready to fire the recoiling parts are locked together in their forward position with one round seated in the chamber see Figure 11 9 1 4 The shoulder of the firing pin is engaged in the sear notch the sear is forced up by the action of its spring The firing pin spring is held compressed between the sear spring pin and the firing pin spring The trigger cams are engaged in the Sear cams ready to release the firing pin when the trigger is raised 5 When the trigger is raised it pivots on the trigger axis pin and the front end is forc
182. lose the hatch to ensure it is in the lock position OPERATION OF SEATS 6 Crew Commander s Seat The commander s seal has a jack type system To operate the seat use the following procedure a to raise it pump the seat handle and b to lower it press down on the seat release using the right foot 7 Gunner s Seat To operate the gunner s seat use the following procedure to raise it lift up on the seat release catch and pull it up and b to lower it lift up on the seat release catch and push down the seat SECTION 4 OBSERVATION EQUIPMENT PERISCOPES ARMOURED VEHICLE NO 48 AND NO 43 8 There are nine periscopes in the turret roof one No 43 and six No 48 for use by the commander and two No 43 for the gunner Each periscope is rigidly mounted and is secured by two captive screws Stowage for two spare periscopes is located on the gun basket 9 The periscope consists of and object prisms each contained in its own half body The two halves are permanently joined together There is a rubber sealing ring on the lower half which makes a seal with the mounting A rubber black out shield is fitted to the ocular prism 10 The periscope No 48 differs from the periscope No 43 as follows a the object prism is larger in the periscope No 48 and b the ocular prism is angled in the periscope No 48 11 Although not adjustable the commander s periscopes are arranged so that in conjunction with the sight the com
183. lowing equipment is required to test the electrical circuit a a 12 inch screwdriver b a 24 volt bulb or c a circuit tester 2 To test the electrical circuit use the following procedure a turn the hull and turret master switches b hold the screwdriver on the upper part of the male jack connector e ground the bulb against the side of the discharger barrel and touch the centre contact of the bulb with the screwdriver d the bulb should light when the appropriate firing button is pressed e if it does press the other button to ensure that it does not light and f test each barrel on both banks NOTE If any of the circuits are faulty during the test report to a technician CLEANING 3 Cleaning is done at the following times a weekly 1 check for foreign material in the barrels 2 check that the male jacks are bright and clear of fouling if not clean with steel wool or other abrasive material to ensure proper contact 3 ensure that the drain holes in each barrel are clear 4 dry clean and lightly re oil with 335 and 5 replace the rubber cups before firing 1 remove all oil from the barrels prior to loading and after firing 1 remove deposits left from firing ensuring that no female clips have remained 2 dry clean and re oil the barrels with 3GP 335 and 3 replace the rubber cups SECTION 5 MEDICAL TREATMENT TREATMENT OF PHOSPHOROUS BURNS 1 personnel connected wit
184. ly servicing is designed to check parts of the main and secondary armament which could deteriorate if they were serviced only once a month 9 On active service the weekly servicing should be carried out when time permits 10 In peacetime it is essential that servicing be carried out once week particularly when the vehicle is out on training 11 At monthly intervals complete routine servicing and checking the main and secondary armament and ancillary equipment should be done At its conclusion the vehicle should be fit for battle 12 On active service monthly servicing should be carried out before the vehicle is committed to battle and on other occasions when time permits 13 In peacetime monthly servicing should be carried out as follows a once a month or more frequently in adverse conditions b on preparation for open range firing and at end of a period of open range firing 14 Quarterly servicing comprises full monthly servicing plus the additional items which require minimum servicing Ix Quarterly servicing will be carried out a every four months and b on receipt of a new or overhauled vehicle 16 Before firing servicing is designed to fulfill the minimum requirement prior to firing Every effort should be made to do monthly servicing prior to firing 17 During a full in firing servicing is designed to check the weapons and to lubricate the working parts 18 Upon completion of firing monthl
185. mander has all around vision The gunner s periscopes which are on either side of the sight give the gunner an increased field of view to the front 12 When operating under black out conditions secure the rubber black out shields across the ocular prisms to prevent light from escaping through the periscope BINOCULARS DESCRIPTION 13 The ELCAN 7 X 50 binoculars consists of two metal tubes which contain a series of lenses and prisms The eyepieces can be focussed with a scale marked around the collar plus or minus 0 4 There is a graticule pattern marked in the right eyepiece and two tubes are interconnected by an adjustable bridgepiece which also has a scale on it 55 75 mm There are two screws on the underside of each tube which are painted red these must not be touched A web strap is attached to the binoculars 14 Operation To set the bridgepiece use the following procedure a pivot the tubes until a single circular view is obtained and b note the reading on the scale 15 To focus use the following procedure a select a distant object b turn the left eyepiece until the object is clear and well defined rotate the right eyepiece until both graticule and object are well defined and d if the binoculars are to be used at night reduce the reading on the eyepiece scale by one division 16 To measure lateral difference use the following procedure a lay the centre mark of the graticule pattern on to the ob
186. ment 3 Adjusting boit 3 Boulon d adjustement 4 Bracket 4 Support 5 Rotary half of mounting 5 Demi anneau mobile de la monture 6 Sight washer nozzle 6 Gicleur du lave glace 7 Protecting ring 7 Couronne de protection 8 Fixed half of ring 8 Demi anneau fixe de la monture 9 Pointer 9 Index 10 Scale 10 chelle 11 Seal 11 Joint d tanch it 12 Raballo race 12 Roulement billes 13 Traverse arc 13 Croissant coulisse 14 Adjusting bolt 14 Boulon de r glage Figure 6 1 1 Mount Armoured Vehicle Periscope No 45 Mark 1 Ke ne 0 00 amp Objective window Wiper arm Mounting flange Blackout shutter clamp Flip mirror control Laser filter control Object mirror tilting control Inter ocular setting control Graticule lamp dimmer control yepiece heater switch Eyepiece heater warning lamp X1 blackout shutter Face mask adjuster 5 Face mask clamp Face mask Graticule eyepiece Graticule lamp housing screw inter ocular scale Face mask plug A A DA DA 2A cA A 4 D Fen tre p riscopique Bras de l essuie glace Bride de montage Levier de l obturateur Levier de basculement du miroir Levier du filtre laser Bouton de r glage du miroir pivotant Bouton de r glage de l espace interoculaire Rh ostat du graticule Interrupteur antibu
187. moves to the rear the driving spring is compressed which produces the energy that will assist in driving the bolt forward The rearward movement of the bolt is checked when it strikes the buffer plate which causes it to rebound The remaining energy is absorbed by the buffer plate see Figure 11 9 4 9 The stud on the T lug of the barrel extension is engaged in the groove in the end of the barrel plunger As the barrel extension moves to the rear the stud acts on the barrel plunger and compresses the barrel plunger spring The barrel plunger spring is compressed and held by the claws of the accelerator which wrap around and engage the T lug locking the barrel extension to the lock frame The accelerator stop on the lock frame prevents the accelerator from rotating too far to the rear see Figure 11 9 5 EXTRACTION AND EJECTION 10 As the recoiling parts move to the rear the extractor withdraws a new round from the belt the empty case held by the T slot is withdrawn from the chamber 11 As the bolt moves to the rear the extractor cam plunger passes over the top of the extractor cam and rides along the extractor feed cam until forced in by the bevelled surface of the feed cam At this point the top of the extractor continues its rearward movement and the plunger springs out below the notch in the end of the extractor feed cam The new round is inserted in the T slot by the extractor The empty case in the T slot is ejected by the new round
188. moving into position down the T slot on the face of the bolt The last empty case must be removed by hand e 2 enouoef ej Duu 2 Duude 1695 LU Figure 11 9 2 Trigger Action in Cocked Position e ep euooou3 jneinojed np uosseH eneuoep Nos jo jepjnous uojou JESS Buuds uid JESS Figure 11 9 3 Trigger Action Fire Position essejno EI ep Noa np 2 esse no ep uid yoo 2 4001 Figure 11 9 4 Unlocking First Phase jue e Sege 2 jeddei ep suonoefoud 1044 E Z Buuds But ug 1 Figure 11 9 5 Unlocking Second Phase 1 uoue UOUE9 Jiossnod uoua 2 UOUE9 wossey pnis jeBunjd jeueg Duude LU Figure 11 9 6 Unlocking Third Phase LOADING 12 After the extractor cam plunger clears the bottom of the extractor feed cam ramp and the bolt is moving forward the new round is held in line by the extractor and the cartridge retaining plungers on the face of the bolt see Figure 11 9 9 13 As the bolt continues for
189. ms three of which are made to fit the rim of the cartridge The fourth arm is in the form of a catch which can be raised to remove the clip from the round The clip is fitted with a fabric carrying handle The fourth arm is colour coded to denote the type of projectile as follows a yellow HESH L29 b blue practice ammunition e deep bronze green Canister HE and d eau de Nil Smoke BE L32 8 These clips prevent the percussion cap from accidently being struck The base clip will remain on the round until it is loaded in the gun for firing HIGH EXPLOSIVE SQUASH HEAD L29 9 The shell High Explosive Squash Head is a very thin walled projectile with short rounded nose this gives it a somewhat squat appearance which distinguishes it from the HE shell A copper driving band is fitted around the rear end of the body and the base of the shell is bored to receive the base fuse A tracer is fitted to the projectile The shell is filled with a quantity of RDX explosive and has a nose pad of inert composition When the nose of the HESH shell strikes armour plate the shell collapses so that the explosive filling is squashed into a plaster The base fuse detonates immediately after the plastering action is complete so there is a direct transfer of the detonation wave to the armour A large scab of plate is therefore detached at a considerable velocity from the inside of the armour When used in the HE role blast and fragmentat
190. n optical instrument and should be handled carefully if it is to retain its accuracy It should not be left in the sunlight or in a hot gun for longer than is absolutely necessary 2 Figure 9 1 3 defines the dimensions and gives a description of the boresighting screen jequunu BUSS 2589 aseo uBise10g auas ep 9 nesjquis Boresight Armoured Fighting Vehicle No 3 Mark 1 Figure 9 1 1 jenas 1 nee quiis np euas ep arengo 9 yelqo 99S amog ap E lueWweuuorsod ap xneauuy 2 JUBIS 5 suu Apog pedeus A QN C Qi Figure 9 1 2 Boresight Armoured Fighting Vehicle No 3 Mark 1 lines are 2 thick The centre circle inside diameter 16 cm The centre circle outside diameter 25 cm Each grid square is 25 cm Total dimensions are 210 cm x 210 cm for each screen Notes Toutes les lignes ont epaisseur 2 Le diametre int rieur du cercle central est de 16 cm Le diametre ext rieur du cercle central est de 25 cm Chaque carr de coordonn e 25 cm de cote Dimensions totales 210 cm x 210 cm pour chaque cible Nota gi ON gt
191. nd 2 check the muzzle end and in front of the chamber b barrel extension 1 check for cracks 2 ensure the double bevel on the breech lock is on top and to the front and 3 check for excessive wear on the breech lock e lock frame 1 check for wear on the accelerator 2 check the trigger pin it should be under tension and 3 check for wear on the trigger cams d bolt 1 check the face of the T slot for wear burrs and fractures 2 check cartridge retaining plungers for tension and 3 with cocking lever to the rear fire the action Check firing pin protrusion The tip should be rounded and backplate ensure the buffer adjusting screw 18 turned back to the nearest locking plunger position 3 For a mechanical inspection with the weapon assembled the following procedure is used a pull the action to the rear the feed slide should move out of the cover 2 the feed mechanism should be checked and allow the action to move forward the feed slide should move back into cover and cock the gun hold the trigger up ease the recoiling parts forward the gun should fire approximately 1 5 mm before the recoiling parts are fully forward M S 99UM puey 42945 25 4349 1201 opus 42845 pasodxa Ajjenba smaJos 91ns ug ue1uBn 10 uge peuonisod Auedoid pue pajio pau aq pjnous syed usiueuooeu
192. nd cap is in line with the bottom of the breech ring and locks into position fit the crank stop and secure it with the securing screw insert the striker mechanism assembly into the breech block push forward and at the same time rotate the end cap counter clockwise to put the striker mechanism assembly SMA spring under tension Press on the firing plunger and push the striker mechanism assembly fully forward Rotate the end cap clockwise until the retaining plunger engages check the operation of the breech mechanism by opening and closing the breech ease the springs and check the operation of the recocking lever NOTE If the main armament cannot be recocked with the recocking lever this indicates that either the recocking crank was assembled backward or the protrusion on the recocking crank shaft and the recocking lever are not making contact because they are worn or broken If this occurs removal of the SMA will not be possible unless the following sequence is followed 1 open the breech approximately 12 mm until resistance is met this will line up the striker lug with the recess of the striker case 2 hold the breech block in this position and remove the SMA 3 remove and strip the breech block 4 check the correct assembly of the recocking crank and 5 check for broken or worn parts if any are found report to a technician Page 1 of 2 Breech Block Components Figure 2 7 1 Breech block
193. nderside of the SA cam rotating the actuating shaft and crank and opening the breech 18 Extraction and Ejection of the Empty Casing As the breech block moves downward the extractors are rotated slightly by the inclined ramps on the breech block bearing against the short arms of the extractors Since the nibs of the extractors are in front of the rim of the empty casing the casing is eased from the chamber When the breech block has moved far enough down to open the breech the shoulders of the breech block strike the short arms of the extractors causing them to rotate sharply and to eject the empty casing 19 The Open Position of the Breech The shape of the SA cam ensures that the breech block is brought to the fully open position during the final phase of run out When the gun is fully run out the breech block is allowed to rise until any further upward movement is prevented because the stops of the extractors engage with the recesses in the front face of the breech block ACTION OF THE RECOCKING MECHANISM 20 As the recocking lever is pulled to the rear the shaft through the breech ring rotates A cam on the end of the shaft is engaged with the projection on the end of the recocking crank shaft and the latter also rotates together with the recocking crank The top of the recocking crank engaged in the recess in the bottom of the cocking link forces the link to the rear If the recocking lever is set at SAFE the cocking link is held in
194. ned to the locked position in the bracket When the operating lever is released the breech closing spring reasserts and rotates the actuating shaft and crank Rotation of the brings the crank rollers against the upper surface of the path and raises the breech block During the upward movement the recesses on the front of the breech block engage with the stops of the extractor and the breech block is prevented from closing ACTION OF THE BREECH MECHANISM ON LOADING 8 Inserting the Round When a round is loaded into the chamber the rim of the round strikes the nibs of the two extractors The extractors are forced forward and the extractor stops are disengaged from the recesses in the breech block During this movement the extractor plunger springs are compressed 9 Closing the Breech With the breech block free the breech closing springs which have been held under tension reassert and rotate the actuating shaft and crank Rotation of the crank causes the crank rollers to force against the upper surface of the crank path and raise the breech block As the breech block rises the crank moves away from the cocking link The cocking link springs reassert and force the cocking link forward allowing the striker spring to force the striker into engagement with the sear where it is held in the cocked position 10 Forcing the Round into the Chamber During the upward movement the loading bevel on the front face of the breech
195. ng Angle of Sight To apply an angle of sight the gunner must b f repeat the angle ordered by the commander unlock the range drum adjuster rotate the range drum adjuster until the required angle corresponds to the cursor line slip the HE HESH scale to ZERO securely lock the range drum adjuster and report Set 13 Obtaining Quadrant Elevation Fixed Line Below 2000 m Since fixed line firing is normally carried out under 2000 m the following procedure will normally be used to obtain quadrant elevation QE a the commander will determine the type of ammunition to be recorded and one of the following methods for determining the range to the target or target area 1 laser range finder 2 registration by fire 3 map measurement or 4 estimation the gunner using the corresponding range on the ballistic sight will lay on to the centre of the target or target area level the bubble using the range adjuster read off the mil scale and the commander will then record the reading on the range card 14 Obtaining Quadrant Elevation Fixed Line Above 2000 m If quadrant elevation above 2000 m is required use the following procedure a b the gunner will lay the MBS 76 mm on to the centre of the target or target area unlock the range drum adjuster rotate the range drum adjuster until the bubble is within the two large scribe marks slip the HE HESH scale to ZERO sec
196. ng procedure a b put the daylight protection shutter in the OPEN position rear put the day night selector to night forward select X9 switch on power at the Radnis control unit focus using the focus lever and adjust the ballistic graticule NOTES 1 For best operation ensure 9 magnification 15 selected and that the graticule pattern 15 as dim as possible 2 The night system may be checked in daylight providing the pinhole mask or filter is taped to the front of the sight To Switch Off Night To switch off the sight use the following procedure return the day night selector to the day position close the daylight protection shutter and switch off power at the Radnis control box WARNING Before any operating procedures are carried out on the commander s Radnis ensure the gunner s Radnis day night selector is at DAY NOTE During either day or night operations if there is too much glare in the sight close the anti glare filter SECTION 3 SERVICING OBJECT PRISMS AND OBJECT GLASSES 1 Object prisms and object glasses are the components exposed to weather and traffic film Remove all mud and film with clean cold water and pat dry with a clean soft cloth or tissue paper soft toilet paper is both clean and absorbent OCULAR PRISMS AND EYE LENSES 2 Ocular prisms and eye lenses are the glass surfaces nearest the eye They are not exposed to mud and traffic film and are usually coated with a bluish a
197. ng procedure a remove the eyepiece lens cover b set the PWR ON switch to ON c press and hold the MIN RNG switch d look into the eyepiece and observe the RANGE METRES display and the LOW BATT indicator e if any numbers are displayed on the RANGE METRES display and the LOW BATT indicator are not illuminated the battery is probably good and the range finder is ready for use Set the PWR ON switch to OFF and if the LOW BATT indicator is illuminated and the numbers are displayed on the RANGE METRES set the PWR ON switch to OFF remove the battery cover and install a new battery inserting the positive terminal into the compartment first then install the battery cover return the weak battery to be charged and repeat steps a to d OPERATION 19 Operate the Laser Range Finder operate the laser range finder use the following procedure a remove the objective and eyepiece lens covers b set the PWR ON switch to ON and set the MIN RNG SET fully counter clockwise c position the range finder as firmly as possible and while looking at a target through the telescope adjust the focus for the sharpest image possible d locate the target and place the one mil circle on the centre of the visible mass see Figure 12 5 3 and e while keeping the one mil circle centred on the target press and hold the FIRE switch until the target range is displayed and noted 20 Display Indications The following displays are p
198. nition the body of the shell is painted with an eau de Nif colouring Brown stencilled markings on the shell body indicate the nature of the round 22 Fuse Nose 390 Mark 3 1 The 390 Mark 3 1 fuse is tensioned double banked combustion powder train type time fuse with variable burning time of between 0 and 23 seconds It consists of a body base plug striker spring detonator mechanism sleeve and plug magazine ring detonator top and bottom time rings cap and cover 23 Safety Arrangements of the Fuse No 390 The safety arrangements are as follows a the initial compression of the spring between the detonator holder and the striker keeps the detonator clear of the striker and b when the fuse is set at SAFE the flash holes in the lower timing ring and in the magazine are masked by the bridges at the top and bottom of the timing rings respectively This provides a double safety device against the ignition of the magazine filling should the initiating mechanism function prematurely DURING FUGHT N COURS DE TRAJECTOIRE ON IMPACT L IMPACT Figure 13 1 5 Page 1 of 2 Fuse Nose Percussion Direct Action L17A6 Aa 2 NO ni LA LA LA 90 4001 B ON ND TO N 24 25 26 27 Fairing Detonator 2 to 3 grams LZY Shutter assembly Body Stemmed CE Paper disc CE pellet Bottom cap Needle assembly Detonat
199. nt in the sight and must be reported to a technician 9 This test should be carried out all sights that have graticule pattern and are used to employ direct fire weapons from AFVS CHAPTER 7 GUNNER S SIGHTING EQUIPMENT SECTION 1 COMPONENTS INTRODUCTION 1 The gunner is provided with a Sight Periscopic AV 54 or with a combined day night optical sight SS 125 Gunner s Radnis instead of the No 54 sight THE SIGHT MOUNTING 2 The mounting AFV Periscopic Sight No 38 Mark I is bolted into the turret roof It protects and supports the Sight Periscopic AV No 54 Mark 1 and consists of the following main components a The Hood The hood completely covers the exposed part of the sight The front face is sealed by a glass window which is fitted with a wiper A heater element is located around the inside of the window The switches for controlling the wiper and heater are located in the turret on the right underside of the mounting The circuits are protected by fuses F1 and F2 b The Trunnion Locking Lever The trunnion locking lever is located on the right side of the mounting It operates two trunnion pins which fit into trunnion mountings on either side of the main case of the sight When the lever is to the rear a safety catch engages with it preventing any forward movement which would release the sight and The Sun Visor The sun visor is located in the hood The gunner can raise or lower it by adjusting the
200. nti reflection coating Great care must be taken to blow away any grit or dust before cleaning them Clean tissues will be used A polish may be obtained by breathing on the glass but there must be no hard rubbing with water If it is not possible to clean an optical surface satisfactorily by these methods a technician should be informed Methylated spirits gasoline or other cleaning agents should be used only by suitably qualified personnel since excessive use of these can cause deterioration of the sealing and bonding materials 3 No attempt should be made to wipe off dry mud or grit as this will scratch the glass surface and reduce the efficiency of the instrument Any abrasions chips or scratches especially radial ones due to wiper action should be reported to a technician for investigation Cotton waste must never be used to clean glass surfaces Even service flannelette 4 inch x 2 inch which may be the cleanest cloth available is suspect since its heavy woolen texture harbours grit However if nothing better is available it may be used carefully GENERAL INSPECTION OF OPTICAL AND SIGHTING EQUIPMENT 4 Inspect and check for the following a missing loose or damaged screws b damage on seating and locating faces condition of external finish d condition of electrical fittings switches etc condition of engraving on scales and readers f condition of external glass surfaces g condition of face masks 5 eff
201. ntrol knob to check the illumination of the field defining graticule seen in the X1 unity window f select X10 and g check the illumination of the ballistic graticule 7 Switch Off Day Switch the power off at the Radnis control box 8 To Switch On Night The night system may be checked in daylight provided that the pin hole mask or filter is taped to the front of the sight To switch on the sight use the following procedure a put the daylight protection shutter to the OPEN position rear b put the day night selector to night forward select X9 d switch on power at the Radnis control unit focus using the focus lever and adjust the ballistic graticule NOTE For best operation ensure 9 magnification 15 selected and that the graticule pattern 1s as dim as possible 9 To Switch Off Night To switch off the sight use the following procedure a return the day night selector to day position close the daylight protection shutter and switch off power at the Radnis control unit WARNING Before any operation procedures are carried out on the gunner s Radnis ensure the commander s Radnis day night selector is at DAY NOTE During day or night operations if there is too much glare in the sight close the anti glare filter SECTION 3 SERVICING MOUNTING DISMOUNTING THE NO 54 SIGHT 1 To dismount the No 54 sight use the following procedure a b 2 ensure that the t
202. o provide a description and operating instructions for the systems and components of the Cougar turret 2 To provide a technical reference for gunnery instructors and crews SCOPE 3 This manual provides descriptive material and illustrations to enable users to understand the systems and components of the Cougar turret 4 Instructions are provided for users to undertake the user level preventive maintenance and servicing required by all Cougar turret systems and components Repair and overhaul are not covered 5 This manual is organized into 15 chapters Chapters 2 and 3 deal with the main armament Chapter 4 deals with the turret electrical system Chapters 5 to 8 deal with gun control equipment sights and gun laying instruments Chapter 9 deals with the boresight and boresighting screen Multi barrel smoke grenade dischargers are dealt with in Chapter 10 The machine gun is covered in Chapter 11 Chapter 12 deals with ancillary systems and components Ammunition is dealt with in Chapter 13 Gun drills are covered in Chapter 14 and a summary of armament servicing is provided in Chapter 15 RELATED DOCUMENTS 6 The primary related document is the Cougar Crew Commander s Checklist Other related documents are annotated at Annex A GENERAL BACKGROUND 7 The Cougar was designed for the Armour Branch as tan trainer The turret 15 constructed in England by Alvis using aluminum alloys and is mounted on MOWAG hull which is produced in
203. ollowing procedure a rotate the gunner s power controller to the right and check that the turret moves right and b repeat in the opposite direction 6 Traverse Speed To test the traverse speed use the following procedure a move each controller in turn up to a maximum of 500 mils from centre in each direction and check that the traverse speed progressively increases as the controller is rotated outward and decreases when rotated back to centre and b check that the speed for one revolution is less than 1 6 seconds with the controller at maximum displacement 7 Commander s Override Controller To test the commander s override controller use the following procedure a have the gunner traverse right or left b operate the commander s override in the opposite direction e the commander should gain control and the turret should rotate in the direction opposite the gunner s traverse and d repeat for the opposite direction 8 Should any of the above tests fail the fault must be reported to a technician WARNING In case of a run away turret the following action will be taken a the crew commander will pull out the 25 amp circuit breaker on the power traverse control unit b the gunner will turn the turret master switch OFF and report to technician ELEVATION SYSTEM 9 operate the elevating system use the following procedure grasp the elevation handwheel rotate the handwheel forward to depress an
204. om rotating Bottom ring Needie Needle pellet Base plug Gunpowder G20 Cover Fuse powder composition SR227 Top ring fixed position Bottom ring free to rotate for time setting Mechanism Set screw Cloth washers Magazine ring Powder pellets Mechanism sleeve plug Cloth disc Securing pin On set back the detonator compresses the spring and impinges on the striker needle Closing disc Body 17 18 19 20 21 22 23 Goupille de s curit 25 26 27 NO Porte d tonateur Capuchon Ressort Anneau sup rieur Marques apr s remplissage indicatif MK ajout num ro de lot initiales ou monogramme du remplisseur date de remplissage mois et ann e D tonateur 1 9 grains LP Goupille de s curit pour emp cher la rotation de l anneau sup rieur Anneau inf rieur Aiguille 10 Bouchon de base 12 13 14 15 16 Pastille du pointeau Poudre explosive G12 Couvercle Poudre de fus e composition SR 227 Anneau sup rieur bloqu Anneau inf rieur rotation libre pour le r glage du temps Manchon de m canisme Vis de bloquage Rondelle en tissu Anneau du manchon Pastilles d explosif Bouchon de manchon du m canisme Disque en t ssu Sous l effet de l impact le d tonateur comprime le ressort et va frapper l aiguille percuteur Disque de fermeture Corps Figure 13 1 7 Page 2 of
205. omfort is safe to fire 8 Handle All Ammunition With Care Cartridge cases are easily dented and should be protected from hard knocks and blows 9 Battery Covers Must Be Fitted At Times Failure to have battery covers fitted at all times could result in a fire or other form of hazard One fatal accident occurred when a round of main armament ammunition was allowed to fie across the battery terminals the heat generated was sufficient to ignite the propellant charge This resulted in the death of the loader 10 Use Base Clips Base clips must be fitted correctly at the following times a when ammunition is removed from its container and is stacked in the open or is in transport and b when ammunition is being transferred from outside to inside the AFV i e bombing up 11 Once inside the vehicle clips must be kent on all cartridges MAIN ARMAMENT AMMUNITION 12 Ammunition should be sorted by batches and sub batches whenever possible shooting may be less consistent if ammunition from different batches is used on a single engagement 13 The primer should be free from dirt and excess luting forced from the threads of the primer The base should be flush with the base of the case 14 The cartridge case should be clean dry and free from cracks and dents Ensure that no part of the packing is sticking to the case Cracked or badly dented cases will be rejected 15 The projectile should be secure in the case clean dry
206. on equipment 4 The Cougar turret 18 constructed of an aluminium alloy specially treated and aged by heating process which improves strength The plates are welded using a fully automatic process which results in welds of constant quality An additional layer of weld metal is laid onto the plate surface near the weld joint This is a stress relieving treatment which minimizes stress corrosion and cracking The roof is provided with mounting holes for the commander s and gunner s hatches and sights 6 There are four lifting points welded to the turret which are used for removing and replacing the turret with a crane or an armoured recovery vehicle ARV On the left hand side of the turret a bag is attached for stowing the camouflage net Two antenna mounts which house the antenna tuning unit and the antenna support are also mounted on the turret TURRET FLOOR 7 The turret floor 15 fastened to the turret by two mounting brackets on the turret ring and 18 supported by of four double rollers in the hull The turret floor also provides stowage for 7 62 mm ammunition 8 The gun basket is attached to the turret floor and provides stowage bins for spare periscopes and 9 mm sub machine gun SMG magazines for the commander and gunner 9 The rotary base junction is located on the centre of the turret floor ARMAMENT 10 The Cougar has the following weapons available to its crew a 76 mm L23A1 gun as main armament b a general
207. on the graticule adjusters and report the readings to the commander the commander will remove the boresight from the gun rotate if through 3200 mils and reposition it in the bore eye piece to the right order the gunner to lay the MBS 76 mark on the centre of the aiming circle of the screen Looking through the eye piece the commander will note the position of the boresight dot If the boresight dot is in the centre of the aiming circle sight adjustment is completed m If the boresight dot is not in the centre of the aiming circle the commander will realign the boresight as in subparagraph b above and order the gunner to readjust the sight graticule as in subparagraphs c d and e above n the gunner will once again record the readings on the graticule adjusters and report them to the commander p the commander having obtained two sets of readings will calculate the mean readings and order the gunner to apply these mean readings to the graticule adjusters If the difference between the two readings is greater than one mil in elevation and half a mit in line the boresight error is unacceptable and the instrument requires calibration and q remove the muzzle boresight from the gun and stow it ZEROING PROCEDURE FOR COUGAR AVGP 5 Complete boresighting procedures IAWB GL 305 007 MS 002 Chapter 9 and record values on registration form Lay HESH 900 aiming mark on centre of zeroing screen Then fire 3 rounds at the centre of th
208. one located on the semi automatic cam bracket and the other on the mantlet A recoil indicator is mounted on the deflector guard to record the length of gun recoil The deflector guards protect the crew commander and the gunner from getting caught in the recoil A canvas deflector can also be attached by three clamps to prevent hot empty casings from deflecting and injuring crew members 11 There two holes in the lower side of the cradle to which the elevating mechanism 15 connected and secured by a hinge pin 12 The loader s safety switch is connected to the cradle and secured under the left side of the gun by two bolts attached to the semi automatic cam bracket 13 The semi automatic cam is welded to the rear underside of the cradle and opens the breech during run out of the gun The SRB is attached to the bracket by a screw The SRB will prevent the breech block from being opened and the gun from moving out of the battery when there is insufficient pressure in the hydro pneumatic recuperator to keep the gun fully run out The SRB is secured by a chain and has a stowage position mounted on the deflector A grease nipple is located on the SA cam for lubrication NOTE The SRB must be fitted to the SA cam at all times except when firing GUN BASKET 14 The gun basket is firmly bolted to the floor attached to it is a flexible hose and a canvas bag to accept 7 62 mm spent casings and links f 1 D fiecteur gt deflect
209. or for empty casings 2 D flecteur en toile pou les doles vides Figure 3 1 4 Deflector Guard 1 Cradle 1 Berceau 2 Boss connection for hydro pneumatic 2 Raccord pour cylindre hydro pneumatique Cylinder 3 Points d attache du berceau 3 Cradle supporting lugs 4 Conduit de lubrification 4 Lubrication pipe 5 Clavette anti rotation rainure de clavette 5 Anti rotation key keyway 6 Points de lubrification 6 Lubrication nipples 7 Point de lubrification de la came semi 7 Semi automatic cam lubrication nipple automatique 8 Phosphor bronze bushing 8 Bague de bronze phosphoreux 9 Solenoid 9 Sol noide 10 Firing lever 10 Levier interm diaire de tir 11 Stop running back 11 But e de recul 12 Semi automatic 12 Came semi automatique Figure 3 1 5 Cradle Left Hand Side Firing lever Solenoid Semi automatic cam Anti rotation key keyway Lubrication nipples Cradle supporting lugs Lubrication pipe Phosphor bronze bushing Cable Cradle Levier de tir Sol noide Came semi automatique Clavette anti rotation rainure de clavette Points de lubrification Points d attache du berceau Conduit de lubrification Bague de bronze phosphoreux Cable Berceau Figure 3 1 6 Cradle Right Hand Side SECTION 2 THE SYSTEM INTRODUCTION 1
210. or holder Detonator plug Detent Paper tablet Detent spring Detent plug Boxcloth disc Hinge pin Stop pin Stemmed CE Detent Shutter spring Model number empty markings lot number initials or monogram of manufacturer Filled markings lot number initials or monogram of filler date of filling month and year Centrifugal force rotates shutter to the armed position S Stemmed CE in path of flash the detonator On firing detent sets back During flight centrifugal force moves detent outwards and locks under the housing lip NN ma 24 25 26 27 la laca laci S HO UP Ogive galb e D tonateur 2 3 grammes LZY Groupe obturateur Corps Tige CE Disque en papier Grains CE Capuchon de fond Aiguille Porte d tonateur Bouchon du d tonateur D tente Assise en papier Ressort de d tente Bouchon de d tente Disque en toile forte Pivot But e Tige CE D tente Ressort d obturateur Num ro de mod le marques vide num ro de lot initiales ou monogramme du fabricant Marques apr s remplissage num ro de lot initiales ou monogramme du remplisseur date de remplissage mois et ann e La force centrifuge fait tourner l obturateur la position arm La tige CE se trouve sur le trajet du feu du d tonateur
211. ort Jammed cartridge when an empty case or an unfired round cannot be extracted by the breech mechanism lever The commander will carry out the removal of the cartridge as per Chapter 2 section 6 paragraphs 8 and 9 SECTION 3 76 MM MISFIRE DRILL GENERAL 1 To ensure safety and an automatic reaction to misfired round there 18 a systematic drill carried out by the crew which will quickly find the fault and rectify it 2 If a fault is not found through this drill one can reasonably be sure that there is a faulty round in the chamber 3 The entire turret crew must know by memory the Immediate Action drill which is shown in Table 14 3 1 10222 jo eui pepeo7 modai pue ul eq Apoq 5 2 e eu jo pinoys 1unooog pieAue ou UQ eui Buisn 00098 t pejeulunyp 18 uonoe 51461 eu pessead eu pue peljnded pasoo pue NIYIN 01 198 Si SI jeped eq pinoys 1 38 s Yoeesg eu jey pue yno UNI JOJOOJOS eu jeu YOBYO eu ueuM si UI Any s un6 ey 3843 EI 390061 eus zl spez unb out pexoeuo aq 12911198 8 941 un pouieu siy Buisn enunuoo jeped 100 eui Bursn pessezd si youMs epod 300 8414 0 JdWwene mou 89111908 eu
212. osing cup and a filling 3 Action When the gun is fired the propellant gases generated by the burning propellant in the cartridge case of the round blow in the closing cap and ignite the priming composition which in turn ignites the tracer composition The flame escapes to the rear through the exposed end of the tracer body and enables the trajectory of the shell to be observed US eseg aourw enbejd snqo p sdio9 ue anbsiq squojd 008 enbsiq HNO sf eseq uniumuniy eyetd peuun 191SIUE 251 PJEOQINN 008 Ajareuwxoidde sjejjad 1045 19JSIUEO ostq Ox Figure 13 1 8 Canister Shot 76 mm Armd ina depy BIAIND US Jaided ua agn ua anbsig apin6 nesuuy 617 JUEUS uouonog wutsone ON GS GJ 109811 Jo depy Jeddoj aqn Jeded 9SIP 94 JOUSEM 617 esnj Bunuaseudau eImusans ensojdx3 ubiH ueu Buii4 aInnsans QN Ox OO Figure 13 1 9 Shell Practice Squash Head 140 BLANK CARTRIDGE 32 The blank cartridge has normal cartridge case and 15 primer In place of the propellant charge the blank has a filling of G12 gunpowder contained in a silk cloth bag it is retained in position by a leather bound closing cup 76
213. ossible a Three O s indicating 1 no target was ranged or 2 the range finder was moved off the target while ranging or 3 the target was closer than the MIN RNG setting the MULT TGT indicator illuminates and target range is displayed 1 this indicates that more than one target is located within the MIL circle a carefully observe for the presence of objects other than targets in the one mil circle b note the target range press the MIN RNG switch and adjust the MIN RNG SET to slightly more at least 20 m than the target range noted repeat ranging to get the range to the second target d after ranging return the MIN RNG fully counter clockwise and if the LOW BATT indicator illuminates during ranging and the range is displayed a few more rangings are possible but the battery must be replaced as soon as possible 21 The Power Cable The power cable replaces the battery and allows the range finder to be operated on a power source external to the range finder 22 To install the power cable use the following procedure a b remove the power cable from its stowed position in the equipment case remove and stow the battery cover and the battery ensure the power cable is not attached to the power source and install the power cable captive cover onto the battery compartment connect the power alligator clips to the power source turret batteries and ensure that the power cable leads are conne
214. ot is horizontal The bolt is released under control The extractor is brushed down and with the feed lever to the left the cover is closed The action is fired to ease the tension on the firing pin spring SECTION 5 ADDITIONAL STRIPPING AND ASSEMBLING GENERAL 1 Usually further stripping 1s not done Additional stripping 1s more detailed components are stripped to check for and replace damaged or worn parts to ensure the gun functions efficiently and continuously STRIPPING THE LOCK FRAME 2 Trigger By using the small drift the trigger axis pin Figures 11 5 1 and 11 5 2 15 pushed out from the left The trigger is removed but the spring is not 3 Accelerator The accelerator pin is pushed out and the accelerator is removed 4 Barrel Plunger and Spring The lock frame is held on flat surface by the left hand with the breech lock depressors uppermost fingers should be around the spring With the thumb of the right hand the plunger guide is pushed down and to the right to disengage it from its slot The plunger and spring are allowed to rise under control They are then removed from the lock frame The spring is separated from the plunger ASSEMBLING THE LOCK FRAME 5 Barrel Plunger and Spring The lock is held in the left hand with the breech lock depressors uppermost and the barrel plunger guide slot to the left Once the plunger and spring are assembled the spring is placed in its recess with the guide pin in line with its
215. ounted on the Cougar In this type of ammunition the filled cartridge case is assembled to the projectile to form one unit or round which is loaded into the gun in one operation The principal components of a fixed round of ammunition are the cartridge case propellant percussion primer and the projectile According to its nature the projectile may be fitted with a fuse and or a tracer The cartridge case is attached to the projectile by canneluring the mouth of the case over a rubber ring fitted in a groove in the base end of the projectile All rounds are fitted with a removable base clip to protect the percussion cap TYPES OF AMMUNITION 2s The following types of 76 mm ammunition are used a Round 76 mm Armd C HESH L29 b Round 76 mm Armd C Practice SH L40 Round 76 mm Armd 124 Round 76 mm Armd Practice 1 25 e Round 76 mm Armd Smoke BE L32 f Round 76 mm Armd C Canister Shot L33 and 9 Cartridge Blank 76 mm Armd C L1 or L2 COMPONENTS OF 76 MM AMMUNITION di Cartridge Case This is made of brass and is approximately 231 mm long The body is tapered to the neck and the base is drilled and threaded to receive the percussion primer A black stencilled marking on the base of the case indicates the type of projectile that is fitted to the cartridge case 4 Propellant Charge The charge consists of a quantity of propellant filled loosely into the cartridge case The quantity and natu
216. plumb line is lying evenly against the back of the breech ring from top to bottom rotate the range drum adjuster until the bubble in the clinometer is within the two large scribe marks ensure that the zero mark on the mils scale is directly below the cursor line if not slacken the four clamping screws and slide the cursor until the line is directly above zero on the mils scale tighten the clamping screws and if the movement on the cursor is insufficient report to a technician CHAPTER 9 BORESIGHTING SECTION 1 BORESIGHT AND SCREEN DESCRIPTION 1 The boresight 1s an optical instrument used to very accurately define the bore axis of a barrel at the muzzle end 2 The Sight Bore Optical Cased No 3 Mark 1 is the boresight used with the 76 mm it consists of the following main parts a the body is a Y section metal shaft with a locating ring at either end and a spring loaded positioning plunger the sight box is attached to the forward end of the body and consists of a metal box incorporating an X7 right angled telescope There are two windows the one at the front is the object glass and the one at the side is an eye piece The field of view of the instrument is 107 mils and the graticule consists of a ring with a central dot When viewed through the eye piece the ring covers an arc of 18 mils and the dot a diameter of 0 15 mils The dot defines the bore axis at the gun muzzle NOTE The boresight is a
217. position and to remove the cartridge the cocking piece is engaged in the safe notch The cartridge is unscrewed and removed NOTE For more information refer to CFTO C 74 210 000 MF 000 ILLUMINATION FLARE FLARE PARACHUTE HAND FIRED C3 8 9 10 The illumination flare consists of a rocket type projectile enclosed in an aluminium alloy tube which in turn acts as the launcher The tube is fitted at the rear with a threaded plastic cap The flare is not carried fully prepared for firing the end cap will be kept in position at all times when the flare is not in use Safety Precautions The following safety precautions will be observed when firing the illuminating flare a b before using the flare ensure that the outer tube is not damaged follow exactly the directions that are on the outer tube no attempt will be made to tamper with or alter the flare in any way before firing ensure there are no obstructions ie trees helicopters on the flight path of the flare and ensure that no one is in front of or immediately behind the flare when firing pull the cord at an approximate 500 mil angle from the tube to avoid the backblast Care should be taken not to greatly exceed this angle because if it is too great the cord may break and the flare will not be fired in normal usage at less than 800 mils elevation from the horizontal The characteristics of the flare are a b total length 32 7
218. position so it prevents the forward movement of the striker SAFETY ARRANGEMENT 21 If the breech is not closed the gun will not fire for the following reasons the head of the sear is not aligned with the firing plunger in the ring b the striker hole is not in line with the percussion cap in the base of the round and c the cocking link is not clear of the striker path 22 If the breech is closed but not locked the gun cannot be 0 fired because the cocking link is not clear of the striker path SECTION 9 SERVICING THE GUN GENERAL 1 Proper and frequent servicing 1s necessary to ensure that the gun 18 mechanically efficient and to obtain the maximum life from the gun components LUBRICANTS 2 Oil 335C is used for cleaning and lubricating the bore breech mechanism and outer surfaces of the gun 3 Grease 3GP 685C is used for lubricating the breech mechanism bearings 4 The following equipment is required a tools accessories and spares as per check list and b clean cloth and oil as required ROUTINE CLEANING WEEKLY 5 Cleaning is carried weekly or more frequently under special conditions to remove dirt and renew the protecting film of oil PREPARATION 6 The preparation for cleaning is as follows a remove the muzzle cover b traverse the gun to 3 o clock or 9 o clock c remove the breech block and depress the gun and d assemble the staves of the cleaning rod T Step 1
219. pouU um euim ep 108801 Bupds ogewoyw ksos LORIS OP RMADY i 3 omagen r ep poddne qunow un6 oupew SLOJA prid s Ke SOU nu t EWI ORANO Op i Wein pel Deco PUB Gol voyunuur got Sped Birds RUN uou eseno un6 4290 t Poa Op pu jo 10081 pue Guude Sos SJUR IOW je rD wiam pou ees AJON ineiesuodra 1696 6 8 12 0516 oyeges neouue 3 LOXA A ON 2 98 6 8 12 0516 Lugs YOURS Nay op SEAL ep ejepgd 1eped o 9 uo ep ou Le IG Buea uoporp uo ep jo3102 periit 1806 GAP Borse Aga 7 310 AX ON WO Stt 90 anessq uier sousuado 3SY389 17930 C 3SV349 989 dO Figure 15 3 1 Sheet 2 of 2 Lubrication Chart RELATED DOCUMENTS 1 The following NATO Standardization Agreements STANAGS have been wholly or partially incorporated into this manual a 2310 Small Arms Ammunition 7 62 mm b 2316 Marking of Ammunition and 15 packaging of Calibre below 20 mm 2321 Code of Colours for the Identification of Ammunition except below 20 mm d
220. re of the propellant used varies according to the type of round 5 Primer The primer used with all rounds is Primer Percussion QF cartridge No 15 a Description This primer consists of a body cap anvil ball plug magazine with filling and an envelope or sleeve The joint between the cap and the primer body is made waterproof with an approved varnish and the two top threads of the plug are coated with an approved cement The anvil is assembled in the body with its threads in a dry condition and b Action The striker of the firing mechanism is driven on to the percussion cap of the primer and the composition is nipped on the anvil The flame from the resultant ignition passes through the fire channels in the anvil past the soft copper ball continuing through the fire channels in the plug and the paper disc to ignite the magazine filling The gases generated by the burning composition force the copper ball onto its coned seating in the anvil which prevents rearward gasescape The flame from the composition passes through the fire holes of the magazine to ignite the propellant charge in the cartridge case of the round 6 Projectile The 76 mm cartridge case can be fitted with the following types of projectiles a HESH L29 b HE L24 e Smoke BE L321 d Canister shot L33 e Practice SH L40 and f Practice L25 BASE CLIP NO 48 MARK 1 FE The base of the round is fitted with a base clip No 48 Mark 1 The clip has four ar
221. recock the system place the launcher on the shoulder pull the safety handle to ARM aim and squeeze the trigger if the weapon still does not fire wait 10 seconds before returning the trigger safety handle to the SAFE position Keep the weapon trained on the target area for at least one minute do not collapse the launcher and 2 discard it for destruction in accordance with range standing orders SECTION 6 BATCHING DEFINITION 1 Batching 15 a system of marking and indexing fixed ammunition to simplify tracing components It is comprised of a cartridge letter a batch number and a sub batch letter eg E766B CARTRIDGE LETTER 2 The rounds are allotted a letter which denotes the type of projectile and shell filling The following code is used a B or HESH b D coloured smoke E armour piercing d N canister T practice weighted f C white screening smoke and g 5 practice filled with or without trace BATCH NUMBER 3 QF fixed ammunition is batched according to the propellantlot each lot of propellant is given a batch number If CIL allots 766 as a batch number all rounds containing propellant from that lot will be numbered 766 The batch number should not be confused with the propellant lot number which is always prefixed by the initials of the manufacturer of the propellant SUB BATCH LETTER 4 As many as 10 000 rounds may contain propellant from the same propellant
222. renade The L8 grenade is similar in design to the L7 The primary differences between the grenades are a the body of the L8 grenade 1 is made of moulded rubber and is closed at the base 2 is left in its natural finish and the cylinder at the top is painted eau de Nil and b the filling of the L8 is red phosphorous however clue to chemical reaction when fired the L8 emits white smoke 8 The 18 grenade bursts at a distance of approximately 60 m from the discharger and at a height of from six to eight metres from the ground It provides a protecting smoke screen for about one minute 9 2 O Smoke pellets Priming composition Steel case Fuse charge and top contact assembly Band Stencilling Filled lot number Initials or monogram of filler Code of smoke composition stencilled 10 Model number 11 Date of filling 12 Body painted deep bronze green GREN DISCHARGER SMK SCR L5A4 e Charge fumig ne Charge d amorce Contenant en acier Charge fus e et ensemble du contract Bande vert Marques au pochoir Num ro de lot au remplissage initiales ou monogramme du remplisseur Code de la composition fumig ne marqu au pochoir 10 Num ro de mod le 11 Date de remplissage 12 Corps peint en vert fonc Figure 13 3 1 Grenade Discharger Smoke Screening 15 Priming composition Smoke pellets
223. ricate check security Test operation of heaters filters graticule illumination graticule adjusters face mask and focus Test for parallax Carry out complete boresighting procedure including converging of the commanders sight O AMMUNITION STOWAGE Ammunition stowage Clean inspect condition of all ammunition and stowage containers HATCHES SEATS INTERNAL LIGHTS Hatches seats internal lights Clean inspect lubricate Test operation SPARES AND TOOLS Spares and tools Clean inspect lubricate check and restow INTERNAL AND EXTERNAL STOWAGE Internal and external stowage Check HEATING AND VENTILATION UNIT Heating and ventilation unit Check operation SERVICING BEFORE FIRING This daily maintenance is performed to keep the equipment in good working condition at all times and while firing outdoors Servicing before firing is not a substitute to monthly servicing but rather completes it Elements to be checked Actions to be taken Lubricant MAIN ARMAMENT Bore and chamber Dry clean Breech block and striker Dry clean face of breech block striker recess and firing pin Firing pin protrusion Gauge Breech closing spring Test Firing gears Test MACHINE GUN Bore and chamber Dry clean Firing gear Test operation SMOKE GRENADE DISCHARGERS Smoke grenade dischargers Test circuits GUN CONROLS AND MOUNTING Tra
224. ring pin is compressed this provides the energy to drive the firing pin forward see Figure 11 9 13 18 During the initial movement of the bolt to the rear the sear cams are disengaged from the trigger cams 19 The firing pin is withdrawn and its shoulders ride on top of the sear platform The sear spring maintains upward pressure When the shoulder is aligned with the sear notch it lifts the sear to engage the firing pin 20 As the bolt moves forward the upper end of the cocking lever is rammed to the rear pivoting the rounded nose out of its position in the firing pin If the firing pin is prematurely released by the sear the rounded nose will re engage the rear of the firing pin and ease it forward this prevents a premature discharge LOCKING 2 As the bolt moves forward the front of the lower projections on the bolt trip the accelerator and rotate it forward This disengages the barrel extension from the lock frame and releases the barrel plunger spring The barrel and barrel extension are moved forward by the force of the bolt acting against the accelerator and by expansion of the barrel plunger spring see Figure 11 9 14 22 As the recoiling portions move forward the breech lock rides up on the breech lock cam and into the recess in the bottom of the bolt This locks the bolt firmly to the barrel extension and against the rear of the barrel 181A8 np ipuoue jnog E 1818 Bury200 Jo esou
225. rk onto the centre of the zeroing screen using the hand traverse and elevation Unlock the graticule adjusters and move the graticule using the graticule adjusters to the MPI on the zeroing screen Lock the graticule adjusters once completed Confirm that the difference between the total column and physical reading column on the Cougar Zeroing Registration Form is no greater than 0 2 mils otherwise repeat steps e f and 9 Relay the 900 m aiming mark on the centre of the zeroing screen using the gun controls and fire one confirmation round The confirmation round should be close to the centre of the target or at least on the zeroing screen When confirming if the round misses the zeroing screen the crew will check the following 1 the gunner s action 2 the settings on the graticule adjusters and 3 the boresighting Re confirm and if the second round misses re zero NOTE The boresighting screen Figure 9 1 3 is also used as a zeroing screen ZEROING WITH STANDARD VALUES 3 If only one round is available to zero the following procedure will be used a boresight the gun b add the last recorded standard values of the vehicle difference between boresighting and zeroing values fire one round at the zeroing screen at 900 m and d if the projectile hit the screen the gun is considered zeroed ZEROING REGISTRATION FORM 4 The Cougar Zeroing Registration Form Figure 9 6 1 will be completed as follows a
226. rovide an immediate screen 3 The Body The body consists of a steel cylinder with flanged edges The cylinder is approximately 17 8 m in length and 6 6 em in diameter The external surfaces of the body are painted a deep bronze green with an eau de Nil coloured ring around the upper part of the body The body contains the composition for producing smoke 4 Fuse Charge and Top Assembly The fuse charge and top assembly consist of a the top contact assembly which is based on a dish shaped tin plate top The upper flat surface of the top has eight holes drilled in it An aluminium diaphragm covers the eight holes and provides an airtight joint b the electric fuse which consists of a paper tube containing a low tension type fuse head secured in the tube and c the charge which is comprised of gunpowder 5 Operation The four grenades in each discharger are fired by a push button which when pressed completes the firing circuit to the jacket connection of each discharger cup The electric current passes to and fires the electric fuse in the grenade which ignites the gunpowder charge and then ignites the smoke composition GRENADE DISCHARGER SMOKE SCREENING L7 6 The L7 Grenade The L7 grenade is similar in design to the L5 described above The primary difference between the grenades is confined to the filling the top contact assembly and the colour of the smoke produced GRENADE DISCHARGER SMOKE SCREENING L8 7 The L8 G
227. rtical In this locked position the driving spring is compressed within the bolt The bolt stud is moved forward enough to push the driving spring rod out of its position in the backplate The cocking handle is now pushed fully forward The backplate catch is then pushed forward and the backplate lifted out 5 Bolt Stud The bolt stud is aligned with the recess in the right sideplate and is removed 6 Bolt The bolt is removed by inserting the left hand into the cover opening and pushing the bolt to the rear where it is caught in the right hand The cocking lever is rotated to the rear and the sear depressed This releases the tension on the firing pin spring 95 Lock Frame drift is inserted in small hole to rear of the right sideplate pushed in on the trigger axis pin The trigger is grasped and pulled to the rear until the rear portion of the barrel extension is clear of the receiver By holding the barrel extension with the left hand and the lock frame with the right the accelerators are rotated forward with the right thumb to Separate the lock frame from the barrel extension 8 Barrel Extension and Barrel Finally the barrel and barrel extension are removed from the receiver as one piece The barrel is not unscrewed from the barrel extension TO STRIP THE BOLT 9 Extractor The extractor is rotated upright and removed 10 Cocking Lever The pin is removed and the cocking lever lifted out 11 Driving Spring Rod and
228. s by bobbins these form the link between the gun and the recoil system The anti rotation key is mounted to the top of the yoke by two screws k Bobine 2 Yoke 2 Collier 1 Bobbin 3 Boulons de fixation de la clavette anti 3 Anti rotation key securing screw rotation Figure 2 4 1 The Yoke SECTION 5 THE BREECH MECHANISM DESCRIPTION 1 The breech mechanism provides the means by which the breech is closed the round fired the breech re opened and the empty casing ejected 2 The breech mechanism is mounted in the breech ring It can be operated either mechanically or manually COMPONENTS 3 The breech mechanism consists of the following main components a the breech block b the firing circuit components c the breech closing spring d the actuating shaft and e the breech mechanism lever BREECH BLOCK 4 The breech block is machined from solid steel block It moves vertically in the inclined channel of the breech ring De The striker mechanism assembly housed in the breech block is controlled by the breech block mechanism and is comprised of a the sear b the cocking link and e the recocking crank 6 On the actuating shaft a crank is fitted which rides in the breech block crank path forcing the breech block downward and recocking the gun The gun can also be recocked manually using the recocking lever FIRING CIRCUIT COMPONENTS 7 The firing circuit components form part
229. s made from forged steel and is approximately 289 mm long The body is comparatively thin walled and its base is recessed to receive an external tracer The nose of the shell is long and pointed it is threaded internally to receive the direct action percussion fuse A copper driving band is pressed into a groove around the rear end of the body The explosive filling consists of a quantity of RDX TNT For recognition the body of the shell is painted deep bronze green Golden yellow stencilled markings on the shell body indicate the nature of the round and the type of filling The T symbol indicates that a tracer is fitted IDENTIFICATIONS VIDE dd 1 Figure 13 1 3 Page 1 of 2 Fuse Percussion Base Medium 1945 SE ISGFAPNT D SNDGAEN 28 29 30 31 32 CE pellets Magazine Stemmed CE Shutter Segment holder Cover Striker Creep spring Closing disc Locking ring Safety plunger Escapement mechanism Washer Segments Body On impact the striker moves forward onto the detonator which ignites the stemmed CE the CE pellets and bursting charge in the shell Locking piate Shutter detonator Segments Segment holder Shutter is held in the unarmed position by the spring loaded safety plunger Safety plunger Striker Segments and striker held in unarmed position Centrifugal force causes segments to open Centrifugal force causes
230. s secure l Do not use the locking ring when using the muzzle piece 2 The muzzle piece is painted yellow for easy identification 36 Removing the Blank Firing Attachment To remove the blank firing attachment take the following steps a remove the muzzle piece from the gun and thoroughly clean it Replace locking ring and front barrel bearing and plug and b withdraw the feedway mechanism retaining pin Remove the cartridge discriminator and replace the cartridge guide Push the feedway mechanism retaining pin fully forward 37 Precautions for the Blank Firing Attachment The precautions for blank firing are as follows a never mount the muzzle piece unless the cartridge discriminator is in position b always remove the muzzle piece before receiving the cartridge discriminator e after firing blank ammunition it is absolutely essential that the barrel be cleaned before firing any other type of ammunition and d the safety distance for the 7 62 mm blank is 100 m The gun will not be pointed at anyone under this range GENERAL 1 SECTION 6 PREPARATION FOR FIRING SEVEN POINT CHECK The following systematic check of the gun will be carried out in the prescribed sequence prior to firing the weapon These checks will ensure that the weapon is functioning properly 2 The following must be checked a buffer disc assembly b headspacing e timing d firing pin protrusion e feed mechanism f feed slide
231. slide The large end of the spring is aligned with its recess in the pawl and is pressed together The feed pawl pin is replaced ensuring that its ends are flush with the sides of the slide 28 Feed Lever The rounded end of the feed lever is inserted into the feed slide through the slot in the cover The hole in the lever is aligned with the pivot hole in the bushing 29 Feed Lever Pivot Pin The feed lever pivot pin is inserted into the feed slide through the hole in the bushing on top of the cover The hole in the lever is aligned with the pivot hole in the bushing 1 Cover extractor cam 1 Came de l extracteur du couvercle 2 Cover extractor spring 2 Ressort de l extracteur du couvercle 3 Cover extractor spring post 3 Tige du ressort de l extracteur du couvercle 4 Feed pawl 4 Cliquet d alimentation 5 Feed pawl finger 5 Doigt du cliquet d alimentation 6 Feed stud 6 Tenon d alimentation 7 Feed lever 7 Levier d alimentation 8 Feed lever pivot 8 Pivot du levier d alimentation 9 Feed slide 9 Coulisseau d alimentation Figure 11 5 7 Cover Group Cover extractor Cover extractor spring Feed pawl pin spring Feed pawl Feed slide Feed lever pivot screw Lock washer Lever pivot pin 10 Feed lever Q ND Came de l extracteur du couvercle Ressort de l extracteur du couvercle Goupille du cliquet d alimentation Ressort du cliquet d
232. slot the fingers of the left hand should be wrapped around the spring By using the thumb of the right hand the plunger is pressed down and the pin engaged in its slot on the left Trigger Accelerator stop Trigger cams Breech lock depressors Trigger pin Barrel plunger Accelerator pin Accelerator DANONE D tente But e d acc l ration Cames de d tente Rampe de l abri de la culasse mobile Goupille de d tente Plongeur du canon Goupille de l acc l rateur Acc l rateur Figure 11 5 1 Lock Frame Trigger Trigger pin Breech lock depressor Barrel plunger spring Barrel plunger Frame assembly Accelerator pin Accelerator Claws 10 Tips D tente Goupille de d tente Rampe de verrou de la culasse Ressort du plongeur du canon Plongeur du canon Corps de l abri de culasse Goupille de l acc l rateur Acc l rateur Griffes 10 Talons 00 LE Figure 11 5 2 Lock Frame Exploded View 6 Accelerator The accelerator is replaced with the claws uppermost The pin 1s inserted from either side ensuring that the ends of the pin are flush with the sides of the lock frame 7 Trigger The lock frame is held in the left hand with the plunger to the left The trigger is inserted under the spacer The hole in the trigger is aligned with the trigger axis pin hole the trigger axis pin is
233. ss in the bolt and is in position before the bolt is fully forward This may cause damage to the breech lock cam due to excessive vibration A symptom of loose headspace is the occurrence of separated casings TIMING 9 Definition Timing is the adjustment of the machine gun so that firing takes place when the recoiling parts are between 0 76 mm the FIRE part of gauge and 3 0 mm the NO FIRE part of gauge from being fully forward 10 When to Check Timing Timing is checked on the following occasions a before firing b when the barrel or any part of the receiver is changed and c when in doubt 11 To Check Timing To check for proper timing use the following procedure a cock the gun and ease the working parts forward onto the NO FIRE timing gauge b raise the trigger the firing pin should not release if it does release replace the trigger and repeat the test e remove the NO FIRE timing gauge and insert the FIRE gauge and fire the action if it does not fire change the trigger and repeat the test and d remove the FIRE gauge FIRING PIN PROTRUSION 12 To do the firing pin protrusion test use the following procedure a cock the action b look down the face of the bolt and fire the action and e ensure that the firing pin protrudes 1 5 mm and is well rounded Fire gauge 2 While measuring the feed slide protrusion pess the feed slide to the left to eliminate play 1 2 Jauge du mode Tir
234. ssible is compressed onto the rod starting with the bottom of the spring The spring is held down with the thumb and forefinger The bolt is held securely with the face of the bolt in the palm of the hand it should slide over the spring and rod The downward pressure is continued until the pins on the rod enter their slots in the bolt The bolt is then pivoted one quarter turn clockwise until the pins are firmly engaged and the slot is vertical The bolt is slowly raised off the surface keep it pointed downward The end of the bolt should be carefully looked at to check that the rod is locked in position 19 Cocking Lever The cocking lever is replaced through the slot in the sear spring Ensure that the rounded nose is down and to the rear The cocking lever pin is inserted from the left side of the bolt 20 Assembly Test The cocking lever is rotated forward cocking the firing pin The cocking lever is again rotated to the rear The sear is depressed If correctly assembled a distinct metallic click will be heard 21 Extractor The extractor is held upright and the rounded pin inserted in the rear hole on the left side of the bolt The extractor assembly is allowed to fall forward locking it in position ASSEMBLING THE GUN 22 Barrel and Barrel Extension The barrel is inserted through the receiver until the front of the barrel extension is resting on the rear of the receiver 23 Lock Frame The barrel extension is held with one han
235. ston forces oil from the cylinder through the connecting gallery into the hydro pneumatic cylinder forcing the floating piston forward This increases the nitrogen pressure in the front of the cylinder thereby absorbing part of the recoil energy During recoil the four breather holes in the oil cylinder front end cap allow filtered air to be drawn into the non pressure side of the oil cylinder which prevents vacuum from being formed 24 When recoil ceases the compressed nitrogen in the hydropneumatic cylinder expands forcing the floating piston rearward and returning the oil through the connecting gallery into the recuperator cylinder The oil under pressure from the compressed nitrogen forces the recuperator cylinder piston forward The recuperator cylinder piston rod which is connected to the yoke returns the gun to the fully run out position THE RECOIL INDICATOR 28 The recoil indicator is located on the inner right side of the deflector guard It consists of a bracket and slide The bracket is marked with two vertical lines and the words NORMAL and CEASE FIRE The slide is marked with a white vertical line and has a lug The amount of recoil is indicated by the relationship of the white line on the slide to the indicator mark on the bracket Incorrect readings can be the result of a bent or warped deflector guard Hydro pneumatic cylinder Connecting lug Oil filler plug and chain Oil filler plug Recuperator pis
236. t pointer which is zeroed with the left hand knob 7 The instrument is permanently in mesh with the traverse gears The scale illumination is turned on as required OPERATION 8 To Illuminate the Scale Turn the dimmer knob counterclockwise and adjust the brilliance if necessary If there is no illumination check fuse F4 and the bulbs 9 To Zero the Pointers Press in and turn the zeroing knobs as required to bring the pointers into line with the zero marks on the inner and outer scales 10 Applying Line Corrections To apply a line correction use the following procedure a zero the pointers b repeat the ordered correction apply ordered correction against the outer scale d rezero the pointers 11 Measuring a Line Switch To measure a line switch use the following procedure a lay on the distant flank or gun aiming point traversing in the direction to which the line switch is to be made b record the zero line by zeroing the pointers and c traverse onto the target and read the measurement from the inner and outer scale 12 Applying a Measured Line Switch To apply a measured line switch use the following procedure a lay on the recorded zero line traversing in the direction to which the line switch is to be made b zero the pointers e traverse the required line switch and d rezero the pointers NOTE To eliminate backlash in the gears it is essential that traversing ends in the dire
237. tched OFF The light bulbs m the gun selector switch box will be replaced with a 28 bulb To replace the bulb use the following procedure a unscrew the bulb holder b separate the bulb from the holder and c replace the bulb 9 Turret light bulbs will be replaced with 24V 5W centre contact bulb 10 The map reading light bulb will be replaced with a 24V 5W double wire contact bulb To replace the bulb use the following procedure a push in on the light guard until the bulb is completely exposed and b pull the bulb out and replace CHAPTER 5 THE GUN CONTROL EQUIPMENT SECTION 1 INTRODUCTION GENERAL 1 The gun control equipment consists of both an electric and manual system for laying the gun and an electromechanical firing circuit GUN LAYING SYSTEMS 2 The turret traversing system can be operated electrically or manually Using the electrical traversing system the gunner and commander can quickly lay the gun for line If the electrical system fails only the gunner can traverse the turret by using the manual traverse handle The elevation or depression of the gun can only be done manually by the gunner 3 The turret can be traversed electrically at a speed of less than 16 seconds for one revolution GUN CONTROLS 4 The gun controls consist of the following components a Gunner s Power Controller This allows the gunner to lay the gun for line using power traverse b Commander s Override Con
238. ter 18 Mise au point de l oculaire 10x Figure 7 1 1 Sight Periscopic Armoured Vehicle No 54 20 18 16 14 12 10 8 6 4 2 2 4 6 8 10 1214 16 18 20 R H HEHO 44 444 4 MBS76 5 MG s fei 5 6 _ cl 6 7 Fr i 7 8 8 pe LEE 10 meme m 10 re 12 mets 0782 s HHe4A 14 dE EE 16 16 d H re 17 IB 18 19 o 19 2 20 he 2 2 lt Figure 7 1 2 Day Sight Graticule Pattern All Sights 20 21 22 Figure 7 1 3 Radnis Night Graticule Pattern SECTION 2 OPERATION COMPONENT ADJUSTMENT AND OPERATION OF THE NO 54 SIGHT 1 Face Mask To adjust the face mask and focus the eyepiece use the following procedure a the face mask may be mounted to give either left or right eye vision through the X10 eyepiece To change the position of the face mask 1 unscrew the bottom two and top centre knurled wheels which are under the mask 2 resecure the face mask by tightening the three knurled wheels and b select an aiming mark of not less than 600 metres and rotate the focussing adjustor until the graticule pattern and the aiming mark are sharp and clear 25 Graticule Illumination To illuminate the graticule use the following procedure a set the switch to the ON position b rotate the dimmer control until the required brilli
239. ter to dispense with all lubricants entirely rather than use one which will congeal When oil is used during the winter a rule of thumb to follow is this if fingerprints can be seen after touching the metal too much oil has been used To avoid condensation clean the gun outside heated shelters When oil is brought indoors to be used for cleaning it must be kept in air tight containers to prevent moisture seeping into the oil If this is not done there is an increased possibility of rust forming when oil is applied to the weapon The gun cover is waterproof and should be used to keep the gun dry when it is not in use 21 Dry Hot Climate Sand and dust will affect the mechanism of the gun by creating friction on the working surfaces which causes rapid wear on these parts Weapons must be stripped and cleaned daily Critical operating surfaces should be kept dry to prevent sand from accumulating and acting as an abrasive causing damage to the gun Avoid using excessive oil on other surfaces Due to the cold nights in desert areas sweat will form on metal therefore sweat must be removed or rust will form The gun cover will prevent sand from entering the mechanism of the gun and should be used whenever the gun is not firing 29 Tropical Climate In tropical climates where humidity is high special precautions must be taken by the crew to prevent the formation of rust To reduce condensation within the turret all hatches should remain open when
240. the unity window A face mask which can be positioned for either left or right eye viewing fits over the eyepiece The eyepiece can be removed by rotating the face mask 90 degrees it has a fixed focus for day only 22 An injected graticule pattern is incorporated within the eyepiece This graticule receives power when the sight is turned on at the Radnis control box located on the turret wall to the right and forward of the gunner Brightness is controlled by a rheostat located on the right underside of the sight the knob closest to the commander The field of view for the X10 optical system is 113 mils 23 Night Optics With the eyepiece giving a magnification of X9 the field of view is 115 mils This field of view can be raised 700 mils in elevation E and 200 mils in depression D by means of the optical mirror control The night system does not utilize the X1 unity window 1 Sight head 1 T te du viseur piscopique 2 UDaybght protection shutter 2 Volet protecteur dume 3 Day night selector 3 Lever de s lection jour nuit 4 Graticule adjuster elevation 4 Bouton de r glage du r ticule en hausse 5 Graticule adjuster azimuth 5 Bouton r glage du r ticule en direction 6 Graticule brightness control day 6 Rh ostat du r ticule pour 7 Graticule brightness control might 7 Rh ostat du r ticule nuit B Anti glare fitter 8 Filtre anti biouissant Figure 6 1 5 85126 Commander s Radnis
241. the equipment This is called zeroing ZEROING PROCEDURE 2 The following procedure is used to zero a Complete boresighting procedures IAW Sections 1 and 2 to this chapter and record values on the Cougar Zeroing Registration Form Figure 9 6 1 Position the zeroing screen 900 m from the AFV and order the gunner to lay the hesh 900 m aiming mark onto the centre of the zeroing screen Fire three rounds at the centre of the zeroing screen ensuring that the same point of aim is used for each round fired if the first round does not hit the zeroing screen adjust the graticule by doing the following 1 if the round is minus move the graticule using the graticule adjuster from the centre of the zeroing screen to where the projectile hit the ground and 2 if the round is plus move the graticule using the graticule adjuster from the centre of the zeroing screen to the spot where the tracer flew over the Zeroing screen Proceed down range and measure the distance in centimetres from the center of the circle on the zeroing screen to each round both in azimuth and elevation Record the readings on the Cougar Zeroing Registration Form Calculate the MPI by adding the columns determining the difference and dividing by three to find the MP for both azimuth and elevation Mark the MPI on the zeroing screen with red paint mark or cover the previous shots on the screen and return to the AFV 9 Have the gunner lay a 900 m aiming ma
242. the empty casing and hold the breech block in the open position They allow the breech block to move upward when they are depressed 14 The crank limits the downward movement of the breech block by making contact with the crank stop The crank also forces the breech block upward by rotating the actuating shaft it causes the breech closing spring torsion to reassert itself The crank recocks the gun during the downward movement of the breech block since it is in contact with the cocking link THE BREECH MECHANISM LEVER 15 The breech mechanism lever is used to open and close the breech by hand It consists of a handle with an operating lever and is located to the left hand side of the actuating shaft When the operating lever is pressed the actuating shaft is engaged When the handle is rotated the actuating shaft also rotates opening or closing the breech 16 Mounted on the crank there is a stud which rides in the semi automatic cam When the gun fires the stud contacts the end of the spring loaded semi automatic cam causing the crank lever to rotate and opening the breech during the forward movement of the gun 17 A lubrication point is located on the semi automatic cam Operating lever Crank Extractors Actuating shaft Breech mechanism lever n d wn Ut GAD Levier de manoeuvre Bielle Extracteurs Arbre de commande Levier du m canisme culasse Figure 2 5 3 Breech Mechanism SECT
243. the fuse setting key L1A2 over the fuse and engage the knob of the key with the indentation on the setting ring and rotate the key clockwise until the required range in metres marked on the key scale is opposite the line marked SAFE on the fuse CANISTER SHOT L33 27 The canister shot consists of a cylindrical tin plate body an aluminum base two tin plate discs and 799 steel pellets For recognition the body of the canister shot is painted a deep bronze green colour White stencilled markings on the shot indicate the type of the round PRACTICE SQUASH HEAD L40 28 Shell Practice Squash Head PRAC SH is designed to give the same ballistics performance as the service shell it represents but it is filled with a non explosive substitute For recognition the body of the shell is painted a deep saxe blue White stencilled markings on the shell body indicate the nature of the round The T symbol indicates that a tracer is fitted SHELL PRACTICE L25 29 Shell Practice consists of one of the bodies used with service HE shell It is filled with a quantity of substitute and is fitted with a plug representing the fuse For recognition the body of the shell is painted deep saxe blue White stencilled markings on the shell body indicate the nature of the round The T symbol indicates that a tracer is fitted TRACER SHELL 1542 30 The L5A2 tracer is of the external type and consists of a body with a grub screw closing ring brass cl
244. then replaced STRIPPING THE BARREL EXTENSION 8 The Barrel Extension The barrel is unscrewed from the barrel extension see Figures 11 5 3 and 11 5 4 9 Barrel Locking Spring If the barrel locking springs is not punched the tip of a screwdriver is slipped under the hooked end of it and pried forward then removed 10 Breech Lock The breech lock pin is pushed out and the breech lock is removed ASSEMBLING THE BARREL EXTENSION 11 Breech Lock Ensure that the barrel extension is upright The breech lock is replaced with the double bevel up and to the front The breech lock pin is replaced ensuring that the end of the pin is flush with the sides of the barrel extension 12 Barrel Locking Spring If removed the barrel locking spring is inserted into its recess with the hooked end toward the barrel threads Slide it in as far as it will go 13 The barrel is screwed fully into the barrel extension lifting the barrel locking spring over the barrel while doing so It is then slackened off by one click When the gun has been reassembled head spacing must be adjusted uoueo LOSSEY asse nd e ep noaa np ejidnoc 2 jue Buuds Buryooj jaueg E uid yoo 499819 2 Bn 7 AY po da Figure 11 5 3 Barrel Extension STRIPPING THE FEEDWAY MECHANISM 14 Link Guide see Figure 11 5 6 The feedway mechanism retaining pin is withdrawn approximately 2 5 cm The link
245. tion Wooden Wire Wrapped Crate Cartons for 9 mm Ammunition Metal Container for 9 mm Ammunition Grenade Discharger Smoke Screening LS Grenade Discharger Smoke Screening Green L7 Grenade Discharger Smoke Screening L8 Cougar Grenade Recognition Three Different Types of Projectors Used by the Canadian Forces Description of Projector Cartridge 1 of 2 Flare Parachute Hand Fired C3 2 of 2 Flare Parachute Hand Fired C3 1 of 2 M72 Rocket Launcher and Rocket 2 of 2 M72 Rocket Launcher and Rocket M72 Front Sight Shell 76 mm Armd C SH Practice Round 76 mm Armd C HESH Round 76 mm Armd C HE Round 76 mm Armd C Practice Round 76 mm Armd C Smoke BE Round 76 mm Armd C Canister Shot Cartridge Blank 76 mm Armd C L2A1 Typical Marking on Outer Ammunition Boxes Except those Containing Small Arms Ammunition Typical Stampings Applied to Base of Small Arms Ammunition Cartridge Cases Symbols Denoting Type of Pack for Small Arms Ammunition Symbols Denoting Nature of Bullets for Small Arms Ammunition Method of Marking Inner Boxes Containing Small Arms Ammunition Method of Marking Outer Boxes Containing Small Arms Ammunition Table of Commander s Actions Table of Gunner s Actions 1 of 3 76 mm Misfire Drill 1 of 3 76 mm Misfire Drill 1 of 3 76 mm Misfire Drill 1 of 2 Lubrication Chart 2 of 2 Lubrication Chart CHAPTER 1 GENERAL INTRODUCTION SECTION 1 PURPOSE AND SCOPE AIM 1 T
246. to the rear This action is known as obturation 14 Recoil The rapidly increasing gas pressure forces the projectile out of the case and along the bore it also causes the gun to recoil The recoil of the gun is controlled and limited to approximately 28 cm by the buffer During the initial rearward movement of the gun the circuit breaking cam on the breech ring contacts the forward lever on the loader s safety switch and automatically disconnects the electrical firing circuit As the movement to the rear continues the stud on the crank lever of the actuating shaft bears against the inner face of the semiautomatic SA cam forcing it to the left and compressing the SA cam spring When the stud is clear of the SA cam the spring reasserts and forces the cam to the right into the path which the stud on the crank lever will take during run out ACTION ON UNLOADING 15 Action of the Semi Automatic Cam As the gun runs out the stud on the crank lever of the actuating shaft strikes the SA cam and is forced to the rear This causes the actuating shaft to rotate together with the crank Tension is applied to the breech closing springs 16 Withdrawal of the Firing Pin During the initial movement of the crank the firing pin is withdrawn from the base of the round and the breech is unlocked 17 Opening the Breech Continued forward movement of the gun causes the stud on the crank lever of the actuating shaft to travel down the inclined face on the u
247. ton Nitrogen pressure gauge Nitrogen inlet pipe Flexible pressure line Tell tale rod cover 10 Oil drain plug with chain 11 Tell tale rod 12 Shraeder vaive nitrogen release O1 Cylindre hydropneumatique Tenon de raccord Capuchon de remplissage et cha ne Capuchon de remplissage Piston du r cup rateur Manom tre Conduite d arriv e de l azote Tuyau flexible Couvercle de la tige indicatrice 10 Bouchon de vidange d huile et chaine 11 Tige indicatrice 12 Soupape Shraeder JO O Figure 3 2 6 Recuperator and Cylinders ay m Figure 3 2 7 Recoil Indicator SECTION 3 SERVICING SERVICING THE RECOIL SYSTEM 1 To service the recoil system the following are required a oil 3GP 26 b injector oil and petrol e Alien key 1 4 inch d Alien key 3 8 inch plumb bob brass 8 oz f oil 3GP 335 and g cloth 2 The SRB back must be fitted except when firing 3 Before removing any filler plug ensure that the area surrounding the plug is free from dirt by wiping it with a clean cloth 4 Oil 3GP 26 is the correct oil to use in the recoil system TO TOP UP THE BUFFER To top up buffer use the following procedure a check that the recuperator nitrogen pressure is not less than 200 PST b check that the gun is fully run out c level the gun using the gun
248. tor b lay the MBS 76 mm mark on to an aiming mark not less than 600 m traversing from right to left c zero both pointers d traverse right 100 mils then look through the sight and traverse left until the MBS 76 mm mark is laid on to the aiming mark again Do not over run or the test must be redone e note the reading on the pointers The reading should be within one mil of zero and f repeat the test in the opposite direction If the error is greater than one mil in either direction report to a technician QUADRANT FIRE CONTROL 3 The quadrant fire control is checked for security cleanliness and that the range drums are clean and dry The trilux lamps are inspected for cracks or damage QUADRANT FIRE CONTROL DRIVE 4 To test the drive in the quadrant fire control use the following procedure a rotate the range drum adjuster until zero on the mils scale is directly below the cursor line elevate the gun until the bubble in the clinometer is within the two large scribe marks rotate the range drum adjuster and check that the clinometer bubble moves immediately and continue to rotate the range drum adjuster and ensure that the clinometer arm is moving smoothly and continuously TO ZERO THE QUADRANT FIRE CONTROL 5 zero the quadrant fire control use the following procedure b lay the plumb line of the brass plumb bob over the back of the 76 mm breech ring elevate or depress the gun until the
249. troller This allows the commander to override the gunner and lay the gun for line when power traverse is engaged and c Manual Traverse and Elevation Controls These allow the gunner to lay the gun for line and elevation The elevation handle incorporates a firing switch FIRING CIRCUITS 5 The main gun can be fired electrically or manually 6 The coaxial machine gun has a primary and secondary electrical firing system It can also be fired manually by initializing the trigger on the gun SECTION 2 COMPONENTS OF THE GUN LAYING SYSTEM TRAVERSE GEARBOX 1 The traverse gearbox is bolted to the turret flange in front of the gunner s position It conveys the manual or power drive through a system of gears to the pinion engaged with the turret ring A mult plate friction plate built into the gearbox protects it from possible damage caused by the gun striking a solid object MANUAL TRAVERSE 2 Manual traverse is provided by the hand traverse handle mounted on the lower case of the traverse gearbox When the handle is in the DOWN position a spline on the handle shaft engages in the gears within the gearbox Turning the handle causes the turret to rotate in the desired direction POWER TRAVERSE 3 The Cougar is equipped with an electrical power traverse system which utilizes an electric motor and the traverse gearbox The power traverse consists of the components which are listed below 4 Power Traverse Control Unit The power traverse
250. tructions dealing with the precautions to be taken in the event of breakages a there is no health hazard unless nuclear lamps break and only then if the breakage occurs in a confined and poorly ventilated space If this should occur in peacetime all personnel should leave the store room or AFV for 50 minutes When personnel leave doors hatches etc will be left open to allow the tritium gas to escape b it is difficult to detect damage to or leakage of gas from a capsule other than by visual means Luminance will decrease if cracking occurs Slight leakage could take several days and c damaged lamps must be handled carefully Contact with the inside of the glass capsule can cause contamination for several days Lamps will be replaced by qualified personnel only OPERATIONS 11 Measuring an Angle of Sight To measure an angle of sight use the following procedure a the commander orders Set angle of sight b the gunner lays the main battle sight MBS 76 mm mark of the sight graticule on to the target c unlocks the range drum adjuster d rotates the range drum adjuster until the bubble is within the two large scribe marks e slips the HE HESH scale until ZERO is under the cursor line f securely locks the range drum adjuster ensuring that the bubble or the mil scale are not disturbed and reports Set NOTE If the angle of sight is only required for a range card delete subparagraphs e f and 2 12 Applyi
251. until zero is under the cursor line d securely lock the range drum adjuster e rotate the range drum adjuster until the range marking required is directly below the cursor line f elevate the gun until the bubble is within the two large scribe marks ending the lay in depression and g report Level 18 Determine Minimum Safe Range The following procedure will be used to determine minimum safe range MSR a the gunner will zero the QFC scales and level the gun the commander will look through the bore from the top of the breech to the bottom of the muzzle and order the gunner to elevate until the bore is clear of any obstructions the gun is traversed through the arc of responsibility Each time the bore is fouled the gun is elevated until the bore is clear In this way the lowest point is found at which the gun can be depressed without fouling the crest within the arc and the gunner will level the bubble on the QFC using the range drum then report the range to the commander SECTION 4 SERVICING TRAVERSE INDICATOR 1 The traverse indicator 15 checked for security and cleanliness If bulb needs to be replaced use the following procedure a unscrew the adaptor and withdraw the bulb from it and b insert a new bulb 28V 04A and secure the adaptor TO TEST THE ACCURACY OF THE TRAVERSE INDICATOR 2 To test the accuracy of the traverse indicator use the following procedure a illuminate the scales of the indica
252. urely lock the range adjuster the gunner will apply the ordered range given by the commander read off the mil scale and the commander will record the reading on the range card 15 Applying Quadrant Elevation To apply quadrant elevation the gunner must C d repeat the quadrant elevation ordered by the commander rotate the range drum adjuster until the required quadrant elevation is under the line in the cursor level the gun using the gun controls and report Level 16 To Fire Smoke 0 3700 HE HES Hover 2000 metres Due to the sight marking limitations it may be necessary to fire smoke or engage a target with HE HESH beyond 2000 metres without an angle of sight In either case the procedure is as follows a b the commander will order Zero scales the gunner will unlock the range drum adjusters set all scales to zero relock the range drum adjustor and report Scales zeroed apply the range to the applicable range scale as ordered by the commander level the gun with the gun control and g report Level NOTE If an angle of sight is required the commander and the gunner will follow the procedure outlined in paragraph 1 17 To Lay Semi indirect and Indirect When range and angle of sight are used the procedure is as follows a unlock the range drum adjuster b rotate the range drum adjuster until the angle of sight required is directly below the cursor line e slip the HE HESH scale
253. urret master switch is set to OFF disconnect the electrical connections from the sight with the right hand rotate the turnbuckle connection lever a quarter turn counter clockwise and pull the link bar out of the sight connection lug stow the link bar elevate the gun supporting the sight push up on the locking lever safety catch and push the lever forward to release the trunnion pins and carefully lower the sight To mount the No 54 sight use the following procedure a ensure that the mounting and the sight connection lug on the sight are clean undamaged and lightly lubricated elevate the gun ensuring that the trunnion locking lever is in the forward position then lift the sight into the mounting aperture supporting the sight pull the trunnion locking lever to the rear to engage the trunnion pins and listen for safety catch to engage lift the sight link bar into alignment with the sight connection lug and turn the turnbuckle connection lever a quarter turn clockwise to engage it with the sight ensure that the turret master switch is set to OFF and connect the electrical supply to the sight and elevate and depress the main armament to ensure that the sight linkage is working correctly OPTICAL SERVICING 3 Optical servicing of the gunner s sighting equipment is the same as for the commander s sighting equipment see Chapter 6 Section 3 CHAPTER 8 GUN LAYING INSTRUMENTS SECTION 1 INTRODUCTION GEN
254. ush down to clear the round or empty casing from the T slot on the face of the bolt c re engage the cocking handle on the rear guide bracket d inspect the chamber and interior of the gun to see that they are clear and e report Gun clear TO EASE SPRINGS 13 The procedure to ease springs is as follows b ease the bolt forward under control brush down the extractor ensure that the stud on the feed lever 15 to the left close the cover and fire the action SECTION 4 STRIPPING AND ASSEMBLING GENERAL 1 The primary aim of all stripping and assembling 15 to clean lubricate and inspect the gun and replace broken worn damaged parts 2 The rules of stripping prevent damage to the gun and must be followed These rules include the following a ensure that the gun is unloaded before stripping b use the correct sequence e use the proper tools correctly d do not use force and place the parts so they will not become damaged or dirty 3 Stripping is done a before and after firing b for weekly servicing and c under special conditions NORMAL STRIPPING OF THE GUN 4 Backplate The cover latch is slid to the rear and the cover is raised The cocking handle is pulled and held fully to the rear and the tip of a screwdriver is inserted in the rear slot of the driving rod The slot must be in the horizontal position The driving rod is pushed inward fully and turned clockwise until it is ve
255. vehicle A further visual check should be made when they are placed in ready racks Special care must be paid to the base of the round to ensure base clips are fitted Never stand rounds on their end when they are on the ground 4 If a round is damaged it should be disposed of as soon as possible A loose projectile could result in the explosive propellant being spilled inside the vehicle RULES FOR HANDLING 5 Keep Ammunition Dry Dampness causes the explosives contained in the primer and the propellant charge to deteriorate Misfires hangfires or erratic shooting may be caused by damp ammunition 6 Keep Ammunition Clean A clean dry rag is used for cleaning Oil or abrasives will not be used under any circumstances 7 Keep Ammunition Cool Precautions must be taken to ensure that ammunition especially cartridges and time fuses boxed or unboxed is not left exposed to the direct rays of the sun Shooting will be consistent if rounds are kept at an even temperature The ideal protection is some form of overhead cover that permits the circulation of air or provides an insulating air barrier eg a vehicle tarp If this is not possible the ammunition should be covered with what is available eg empty boxes camouflage nets etc Ammunition either boxed or unboxed which is exposed to solar radiation in a hot climate may reach a temperature that makes it unsafe to fire Any ammunition that can be handled with bare hands without serious disc
256. verse gear Test operation Elevation gear Cradle Recoil system Test operation Deflector guard Check security Recoil indicator Check setting Check recuperator nitrogen pressure 200 PSD Check hydraulic fluid levels of the recoil system Check for oil leaks Check position of recuperator tell tale rod PERISCOPES AND SIGHTS External Clean Internal Clean and check security Test operation of washers wipers heaters filters graticule illumination graticule adjusters face mask focus Test for parallax Elements to checked Actions to be taken Lubricant PERISCOPES AND SIGHTS cont d Sight adjustment Carry out boresighting procedure STOWAGE Stowage Check internal and external Stowage EXTRACTOR FAN Extractor fan Check operation of fan DURING FIRING Elements to be checked Actions to be taken Lubricant MAIN ARMAMENT Breech block and striker Remove any dirt or fouling re oil if necessary Crank stop retaining screw Check prior to each day s firing MACHINE GUN Receiver Remove any fouling reoil IMMEDIATELY AFTER FIRING Elements to be checked Actions to be taken Lubricant MAIN ARMAMENT Bore Clean and re oil if no more firing is expected within 72 hours Chamber Clean and oil O Breech block and striker Clean inspect re oil Firing gears Test operation O MACHINE GUN Remov
257. ward the extractor rises as its plunger rides up the extractor cam Figure 11 9 10 The bolt moves into its forward position and seats the new round in the chamber The extractor rides over the extractor spring ready to withdraw a new round on the next rearward movement of the bolt FEEDING 14 As the bolt moves to the rear the stud on the end of the pivoted feed lever moves to the right in the cam groove that is on top of the bolt This forces the end which is engaged in the feed slide to move to the left and with it the slide The feed pawl rides over the first round in the belt which is held in position by the belt holding pawl see Figure 11 9 11 15 As the bolt moves forward the stud and slide move in opposite directions The feed pawl pushes the first round in against the cartridge guide and link guide The cartridge guide spring forces the new round against the face of the bolt ready to be gripped by the extractor The next round rides over the belt holding pawl and depresses it After the cartridge passes over it the pawl rises under the action of the belt holding pawl spring The round is held in position ready to be engaged by the feed slide see Figure 1 9 12 16 If the extractor fails to withdraw the first round from the belt the finger on the feed pawl will ride on top of this round and prevent the pawl from engaging the second round A double feed is impossible ap 1610 2
258. washer and locking nut 18 The piston rod passes through the centre of the cylinder The front end of the rod is machined to form a support for the piston head and the rear end is threaded to accept the yoke bobbin The piston rod bearing and chevron packings seal the oil cylinder at its rear extension to the mounting block 19 An oil filling hole is situated at the top rear of the cylinder and is sealed by a filier plug and washer 20 The hydro pneumatic cylinder is externally threaded at the rear to engage the cylinder extension in the mounting block the front end is sealed by an internal end cap The end cap extends into the cylinder providing a stop for the floating piston A hollow bolt secures the nitrogen pipe front coupling to the end cap Two washers provide an airtight seal 21 A double acting floating piston separates the nitrogen and oil in the cylinder Two sets of chevron packings are positioned on the steel piston The packings are retained on the piston by two gland nuts The rear gland nut also secures the tell tale rod to the piston 1 21 UOISIg LL enbyeuneudoipAy aupuyAD OL uoyonde 6 eoujeoipur y e ep uoisid np ajay euiqog ep PUO uoisid np oft UOYINdEN 0 60 ns DES no 12108222222
259. wder indicated by Z on the base of the round 4 8 grains of charge are in the Mk 1 and six grains are in the Mk 2 round PACKAGING OF SMALL ARMS AMMUNITION 13 7 62 mm The 7 62 mm ammunition is packed in the following manner a 1 belt to a cardboard or metal container see Figure 13 2 1 b 4 containers to a wooden wire wrapped crate see Figure 13 2 2 and 1 box to a wooden wire wrapped crate 14 9 mm Ball and Blank 9 mm ammunition both ball and blank comes packed in metal containers Ball rounds come with three containers to a crate blank rounds have two containers to a crate see Figures 13 2 3 and 13 2 4 Figure 13 2 1 Cardboard Container 7 62 mm Ammunition PB D 2 Stock number Quantity of cartridges Calibre Arrangement Type of pack Gross weight and shipping cube Lot number NATO design mark symbol of interchangeability shipping nomenclature GEG and SDC Lot number DND ammunition code Small arms ammunition Lll HON 00OMON NAUN Num ro de stock Nombre de cartouches Calibre Agencement Type d assemblage Masse brute et volume d exp dition Num ro de lot Indicatif OTAN Code d interchangeabilit OTAN Designation OCT d exp dition GEG et SDC Num ro de lot Code MDN pour munitions Munitions pour ames portatives Figure 13
260. well painted and free from rust and cracks Such rounds should not be removed from packages until shortly before they are to be used Any rounds which show signs of filling leakage or have loose or corroded fuses will be exchanged To ensure that the sealing of the setting ring on the time fuses is unbroken an attempt should be made to turn the ring by hand to check that the ring is set to SAFE SMALL ARMS AMMUNITION 16 Boxes of small arms ammunition should not be opened until required for use Liners should be examined for cracks slits and other damage If they are damaged they should be rejected 5 56 C7 C8 magazines should be kept clean and the springs are tested by pressing the magazine platform inward GRENADES 17 Grenade boxes inside the AFV should be kept closed to prevent the entry of dust and moisture AMMUNITION MALFUNCTIONS AND DEFECTS 18 Ammunition malfunctions and defects must be reported promptly so that timely corrective action can be taken 19 To report malfunctions and defects use the Form CF 410 Ammunition Defect and Malfunction Report It is used to specify a ammunition malfunctions b ammunition defects including corrosion faulty or incomplete assembly and faulty packaging c irregularities in bracing dunnaging or shipping of ammunition d defects discovered during inspections and testing or proof programmes the Form CF 410 shall not replace or render unnecessary forms used for recording the
261. ws SECTION 2 NORMAL DRILLS ACTION DRILL 1 The order Action will be given by the commander to bring the weapons into a state of readiness If the smoke grenade dischargers are required to be loaded this action will be completed by the commander and gunner prior to completing the following drills a The commander will carry out the drill and report the commander s actions as outline in Figure 14 2 1 NOTE The term Bore clear indicates that no obstruction is visible throughout the length of the bore and chamber An obstruction means not only large objects such as cotton waste but also small particles of grit grease or similar substances During night firing the bore must be checked by shining a flashlight into the barrel from the muzzle and chamber end in turn b the gunner will carry out the drill and report the gunner s actions as outlined in Figure 14 2 2 and the driver will ensure that the hatch is properly closed and locked SERIAL TABLE OF COMMANDER S ACTIONS DRILL Ensure there are no obstructions to the muzzle end of all weapons Ensure driver s hatch is closed Check external stowage for obstructions to free traverse Check internal stowage for obstructions to free traverse Check for 200 Ibs of pressure remove and stow the stop running back Check that the 76 mm bore is clear leave the breech block in the open position Half load the coaxial MG Supervise the gunner REPO
262. x The top of the shaft then comes in contact with a micro switch Either manual traverse or power traverse may be used they must not however be used simultaneously 8 Gunner s Power Controller The gunner s power controller is mounted on the left of the traverse gearbox The controller is a thumb operated control which provides two increasing rates of speed and a maximum speed as follows a from centre to 250 mils in either direction will give a progressively increasing turret rotation from 0 3 mils per second mps to 3 3 mps b from 250 mils to 500 mils will give a progressively increasing turret rotation from 3 3 mps to 160 mps and c at the maximum position 540 mils the turret will rotate at a maximum speed of 427 mps 4 revolutions per minute 9 Commander s Override Controller The commander s override controller is mounted to the bottom right side of the sight Initial movement of the thumb control from the centre position overrides the gunner s controller other aspects of operation are the same as for the gunner s controller ELEVATING SYSTEM 10 The elevating system consists of an elevating handwheel and a nut and screw type gear 11 Elevating Handwheel The elevating handwheel is situated to the left of the gunner s position It is connected by a drive shaft encased in a housing to the elevating gear nut in the gearbox The handwheel is retained on the drive shaft by a pin On the outside face of the handwheel are
263. y a weapons technician SERVICING ELEVATING GEAR 2 To service the elevating gear use the following procedure a check the security of the three mounting bolts b cheek the security and the serviceability of the rubber gaiter and c check that the gearing operates smoothly throughout the complete arc of movement TO TEST THE 76 MM FIRING GEAR 3 To test the 76 mm firing gear use the following procedure a prove the gun and close the breech but do not ease springs b set the hull and turret master switches to the ON position set the gun selector switch to MAIN and ensure that the indicator light illuminates Gf the light does not illuminate inspect the bulb and fuse F8 d make the loader s safety switch and ensure that the Gun Ready light illuminates if the light does not illuminate inspect the bulb e press the firing switch on the elevating handwheel and check that the striker has been released f if the striker has not been released press the firing switch and at the same time check that the solenoid is being energized 1 if the solenoid is not being energized check the electrical connections If the connections are correct report to a technician and 2 if the solenoid is energized adjust the firing gear as detailed in paragraph 4 which follows cock the gun using the recocking lever press the foot firing pedal and check that the striker has been released and if the striker has not been rele
264. y maintenance will be done SECTION 2 LUBRICANTS OIL 1 The following oils are used a 3GP 335 which is a mineral detergent oil used for general cleaning lubrication and for guns under all temperature conditions b 3GP 26 which 18 used m the 76 mm recoil system and c 3GP 304 which is engine oil used on the turret rollers NOTE For arctic conditions use 3GP 343 instead of 3GP 304 GREASE 2 The following types of grease are used a 3GP 641 which is a graphite grease used on the barrel chase b 3GP 685 which is a general purpose grease and 9150 21 879 9637 Moly Kote Spray which is used on mating surfaces SECTION 3 SERVICING GUIDE TABLE Lubricants O 3GP 335 M 3GP 26 W 3GP 685 S Winshield washer fluid Y 3GP 641 L 3GP304 WEEKLY SERVICING Elements to be checked Actions to be taken Lubricant MAIN ARMAMENT Bore and chamber Clean inspect re oil if no firing is expected within 72 hours Breech block and Striker Strip clean inspect lubricate O Striker protrusion Test Reassemble breech block to O breech ring Breech closing springs Test O Firing gears Clean inspect lubricate Test O operation of electrical and mechanical Phosphor bronze bushing Clean and grease O MACHINE GUN Remove if mounted Gun Strip clean inspect lubricate carry out sever point check during reassemble SMOKE GRENADE DISCHARGERS Smoke grenade dischargers Service and test circuits O GU N
265. y of the light The switch is partly protected by the searchlight beam directing handle 4 The spotlight is also provided with a harness cable approximately 9 m long which plugs into a socket located adjacent to the left smoke grenade discharger The circuit is protected by fuse F7 in the turret fuse box When not in use the cable may be wrapped around the body against the stem handle with the two brackets fitted on either side of the light A spring clip to house the cable plug is fitted to one of the brackets 5 If the spotlight does not operate check to ensure the electrical connector on the turret fuse box is secure NOTE Vehicle fitted with Radnis have no mounting facilities for the spotlight 1 Light 2 Light unit 3 Rear seal 4 Lamp filament 5 Lamp adaptor 6 Rim clamp 7 Light body 8 Switch 9 Cable bracket 10 Sealing gland 11 Terminal board 12 Light stem 13 Light bracket 14 Mounting bracket 15 Tumbuckle clamping adjuster 16 Plug 17 Front seal Rebord Ampoule Joint d tanch it arri re Douille de lampe Collier de serrage Cuvelage Interrupteur Support du c ble Connecteur tanche 4 Plaquette bomes Tige Support du projecteur Support de montage Coude de r glage rotatif Bouchon Joint avant Filament du cercle Figure 12 2 1 Spotlight No 1 Mark 2 SECTION 3 HATCHES AND SEATS OPERATION OF HATCHES 1
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