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1. Icons Icon Description The battery symbol indicates the level of the remaining battery capacity 75 full shown in the example si Compensator is on sd Compensator is off e IR EDM mode for measuring to prisms and reflective targets x RL EDM mode for measuring to all targets Offset is active NUM Keypad is set to numeric mode a Keypad is set to alphanumeric mode D Indicates that horizontal angle is set to left side angle measurement anticlock wise i A double arrow indicates a field has a selectable list Up and down arrows indicate that several screens are available which are accessed using 6 1 Indicates telescope position is face I 9 Indicates telescope position is face II Bluetooth is connected If there is a cross beside the icon the Bluetooth commu nication port is selected but the status is inactive f USB communication portis selected 10 STONEX R5 R6 User Interface 2 4 Softkeys Description Softkeys are selected using the relevant F1 to F4 function key This chapter describes the func tionality of the common softkeys used by the system The more specialised softkeys are described where they appear in the application chapters Common softkey functions Key Description ALPHA To change the keypad operation to alphanumerical NUM To change the keypad operation to numerical ALL To start distance and angle2. Access 1 Press FNC when within any application 2 Select Distance Offset from the FUNCTIONS menu DIST OFF DIST OFF Trav Offset Length Offset 0 000 m 2 Of fset i 0 000 m Mode 0 after REC DEFLT DEFLT y W oK To reset offset values to 0 Field Description Trav Perpendicular offset Positive if the offset point is to the right of the measured Offset point Length Longitudinal offset Positive if the offset point is further away than the meas Offset ured point Z Offset Height offset Positive if the offset point is higher than the measured point Mode Period for which the offset is to apply O after REC The offset values are reset to 0 after the point is saved Continuous The offset values are applied to all further measurements S The offset values are always reset to 0 when the application is quit 33 R5 R6 Functions S T O N E X Next step Press OK to calculate the corrected values and return to the application from which the offset function was started The corrected angle and distances are displayed as soon as a valid distance measurement has been triggered or exists 6 3 Z Coordinate Description This function determines the height of the instrument from measurements to a maximum of five target points with known heights in two faces With measurements to several targets the improvement is indicated in the d value 3 2 a 1 Reflector 1 ge 2 Reflector 2 i WA 3 Reflector 3 STn Z
3. AS BUILT CHECK P426 tgt H 1 500 m LAYOUT ne fo To switch to Layout mode to set out points d HGT 0 521 m Shift aLL Shift LAYOUT C gt gt gt To enter values for shifting the line 73 R5 R6 Applications S T O N E X Field Description dLi Longitudinal offset Positive if measured point is further along the construction line from the start point dOf Perpendicular offset Positive if measured point is to the right of the construction line d HGT Calculated difference in height Positive if measured point is higher than the construction line start point height 74 R5 R6 Data Management STONEX 10 Data Management 10 1 Data Management Access Select Data from the MAIN MENU DATA MANAGEMENT The Data Management menu contains all functions for entering editing checking and deleting data in the field F1 Job F2 Known Points F3 Observations F4 Code Library DATA MANAGEMENT 1 2 1 2 3 4 F1 F4 Fi C F2 C Fa C Fa To select menu item Menu item Description Job To view create and delete jobs Jobs are a summary of data of different types for example known points observations or codes The job defini tion consists of the job name and user The system generates time and date at the time of creation Known points To view create edit and delete known points Valid fixed points contain at least the point ID and the coo
4. Description Applications are predefined programs that cover a wide spectrum of surveying duties and facil itate daily work in the field The following applications are available although application pack ages for each instrument may vary from that stated below Survey Reference Element COGO Missing Line Measurement Resection Set Out Area amp Volume Remote Elevation Construction 8 2 Starting an Application Access 1 Select Apps from the MAIN MENU 2 Press Qto move through the screens of available applications 3 Press a function key F1 F4 to select the specified application in the APPS menu Pre settings screens Pre settings for Survey is shown as an example Any additional settings for particular applica tions are explained within the chapters for those applications SURVEY F1 Select Job 1 Setting has been made F2 Select Station 2 Setting has not been made F3 Select Orientn 3 F4 GO 4 F1 F4 F1 C F2 C F3 YC Fa To select menu item Field Description Select Job To define the job where data will be saved Refer to 8 3 Selecting the Job Select Station To define the current position of the instrument station Refer to 8 4 Selecting the Station Select Orientn To define the orientation horizontal direction of the instrument station Refer to 8 5 Selecting the Orientation 40 R5 R6 Applicat
5. 8 5 2 Manual Orientation Access Select Angle in the STN ORIENTATION screen MANUAL ANGLE SETTING MANUAL ANGLE SETTING Brg Tg tHGT 1 500 m BS ID 301 HA 0 aLL REC H A 0 EDM To set Brg 0 Field Description Brg Horizontal direction of the station TgtHGT Height of the reflector BS ID Point ID of the backsight point Next step Either press ALL to measure and record the distance and horizontal angles This will calculate and set the orientation and return to the Pre Settings screen Or press REC to record the horizontal direction only This will set the orientation and return to the Pre Settings screen 8 5 3 Orientation with Coordinates Diagram Known coordinates 1 Target point 2 Target point 3 Target point Calcuations HA1 Station orientation 43 R5 R6 Applications Getting Started STONEX Access Select Coordinates in the STN ORIENTATION screen Orientation with coordinates Field Description Pt Point ID of the backsight point Next step Find an existing backsight point in the pointsearch or enter ENZ coordinates for a new point Press OK to continue to Sight target point Sight target point Field Description BS ID Point ID of the selected or entered backsight point Next step After each measurement the message Do you want to take additional measurements appears Selecting Yes returns to the Sight target point sc
6. Available Standard deviation Display resolution angular accu HA VA ISO 17123 3 racies mgon mgon _ mil 2 0 6 1 0 0001 0 1 0 01 5 1 5 1 0 0001 0 1 0 01 Characteristics Absolute continuous diametric Updates each 0 1 to 0 3 s 14 2 Distance Measurement with Reflectors Range Reflector Range A Range B Range C m ft m ft m ft Standard prism 1800 6000 3000 10000 3500 12000 3 prisms 2300 7500 4500 14700 5400 17700 Reflector foil 150 500 250 800 250 800 60 mm x 60 mm Shortest measuring distance 1 5 m Atmospheric conditions Range A Strong haze visibility 5 km or strong sunlight severe heat shimmer Range B Light haze visibility about 20 km or moderate sunlight slight heat shimmer Range C Overcast no haze visibility about 40 km no heat shimmer Accuracy Accuracy refers to measurements to standard reflectors 103 R5 R6 Technical Data STONEX EDM measuring mode Standard deviation ISO 17123 4 Measurement time typical s IR Default 2mm 2 ppm 2 4 IR Quick 5 mm 2 ppm 0 8 IR Continuous 5 mm 2 ppm lt 0 15 Foil 5 mm 2 ppm 2 4 Beam interruptions severe heat shimmer and moving objects within the beam path can result in deviations of the specified accuracy Characteristics Principle Type Carrier wave Measuring system Phase measurement Coaxial visible red laser 658 nm System analyser basis 100 MHz 150
7. YY 4 Instrument Access 1 Press FNC when within any application 2 Select Z Coordinate from the FUNCTIONS menu Z Coordinate step by step 1 Select a known point and input the reflector height Select PtHsgt To enter the height of a fixpoint Inst h To enter the height transfer values for the instrument 2 Press ALL to complete the measurement and display the calculated height AddTg Adds another height of a known point FACE Measures to the same target in second face OK Saves the changes and sets the station height 6 4 2 Dist Offset Description This function is used for measurements to a point that is not directly visible using a special 2 Dist Offset pole 34 R5 R6 Functions S T O N E X 1 E N H of Target Point 2 Pole Length 3 Distance P1 P2 Access 1 Press FNC when within any application 2 Select 2 Dist Offset from the FUNCTIONS menu Next step If required press POLE to define the pole or EDM settings POLE SETTINGS Field Description Mode Changes the EDM Mode Type Changes the prism type Stonex Displays the prism constant Const Pole Length Total length of 2 Dist Offset pole Dist P1 P2 Spacing between the centers of the prisms P1 and P2 Meas Tol Limit for the difference between the given and measured spacing of the prisms If the tolerance value is exceeded the function will issue a warning Next step In the 2 DIST OFFSET scre
8. b Line perpendicular to tilting axis c Horizontal collimation or line of sight error d Line of sight Vertical index error The vertical circle should read exactly 90 100 gon when the line of sight is horizontal Any deviation from this figure is termed vertical index error This is a constant error that affects all vertical angle readings a Mechanical vertical axis of the instrument also called standing axis b Axis perpendicular to the vertical axis True 90 c Vertical angle is reading 90 d Vertical index error Ee By determining the vertical index error the electronic level is adjusted automatically 83 R5 R6 Calibration STONEX Access 1 Select Tools from the MAIN MENU 2 Select Calibr from the TOOLS MENU Select HA collimation or Vertical Index The procedures and conditions required to correct line of sight and vertical index errors are the same therefore the procedure will only be described once Calibration step by step 1 Level the instrument with the electronic level Refer to 3 Operation electronic level step by step Level up with the Aim at a point approximately 100 m from the instru ment which is within 5 of the horizontal 3 Press REC to measure to the target point ISL For checking the horizontal aim the difference in HA and VA are displayed 4 180 Change face and aim at the target point again 5 Press REC to measure to the target
9. cation Transfer To export and import data Refer to 10 2 Exporting Data Tools To access instrument related tools such as calibrations personal start up settings licence keys and system information Refer to 5 Tools If desired the instrument can be configured to start in a user defined place after the Level amp Plummet screen instead of the MAIN MENU Refer to 5 2 Auto Start Routine 18 R5 R6 Operation STONEX 3 5 Survey Application Description After switching on and setting up correctly the instrument is immediately ready for measuring Access Select Survey from the MAIN MENU SURVEY pied 1 3 a gt gt gt CODING TgtHGT 1 500 m d To find enter codes Refer to 7 Coding Comment gt gt gt STN PA aa A To enter station data and set the station m gt gt gt Set HA To set the horizontal direction orientation gt gt gt HA HA To set the horizontal angle reading to the left anti clockwise or to the right clockwise The procedure for the quick start Survey is identical to the procedure for the application Survey available under the Apps menu Therefore this procedure is only described once within the application chapter Refer to 9 2 Survey 3 6 Distance Measurements Guidelines for Correct Results Description A laser distancer EDM is incorporated into the R5 R6 instruments In all versions the distance can be determined by using a visible red laser b
10. d d Z Height difference from the measured point to the set out point Positive if the set out point is higher than the measured point dOffset Perpendicular distance from the measured point to the set out point Positive ifthe set out point is to the right of the measured point dLine Longitudinal distance from the measured point to the set out point Positive if the set out point is further away than the measured point Messages The following are important messages or warnings that may appear Messages Description Base line too short Baseline is shorter than 1 cm Choose base points such that the hori zontal separation of both points is at least 1 cm Coordinates invalid No coordinates or invalid coordinates for a point Ensure that points used have at least Easting and Northing coordinates Save via RS232 Data Output is set to RS232 in the SETTINGS menu To be able to successfully start reference element Data Output must be set to Internal Next step e Either press ALL to measure and record e Or press gt gt gt BACK to return to the REFERENCE LINE screen Or continue selecting ESC to exit the application 9 4 Reference Element Reference Arc 9 4 1 Overview Description The Reference Element Arc application allows the user to define a reference arc and then complete the following tasks with respect to the arc Line amp offset e Set out Point Arc Chord Angle
11. 4 Subapplication Measure Line amp Offset 50 9 3 5 Subapplication Setout 51 9 4 Reference Element Reference Arc 52 9 4 1 Overview 52 9 4 2 Defining the Reference Arc 53 9 4 3 Subapplication Measure Line amp Offset 54 9 4 4 Subapplication Setout 55 9 5 COGO 57 9 5 1 Starting COGO 57 9 5 2 Inverse and Traverse 58 9 5 3 Intersections 59 9 5 4 Offsets 60 9 5 5 Extension 61 9 6 Missing Line Measurement 61 9 7 Resection 63 9 7 1 Starting Resection 63 9 7 2 Measuring Information 64 R5 R6 Table of Contents STONEX 9 7 3 Computation Procedure 65 9 7 4 Resection Results 65 9 8 Set Out 67 9 9 Area amp Volume 69 9 10 Remote Elevation 71 9 11 Construction 72 9 11 1 Starting Construction 72 9 11 2 Layout 72 9 11 3 As Built Check 73 10 Data Management 75 10 1 Data Management 75 10 2 Exporting Data 76 10 3 Importing Data 78 10 4 Working with a USB Memory Stick 79 10 5 Working with Bluetooth 80 10 6 Working with Stonex Software and Stonex Software Tools 81 11 Calibration 82 11 1 Overview 82 11 2 Preparation 83 11 3 Calibrating Line of Sight and Vertical Index Error 83 11 4 Calibrating the Circular Level of the Instrument and Tribrach 85 11 5 Inspecting the Laser Plummet of the Instrument 86 11 6 Servicing the Tripod 87 12 Care and Transport 88 12 1 Transport 88 12 2 Storage 88 12 3 Cleaning and Drying 89 13 Safety Directions 90 13 1 General 90 13 2 Intended Use 90 13 3 Limits of Us
12. A The difference in horizontal direction to the target point d H D The difference in horizontal distance to the target point dZ The difference in height to the target point Ifno orientation was set and an application was started or ifin Survey and a measurement was recorded then the current horizontal direction is set as the orientation Next step Select GO to begin the application 45 R5 R6 Applications S T O N E X 9 Applications 9 1 Common Fields Description of fields The following table describes common fields that are found within the firmware applications These fields are described here once and not repeated in the application chapters unless the field has a specific meaning within that application Field Description Pt Pt 1 Point ID of the point TgtHGT Height of the reflector HA Horizontal direction to the point VA Vertical angle to the point hDIST Horizontal distance to the point sDIST Slope distance to the point dHGT Height to the point E Easting coordinate of the point N Northing coordinate of the point Z Height coordinate of the point 9 2 Survey Description Survey is an application used for the measurement of an unlimited number of points It is comparable to Survey from the MAIN MENU but includes pre settings for the job station and orientation prior to beginning a survey Access 1 Select Apps from the MAIN MENU 2 Select Survey from the AP
13. Apps from the MAIN MENU 2 Select Reference Element from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started 4 Select Line Next step Define the base line for the reference line 47 R5 R6 Applications S T O N E X 9 3 2 Defining the Base Line Description A reference line can be defined by referencing a known base line The reference line can be offset either longitudinally in parallel or vertically to the base line or be rotated around the first base point as required Furthermore the reference height can be selected as the first point second point or interpolated along the reference line Define the base line The base line is fixed by two base points All points can be either measured manually entered or selected from the memory 1st base point 2nd base point Base line 4 Reference line WN FR Define the base line by measuring or selecting the start and end points of the line Next step After defining the base line the REFERENCE LINE screen will appear for defining the reference line 9 3 3 Defining the Reference Line Description The base line can be offset from either longitudinally in parallel or vertically or be rotated around the first base point This new line created from the offsets is called the reference line All measured data refers to the reference line Reference line J at RL BP2 BP Base point BL Base line RP Ref
14. COGO point By Points Use the line line subapplication to calculate the intersection point of two lines A line is defined by two points Known P2 N BA a P1 First known point ma P2 Second known point P3 P3 Third known point x P4 Fourth known point a Line from P1 to P2 b Line from P3 to P4 Unknown P5 COGO point 9 5 4 Offsets Access 1 Select Offset from the COGO MAIN MENU 2 Select the desired COGO method DistOff Set Pt Distance Offset Use the distance offset subapplication to calculate the distance and offset of a known point with the basepoint in relation to a line A P2 Known PO Instrument station P1 Start point P2 End point P3 Offset point Unknown P1 d1 d Line d2 d Offset P4 COGO base point 60 R5 R6 Applications S T O N E X Set point by Use the set point subapplication to calculate the coordinates of a new point in relation to a line from known longitudinal and offset distances A P2 Known N PO Instrument station P1 Start point p P2 End point e d1 d Line i d2 d Offset P1 Unknown P3 COGO point 9 5 5 Extension Access Select Extension from the COGO MAIN MENU Extension Use the Extension subapplication to calculate the extended point from a known base line Known P1 Baseline start point A N be L1 P3 Baseline end point Pd iS dL1 dL2 Distance P3 Unknown P4 P2 P4Extended COGO points 9 6 Missing Line Measurement Description Missing Line Measurement i
15. D d H D t 0 348 m O gi i d d 2 4 0 846 m To enter the direction and horizontal distance to a set aLL MEAs REC gt gt gt out point Ee Press to move through the pages The bottom three measurement fields on the screen will change for the Polar Orthogonal or Cartesian modes Field Description Find Value for Point ID search After entry the firmware searches for matching points and displays these in Pt If a matching point doesn t exist the pointsearch screen opens d HA Angle offset Positive if set out point is to the right of the measured point d H D Horizontal offset Positive if set out point is further away than the measured point d d Z Height offset Positive if set out point is higher than the measured point dLength Longitudinal offset Positive if set out point is further away than the measured point dTrav Perpendicular offset Positive if set out point is to the right of the measured point dE Easting offset Positive if set out point is to the right of the measured point dN Northing offset Positive if set out point is further away than the measured point dz Height offset Positive if set out point is higher than the measured point Next step Either press ALL to record measurements for a set out point Or press ESC to exit the application 68 R5 R6 Applications S T O N E X 9 9 Area amp Volume Description Area is an application used to compute online areas to a maxi
16. Different settings for measurements are available with Recflectorless RL and Prism IR EDM modes Access 1 Select Settings from the MAIN MENU 2 Select EDM from the SETTINGS menu EDM SETTINGS EDM SETTINGS ATMOS oe ew To enter atmospheric data ppm Type Circular d p ppm GeoMax Const 0 0 mm PPM rasor aam off db To enter an individual ppm value gt gt gt SCALE atmos PPM C OK YC gt gt gt To enter projection scale details gt gt gt SIGNAL To view EDM Signal reflection value gt gt gt FREQ To view the EDM frequency Field Description Mode IR Default Fine measuring mode for high precision measurements with prisms IR Quick Quick measuring mode with prisms with higher measuring speed and reduced accuracy 25 R5 R6 Settings STONEX Field Description IR Contin For continuous distance measurements with prisms uous Foil For distance measurements using Retro reflective targets RL Default For distance measurements without prisms RL Contin For continuous distance measurements without prisms uous RL Long For long range distance measurements with prisms Type Circular so g Standard prism ZPR100 Of Stonex Constant 0 0 mm ii C Custom The user can define their own prism Constants can be entered in mm in Stonex Const Foil Stonex Constant 34 4 mm None RL modes Stonex Constant 34 4 mm Stonex This field displays the Stonex prism
17. Either select Survey from the MAIN MENU and press gt gt gt CODING Or press FNC when within any application and select Code Library CODE LIBRARY CODE LIBRARY 1 2 ae Search New Code 5524 REC alae CODED ESE To record the code without measurement ex Fe Text 200200 a AddLst REC AddLst YC OK To add the entered code to the codelist Field Description Search New Code name After entry the firmware searches for a matching code name and displays these in the code field If a matching code name doesn t exist this value becomes the new code name Code List of existing code names Comment Additional remarks Texti to More information lines freely editable Used to describe attributes of the Text8 code Extend edit codes To each code a description and a maximum of 8 attributes with up to 16 characters each can be assigned Existing code attributes displayed in fields Text 1 to Text 8 can be overwritten freely with the following exceptions 38 R5 R6 Coding STONEX The codelist editor of Stonex Software can assign a status to the attributes Attributes with status fixed are write protected They cannot be overwritten or edited For attributes with status Mandatory an input or a confirmation is required Attributes with status Normal can be edited freely 39 R5 R6 Applications Getting Started STONEX 8 Applications Getting Started 8 1 Overview
18. General Contrast Tilt Correction HA Correction Face I Definition HA Increment VA Setting Angle Unit Minimum Reading Distance Unit Temperature Unit Pressure Unit Beep Sector Beep Screen IJIumination Crosshair IIlumination Heating Data Output GSI Format Mask Code Saving Language Auto Off EDM EDM Setting Atmospheric Data Free Entry PPM Projection Scale EDM Signal Reflection EDM Frequency Comm Communication Settings Bluetooth Code Survey Transfer Export Data Import Data 118 R5 R6 Menu Tree STONEX qi Tools E Calibration HA Collimation Vertical Index D Auto start li System Info Instrument Information Software Information Set Date SetTime a Load Firmware Firmware Languages Only 119 R5 R6 Directory Structure S T O N E X Appendix BDirectory Structure Description On the USB memory stick files are stored in certain directories The following diagram is the default directory structure Directory Structure CODES Codelists cls FORMATS Format files frt JOBS GSI DXF ASCII files Logfiles created from applications SYSTEM Firmware files Language files Configuration files cfg 120 R5 R6 Index Ind
19. MHz 14 3 Distancer Measurements without Reflectors Reflectorless mode Range A2 without reflector Kodak Gray Card Range D Range E Range F m ft m ft m ft White side 90 reflective 150 490 180 590 lt 250 lt 820 Grey side 18 reflective 80 260 100 330 lt 110 lt 360 A4 without reflector Kodak Gray Card Range D Range E Range F m ft m ft m ft White side 90 reflective 200 660 300 990 gt 400 gt 1310 Grey side 18 reflective 100 330 150 490 gt 200 gt 660 A6 without reflector Kodak Gray Card Range D Range E Range F m ft m ft m ft White side 90 reflective 350 1150 450 1480 lt 600 lt 1970 Grey side 18 reflective 200 660 250 820 lt 350 lt 1150 104 STONEX R5 R6 Technical Data Range of Measurement 1 5 m to 1200 m Display unambiguous up to 1200 m Atmospheric conditions Range D Object in strong sunlight severe heat shimmer Range E Object in share or overcast Range F Day night and twilight Accuracy Standard ISO 17123 4 Measure time Measure time measuring typical s maximum s 0m 500m 3mm 2 ppm 3 6 12 gt 500 m 4 mm 2 ppm 3 6 12 Beam interruptions severe heat shimmer and moving objects within the beam path can result in deviations of the specified accuracy Standard deviation Continuous measuring Measure time typical s Continuous 5 mm 3 p
20. THE ENCLOSED USER GUIDES AND OR MANUALS EVEN IF STONEX OR AN AUTHORIZED STONEX REPRESENTATIVE AUTHORIZED SERVICE PROVIDER OR RESELLER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES OR OF ANY CLAIM BY ANY OTHER PARTY SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OR LIMITATION OF INCIDENTAL OR CONSEQUENTIAL DAMAGES FOR SOME PRODUCTS SO THE EXCLUSIONS OR LIMITATIONS MAY NOT APPLY TO CUSTOMER THIS LIMITED WARRANTY GIVES 114 R5 R6 Standard Limited Warranty STONEX CUSTOMER SPECIFIC LEGAL RIGHTS AND CUSTOMER MAY ALSO HAVE OTHER RIGHTS WHICH VARY FROM COUNTRY STATE JURISDICTION TO COUNTRY STATE JURISDICTION Environmental recycling The cardboard box the plastic in the package and the various parts of this product have to be recycled and disposed of in accordance with the current legislation of your Country FOR COUNTRIES IN THE EUROPEAN UNION EU a The disposal of electric and electronic device as solid urban waste is strictly prohibited they must be collected separately b Contact Local Authorities to obtain practical information about correct handling of the waste location and times of waste collection centres When you buy a new device of ours you can give back to our dealer a used similar device c The dumping of these devices at unequipped or unauthorised places may have hazardous effects on health and environment d The crossed dustbin symbol means that the device must be taken to authorised collection centres and
21. VA Setting Sets the vertical angle Zenith 0 45 Zenith 0 Horizon 90 oy l g 180 Horizont 90 48 Zenith 90 Horizon 0 Ao Vertical angles are positive above the cg horizon and negative below it 130 AS 90 Slope 45 100 Horizon 0 Vertical angles are expressed in with positive above the horizon and negative below it C The value increases rapidly appears on the display above 300 Angle Unit Sets the units shown for all angular fields pene Degree sexagesimal Possible angle values 0 to 359 59 59 dec deg Degree decimal Possible angle values 0 to 359 999 gon Gon Possible angle values 0 gon to 399 999 gon mil Mil Possible angle values 0 to 6399 99mil Ee The setting of the angle units can be changed at any time The actual displayed values are converted according to the selected unit Min Reading Sets the number of decimal places shown for all angular fields This is for data display and does not apply to data export or storage For Angle Unit 0 00 01 0 00 05 0 00 10 22 R5 R6 Settings STONEX Field Description Dec deg 0 0001 0 0005 0 001 Gon 0 0001 0 0005 0 001 Mil 0 01 0 05 0 1 Dist Unit Sets the units shown for all distance and coordinate related fields meter Meters m ft US US feet ft ft INT International feet fi ft in 16 US feet inch 1 16 inch ft Temp Unit Sets the units shown f
22. an adjustment is necessary due to external influences the instrument has to be returned to a Stonex service department Inspect the laser plummet step by step 2 5mm 1 5m A f f 1 N Ok lt 3mm 1 5m 1 Setup the instrument on the tripod approximately 1 5 m above the ground and level up 2 To activate the laser plummet turn on the instrument and if tilt correction is set to 1 or 2 axis the laser plummet will be activated automatically and the Level amp Plummet screen appears Otherwise press FNC from within any application and select Level amp Plummet Ee Inspection of the laser plummet should be carried out on a bright smooth and horizontal surface such as a sheet of paper 3 Mark the center of the red laser dot on the ground 4 Turn the instrument slowly through 360 carefully observing the movement of the red laser dot Ee The maximum diameter of the circular movement described by the center of the laser dot should not exceed 3 mm ata height of 1 5 m 5 If the center of the laser dot makes a clearly circular movement or moves more than 3 mm away from the point which was first marked an adjustment may be required Call your nearest Stonex service department Depending on brightness and surface type the size of the laser dot can vary At a height of 1 5 m an average diameter of 2 5 mm is estimated 86 R5 R6 Calibration STONEX 11 6 Servicing the Tripod Service the tripod st
23. connection to this device should be allowed e Press YES to allow or Press NO to disallow this connection 5 The instrument Bluetooth sends out the instrument name and serial number to the external Bluetooth device 6 All further steps must be made in accordance to the user manual of the external device Transferring data via Bluetooth Using Stonex Software Data Exchange Manager data files can be transferred from the instru ment to a local folder via the Bluetooth connection The transfer is made through the serial port configured on the computer as the Bluetooth Serial Port however for faster data transfer speeds we recommend using the USB or RS232 connections For more information about Stonex Software Data Exchange Manager refer to the comprehen sive online help For transferring data using other external devices or software programs refer to the user manual of the device or software The R6 Bluetooth does not establish or manage the data transfer 80 R5 R6 Data Management S T O N E X 10 6 Working with Stonex Software and Stonex Software Tools Description The program package Stonex Software is used for the data exchange between the instrument and a computer It contains several auxiliary programs in order to support the instrument Installation on a computer The installation program can be found on the CD ROM supplied Insert the CD and follow the on screen instructions Please note that Stonex Software can only be inst
24. constant for the selected Type Const Where Type is Custom this field becomes editable to set a user defined constant Input can only be made in mm Limit value 999 9 mm to 999 9 mm Laser Beam Off Visible laser beam is deactivated On Visible laser beam for visualising the target point is activated ATMOSPHERIC DATA ENTRY This screen enables the entry of atmospheric parameters Distance measurement is influenced directly by the atmospheric conditions of the air in which the measurements are taken In order to take these influences into consideration distance measurements are corrected using atmos pheric correction parameters The refraction correction is taken into account in the calculation of the height differences and the horizontal distance Refer to 14 7 Scale Correction for the application of the values entered in this screen er When PPM 0 is selected the Stonex standard atmosphere of 1013 25 mbar 12 C and 60 relative humidity will be applied 26 R5 R6 Settings STONEX PROJECTION SCALE This screen enables entry of the scale of projection Coordinates are corrected with the PPM parameter Refer to 14 7 Scale Correction for the application of the values entered in this screen Free PPM Entry This screen enables the entry of individual scaling factors Coordinates and distance measure ments are corrected with the PPM parameter Refer to 14 7 Scale Correction for the applica tion of the values e
25. directions and adhere to them Ee Products classified as laser class 1 class 2 and class 3R do not require e laser safety officer involvement protective clothes and eyewear special warning signs in the laser working area if used and operated as defined in this user manual due to the low eye hazard level ES Products classified as laser class 2 or class 3R may cause dazzle flash blindness and afterimages particularly under low ambient light conditions 13 6 2 Distancer Measurements with Reflectors General The EDM module built into this product produces a visible laser beam which emerges from the telescope objective The laser product described in this section is classified as laser class 1 in accordance with IEC 60825 1 2007 03 Safety of laser products EN 60825 1 2007 10 Safety of laser products Class 1 laser products are safe under reasonably foreseeable conditions of operation and are not harmful to the eyes provided that the products are used and maintained in accordance with this user manual Description Value Maximum average radiant power 0 33 mW Pulse duration 800 ps Pulse repetition frequency 100 MHz 150 MHz Wavelength 650 nm 690 nm 95 R5 R6 Safety Directions S T O N E X Labelling e E E C Class 1 Laser Product E A E E AA according to IEC 60825 1 EEN E 2007 03 Complies with FDA performance standards for laser products except for deviations pursua
26. gt T gt U gt 1 gt S Edit fields E ESC Deletes any change and restores the previous value 2 Moves the cursor to the left D Moves the cursor to the right a Inserts a character at the cursor position Deletes the character at the cursor position In edit mode the position of the decimal place cannot be changed The decimal place is skipped Special characters Character Description Used as wildcards in search fields for point numbers or codes Refer to 2 6 Pointsearch In the alphanumeric character set and are treated as normal alphanu meric characters with no mathematical function Ee only appear in front of an entry APPS 173 F1 SURVEY ETA F2 SET OUT 2 In this example selecting 2 on an alphanumeric DNA ta keyboard would start the Set Out application 12 R5 R6 User Interface S T O N E X 2 6 Pointsearch Description Pointsearch is a function used by applications to find measured or fixed points in the memory storage It is possible to limit the point search to a particular job or to search the whole storage The search procedure always finds fixed points before measured points that fulfill the same search criteria If several points meet the search criteria then the results are ordered according to the entry date The instrument finds the most recent fixed point first Direct search By entering an actual point number for example 402 and pressing SEARCH all
27. is possible to record a user defined sequence of key presses so that after switching on the instrument a particular screen can be displayed after the Level amp Plummet screen instead of the MAIN MENU For example the general SETTINGS screen for configuring the instrument settings Access 1 Select Tools from the MAIN MENU 2 Select Auto St from the TOOLS MENU Auto start step by step 1 Press RECin the AUTO START screen 2 Press OK to confirm the information message and begin the recording process 29 R5 R6 Tools STONEX 3 The next key presses are stored up to a maximum of 16 To end the recording press ESC 4 Ifthe auto start Status is set to On the stored key presses will be executed automatically after switching on the instrument The automatic start routine has the same effect as pressing the keys manually Certain instru ment settings can not be made in this way Relative entries such as automatically setting EDM Mode IR Quick upon switching on the instrument are not possible 5 3 System Information Description The System information screens display instrument system and firmware information as well as settings for the date and time Access 1 Select Tools from the MAIN MENU 2 Select Sysinfo from the TOOLS MENU SYSTEM INFORMATION This screen displays information about the instrument and operating system SYSTEM INFO 1 2 x Firmw e ia ae To display details of the firmware packa
28. measurements and save the measured values BACK To return to the last active screen COORD To open the manual coordinate entry screen EDM To view and change EDM settings Refer to 4 2 EDM Settings EXIT To exit the screen or application MEAS To start distance and angle measurements without saving the measured values OK If entry screen Confirms measured or entered values and continues the process If message screen Confirms message and continues with selected action or returns to the previous screen to reselect an option IR RL To toggle between IR and RL EDM modes DISPL To display the list of available points REC To save the displayed values DEFLT To reset all editable fields to their default values SEARCH To search for an entered point VIEW To display the coordinate and job details of the selected point gt gt gt To display the next softkey level 11 R5 R6 User Interface S T O N E X 2 5 Operating Principles Turn instrument on off Use the On Off key Alphanumeric keypad The alphanumerical keypad is used to enter characters directly into editable fields Numeric fields Can only contain numerical values By pressing a key of the keypad the number will be displayed Alphanumeric fields Can contain numbers and letters By pressing a key of the keypad the first character written above that key will be displayed By pressing several times you can toggle through the characters For example 1 gt S
29. measures Reorient or relocate the receiving antenna Increase the separation between the equipment and the receiver Connect the equipment into an outlet on a circuit different from that to which the receiver is connected Consult the dealer or an experienced radio TV technician for help A Warning Changes or modifications not expressly approved by Stonex for compliance could void the user s authority to operate the equipment 101 R5 R6 Safety Directions Labelling R5 R6 instrument Complies with FDA performance standards for laser products except for deviations pursuant to Laser Notice No 50 dated June 24 2007 This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation Zoom_018 Labelling internal battery SB21 This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device US LISTED must accept any interference received including ITE Accessory interference that may cause undesired operation E179078 70YL STONEX 102 R5 R6 Technical Data STONEX 14 Technical Data 14 1 Angle Measurement Accuracy
30. of sight error c is the deviation from the perpendicular between the tilting axis and line of sight This could be eliminated by measuring in both faces Vertical index error With a horizontal line of sight the vertical circle reading should be exactly 90 100 gon The deviation from this value is termed the Vertical index error i SD Indicated meteorological corrected slope distance between instrument tilting axis and center of prism laser dot HD Indicated meteorological corrected horizontal distance VD Height difference between station and target point hr Reflector height above ground hi Instrument height above ground Stn E Stn N Stn Z Easting Northing and Height coordinates of station E N Z Easting Northing and Height coordinates of target point Stn E Stn N Stn Z 117 R5 R6 Menu Tree STONEX Appendix AMenu Tree Depending on local firmware versions the menu items may differ Menu Tree Apps Survey Reference Element COGO Missing Line Measurement Resection Setout Area amp Volume Remote Elevation Construction Data Jobs Known Points Observations Code Library Formats Erase Job Memory Memory Info USB Explorer Settings Yi Qy
31. on the TOOLS MENU for R6 instruments Never disconnect the power supply during the system upload process The battery must be at least 75 capacity before commencing the upload Loading firmware and languages step by step 1 To load firmware and languages Select R5 R6 Firmware The Select File screen will appear To load only languages Select R5 R6 Languages only and skip to step 4 2 Select the firmware file from the system folder of the USB memory stick All firmware and language files must be stored in the system folder to be transferred to the instrument 3 Press OK 4 The Upload Languages screen will appear displaying all language files in the system folder of the USB memory stick Select Yes or No for a language file to be uploaded At least one language must be set to Yes 5 Press OK 6 Press Yes on the power warning message to proceed and upload the firmware and or selected languages 7 Once successfully loaded the system will shutdown and restart again automatically 31 R5 R6 Functions 6 Functions 6 1 Overview Description STONEX Functions can be accessed by pressing FNC from any measurement screen FNC opens the functions menu and a function can be selected and activated Functions Function Description Level amp Plummet Activates the laser plummet and electronic level Distance Offset Refer to 6 2 Distance Offset RL IR Change Changes between the two EDM modes Refer to 4
32. p Laser Radiation Do not stare into the beam ST Class 2 Laser Product according to IEC 60825 1 y Po 1 00 mW A 620 690 nm Zoom_021 a Will be replaced by a Class 3R warning label if applicable Zoom_016 a Laser beam b Exit for laser beam 99 R5 R6 Safety Directions S T O N E X 13 7 Electromagnetic Compatibility EMC Description The term Electromagnetic Compatibility is taken to mean the capability of the product to func tion smoothly in an environment where electromagnetic radiation and electrostatic discharges are present and without causing electromagnetic disturbances to other equipment A Warning Electromagnetic radiation can cause disturbances in other equipment Although the product meets the strict regulations and standards which are in force in this respect Stonex disturbed A Caution There is a risk that disturbances may be caused in other equipment if the product is used with accessories from other manufacturers for example field computers personal computers two way radios non standard cables or external batteries Precautions cannot completely exclude the possibility that other equipment may be Use only the equipment and accessories recommended by Stonex When combined with the product they meet the strict requirements stipulated by the guidelines and standards When using computers and two way radios pay attention
33. 1 5 m instrument height 2 5 mm at 1 5 m instrument height Nominal voltage 12 8 V DC Range 11 5 V 14 V Li Ion 7 4 V 2 2 Ah approximately 9 hours Based on a single measurement every 30 s at 25 C Operating time may be shorter if battery is not new Environmental specifications Temperature Type Operating temperature Storage temperature c F c F R5 R6 instrument 20 to 50 4to 122 40 to 70 40 to 158 Battery 20 to 50 4to 122 40 to 70 40 to 158 USB memory stick 40 to 85 40 to 185 50 to 95 58 to 203 109 R5 R6 Technical Data STONEX Protection against water dust and sand Type Protection R5 R6 instrument IP54 IEC 60529 Humidity Type Protection R5 R6 instrument Max 95 non condensing The effects of condensation are to be effectively counteracted by peri odically drying out the instrument Automatic corrections The following automatic corrections are made Line of sight error Vertical index error Tilting axis error Refraction Earth curvature Compensator index error Standing axis tilt Circle eccentricity 14 7 Scale Correction Use of scale correction By entering a scale correction reductions proportional to distance can be taken into account Atmospheric correction Reduction to mean sea level Projection distortion Atmospheric correction The distance displayed is correct if the
34. 2 EDM Settings Delete Last Observ Deletes the last recorded data block This can be either a measure ment block or a code block Ee Deleting the last record is not reversible Only records recorded in Survey can be deleted Code Library Starts Coding application to select a code from a codelist or enter a new code Same functionality like the softkey CODING Laserbeam Activates deactivates the visible laser beam for illuminating the target point Screen ill On Off Activates and deactivates the screen illumination light Distance unit Sets the distance measurement unit Angle unit Sets the angle measurement unit Z Coordinate Refer to 6 3 Z Coordinate 2 Dist Offset Refer to 6 4 2 Dist Offset Control Distance Refer to 6 5 Control Distance Settings Refer to 4 1 General Settings EDM Continuous Refer to 6 6 EDM Continuous Menu Returns to the MAIN MENU 32 STONEX R5 R6 Functions 6 2 Distance Offset Description This function calculates the target point coordinates if it is not possible to set up the reflector or to aim at the target point directly The offset values length trav and or height offset can be entered The values for the angles and distances are calculated to determine the target point MP Measurement point OP Offset point T_Off Length offset L_Off Cross offset
35. 20 F 110 F oo 110 F 100 F Pyl 100 F 90 F ISo 90 F 80 F FOS 80 F 70 F oe 70 F 60 F 892 60 F 50 F So 50 F 40 F Ro 40 F 30 F VR 30 F 20 F A 20 F 10 F DAA 10 F O F ae 0 F wo 10 F Sot 10 F 20 F 20 F 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 inch Hg HBH HD OO OG OH OH CO OPO LO OL 9 9 O amp ft LNSS SPSS Ss S SS Ss Ss S S Ss 6 111 R5 R6 Technical Data 14 8 Reduction Formulas Formulas STONEX a Mean Sea Level b Instrument c Reflector SD Slope distance HD Horizontal distance VD Height difference The instrument calculates the slope distance horizontal distance and height difference in accordance with the following formulas Earth curvature 1 R and mean refraction coefficient k 0 13 are automatically taken into account when calculating the horizontal distance and height difference The calculated horizontal distance relates to the station height and not to the reflector height Slope distance SD D 1 ppm 10 mm Horizontal distance HD Y A X Y Height difference VD X B Y SD Displayed slope distance m DO Uncorrected distance m ppmAtmospheric scale correction mm km mmprism constant mm HD Horizontal distance m Y SD sin X SD cosG Vertical circle reading A 1 k 2 R 1 47 107 mt k 0 13 mean refraction coefficient R 6 378 10 m radius of the earth VD Height difference m Y SD sin X SD cosG
36. 52 R5 R6 Applications S T O N E X Access 1 Select Apps from the MAIN MENU 2 Select Reference Element from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started 4 Select Arc Next step Define the reference arc 9 4 2 Defining the Reference Arc Description The reference arc can be defined by a center point and start point or a start point end point and radius All points can be either measured manually entered or selected from the memory j Off EP SP Start point EP End point 7 CP Center point R Radius of arc L Distance from start of arc following curve SP R CP Off Perpendicular distance from arc All arcs are defined in a clockwise direction and all calculations are made in two dimensions Access Select Arc and then the method to define the arc by e Start Centre Pt e Start End Pt Rad Reference Arc Measure to start point Field Description Start Pt Point ID of the start point C Pt Point ID of the center point End Pt Point ID of the end point Radius Radius of the arc Next step After defining the reference arc the REFERENCE ARC screen will appear 53 R5 R6 Applications S T O N E X REFERENCE ARC REFERENCE ARC New athe 4 To define a new base arc CtePt 2 eee MEAS Radius oo OOO To measure Line amp Offset SET OUT New C MEAS SETOUT To set out Next step Select a softkey option ME
37. A increment 22 Horizontal angle setting of 22 I Icons 10 Import data 78 Instrument Components 8 Dimensions 108 Level up 15 Ports 108 Settings 21 Setup 14 Technical Data 107 Instrument components 8 Instrument information 30 Intended Use 90 Intersections COGO application 59 Inverse and traverse COGO application 58 J Job management of 75 K Keyboard 9 Keys 9 122 R5 R6 Index Known point data 75 L Labelling 102 SB21 102 Language Deleting 21 Upload language 31 Language setting of 24 Laser Classification 95 Distancer 19 Laser plummet Adjust intensity 16 Inspect 86 Safety directions 98 Technical data 109 Laserbeam On Off 32 Setting of 26 Level 108 Level Plummet screen access 32 Li Ion battery Storage 89 Limits of use 91 Line of sight 117 Calibration 83 M Main menu 18 Manual angle setting orientation 43 Mechanical calibration 82 Memory information management of 75 Menu tree 118 Minimum reading setting of 22 N Navigation key 9 O Observation data 75 Offsets COGO application 60 Operating concept 6 Operating temperature 109 Operation of instrument 14 Orientation Manual angle setting 43 With Coordinates 43 STONEX P Parity 28 Plumb line 116 Point search 13 Pole Length 35 Ports Communication setup 27 Instrument ports 108 PPM setting of 27 Pressure unit setting of 23 Prism Stonex constant 26 Type 26 Prism measurements 20 Projection scale setting of 27
38. AS or SET OUT to proceed a subapplication 9 4 3 Subapplication Measure Line amp Offset Description The Measure Line amp Offset subapplication calculates from measurements or coordinates longi tudinal and orthogonal offsets and height differences of the target point relative to the reference arc Access Press MEAS from the REFERENCE ARC screen Measure Field Description dLine Calculated distance longitudinal to the reference arc dOffset Calculated distance perpendicular from the reference arc d d Z Calculated height difference relative to the start point of reference arc Next step Either press ALL to measure and record e Or press gt gt gt BACK to return to the REFERENCE ARC screen 54 R5 R6 Applications S T O N E X 9 4 4 Subapplication Setout Description The setout subapplication calculates the difference between a measured point and the calcu lated point The reference arc application supports four ways to set out Set out point Set out chord Set out arc Set out angle Set out point To set out a point by entering a line and an offset value P CP Center point of arc Off EP SP Start point of arc EP End point of arc L P Set out point R Radius of arc L Line offset Off Perpendicular offset Set out arc To set out a series of equidistant points along the arc P EP CP Center point of arc j SP Start point of arc EP End point of arc ALP fP P Set out p
39. Conformity to National Regulations 14 5 1 R5 Conformity to national regulations C Hereby Stonex Europe srl declares that the instrument is in compliance with the essential requirements and other relevant provisions of applicable European Directives The declaration of conformity is available from Stonex 106 R5 R6 Technical Data STONEX 14 5 2 R6 Conformity to national regulations FCC Part 15 applicable in US Hereby Stonex Europe srl declares that the R6 instrument is in compliance with the essential requirements and other relevant provisions of Directive 1999 5 EC The decla ration of conformity is available from Stonex Europe srl Class 1 equipment according European Directive 1999 5 EC R amp TTE can be C placed on the market and be put into service without restrictions in any EEA Member state The conformity for countries with other national regulations not covered by the FCC part 15 or European directive 1999 5 EC has to be approved prior to use and operation Frequency band 2402 2480 MHz Output power Bluetooth 2 5 mW 14 6 General Technical Data of the Instrument Telescope Magnification 30 x Free Objective aperture 40 mm Focusing 1 7 m 5 6 ft to infinity Field of view 1 30 1 66 gon 2 7 mat 100m Compensation Quadruple axis compensation 2 axis compensator with HA collimation and VA Index Angular accuracy Setting accuracy Setting range mgon l g
40. IST d d Z differences are displayed Example orthogonal setout 1RP1st reference point SP Set out point MP Measured point RL Reference line dL Longitudinal offset TRP dO Parallel offset Access Press SETOUT from the REFERENCE LINE screen SETOUT Enter the set out elements for the target points to be set out relative to the reference line Field Description Line Longitudinal offset Positive if set out point is further away from the reference line Offset Perpendicular offset Positive if set out point is to the right of the reference line Z Height offset Positive if set out point is higher than the reference line Next step Press OK to proceed to measurement mode SET OUT The signs for the distance and angle differences are correction values required minus actual The arrows indicate the direction to move to get to the set out point SETOUT 172 Pt 1 Tg tHGT 1 500 m dH A e 0 6764 g4 ij d H D 4 2 371 m d d Z t 0 082 m gt gt gt NextPt aLL C EAS REC gt gt gt To add the next point to be set out 51 R5 R6 Applications S T O N E X Field Description d HA Horizontal direction from the measured point to the set out point Positive if the telescope must be turned clockwise to the set out point d H D Horizontal distance from the measured point to the set out point Positive if the set out point is further away than the measured point
41. OGO 9 5 1 Starting COGO Description COGO is an application used to perform Coordinate geometry calculations such as coordinates of points bearings between points and distances between points The COGO calculation methods are e Inverse and Traverse Offset e Intersections Extension Access 1 Select Apps from the MAIN MENU 2 Select COGO from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started 4 Select from the COGO MAIN MENU e Inverse amp Traverse Offset Intersection Extension 57 R5 R6 Applications S T O N E X 9 5 2 Inverse and Traverse Access 1 Select Inverse amp Traverse from the COGO MAIN MENU 2 Select Inverse or Traverse Inverse Use the inverse subapplication to calculate the distance direction height difference and grade between two known points A Known N P2 P1 First known point P2 Second known point d3 Unknown a Direction from P1 to P2 d1 Slope distance between P1 and P2 d2 Horizontal distance between P1 and P2 d3 Height difference between P1 and P2 Pld Traverse Use the traverse subapplication to calculate the position of a new point using the bearing and the distance from a known point Offset optional Known P1 Known point a Direction from P1 to P2 d1 Distance between P1 and P2 d2 Positive offset to the right d3 Negative offset to the left Unknown P2 COGO point without offset P3 COGO point with positiv
42. PS menu 3 Complete application pre settings Refer to 8 Applications Getting Started 46 R5 R6 Applications S T O N E X SURVEY SURYEY 1 3 Circular Pt 1 gt gt TgtHGT 1 500 m Q ra Pt ee Comment 2 0 To switch between individual and current point ia ea numbers y 53 25300 g Q o sDIST 26 000 m gt gt gt CODING CALL MEAS REC gt gt gt To find enter codes Refer to 7 Coding Field Description Comment Comment or Code name depending on the coding method Two coding methods Code are available 1 Comment coding This text is stored with the corresponding measure ment The code is not related to a codelist it is just a simple comment A codelist on the instrument is not necessary 2 Expanded coding with codelist Press gt gt gt CODING The code that was entered is searched for within the code list and it is possible to add attributes to the code Next step Either press ALL to record another point Or press ESC to exit the application 9 3 Reference Element Reference Line 9 3 1 Overview Description Reference Element Line is an application that facilitates the easy set out or checking of lines for example for buildings sections of road or simple excavations It allows the user to define a reference line and then complete the following tasks with respect to that line Line amp offset Set out points Access 1 Select
43. Q Quadruple axis compensation 107 R Recording code setting of 24 Reduction Formulas 112 Reference Arc application 52 Reference Line application 47 Refraction coefficient 112 112 Remote Elevation application 71 Remote point 71 Resection application 63 Responsibilities 91 RL measurements 19 RL IR Change 32 RS232 communication setup 28 S Safety Directions 90 Screen 9 Screen illumination setting of 23 Search 13 Sector beep setting of 23 Select job 41 Select orientation 42 Select station 42 Set Out application 67 Settings configuration of 21 Settings setting of 21 Setup Instrument 14 Tripod 14 123 R5 R6 Index Softkeys 11 Software Loading 31 Software information Application information 31 Standing axis 116 Stonex Software Stonex Software Tools Description 6 Stopbits 28 Storage 88 Storage temperature 109 Survey application 19 46 T Technical data 103 Telescope 107 Temperature Battery 109 Instrument 109 USB stick 109 Temperature unit setting of 23 Terminology 116 Tilt and horizontal corrections 25 Tilt correction setting of 21 Time 30 Tools Auto start 29 Calibration 29 Load Software 31 System Information 30 Transport 88 Tripod Service 87 Setup 14 U Units settings of 22 Upload languages 31 Upload software 31 USB Directory Structure 120 Explorer 76 Icon 10 Inserting 79 User Interface 9 STONEX V Vertical angle Description 116 Setting of 22 Vertica
44. REC or ALL This setting is not required if the instrument is totally controlled by a datalogger GSI Format Sets the GSI output format GSI 8 81 00 12345678 GSI 16 81 00 1234567890123456 Mask Sets the GSI output mask Mask1 Pt HA VA sDIST ppm mm TgtHGT Instr h Mask2 Pt HA VA sDIST E N H TgtHGT Code saving Sets if the codeblock is saved before or after the measurement Refer to 7 Coding Language Sets the chosen language The current loaded language s are shown A selected language can be deleted by pressing DelLng This function is available if more than one language is installed and the selected language is not the chosen operating language Auto Off Enable The instrument switches off after 20 minutes without any activity for example no key pressed or vertical and hori zontal angle deviation is lt 3 Disable Automatic switch off is deactivated E Battery discharges quicker 24 R5 R6 Settings STONEX Tilt and horizontal corrections Setting Correction Tilt correc Horizontal Incline longi Incline trans Horizontal Tilting axis tion correction tudinal versal collimation Off On No No Yes Yes 1 Axis On Yes No Yes Yes 2 Axis On Yes Yes Yes Yes Off Off No No No No 1 Axis Off Yes No No No 2 Axis Off Yes No No No 4 2 EDM Settings Description The settings on this screen define the active EDM Electronic Distance Measurement
45. STATED IN THIS LIMITED WARRANTY ANY IMPLIED WARRANTIES THAT MAY BE IMPOSED BY LAW ARE LIMITED IN DURATION TO THE TERM OF THIS LIMITED WARRANTY SOME JURISDICTIONS DO NOT ALLOW THE EXCLUSION OF IMPLIED WARRANTIES OR LIMITATIONS ON HOW LONG AN IMPLIED WARRANTY LASTS SO THE ABOVE EXCLUSIONS OR LIMITATIONS MAY NOT APPLY TO CUSTOMER CUSTOMER MUST READ AND FOLLOW ALL SET UP AND USAGE INSTRUC TIONS IN THE APPLICABLE USER GUIDES AND OR MANUALS ENCLOSED IF CUSTOMER FAILS TO DO SO THIS PRODUCT MAY NOT FUNCTION PROPERLY AND MAY BE DAMAGED CUSTOMER MAY LOSE DATA OR SUSTAIN PERSONAL INJURIES STONEX ITS AFFILIATES AND SUPPLIERS DO NOT WARRANT THAT OPERATION OF THIS PRODUCT WILL BE UNINTER RUPTED OR ERROR FREE AS DO ALL ELECTRONICS AT TIMES IF THIS PRODUCT FAILS TO WORK AS WARRANTED ABOVE CUSTOMER S SOLE AND EXCLUSIVE REMEDY SHALL BE REPAIR OR REPLACEMENT IN NO EVENT WILL STONEX ITS AFFILIATES OR SUPPLIERS BE LIABLE TO CUSTOMER OR ANY THIRD PARTY FOR ANY DAMAGE IN EXCESS OF THE PURCHASE PRICE OF THE PRODUCT THIS LIMITATION APPLIES TO DAMAGES OF ANY KIND WHATSOEVER INCLUDING 1 DAMAGE TO OR LOSS OR CORRUPTION OF CUSTOMER S RECORDS PROGRAMS DATA OR REMOVABLE STORAGE MEDIA OR 2 ANY DIRECT OR INDI RECT DAMAGES LOST PROFITS LOST SAVINGS OR OTHER SPECIAL INCIDENTAL EXEM PLARY OR CONSEQUENTIAL DAMAGES WHETHER FOR BREACH OF WARRANTY CONTRACT TORT OR OTHERWISE OR WHETHER ARISING OUT OF THE USE OF OR INABILITY TO USE THE PRODUCT AND OR
46. STONEX Stonex R5 R6 Series User Manual English R5 R6 Table of Contents Table of Contents In this manual STONEX Chapter Page 1 Description of the System 6 1 1 System Components 6 1 2 Container Contents 7 1 3 Instrument Components 8 2 User Interface 9 2 1 Keyboard 9 2 2 Screen 9 2 3 Status Icons 10 2 4 Softkeys 11 2 5 Operating Principles 12 2 6 Pointsearch 13 3 Operation 14 3 1 Instrument Setup 14 3 2 Working with the Battery 16 3 3 Data Storage 17 3 4 Main Menu 18 3 5 Survey Application 19 3 6 Distance Measurements Guidelines for Correct Results 19 4 Settings 21 4 1 General Settings 21 4 2 EDM Settings 25 4 3 Communication Settings 27 5 Tools 29 5 1 Calibration 29 5 2 Auto Start Routine 29 5 3 System Information 30 5 4 Loading Software 31 6 Functions 32 6 1 Overview 32 6 2 Distance Offset 33 R5 R6 Table of Contents STONEX 6 3 Z Coordinate 34 6 4 2 Dist Offset 34 6 5 Control Distance 36 6 6 EDM Continuous 37 7 Coding 38 8 Applications Getting Started 40 8 1 Overview 40 8 2 Starting an Application 40 8 3 Selecting the Job 41 8 4 Selecting the Station 42 8 5 Selecting the Orientation 42 8 5 1 Overview 42 8 5 2 Manual Orientation 43 8 5 3 Orientation with Coordinates 43 9 Applications 46 9 1 Common Fields 46 9 2 Survey 46 9 3 Reference Element Reference Line 47 9 3 1 Overview 47 9 3 2 Defining the Base Line 48 9 3 3 Defining the Reference Line 48 9 3
47. Software or Stonex Software Tools to view exchange and manage data Firmware The firmware package installed on the instrument Consists of a standard base operating system with optional additional features Stonex Software An office software consisting of a suite of standard and extended programs or Stonex Soft ifor the viewing exchanging managing and post processing of data ware Tools soft ware Data transfer Data can be always transferred between a R5 R6 instrument and a computer via a data transfer cable For R6 instruments data can also be transferred via USB memory stick or Bluetooth R5 R6 Description of the System S T O N E X 1 2 Container Contents Container contents part 1 of 2 a Instrument with supplied tribrach b ZDC100 data cable USB RS232 c Protective cover Optional a Adjustment tools b SC11 battery charger c USB memory stick for R6 instruments d SB21 battery e Tip for mini prism pole f User manual g GLS115 mini prism pole Optional R5 R6 Description of the System S T O N E X 1 3 Instrument Components Instrument components part 1 of 2 a Detachable carrying handle with mounting screw b Optical sight c Objective with integrated Electronic Distance Meas urement EDM Exit for EDM laser beam d Vertical drive e Serial interface RS232 USB f USB host port g Horizontal drive h Second keyboard Optional i Focusing
48. Stonex Europe srl IT 20052 Monza hereinafter referred to as Stonex is responsible for supplying the product including the user manual and original accessories in a safe condition accessories The manufacturers of non Stonex accessories for the product are responsible for developing implementing and communicating safety concepts for their products and are also responsible Manufacturers of non Stonex for the effectiveness of those safety concepts in combination with the Stonex product Person in charge of the product The person in charge of the product has the following duties To understand the safety instructions on the product and the instructions in the user manual To be familiar with local regulations relating to safety and accident prevention To inform Stonex immediately if the product and the application becomes unsafe To ensure that the national laws regulations and conditions for the operation of radio transmitters are respected A Warning The person responsible for the product must ensure that it is used in accordance with the instructions This person is also accountable for the training and the deployment of personnel who use the product and for the safety of the equipment in use 91 R5 R6 Safety Directions S T O N E X 13 5 Hazards of Use A Warning The absence of instruction or the inadequate imparting of instruction can lead to incorrect or adverse use and can cause acciden
49. Vertical circle reading B 1 k 2R 6 83 10 mt k 0 13 mean refraction coefficient R 6 378 10 m radius of the earth 112 R5 R6 Standard Limited Warranty STONEX 15 Standard Limited Warranty One 1 year on Stonex products The terms and conditions of this Limited Warranty constitute the complete and exclusive warranty agreement between the customer and Stonex for the product and supersede any prior agreement or representation made in any Stonex sales document or advice that may be provided to customer by any Stonex representative in connection with customer s purchase of the product No change to the conditions of this Limited Warranty is valid unless it is made in written form and signed by an authorised Stonex supervisor Stonex Europe warrants that its products 1 are free from defects in materials or workmanship 2 arein conformity with the factory specifications in effect at the time they were manufac tured have been tested calibrated in proper working status prior to shipment At its sole discretion Stonex Europe will restore the product to original working order in accordance with factory specifications in effect at the time the product was manufactured OR replace the product with one at least equivalent to the original product Replaced parts or prod ucts are warranted to be free from defects in materials and workmanship for thirty 30 days OR for the remainder of the Limited Warr
50. alled on computers with MS Windows 2000 XP and Vista operating systems For more information about Stonex Software refer to the comprehensive online help 81 R5 R6 Calibration STONEX 11 Calibration 11 1 Overview Description Stonex instruments are manufactured assembled and adjusted to a high quality Quick temperature changes shock or stress can cause deviations and decrease the instrument accu racy It is therefore recommended to calibrate the instrument from time to time This can be done in the field by running through specific measurement procedures The procedures are guided and have to be followed carefully and precisely as described in the following chapters Some other instrument errors and mechanical parts can be adjusted mechanically Electronic calibration The following instrument errors can be checked and calibrated electronically Horizontal collimation error also called line of sight error Vertical index error and simultaneously the electronic level For determining these errors it is necessary to measure in both faces but the procedure can be started in any face Mechanical calibration The following instrument parts can be calibrated mechanically Circular level on the instrument and tribrach Laser plummet Screws on the tripod During the manufacturing process the instrument errors are carefully determined and set to zero As mentioned these errors can change and itis highly rec
51. and Stonex Europe will provide the shipping for return Any other purported transfer or assign ment of this Limited Warranty is void 113 R5 R6 Standard Limited Warranty STONEX Return policy All returned products have to be shipped to Stonex Europe representative office The original Purchaser has a period of seven 7 days or otherwise specified to return any purchase for a full refund less shipping and handling provided the merchandise is in new resalable condition and returned in the original undamaged packaging Customer has to pay for both the return and the original freight fees regardless of the original freight paid by the Company All warranty books instruction manuals parts and accessories must be included as well the original box in which the item was shipped We recommend to place the original carton inside another box to avoid any additional damage to the carton itself In some cases returns of special items will require a re stock fee as imposed by the manufacturer Used items may not be returned if in anyway damaged Acceptance of returned merchandise is final only after inspection by Stonex Europe Disclaimer and Limitation of Remedy ALL OTHER EXPRESS AND IMPLIED WARRANTIES FOR THIS PRODUCT INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE AND OR NONINFRINGEMENT OF ANY THIRD PARTY S RIGHTS ARE HEREBY DISCLAIMED STONEX EXPRESSLY DISCLAIMS ALL WARRANTIES NOT
52. andards which are in force in this respect Stonex cannot completely exclude the possibility that other equipment may be disturbed or that humans or animals may be affected Do not operate the product with radio or digital cellular phone devices in the vicinity of filling stations or chemical installations or in other areas where an explosion hazard exists Do not operate the product with radio or digital cellular phone devices near to medical equipment Do not operate the product with radio or digital cellular phone devices in aircraft 13 8 FCC Statement Applicable in U S Applicability The greyed paragraph below is only applicable for R5 instruments A Warning This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to part 15 of the FCC rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communica tions However there is no guarantee that interference will not occur in a particular installation Ifthis equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following
53. anty Period of the product in which they are installed whichever is longer Parts or products replaced under this Limited Warranty shall become property of Stonex Europe All parts that have to be replaced have to be returned to our repre sentative office location via any delivery company the customer prefers nevertheless Stonex Europe is not accountable for the unlikely event that the products gets lost in transit For accessories provided by Stonex with the Total Stations R5 R6 the warranty time is 90 days including all power supply accessories and batteries Warranty repair s policy Customer shall pay the standard repair fees for any service whether part replacement or repairs excluded from this Limited Warranty and performed by Stonex Europe under request and explicit authorisation of the customer itself In this case the customer is charged for return shipment s fees as well ANY DAMAGE INFLICTED BY THE CUSTOMER OR BY THIRDPARTY AFTER THE PRODUCTS HAS BEEN DELIVERED TO THE CUSTOMER IS EXCLUDED FROM THE LIMITED WARRANTY AS WELL ANY DAMAGE ARISING FROM AN IMPROPER USE FROM ANY ACTION OR USE NOT PROVIDED FOR IN THE ENCLOSED USER GUIDES AND OR MANUALS Shipping policy Once warranty is over and or for reasons stated above the Customer or the dealer from whom the customer has bought the product whichever is agreed upon in required to pay for the charges for shipping to Stonex Europe representative office address listed above
54. been measured or selected The 3D area is calculated once the sloped reference plane is defined by three points 69 R5 R6 Applications S T O N E X Graphical representation PO Instrument station P1Target point which defines the sloped reference plane P2Target point which defines the sloped reference plane P3Target point which defines the sloped reference plane P4Target point a Constant height b Perimeter 3D polygonal length from the start point to the current measured point of the area 3D Area 3D projected onto the sloped reference plane Volume 3D axc e Perimeter 2D polygonal length from the start point to the current measured point of the area 2D f Area 2D projected onto the horizontal plane g Volume 2D fxa aa Next step Press CALC to calculate area and volume and proceed to the Area amp Volume Result screens 2D 3D AREA amp VOLUME RESULT 2D AREASVOLUME RESULT 1 2 v BD AREA amp VOLUME RESULT 2 2 75 Pts 4 Pts 4 Area 0 015 ha Area 153 237 m2 Area 151 795 m2 Per 53 797 m Per 53 420 m Vol 275 827 m3 Mol 273 231 m3 New f i Ii AddTg New jf AddTg Perimeter and volume are updated if further area points are added Next step e Either press New to define a new area Or press AddTg to add a new target point to the existing area Or press ESC to exit the application 70 R5 R6 Applications S T O N E X 9 10 Rem
55. d Tribrach Calibrate the circular level step by step 1 tribrach N Place and secure the tribrach onto the tripod and then secure the instrument onto the Using the tribrach footscrews level the instrument with the electronic level To activate the electronic level turn on the instrument and if tilt correction is set to 1 or 2 axis the Level amp Plummet screen appears automatically Alternatively press FNC from within any appli cation and select Level amp Plummet Ww The bubbles of the instrument and tribrach levels must be centered If one or both circular levels are not centered adjust as follows Instrument If the bubble extends beyond the circle use the Allen key supplied to center it with the adjustment screws Tribrach If the bubble extends beyond the circle adjust it using the adjustment pin in conjunction with the adjustment screws Turn the adjustment screws 85 R5 R6 Calibration STONEX To the left and the bubble approaches the screw To the right and the bubble goes away from the screw 4 Repeat step 3 on the instrument and tribrach until both circular levels are centered and no further adjustments are necessary After the calibration no adjustment screw should be loose 11 5 Inspecting the Laser Plummet of the Instrument The laser plummet is integrated into the vertical axis of the instrument Under normal condi tions of use the laser plummet does not need adjusting If
56. d discharge batteries recommended by Stonex 3 3 Data Storage Description An internal memory is included in all instruments The firmware stores all data in jobs in a data base in the internal memory Data can then be transferred to a computer or other device for post processing via a cable connected to the serial interface RS232 port For R6 instruments data can also be transferred from the internal memory to a computer or other device via a USB memory stick inserted into the USB host port or via a Bluetooth connection 17 R5 R6 Operation STONEX Refer to 10 Data Management for further information on data management and data transfer 3 4 Main Menu Description The MAIN MENU is the starting place for accessing all functionality of the instrument It is usually displayed immediately after the Level amp Plummet screen after switching on the instrument MAIN MENU MAIN MENU tm il 1 Apps 2 Data 3 Settings EK amp yi 4 Survey 5 Transfer 6 Tools Description of the MAIN MENU functions Function Description Apps To select and start applications Refer to 9 Applications Data To manage jobs data codelists formats system memory and USB memory stick files Refer to 10 Data Management Settings To change EDM configurations comm setup and general instrument settings Refer to 4 Settings Survey Survey program to begin measuring immediately Refer to 3 5 Survey Appli
57. d height differences based on the original measurements The horizontal direction is computed with the original averaged face I and face II meas urements and the final computed plan position 9 7 4 Resection Results Access Press CALC from the Sight target point screen after at least two points and a distance have been measured STATION COORDINATES This screen displays calculated station coordinates The final computed results are Easting Northing and Height coordinates of the present instrument station including the instrument height Standard deviations and residuals for accuracy assessments are provided STATION COORDINATES ae H 1 ian RESID Stn E 0 000 m To display residuals Refer to Target Residuals Sin 2 0000 m std Dey To display the standard deviation of the coordinates BACK X RESID StdDev OK and angle Ee If the instrument height was set to 0 000 in the setup screen then the station height refers to the height of the tilting axis 65 R5 R6 Applications Next step STONEX Press RESID to display the target residuals Target Residuals The TARGET RESIDUALS screen displays the computed residuals for the horizontal and vertical distances and the horizontal direction Residual Calculated value Measured value Messages The following are important messages or warnings that may appear Messages Description Selected point has no valid data This message occurs
58. djustment parameters given in this user manual before using the product 12 2 Storage Product Respect the temperature limits when storing the equipment particularly in summer if the equipment is inside a vehicle Refer to 14 Technical Data for information about temperature limits Field adjustment After long periods of storage inspect the field adjustment parameters given in this user manual before using the product 88 R5 R6 Care and Transport S T O N E X Li Ion batteries Refer to 14 Technical Data for information about storage temperature range At the recommended storage temperature range batteries containing a 10 to 50 charge can be stored for up to one year After this storage period the batteries must be recharged Remove batteries from the product and the charger before storing After storage recharge batteries before using Protect batteries from damp and wetness Wet or damp batteries must be dried before storing or use A storage temperature range of 20 C to 30 C 4 F to 86 F in a dry environment is recommended to minimise self discharging of the battery 12 3 Cleaning and Drying Objective eyepiece and reflectors Blow dust off lenses and prisms Never touch the glass with your fingers Use only a clean soft lint free cloth for cleaning If necessary moisten the cloth with water or pure alcohol Do not use other liquids these may attack the polymer components Fog
59. e 91 13 4 Responsibilities 91 13 5 Hazards of Use 92 13 6 Laser Classification 95 13 6 1 General 95 13 6 2 Distancer Measurements with Reflectors 95 R5 R6 Table of Contents S T O N E X 13 6 3 Distancer Measurements without Reflectors Reflectorless mode 96 13 6 4 Laser Plummet 98 13 7 Electromagnetic Compatibility EMC 100 13 8 FCC Statement Applicable in U S 101 14 Technical Data 103 14 1 Angle Measurement 103 14 2 Distance Measurement with Reflectors 103 14 3 Distancer Measurements without Reflectors Reflectorless mode 104 14 4 Distance Measurement Reflector Long Range 106 14 5 Conformity to National Regulations 106 14 5 1 R5 106 14 5 2 R6 107 14 6 General Technical Data of the Instrument 107 14 7 Scale Correction 110 14 8 Reduction Formulas 112 15 Standard Limited Warranty 113 16 Glossary 116 Appendix A Menu Tree 118 Appendix B Directory Structure 120 Index 121 R5 R6 Description of the System S T O N E X 1 Description of the System 1 1 System Components Main Components a R5 R6 instrument b Computer with Stonex Software or Stonex Software Tools software c Data transfer Component Description R5 R6 instru An instrument for measuring calculating and capturing data Ideally suited ment for tasks from simple surveys to complex applications The various lines have a range of accuracy classes and support different features All lines can be connected with Stonex
60. e ground point Adjust the tripod legs 5 to level the circular level 7 6 By using the electronic level turn the tribrach footscrews 6 to precisely level the instru ment Refer to Level up with the electronic level step by step 7 Center the instrument precisely over the ground point by shifting the tribrach on the tripod plate 2 8 Repeat steps 6 and 7 until the required accuracy is achieved ul Level up with the electronic level step by step The electronic level can be used to precisely level up the instrument using the footscrews of the tribrach 1 Turn the instrument until it is parallel to two footscrews 2 Center the circular level approximately by turning the footscrews of the tribrach 3 Turn on the instrument and if tilt correction is set to 1 or 2 axis the laser plummet will be activated automatically and the Level amp Plummet screen appears Otherwise press FNC from within any application and select Level amp Plummet Ee The bubble of the electronic level and the arrows for the rotating direction of the footscrews only appear if the instrument tilt is inside a certain levelling range 4 Center the electronic level of the first axis by turning the two footscrews Arrows show the S fo direction of rotation required When the elec c amp y tronic level is centered the arrows are replaced by checkmarks pack C 1K turning the last footscrew An arro
61. e offset P4 COGO point with negative offset A p4 N Pld 58 R5 R6 Applications S T O N E X 9 5 3 Intersections Access 1 Select Intersection from the COGO MAIN MENU 2 Select the desired COGO method Brg Brg Dst Dst Brg Dst Ln Ln Bearing Bearing Use the bearing bearing subapplication to calculate the intersection point of two lines A line is defined by a point and a direction Known P1 First known point P2 Second known point al Direction from P1 to P3 a2 Direction from P2 to P3 Unknown P3 COGO point Bearing Distance Use the bearing distance subapplication to calculate the intersection point of a line and a circle The line is defined by a point and a direction The circle is defined by the center point and the radius A Known P1 First known point P2 Second known point a Direction from P1 to P3 and P4 r Radius as the distance from P2 to P4 or P3 Unknown P3 First COGO point P4 Second COGO point Distance Distance Use the distance distance subapplication to calculate the intersection point of two circles The circles are defined by the known point as the center point and the distance from the known point to the COGO point as the radius 59 R5 R6 Applications S T O N E X 4A Known N P1 First known point Cried P4 P2 Second known point N r1 Radius as the distance from P1 to P3 or P4 r2 Radius as the distance from P2 to P3 or P4 Unknown P3 First COGO point P4 Second
62. e to follow these instructions could result in data loss and or permanent damage to the USB memory stick 79 R5 R6 Data Management S T O N E X 10 5 Working with Bluetooth Description R6 instruments can communicate with external devices via a Bluetooth connection The instru ment Bluetooth is a slave only The Bluetooth of the external device will be the master and therefore will control the connection and any data transfer Establishing a connection step by step 1 On the instrument ensure that the communication parameters are set to Bluetooth and On Refer to 4 3 Communication Settings 2 Activate Bluetooth on the external device The steps required depend on the Bluetooth driver and other device specific configurations Refer to the device user manual for infor mation on how to configure and search for a Bluetooth connection The instrument will appear on the external device 3 Some devices ask for the identification number of the Bluetooth The default number for a R6 Bluetooth is 0000 This can be changed by Select Settings from the MAIN MENU Select Comm from the SETTINGS menu Press BTCode from the COMMUNICATION SETTINGS screen Enter a new Bluetooth code in BT Code Press OK to confirm the new Bluetooth code 4 When the external Bluetooth device has located the instrument for the first time a message will display on the instrument stating the name of the external device and requesting confir mation that
63. eam which emerges coaxially from the telescope objective There are two EDM modes Prism measurements IR Reflectorless measurements RL RL measurements When a distance measurement is triggered the EDM measures to the object which is in the beam path at that moment If a temporary obstruction for example a passing vehicle 19 R5 R6 Operation STONEX heavy rain fog or snow is between the instrument and the point to be measured the EDM may measure to the obstruction Be sure that the laser beam is not reflected by anything close to the line of sight for example highly reflective objects Avoid interrupting the measuring beam while taking reflectorless measurements or measurements using reflective foils Do not measure with two instruments to the same target simultaneously IR measurements Accurate measurements to prisms should be made in IR Default mode Measurements to strongly reflecting targets such as traffic lights in Prism mode without a prism should be avoided The measured distances may be wrong or inaccurate When a distance measurement is triggered the EDM measures to the object which is in the beam path at that moment If for example people cars animals or swaying branches cross the laser beam while a measurement is being taken a fraction of the laser beam is reflected from these objects and may lead to incorrect distance values Measurements to prisms are only critical if an ob
64. ems Removal of hazard notices Opening the product using tools for example screwdriver unless this is specifically permitted for certain functions Modification or conversion of the product Use after misappropriation Use of products with obviously recognisable damages or defects Use with accessories from other manufacturers without the prior explicit approval of Stonex Aiming directly into the sun Inadequate safeguards at the working site for example when measuring on roads Deliberate dazzling of third parties Controlling of machines moving objects or similar monitoring application without addi tional control and safety installations A Warning Adverse use can lead to injury malfunction and damage 90 R5 R6 Safety Directions S T O N E X It is the task of the person responsible for the equipment to inform the user about hazards and how to counteract them The productis not to be operated until the user has been instructed on how to work with it 13 3 Limits of Use Environment Suitable for use in an atmosphere appropriate for permanent human habitation not suitable for use in aggressive or explosive environments A Danger Local safety authorities and safety experts must be contacted before working in hazardous areas or close to electrical installations or similar situations by the person in charge of the product 13 4 Responsibilities Manufacturer of the product
65. en measure to the first and second prisms using ALL and the 2 DIST OFFSET RESULT screen is displayed 2 DIST OFFSET RESULT Displays Easting Northing and Height coordinates of the target point 2 DIST OFFSET RESULT P END N 10 141 m To record results and return to application where Z Meana FNC was selected NEW enn X C NEW To return to the 2 DIST OFFSET screen 35 R5 R6 Functions S T O N E X Next step Press END to return to the application where FNC was selected 6 5 Control Distance Description This function calculates and displays the slope and horizontal distance height difference azimuth grade and coordinate differences between the last two measured points Valid distance measurements are required for the calculation Azi Azimuth SD Slope distance VD Height distance HD Horizontal distance Access 1 Press FNC when within any application 2 Select Control Distance from the FUNCTIONS menu CONTROL DISTANCE Field Description Brg Difference in bearing between the two points Grade Difference in gradient between the two points hDIST Difference in horizontal distance between the two points sDIST Difference in slope distance between the two points d d Z Difference in height between the two points Messages The following are important messages or warnings that may appear Messages Description Less than two valid The values cannot be calculated as th
66. ep by step ES The connections between metal and timber components must always be firm and tight 1 Tighten the leg cap screws moderately with the allen key supplied 2 Tighten the articulated joints on the tripod head just enough to keep the tripod legs open when lifting the tripod off the ground 3 Tighten the screws of the tripod legs 87 R5 R6 Care and Transport S T O N E X 12 Care and Transport 12 1 Transport Transport in the field When transporting the equipment in the field always make sure that you either carry the product in its original transport container or carry the tripod with its legs splayed across your shoulder keeping the attached product upright Transport in a road vehicle Never carry the product loose in a road vehicle as it can be affected by shock and vibration Always carry the product in its transport container and secure it Shipping When transporting the product by rail air or sea always use the complete original Stonex packaging transport container and cardboard box or its equivalent to protect against shock and vibration Shipping transport of batteries When transporting or shipping batteries the person in charge of the product must ensure that the applicable national and international rules and regulations are observed Before transpor tation or shipping contact your local passenger or freight transport company Field adjustment After transport inspect the field a
67. ere are less than two valid measurements measurements 36 R5 R6 Functions S T O N E X Next step Press OK to return to the application where FNC was selected 6 6 EDM Continuous Description This function activates or deactivates the tracking measurement mode The new setting is displayed for about one second and then set The function can only be activated from within the same EDM mode and prism type The following options are available Mode Off lt gt On IR IR Default lt gt IR Continuous IR Quick lt gt IR Continuous RL RL Default lt gt RL Continuous The last active measurement mode remains set when the instrument is switched off 37 R5 R6 Coding STONEX 7 Coding Description Codes contain information about recorded points With the help of coding points can be assigned to a particular group simplifying later processing Codes are stored in codelists with each codelist supporting a maximum of 200 codes GSI coding Codes are always stored as free codes W141 49 that means that codes are not directly linked to a point They are stored before or after the measurement depending on the setting made Point codes WI71 79 are not available A code is always recorded for each measurement as long as the code is displayed in the Code field For a code not to be recorded the Code field must be cleared This can be set to occur automatically Refer to 4 1 General Settings Access
68. ered The application can continuously display differences between current position and desired set out position Set Out modes Points can be staked using different modes Polar mode Orthogonal to station mode and Carte sian mode Polar Set Out mode 1 Current position 2 Point to be set out dHDLongitudinal offset positive if point to be setout is further away dHAAngle offset positive if point to be setout is to the right of the actual direction 1 Current position 2 Point to be set out dL Longitudinal offset positive if nominal point is further away dT Transversal offset perpendicular to line of sight positive if nominal point is to the right of the meas ured point dHAAngle offset positive if nominal point is to the right of the actual direction Cartesian Set Out mode i 1 Current position 4d N 2 Point to be set out d E Easting offset between point to be set out and actual point d N Northing offset between point to be set out and gt actual point 67 R5 R6 Applications S T O N E X Access 1 Select Apps from the MAIN MENU 2 Select Set Out from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started SET OUT SET OUT 1 3 ae d gt gt gt MANUAL Pto o M gt a TgtHGT 1 500 m To manually enter coordinates of a point dH A lt 0 30009 ij gt gt gt B amp
69. erence point RL Reference line Off Parallel offset As L L Longitudinal offset BEIA Of R Rotation parameter Access After completing the measurements required for defining the base line the REFERENCE LINE screen will appear 48 R5 R6 Applications REFERENCE LINE REFERENCE LINE 1 2 Length 35 497 m Shifts Offset Line 1 580 m 2 0 000 m Rotate 0 0000 g New MEAS SETOUT STONEX New To define a new base line MEAS To measure Line amp Offset SETOUT To set out points orthogonal to the reference line Field Description Length Length of the base line Offset Parallel offset of the reference line relative to the base line P1 P2 Positive values are to the right of the base line Line Longitudinal offset of the start point reference point P3 of the reference line in the direction of base point 2 Positive values are towards base point 2 Z Height offset of the reference line to the selected reference height Positive values are higher than the selected reference height Rotate Rotation of the reference line clockwise around the reference point P3 Ref Hgt Pt 1 Pt 2 Interpolated w o Height Height differences are computed relative to the height of the first reference point Height differences are computed relative to the height of the second reference point Height differences are computed along the reference line Height differences are no
70. erface A receiver such as a laptop is connected to the RS232 port The receiver requires R5 R6 or another third party software ES If the receiver is too slow in processing data the data could be lost With this type of data transfer the instrument is not informed about the performance of the receiver no protocol Therefore the success of this type of transfer is not checked A USB memory stick For R6 instruments A USB memory stick can be inserted and removed from the USB host port No additional software is required for the transfer Access 1 Select Transfer from the MAIN MENU 2 Select Export Data DATA EXPORT DATA EXPORT To Stick Data Type Observations 4p SEARCH eec da aan To search for jobs within the internal memory anes DISPL BACK SEARCH DISPL OK To list all jobs within the internal memory Field Description To USB memory stick or RS232 serial interface Data Type Data type to be transferred Observations Known Points or Obs amp Known points Select Job Displays the selected job file 76 R5 R6 Data Management S T O N E X Export data step by step 1 Press OK in the DATA EXPORT screen after selecting the export details 2 Select the data format and press OK or SEND The ASCII data format is only available for data exports to a USB memory stick not via the RS232 serial interface e All jobs will be stored in the backup folder created on the USB memory stic
71. ewPt1 NewPt2 RADIAL new point 2 must be measured RADIAL To switch to radial method Field Description Grade Grade between point 1 and point 2 d S D Slope distance between point 1 and point 2 62 R5 R6 Applications S T O N E X Field Description d H D Horizontal distance between point 1 and point 2 d d Z Height difference between point 1 and point 2 Brg Azimuth between point 1 and point 2 Next step Press ESC to exit the application 9 7 Resection 9 7 1 Starting Resection Description Resection is an application used to determine the instruments position from measurements to known points A minimum of two known points and a maximum of 5 can be used to determine the position Access 1 Select Apps from the MAIN MENU 2 Select Resection from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started 4 Select Accuracy Limit Status On to activate a warning message if the calculated standard deviation exceeds the limit Set the accuracy limits for the Easting Northing and Height coordinates and the standard deviation angle Press OK to save the limits and return to the Pre settings screen 5 Select GO to begin the application Enter target data Enter the name of the station and the height of the instrument in the Station data screen and press OK Next step To access the Sight target point screen 63 R5 R6 Applicatio
72. ex 2 2 Dist Offset 34 A Accuracy Angle measurement 103 IR mode 103 Reflectorless mode 105 RL mode 106 Angle measurement 103 Angle unit setting of 22 32 Application Survey 46 Applications Area amp Volume 69 COGO 57 Construction 72 Reference Element 47 52 Remote Elevation 71 Resection 63 Set Out 67 Applications Getting Started 40 Pre settings for applications 40 Select Job 41 Select Orientation 42 Select Station 42 Set accuracy limit 63 Set EDM 72 Area amp Volume application 69 Atmospheric data setting of 26 Auto start routine 29 Auto Off setting of 24 B Base line 48 Battery Changing of 17 Charging 17 First time use 16 Icon 10 Technical data SB21 109 Baudrate 28 Beep setting of 23 Bluetooth Code 27 STONEX Communication setup 27 Connection 80 Data transfer 80 Icon 10 Output power 107 Safety directions 100 C Calibration 82 Combined calibration 83 Electronic 82 84 Errors view current 29 Inspecting laser plummet 86 Line of sight 83 Mechanical 82 Of circular level on instrument 85 Of circular level on tribrach 85 Preparation 83 Vertical index 83 Care 88 Circular level calibration of 85 Cleaning and Drying 89 Code Bluetooth Code 27 80 Code Library 38 Coding Code library 32 Data management 75 Editing Extending 38 GSI coding 38 COGO application 57 Collimation axis 116 Communication Settings 27 Compensation 107 Compensator icon 10 Connecting Bluetooth 80 Constants p
73. for example obstacles excavations or traffic Precautions The person responsible for the product must make all users fully aware of the existing dangers 92 R5 R6 Safety Directions S T O N E X A Warning Inadequate securing of the working site can lead to dangerous situations for example in traffic on building sites and at industrial installations Precautions Always ensure that the working site is adequately secured Adhere to the regulations governing safety and accident prevention and road traffic A Warning If computers intended for use indoors are used in the field there is a danger of electric shock Precautions Adhere to the instructions given by the computer manufacturer regarding field use with Stonex products A Caution If the accessories used with the product are not properly secured and the product is subjected to mechanical shock for example blows or falling the product may be damaged or people can sustain injury Precautions When setting up the product make sure that the accessories are correctly adapted fitted secured and locked in position Avoid subjecting the product to mechanical stress A Warning If the product is used with accessories for example masts staffs poles you may increase the risk of being struck by lightning Precautions Do not use the product in a thunderstorm A Warning If charged or discharged batteries not recommended by Stonex burn and explode Precauti
74. from the APPS menu 3 Select Set EDM to set the EDM settings Refer to 4 2 EDM Settings 4 Select e New line To define a new construction site or Continue with line To continue with a previous construction site skips set up If coordinates were entered by COORD and measured to known points a plausibility check displays the calculated line length the actual length and the difference Next step Measure to the line start and end points and the LAY OUT screen appears 9 11 2 Layout Description Search or enter points for setting out relative to the defined construction line The on screen graphics show the position of the prism relative to the set out point Below the graphic the exact values are displayed combined with arrows to show the direction for setting out the point F Be aware that the line start point and the line end point are measured in the previous coor dinate system When setting out these points they appear in the old system and appear as shifted During use of the application the previous orientation and station parameters will be replaced by the new calculated ones The line start point will be set to E 0 N 0 The height of the line start point is always used as the reference height Access Either select New line from the Construction pre settings screen and measure start and end points of the line Or select Continue with line from the Construction pre settings screen 72 R5 R6 Ap
75. ge installed Equi p No ooo0000 on the instrument RL Type None DATE To change the date and format Firmw DATE TIME BACK TIME To change the time Next step Press Firmw to view the firmware package information SOFTWARE INFORMATION E Before selecting FORMAT to format the internal memory ensure that all important data is first transferred to a computer Jobs formats codelists configuration files uploaded languages and firmware will be deleted by formatting Field Description R5 R6 FW Versi Displays the firmware version number installed on the instrument Build Displays the build number of the firmware Current Lang Displays the current language and version number selected for the instrument 30 R5 R6 Tools STONEX Field Description EDM Firmware Displays the version number of the EDM firmware 8 Application Displays a list of the applications available on the instrument Information 5 4 Loading Software Description To load application software or an additional language connect the instrument to Stonex Soft ware via the serial interface and load using Stonex Software Software Upload Refer to the Stonex Software online help for further information For R6 instruments the software can be loaded via a USB memory stick This process is described below Access 1 Select Tools from the MAIN MENU 2 Select Load FW from the TOOLS MENU ee Load FW is only an option
76. ging of prisms Prisms that are cooler than the ambient temperature tend to fog Itis not enough simply to wipe them Keep them for some time inside your jacket or in the vehicle to allow them to adjust to the ambient temperature Damp products Dry the product the transport container the foam inserts and the accessories at a temperature not greater than 40 C 104 F and clean them Do not repack until everything is completely dry Always close the transport container when using in the field 1 wee ONT TX Cables and plugs Keep plugs clean and dry Blow away any dirt lodged in the plugs of the connecting cables 89 R5 R6 Safety Directions S T O N E X 13 Safety Directions 13 1 General Description The following directions enable the person responsible for the product and the person who actually uses the equipment to anticipate and avoid operational hazards The person responsible for the product must ensure that all users understand these directions and adhere to them 13 2 Intended Use Permitted use Measuring horizontal and vertical angles Measuring distances Recording measurements Visualizing the aiming direction and vertical axis Data communication with external appliances Computing by means of software Adverse use Use of the product without instruction Use outside of the intended limits Disabling safety syst
77. gth 650 nm 690 nm Beam divergence 0 2 mrad x 0 3 mrad NOHD Nominal Ocular Hazard Distance 0 25 s 80 m 262 ft 96 R5 R6 Safety Directions S T O N E X A Warning From a safety perspective class 3R laser products should be treated as potentially hazardous Precautions Prevent direct eye exposure to the beam Do not direct the beam at other people A Warning Potential hazards are not only related to direct beams but also to reflected beams aimed at reflecting surfaces such as prisms windows mirrors metallic surfaces etc Precautions Do not aim at areas that are essentially reflective such as a mirror or which could emit unwanted reflections Do not look through or beside the optical sight at prisms or reflecting objects when the laser is switched on in laser pointer or distance measurement mode Aiming at prisms is only permitted when looking through the telescope Labelling Laser Aperture Laser Radiation Avoid direct eye exposure 3R Class 3R Laser Product according to IEC 60825 1 2007 03 Po 5 00 mw A 650 690 nm Zoom_020 a Laser beam 97 R5 R6 Safety Directions S T O N E X Complies with FDA performance standards for laser products except for deviations pursuant to Laser Notice No 50 dated June 24 2007 This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful
78. hat are set must include at least grid coordinates E N and the station height if required The coordinates can be entered manually or selected from the memory Directions X Easting Y Northing Z Height Station coordinates Stn X Easting coordinate of station Stn Y Northing coordinate of station Access Select Select Station in the Pre settings screen Station input Field Description Stn Station name of a previously saved station position If no station was set and an application was started or if in Survey and a measurement was recorded then the last station is set as the current station Next step The Inst H field appears once the station coordinates have been entered Enter the instrument height if desired and press OK to return to the Pre Settings screen 8 5 Selecting the Orientation 8 5 1 Overview Description All measurements and coordinate computations are referenced to the orientation of the set station The orientation can be entered manually or determined from points that are either measured or selected from the memory 42 R5 R6 Applications Getting Started STONEX Access Select Select Orientn in the Pre settings screen and choose Angle To enter a new bearing Refer to 8 5 2 Manual Orientation Coordinates To calculate and set the orientation using existing coordinates A maximum of five target points can be used Refer to 8 5 3 Orientation with Coordi nates
79. ht may not be changed when observing in the second face Error checks are made for dual face measurements to ensure the same point is sighted with the other face If a target point is measured several times in the same face only the last valid measure ment is used for computation For the calculation of the station position measured target points can be re measured included in calculations or excluded from calculations 64 R5 R6 Applications S T O N E X Measurements not included in computations Target points with 0 000 height are discarded for height processing If a target point has a valid height of 0 000 m use 0 001 m to include it for height processing 9 7 3 Computation Procedure Description The measuring procedure automatically determines the method of evaluation for example resection or three point resection If more than the minimum required measurements are performed the procedure uses a least squares adjustment to determine the 3D position and averages orientation and height measure ments The original averaged face I and face II measurements are used for the computation process e All measurements are treated with the same accuracy whether these are measured in single or dual face Easting and Northing are determined by the least squares method which includes standard deviation and improvements for horizontal direction and horizontal distances The final height H is computed from average
80. if the selected target point has no Easting or Northing coordinate Max 5 points supported 5 points have already been measured and another point is selected The system supports a maximum of 5 points Invalid data no posi tion computed The measurements may not allow final station coordinates Eastings Northings to be computed Invalid data no height computed Either the target height is invalid or insufficient measurements are available to compute a final station height HA I Il gt 0 9 deg measure point again This error occurs if a point was measured in one face and the measurement in the other face differs by more than 180 0 9 for the horizontal angle VA I Il gt 0 9 deg measure point again This error occurs if a point was measured in one face and the measurement in the other face differs by more than 360 VA 0 9 for the vertical angle More points or distance required There is insufficient data measured to be able to compute a posi tion Either there are not enough points used or not enough distances measured Next step Press OK to return to the APPS menu 66 R5 R6 Applications S T O N E X 9 8 Set Out Description Set Out is an application used to place marks in the field at predetermined points These prede termined points are the points to be staked The points to be staked may already exist in a job on the instrument or be manually ent
81. ingle Axis Vertical angles refer to the plummet line Dual Axis Vertical angles refer to the plummet line and the hori zontal directions are corrected by the standing axis tilt For corrections depending on the HA Corr setting refer to the table Tilt and horizontal corrections Ee If the instrument is used on an unstable base for example a shaking platform or ship the compensator should be deactivated This avoids the compen sator drifting out of it s measuring range and interrupting the measuring process by indicating an error HA Corr On Horizontal corrections are activated For normal opera tion the horizontal correction should remain active Each measured horizontal angle will be corrected depending on the vertical angle For corrections depending on the Tilt Corr setting refer to the table Tilt and horizontal corrections Off Horizontal corrections are deactivated Face Def Sets the face I in relation to the position of the vertical drive VA Left Sets face I to be when the vertical drive is on the left of the instrument 21 R5 R6 Settings STONEX Field Description VA Right Sets face I to be when the vertical drive is on the right of the instrument HA Incr Right Set horizontal angle to clockwise direction measurement Left Set horizontal angle to counter clockwise direction meas urement Counter clockwise directions are displayed but are saved as clockwise directions
82. interference and 2 this device must accept any interference received including interference that may cause undesired operation Zoom_018 13 6 4 Laser Plummet General The laser plummet built into the product produces a visible red laser beam which emerges from the bottom of the product The laser product described in this section is classified as laser class 2 in accordance with IEC 60825 1 2007 03 Safety of laser products EN 60825 1 2007 10 Safety of laser products Class 2 laser products These products are safe for momentary exposures but can be hazardous for deliberate staring into the beam Description Value Maximum average radiant power 0 95 mW Pulse duration c W Pulse repetition frequency C W Wavelength 635 nm A Warning From a safety perspective class 2 laser products are not inherently safe for the eyes Precautions Avoid staring into the beam or pointing the beam at other people 98 R5 R6 Safety Directions S T O N E X Labelling Complies with FDA performance standards for laser products except for deviations pursuant to Laser Notice A No 50 dated June 24 2007 This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference an 2 this device must accept any interference received including interference that may cause undesired operation
83. ions Getting Started STONEX Field Description Go Starts the selected application 8 3 Selecting the Job Description All data is saved in Jobs like file directories Jobs contain measurement data of different types for example measurements codes fixed points or stations Jobs are individually manageable and can be exported edited or deleted separately Access Select Select Job in Pre settings screen SELECT JOB SELECT JOB 13 Job E User ABC Date 24 03 2010 Time 14 47 54 NEW NEW JC Y X o To create a new job Field Description Job Name of an existing job to be used User Name of user if entered Date Date the selected job was created Time Time the selected job was created Next step Either press OK to continue with the selected job Or press NEW to open the NEW JOB screen and create a new job Recorded data Once a job is set up all subsequent recorded data will be stored in this job If no job was defined and an application was started or if in Survey and a measurement was recorded then the system automatically creates a new job and names it DEFAULT Next step Press OK to confirm the job and return to the Pre Settings screen 41 R5 R6 Applications Getting Started S T O N E xX 8 4 Selecting the Station Description All measurements and coordinate computations are referenced to the set station coordinates The station coordinates t
84. ject crosses the measuring beam ata distance of 0 to 30 m and the distance to be measured is more than 300 m In practice because the measuring time is very short the user can always find a way of avoiding unwanted objects from interferring in the beam path Red laser to prism RL Long Range mode enables distance measurements of over 3 5 km to standard prisms using the visible red laser beam Red laser to reflector foil The visible red laser beam can also be used to measure to reflective foils To guarantee the accuracy the red laser beam must be perpendicular to the reflector foil and it must be well adjusted Make sure the additive constant belongs to the selected target reflector A Warning Due to laser safety regulations and measuring accuracy using the Long Range Reflectorless EDM is only allowed to prisms that are more than 1000 m 3300 ft away 20 R5 R6 Settings STONEX 4 Settings 4 1 General Settings Access 1 Select Settings from the MAIN MENU 2 Select General from the SETTINGS menu 3 Press 6 to scroll through the screens of available settings SETTINGS SETTINGS 1 4 Contrast TTA Tilt Corr Dual Axis4 H A Corr Ond Face Def v A Left d H A Drier Right d V A Setting nni DelLng D y YC OK To delete a selected language Field Description Contrast 0 to 100 Sets the display contrast in 10 steps Tilt Corr Off Tilting compensation deactivated S
85. k The job data will be stored as individual database files for each job which can then be imported again Refer to 10 3 Importing Data Exportable job data formats Job data can be exported from a job in a variety of file types A format can be defined in Stonex Software Format Manager Refer to the online help of Stonex Software for information on creating format files RS232 example job data output Within the Data Type setting Observations a data set could be shown as follows 11 00000D19 21 022 16641826 22 022 09635023 31 00 00006649 58 16 00000344 81 00 00003342 82 00 00005736 83 00 00000091 87 10 00001700 GSI IDs GSI IDs continued 11 Pt 41 49 Codes and attributes 21 E Horizontal direction 51 ppm mm 22 Vertical angle 58 Prism constants 25 Orientation 81 83 Z E N H Target point 31 Slope distance 84 86 E N H Station point 32 z Horizontal distance 87 Reflector height 33 Height difference 88 Instrument height 77 R5 R6 Data Management STONEX 10 3 Importing Data Description For R6 instruments data can be imported to the internal memory of the instrument via a USB memory stick Importable data formats When importing data the instrument automatically stores the file in a directory folder based on the file extension The following data formats can be imported Data Type File extension Recognised as GSI gsi Known points Format fr
86. l index Calibration 83 Description 117 W Weight 108 Wildcard search 13 Z Z Coordinate 32 34 Zenith 22 116 Zenith angle 116 124 R5 R6 Index S T O N E X STONEX Stonex Europe srl Via Giulini 1 20052 Monza MB Italy Phone 39 03 989 43897 Fax 39 03 989 42483 www stonexeurope com
87. mum of 50 points connected by straights The target points have to be measured selected from memory or entered via the keypad in a clockwise direction The calculated area is projected onto the horizontal plane 2D or projected onto the sloped reference plane defined by three points 3D Furthermore a volume with constant height can be calculated in relation to the area 2D 3D PO Instrument station P1 Start point P2 4Target points a Perimeter polygonal length from start point to the current measured point fi b Calculated area always closed to the start point P1 PO projected onto the horizontal plane Access 1 Select Apps from the MAIN MENU 2 Select Area amp Volume from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started AREA amp VOLUME The graphic always shows the area projected onto the horizontal plane AREA amp VOLUME 1PtBACK s xX To undo measurement or selection of the previous o tE x HD s aia m T point Pts 4 A 2D 151 795 m2 ra CALG wae a Y To display and record additional results perimeter aLL C cate CPteck gt gt gt volume gt gt gt VOLUME To calculate a volume with constant height The heights have to be entered or measured gt gt gt Def 3D To define the sloped reference plane by selecting or measuring three points The 2D area is calculated and displayed once three points have
88. must be handled separately from solid urban waste FOR COUNTRIES OUTSIDE EUROPEAN UNION EU The treatment recycling collection and disposal of electric and electronic devices may vary in accordance with the laws in force in the Country in question 115 R5 R6 Glossary 16 Glossary Instrument axis Plumb line compensator Standing axis inclination oY wks Hz0 v STONEX ZA Line of sight collimation axis Telescope axis line from the cross hairs to the center of the objective SA Standing axis Vertical rotation axis of the telescope KA Tilting axis Horizontal rotation axis of the telescope Also known as the Trunion axis V Vertical angle zenith angle VK Vertical circle With coded circular division for reading the vertical angle Hz Horizontal direction HK Horizontal circle With coded circular division for reading the hori zontal angle Direction of gravity The compensator defines the plumb line within the instrument Angle between plumb line and standing axis Standing axis tilt is not an instrument error and is not eliminated by meas uring in both faces Any possible influence it may have on the horizontal direction or vertical angle is eliminated by the dual axis compensator Point on the plumb line above the observer 116 R5 R6 Glossary S T O N E X Crosshairs Glass plate within the telescope with reticle Line of sight error horizontal collimation The line
89. ns S T O N E X Either press OK after entering the target data fields in the Target data screen Or press gt gt gt SKIP to skip entering the target data fields again when measuring the same point in another face Sight target point In the Sight target point screen 2 Indicates that the second point was measured in face I 2 Il Indicates that the second point was measured in faces I and II 27 CALC iar 2 To calculate and display the station coordinates if at le v H A 302 6000 g least two points and a distance were measured vV 287 2000 g hDIST 31 355 m Q NextPt To return to the Enter target data screen to select ALL NextPt Ccace gt gt gt the next known point Next step Either press NextPt to measure the next known point Or press CALC to calculate the station position 9 7 2 Measuring Information Measurement sequences The following measurement sequences are possible Horizontal direction and vertical angles only resection Distance and horizontal direction and vertical angle Horizontal direction and vertical angles to some point s and horizontal direction and vertical angles plus distance to other point s Single face I single face II or dual face I and II measurements are always possible No specific point sequence or specific face sequences are required Dual face measurements When measuring the same target in both faces the reflector heig
90. nt to Laser Notice No 50 dated June 24 2007 This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation Zoom_017 a Laser beam 13 6 3 Distancer Measurements without Reflectors Reflectorless mode General The EDM module built into the product produces a visible laser beam which emerges from the telescope objective The laser product described in this section is classified as laser class 3R in accordance with IEC 60825 1 2007 03 Safety of laser products EN 60825 1 2007 10 Safety of laser products Class 3R laser products Direct intrabeam viewing may be hazardous low level eye hazard in particular for deliberate ocular exposure The risk of injury for laser class 3R products is limited because of unintentional exposure would rarely reflect worst case conditions of e g beam align ment with the pupil worst case accommodation inherent safety margin in the maximum permissible exposure to laser radiation MPE natural aversion behaviour for exposure to bright light for the case of visible radiation Description Value A2 A4 A6 Maximum average radiant power 5 00 mW Pulse duration 800 ps Pulse repetition frequency 100 MHz 150 MHz Wavelen
91. ntered in this screen EDM SIGNAL REFLECTION This screen tests the EDM signal strength reflection strength in steps of 1 Enables optimal aiming at distant barely visible targets A percentage bar and a beeping sound indicate the reflection strength The faster the beep the stronger the reflection 4 3 Communication Settings Description For data transfer the communication parameters of the instrument must be set Access 1 Select Settings from the MAIN MENU 2 Select Comm from the SETTINGS menu COMMUNICATION SETTINGS COMMUNI CATION SETTINGS Port PB uetoothty Bluetooth Ond Baudrate are BTCode To set a code for the Bluetooth connection Ee This softkey is only available for R6 instru EA X Nf ET ments The default Bluetooth code is 0000 a li le ln e e Field Description Port Instrument port For R6 instruments the options are selectable For R5 instru ments the value is set to RS232 and is uneditable RS232 Communication is via the serial interface USB Communication is via the USB host port Bluetooth Communication is via Bluetooth Automatically Communication is set to auto detect Bluetooth On Bluetooth sensor is activated 27 R5 R6 Settings Field STONEX Description Off Bluetooth sensor is deactivated The following fields are active only when Port RS232 is set Field Description Baudrate Speed of data transfer from receive
92. oint s R Radius of arc SP R CP AL Arc length Set out chord To set out a series of equidistant chords along the arc P EP CP Center point of arc SP Start point of arc P EP End point of arc P Set out point s R Radius of arc SP R CP CL Chord length 55 R5 R6 Applications S T O N E X Set out angle To set out a series of points along the arc defined by the angle segments from the center point of the arc EP CP Center point of arc SP Start point of arc MP EP End point of arc MP Measured point R Radius of arc SP R CP b Central angle Access 1 Press SET OUT from the REFERENCE ARC screen 2 Select one of the four methods of set out available Set out point arc chord or angle Enter the set out values Press PrevPt NextPt to toggle through the calculated set out points Field Description Distrib For set out arc Method of misclosure distribution If the entered arc length is not an integer of the whole arc there will be a misclosure None All of the misclosure will be added to the last arc section Equal The misclosure will be equally distributed between all sections Start Arc All of the misclosure will be added to the first arc section Arc Length For set out arc The length of the arc segment to set out Chord For set out chord The length of the chord to set out Length Angle For set out angle The angle around the center point of the arc of the points to be set out Line For set out arc cho
93. ommended to redetermine them in the following situations Before the instrument is used for the first time Before every high precision survey After rough or long periods of transport After long periods of work or storage If the temperature difference between current environment and the temperature at the last calibration is more than 10 C 18 F 82 R5 R6 Calibration STONEX 11 2 Preparation S Before determining the instrument errors level up the instrument using the elec tronic level The Level amp Plummet is the first screen to appear after turning on the instrument The tribrach the tripod and the ground should be very stable and secure from vibrations or other disturbances e e The instrument should be protected from direct sunlight in order to avoid thermal S Z N expansion on one side only S gt Before starting to work the instrument has to become acclimatised to the ambient temperature Approximately two minutes per C of temperature difference from storage to working environ ment but at least 15 min should be taken into account 11 3 Calibrating Line of Sight and Vertical Index Error Line of sight error The line of sight error or horizontal collimation error is the deviation from the perpendicular between the tilting axis and the line of sight The effect of the line of sight error to the horizontal direction increases with the vertical angle a Tilting axis
94. on 2 0 5 0 2 4 0 07 5 1 5 0 5 4 0 07 107 R5 R6 Technical Data STONEX Level Circular level sensitivity 6 2 mm Electronic level resolution 2 Control unit Display 280 x 160 pixels LCD backlit 8 lines with 31 characters each heatable temp lt 5 Instrument Ports Name Description RS232 6 pin Hiroshi for power communication data transfer This port is located at the base of the instrument USB host port USB memory stick port for data transfer Bluetooth Bluetooth connections for communication and data transfer Only for R6 instruments Instrument Dimensions E E O ma E E S L 86 6 mm a ola 186 6 mm 173 2 mm Weight Instrument 4 2 kg 4 5 kg depending on hardware configuration Tribrach 760 g Battery SB21 110 g 108 R5 R6 Technical Data STONEX Tilting axis height Without tribrach 196 mm With tribrach 240 mm 5 mm Recording Model Memory Type Number of measurements R5 R6 Internal memory 10 000 Laser plummet Type Visible red laser class 2 Location In standing axis of instrument Accuracy Deviation from plumb line Diameter of laser point Power External supply voltage via serial interface Battery SB21 Type Voltage Capacity Operating time 1 5 mm 2 sigma at
95. ons may be damaged They may Only charge and discharge batteries recommended by Stonex A Warning Using a battery charger not recommended by Stonex fire or explosions Precautions can destroy the batteries This can cause Only use chargers recommended by Stonex to charge the batteries 93 R5 R6 Safety Directions S T O N E X A Caution During the transport shipping or disposal of batteries it is possible for inappropriate mechan ical influences to constitute a fire hazard Precautions Before shipping the product or disposing of it discharge the batteries by running the product until they are flat When transporting or shipping batteries the person in charge of the product must ensure that the applicable national and international rules and regulations are observed Before transpor tation or shipping contact your local passenger or freight transport company A Warning High mechanical stress high ambient temperatures or immersion into fluids can cause leakage fire or explosions of the batteries Precautions Protect the batteries from mechanical influences and high ambient temperatures Do not drop or immerse batteries into fluids A Warning If battery terminals come in contact with jewellery keys metallised paper or other metals short circuited battery terminals can overheat and cause injury or fire for example by storing or transporting in pockets Precautions Make sure that the bat
96. optimal charging we recommend charging the batteries at a low ambient temperature of 10 C to 20 C 50 F to 68 F if possible It is normal for the battery to become warm during charging Using the chargers recom mended by Stonex it is not possible to charge the battery if the temperature is too high 16 R5 R6 Operation STONEX Operation discharging The batteries can be operated from 20 C to 50 C 4 F to 122 F Low operating temperatures reduce the capacity that can be drawn very high operating temperatures reduce the service life of the battery For Li Ion batteries a single discharging and charging cycle is sufficient We recommend carrying out the process when the battery capacity indicated on the charger or on a Stonex product deviates significantly form the actual battery capacity available Change the battery step by step Open the battery compartment 1 and remove the battery holder Remove the battery from the battery holder 2 Insert the new battery into the battery holder 3 ensuring that the contacts are facing outward The battery should click into position Insert the battery holder back into the battery compart ment 4 S The polarity of the battery is displayed inside the battery housing A Warning If charged or discharged batteries not recommended by Stonex burn and explode Precautions gt may be damaged They may Only charge an
97. or all temperature fields C Degree Celsius F Degree Fahrenheit Press Unit Sets the units shown for all pressure fields hPa Hecto Pascal mbar Millibar mmHg Millimeter mercury inHg Inch mercury Beep The beep is an acoustic signal after each key stroke Normal Normal volume Loud Increased volume Off Beep is deactivated Sector Beep On Sector Beep sounds at right angles 0 90 180 270 or 0 100 200 300 gon 1 No beep 2 Fast beep from 95 0 to 99 5 gon and 105 0 to 100 5 gon 3 Permanent beep from 99 5 to 99 995 gon and from 100 5 to 100 005 gon Off Sector Beep is deactivated Screen ill On or Off Sets the screen illumination on or off 23 R5 R6 Settings STONEX Field Description Crossh ill Low Medium Sets the illumination level of the crosshairs or High Heating On The display heater is activated Off The display heater is deactivated ES The display heater is automatically activated when the display illumination is on and the instrument temperature is lt 5 C Data Output Sets the location for data storage Int Mem All data is recorded in the internal memory Interface Data is recorded via the serial interface or the USB device port depending on the port selected in the COMMUNI CATION SETTINGS screen This Data Output setting is only required if an external storage device is connected and measurements are started at the instrument with MEAS
98. ote Elevation Description Remote Elevation is an application used to compute points directly above the base prism without a prism at the target point 1 Remote point 2 Height difference 3 Slope distance 4 Base point Access 1 Select Apps from the MAIN MENU 2 Select Remote Elevation from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started Remote elevation measurement Measure to the base point or press gt gt gt Tgt H to determine an unknown reflector height Next step After measuring the REMOTE ELEVATION screen appears REMOTE ELEVATION Aim at remote point Aim the instrument at the inaccessible remote point Field Description hDIST Height difference between the base point and the remote point Z Height of the remote point d d Z Calculated difference in Height between the base point and the remote point Next step Either press OK to save the measurement of the remote point Or press BACK to enter and measure a new base point Or press ESC to exit the application 71 R5 R6 Applications S T O N E X 9 11 Construction 9 11 1 Starting Construction Description Construction is an application used to define a construction site by combining set up of the instrument along a construction line measuring and setting out points in relation to the line Access 1 Select Apps from the MAIN MENU 2 Select Construction
99. plications S T O N E X LAY OUT The graphics are scaled to give a better overview Therefore itis possible that the set out point moves in the graphic LAY OUT fe eae x AsBLT tgt To switch to AsBuilt mode to check points relative to dbi 1 280 mje 0 191 m the construction line dof 31 329 m 0 081 m d HG 6 491 m t 1 599 m gt gt gt Shift MEAS REC AsBLT gt gt gt To enter values for shifting the line Field Description dLi Longitudinal offset Positive if target point is further away than the measured point dOf Perpendicular offset Positive if target point is to the right of the measured point d HG Height offset Positive if target point is higher than the measured point Next step Either press ASBLT to check point locations relative to a contruction line Or press gt gt gt Shift to enter offset values for shifting the construction line 9 11 3 As Built Check Description The As built screen displays the Line Offset and d d Z of a measured point in relation to the construction line The on screen graphics show the position of the measured point relative to the construction line The height of the line start point is always used as the reference height Access Press ASBLT from the LAY OUT screen AS BUILT CHECK The graphics are scaled to give a better overview Therefore it is possible that the station point moves in the graphics
100. pm 0 25 Accuracy and measure time depend on atmospheric conditions target object and observa tion situation Characteristics Type Coaxial visible red laser Carrier wave 658 nm Measuring system System analyser basis 100 MHz 150 MHz Laser dot size Distance m Laser dot size approximately mm at 30 7x10 at 50 8 x 20 105 R5 R6 Technical Data STONEX 14 4 Distance Measurement Reflector Long Range Range A2 A4 A6 with reflector Range A Range B Range C m ft m ft m ft Standard prism 2200 7300 7500 24600 gt 10000 gt 33000 Reflector foil 600 2000 1000 3300 1300 4200 60 mm x 60 mm Range of measurement From 1000 m up to 12000 m Display unambiguous Up to 12 km Atmospheric conditions Range A Strong haze visibility 5 km or strong sunlight severe heat shimmer Range B Light haze visibility about 20 km or moderate sunlight slight heat shimmer Range C Overcast no haze visibility about 40 km no heat shimmer Accuracy Standard ISO 17123 4 Measure time Measure time measuring typical s maximum s Long range 5 mm 2 ppm 2 5 12 Beam interruptions severe heat shimmer and moving objects within the beam path can result in deviations of the specified accuracy Characteristics Principle Phase measurement Type Coaxial visible red laser Carrier wave 658 nm Measuring system System analyser basis 100 MHz 150 MHz 14 5
101. point i The old and new calculated values are displayed 6 Either Press OK to save the new calibration data or Press ESC to exit without saving the new calibration data Messages The following are important messages or warnings that may appear 84 R5 R6 Calibration Messages STONEX Description VA angle not suitable for adjustment The vertical angle deviates from the required horizontal line of sight or in face II the vertical angle deviates by more than 5 from the target point Aim at the target point with an accuracy of min 5 Confirmation of the message required Results out of toler ance Previous values retained Computed values out of tolerance The previous values are retained and measurements should be repeated Confirmation of the message required HA angle not suitable for adjustment Horizontal angle in face II deviates by more than 5 from the target point Aim on the target point with an accuracy of min 5 Confir mation of the message required Measurement Error Try again Measurement error appears when for example there is an unstable set up Repeat the process Confirmation of the message required Time limit exceeded Please repeat adjust ment Time difference between measurements for results storage exceeds 15 minutes Repeat the process Confirmation of the message required 11 4 Calibrating the Circular Level of the Instrument an
102. points within the selected job and with the corresponding point number are found POINTSEARCH Job J1010 Pt 402 Select job or enter point coordinates manually SEARCH SEARCH COORD C To search for matching points within the selected job Wildcard search The wildcard search is indicated by a The asterisk is a place holder for any following sequence of characters Wildcards should be used if the point number is not fully known or to search for a batch of points Examples of point searches All points are found A All points with exactly the point number A are found A All points starting with A are found for example A9 A15 ABCD A2A 1 All points containing only one 1 are found for example 1 A1 AB1 A 1All points starting with A and containing only one 1 are found for example A1 AB1 A51 13 R5 R6 Operation STONEX 3 Operation 3 1 Instrument Setup Description This topic describes an instrument setup over a marked ground point using the laser plummet It is always possible to set up the instrument without the need for a marked ground point ES Important features It is always recommended to shield the instrument from direct sunlight and avoid uneven temperatures around the instrument The laser plummet described in this topic is built into the vertical axis of the instrument It projects a red spot onto the ground making it appreciably easier to centre
103. r to device in bits per second 1200 2400 4800 9600 14400 19200 38400 57600 115200 Databits Number of bits in a block of digital data 7 Data transfer is realised with 7 databits 8 Data transfer is realised with 8 databits Parity Even Even parity Available if data bit is set to 7 Odd Odd parity Available if data bit is set to 7 None No parity Available if data bit is set to 8 Endmark CR LF The terminator is a carriage return followed by a line feed CR The terminator is a carriage return Stopbits 1 Number of bits at the end of a block of digital data 28 R5 R6 Tools STONEX 5 Tools 5 1 Calibration Description The CALIBRATION menu contains tools to be used for the electronic calibration of the instru ment Using these tools helps to maintain the measuring accuracy of the instrument Access 1 Select Tools from the MAIN MENU 2 Select Calibr from the TOOLS MENU 3 Select a calibration option from the CALIBRATION screen Calibration options In the CALIBRATION screen there are several calibration options Menu selection Description HA Collimation Refer to 11 3 Calibrating Line of Sight and Vertical Index Error Vertical Index Refer to 11 3 Calibrating Line of Sight and Vertical Index Error View Calibration Displays the current calibration values that have been set for HA Collima Data tion and V index 5 2 Auto Start Routine Description Through the Auto Start tool it
104. rd and angle Longitudinal offset from the reference arc This is calculated by the arc length chord length or angle and the selected misclosure distribution For set out point Longitudinal offset from the reference arc Offset Perpendicular offset from the reference arc Next step Press OK to proceed to measurement mode REFERENCE ARC SET OUT The signs for the distance and angle differences are correction values required minus actual The arrows indicate the direction to move to get to the set out point 56 R5 R6 Applications S T O N E X REFERENCE ARC SETOUT Pt 1 TgtHGT 1 500 m 9 dH gt 0 9852 g d H D 0 514 m d d 2 t 0 082 m Q ji NextPt MEAS REC NextPt gt gt gt Y To add the next point to be set out Field Description d HA Horizontal direction from the measured point to the set out point Positive if the telescope must be turned clockwise to the set out point d H D Horizontal distance from the measured point to the set out point Positive if the set out point is further away than the measured point d d Z Height difference from the measured point to the set out point Positive if the set out point is higher than the measured point Next step Either press gt gt gt ALL to measure and record Or press gt gt gt BACK to return to the REFERENCE ARC screen Or continue selecting ESC to exit the application 9 5 C
105. rdinates E N or H Observations To view and delete observation data Observation data available in the internal memory can be searched for via a specific point search or by viewing all points within a job Code Library To view create edit and delete codes To each code a description anda maximum of 8 attributes with up to 16 characters each can be assigned Formats To view and delete data format files Erase Job To delete individual jobs known points and measurements of a specific Memory job or all jobs in the memory er Deleting the memory cannot be undone After confirming the message all data is permanently deleted Memory Info Displays job specific memory information such as the number of stored stations and known points within a job the number of recorded data blocks for example measured points or codes within a job and the memory space occupied 75 R5 R6 Data Management S T O N E X Menu item Description USB Explorer To view delete rename and create folders and files stored on the USB memory stick Only available for R6 instruments Refer to 10 4 Working with a USB Memory Stick and Appendix B Direc tory Structure Next step Either select a menu option using F1 F4 e Or press ESC to return to the MAIN MENU 10 2 Exporting Data Description Job data can be exported from the internal memory of the instrument Data can be exported via The RS232 serial int
106. reen to take an additional measurement A maximum of five target points can be used No proceeds to the STN ORIENTATION RESULT screen Result calculation If more than one target point is measured then the orientation is computed using the least squares method IF THEN the orientation is only measured in face II the horizontal direction is based on face II the orientation is measured only in face I or the horizontal direction is based on face I a mixture of I and II a target point is measured several timesin ithe last valid measurement is used for the the same face computation Stn Orientation result Field Description Pts Number of points used in the calculation Stn Station name for which the orientation has been set HA Corr Horizontal correction 44 R5 R6 Applications Getting Started STONEX Field Description Std Dev Standard deviation indicating the potential variance between the true orienta tion and that calculated Next step Either press Resid to display the residuals Or press OK to set the orientation and return to the Pre Settings screen Stn Orientation Residuals 1 fa 1 Actual 2 Design P2 Target point d Offs Height correction d HD Correction in horizontal distance d HA Correction in horizontal direction Field Description BS ID Point IDs of the target points used in calculating the orientation d H
107. rism 26 Construction application 72 Container contents 7 Continuous EDM 37 Contrast setting of 21 Control Distance 36 Coordinates orientation with 44 121 R5 R6 Index Corrections Atmospheric 110 Automatic 110 Scale 110 Crosshair illumination setting of 24 Crosshairs 117 D Data Storage 17 Transfer 76 Data formats 78 Data management 75 75 Data output setting location of 24 Data types 78 Databits 28 Date 30 Delete last observation 32 Dimensions of instrument 108 Directory structure 120 Display heater setting of 24 Display technical details of 108 Distance Offset 33 Distance unit setting of 23 32 E Edit fields how to 12 Electromagnetic compatibility EMC 100 Electronic calibration 82 Electronic Distance Measurement EDM 19 Continuous 37 Icons 10 Laserbeam 26 Prism Long Range 106 Prism constant 26 Prism mode 103 Prism Types 26 RL Mode 96 104 Settings 25 Signal reflection 27 Electronic level level up instrument 15 Endmark 28 Erase job memory 75 Export data 76 Extension COGO application 61 F Face setting of 21 STONEX FCC Statement 101 Fields common 46 File extensions 78 Firmware information 30 Folder structure 120 Formats management of 75 Formatting Internal memory 30 Free PPM setting of 27 Functions FNC Access 32 Description of 32 FNC key 9 G Glossary 116 GSI Coding 38 Ouput mask setting of 24 Output format setting of 24 H HA corrections setting of 21 H
108. s an application used to compute slope distance horizontal distance height difference and azimuth of two target points which are either measured selected from the memory or entered using the keypad Missing Line Measurement methods The user can choose between two different methods Polygonal P1 P2 P2 P3 P3 P4 Radial P1 P2 P1 P3 P1 P4 61 R5 R6 Applications S T O N E X Polygonal method T101 1st target point T202 2nd target point T303 3rd target point SD 1 2Slope distance from T101 T202 SD 2 3Slope distance from T202 T303 Az 1 2Azimuth from T101 T202 Az 2 3Azimuth from T202 T303 1 4 Target points SD 1 2Slope distance from 1 2 SD 1 3Slope distance from 1 3 Access SD 1 4Slope distance from 1 4 Az 1 2Azimuth from 1 2 Az 1 3Azimuth from 1 3 SD 1 4 Az 1 4Azimuth from 1 4 CP Center point 1 Select Apps from the MAIN MENU 2 Select Missing Line Meas from the APPS menu 3 Complete application pre settings Refer to 8 Applications Getting Started 4 Select Polygon or Radial Missing line measurements After completing the measurements required the MLM RESULT screen will appear MISSING LINE RESULT Polygonal method MISSING LINE RESULT NewPt 1 i ah To calculate an additional line Application starts Grade 2 Si again at point 1 d 5 D 3 534 m d H D 3 533 m NewPt 2 i 3 2 Brg Z 135 9971 g To set point 2 as the starting point of a new line A N
109. scale correction in ppm mm km which has been entered corresponds to the atmospheric conditions prevailing at the time of the measurement The atmospheric correction includes Adjustments for air pressure Air temperature For highest precision distance measurements the atmospheric correction should be deter mined with An accuracy of 1 ppm Air temperature to 1 C Air pressure to 3 mbar 110 R5 R6 Technical Data Atmospheric corrections C STONEX Atmospheric corrections in ppm with temperature C air pressure mb and height m at 60 relative humidity 550mb 600 650 700 750 800 850 900 950 10001050 mb 50 C 50 C MG 40 C g 40 C e ve 5e 30 C Se 30 C amp fo 7H S 20 C Eo 20 C Sg A_ g 10 C Sel 10 C eo 3 amp VS o c Po 0 C Vo Son 10 C NOS 10 C ve a OSs 20 C 20 C 550mb 600 650 700 750 800 850 900 950 10001050 mb 5000 m450040003500 3000 2500 2000 1500 1000 500 Om Atmospheric correction F Atmospheric corrections in ppm with temperature F air pressure inch Hg and height ft at 60 relative humidity 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 inch Hg 130 F 130 F 120 F ve A 1
110. t Format file Codelist cls Codelist file Access 1 Select Transfer from the MAIN MENU 2 Select Import Data DATA IMPORT DATA MPORT From USB Stick To Instrument File Single File Back YC JC ok Field Description From USB Stick To Instrument File Single File Import data step by step 1 Press OK in the DATA IMPORT screen to proceed to the USB memory stick file directory 2 Select the file on the USB memory stick to be imported and press OK 3 Define the Job name for the imported file and if requested the file definition and layers and press OK to import Ifa Job with the same name already exists in the internal memory 78 R5 R6 Data Management S T O N E X a message will appear with the options to overwrite the existing job or rename the job for the file being imported 4 A message will display once the file has been successfully imported 10 4 Working with a USB Memory Stick Insert a USB memory stick step by step Lift the lid covering the USB host port on the R6 instru ment Insert the USB memory stick into the USB host port Always return to the Main Menu before removing the USB memory stick S Stonex cannot be held responsible for data loss or any other error that may occur when using a USB memory stick S Keep the USB memory stick dry Use it only within the specified temperature range Protect the USB memory stick from direct impacts Failur
111. t computed or shown Next step Select a softkey option MEAS or SETOUT to proceed to a subapplication 49 R5 R6 Applications S T O N E X 9 3 4 Subapplication Measure Line amp Offset Description The Measure Line amp Offset subapplication calculates from measurements or coordinates longi tudinal offsets parallel offsets and height differences of the target point relative to the reference line RL Reference line 1RPStart point MP Measured point dL Longitudinal offset dOffParallel offset Example of height difference relative to first reference point 1RP1st reference point 1BP1st base point RH Reference height d Z r at Hd Height difference between reference and base point 1BP d Z Height difference from reference height Access Press MEAS in the REFERENCE LINE screen Measure Field Description d Line Calculated distance longitudinal to the reference line d Offset Calculated distance perpendicular from the reference line d d Z Calculated height difference relative to the defined reference height Next step Either press ALL to measure and record Or press gt gt gt BACK to return to the REFERENCE LINE screen 50 R5 R6 Applications S T O N E X 9 3 5 Subapplication Setout Description The setout subapplication calculates the difference between a measured point and the calcu lated point The orthogonal dLine dOffset d d Z and polar dHA d hD
112. telescope image j Eyepiece focusing graticule k Battery cover 1 Foot screw m Circular level n Display o Keyboard R5 R6 User Interface 2 User Interface 2 1 Keyboard Alphanumeric keyboard STONEX a Alphanumeric keypad b Navigation key c ENTER key d Function keys F1 to F4 e ESC key f FNC key g PAGE key Keys Key Description a Page key Displays the next screen when several screens are available FNC key Quick access to measurement supporting functions J field C Navigation key Controls the focus bar within the screen and the entry bar within a t ENTER key Confirms an entry and continues to the next field 8 ESCkey Quits a screen or edit mode without saving changes Returns to next higher level 5 Function keys that are assigned the variable functions displayed at the bottom of the ia screen al Alphanumeric keypad for entry of text and numerical values OGG G08 2 2 Screen Screen a Title of screen b Focus in screen Active field c Status icons d Fields e Softkeys R5 R6 User Interface S T O N E X Ee All shown screens are examples It is possible that local firmware versions are different to the basic version 2 3 Status Icons Description The icons provide status information related to basic instrument functions Depending on the firmware version different icons are displayed
113. tery terminals do not come into contact with metallic objects A Warning If the product is improperly disposed of the following can happen If polymer parts are burnt poisonous gases are produced which may impair health If batteries are damaged or are heated strongly they can explode and cause poisoning burning corrosion or environmental contamination By disposing of the product irresponsibly you may enable unauthorised persons to use it in contravention of the regulations exposing themselves and third parties to the risk of severe injury and rendering the environment liable to contamination Precautions The product must not be disposed with household waste Dispose of the product appropriately in accordance with the national regula tions in force in your country Always prevent access to the product by unauthorised personnel A Warning Only Stonex authorised service workshops are entitled to repair these products 94 R5 R6 Safety Directions S T O N E X 13 6 Laser Classification 13 6 1 General General The following directions in accordance with the state of the art international standard IEC 60825 1 2007 03 and IEC TR 60825 14 2004 02 provide instruction and training informa tion to the person responsible for the product and the person who actually uses the equipment to anticipate and avoid operational hazards The person responsible for the product must ensure that all users understand these
114. the instru ment The laser plummet cannot be used with a tribrach equipped with an optical plummet Tripod Ee When setting up the tripod pay attention to ensuring a horizontal position of the tripod plate Slight corrections of inclination can be made with the foot screws of the tribrach Larger corrections must be done with the tripod legs Loosen the clamping screws on the tripod legs pull out to the required length and tighten the clamps a In order to guarantee a firm foothold sufficiently press the tripod legs into the ground b When pressing the legs into the ground note that the force must be applied along the legs Careful handling of tripod Check all screws and bolts for correct fit During transport always use the cover supplied Use the tripod only for surveying tasks 14 R5 R6 Operation STONEX Setup step by step wr 1 Extend the tripod legs to allow for a comfortable working posture Position the tripod over the marked ground point centring it as best as possible 2 Fasten the tribrach and instrument onto the tripod 3 Turn on the instrument and if tilt correction is set to 1 or 2 axis the laser plummet will be activated automatically and the Level amp Plummet screen appears Otherwise press FNC from within any application and select Level amp Plummet 4 Move the tripod legs 1 and use the tribrach footscrews 6 to center the plummet 4 over th
115. to the information about electromagnetic compatibility provided by the manufacturer A Caution Disturbances caused by electromagnetic radiation can result in erroneous measurements Although the product meets the strict regulations and standards which are in force in this respect Stonex cannot completely exclude the possibility that the product may be disturbed by intense electromagnetic radiation for example near radio transmitters two way radios or diesel generators Precautions Check the plausibility of results obtained under these conditions A Warning If the product is operated with connecting cables attached at only one of their two ends for example external supply cables interface cables the permitted level of electromagnetic radia tion may be exceeded and the correct functioning of other products may be impaired Precautions While the product is in use connecting cables for example product to external battery product to computer must be connected at both ends Bluetooth Use of product with Bluetooth 100 R5 R6 Safety Directions S T O N E X A Warning Electromagnetic radiation can cause disturbances in other equipment in installations in medical devices for example pacemakers or hearing aids and in aircraft It can also affect humans and animals Precautions Although the product meets in combination with radio or digital cellular phone devices recom mended by Stonex the strict regulations and st
116. ts with far reaching human material financial and environ mental consequences Precautions All users must follow the safety directions given by the manufacturer and the directions of the person responsible for the product A Caution Watch out for erroneous measurement results if the product has been dropped or has been misused modified stored for long periods or transported Precautions Periodically carry out test measurements and perform the field adjustments indicated in the user manual particularly after the product has been subjected to abnormal use and before and after important measurements A Danger Because of the risk of electrocution it is dangerous to use poles and extensions in the vicinity of electrical installations such as power cables or electrical railways Precautions Keep at a safe distance from electrical installations Ifit is essential to work in this environment first contact the safety authorities responsible for the electrical installations and follow their instructions Caution Be careful when pointing the product towards the sun because the telescope functions as a magnifying glass and can injure your eyes and or cause damage inside the product Precautions Do not point the product directly at the sun A Warning During dynamic applications for example stakeout procedures there is a danger of accidents occurring if the user does not pay attention to the environmental conditions around
117. w shows the direction of rotation required When the elec tronic level is centered the arrow is replaced bya checkmark pack O ox 5 Center the electronic level for the second axis by M 15 R5 R6 Operation STONEX Ee When the electronic level is centered 4 and three checkmarks are shown the instrument has been perfectly levelled up ponj 6 Accept with OK Change the intensity of the laser plummet External influences and the surface conditions may require the adjustment of the intensity of the laser plummet In the Level amp Plummet screen adjust the intensity of A the laser plummet using the navigation key v Min 50 Max The laser can be adjusted in 25 steps as required Position over pipes or holes Under some circumstances the laser dotis not visible for example over pipes In this case using a transparent plate enables the laser dot to be seen and then easily aligned to the center of the pipe Zoom 005 3 2 Working with the Battery Charging first time use The battery must be charged prior to using it for the first time because itis delivered with an energy content as low as possible For new batteries or batteries that have been stored for a long time gt three months it is effectual to make only one charge discharge cycle The permissible temperature range for charging is between 0 C to 40 C 32 F to 104 F For
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