Operators Manual
Contents
1. 10s 0 0 60 0 55 After the 10 second delay the magnet will begin to operate Also the amber light and siren will switch off and be replaced by a red light giving warning of radiation on JME PORTABLE 6 MeVM X RAY BETATRON Page 19 Operating Manual Section 6 During the first 3 seconds of exposure the magnet voltage is still increasing and no radiation is being produced Then the microprocessor will begin to search for an optimum set of parameters for Betatron operation During this time the output radiation Rp will vary The time taken to find the optimum settings depends on many factors the most important being whether or not the internal ROM is enabled by default it is enabled and whether the Betatron has been recently tuned for it s current energy and dose rate settings If these conditions are true the searching will take only 2 3 seconds this will be the mode most frequently observed by the operator However if these conditions are not met the microprocessor may take up to a minute to find a new set of optimum parameters Once the optimum point has been found the microprocessor then enters a tracking mode to maintain the highest output It should be noted that the microprocessor may revert back to a course scan of settings resulting in a drop in output radiation if there are great fluctuations in mains power or if a different supply voltage is being used The microprocessor can also be manual switche2. 15s This message is displayed after pressing the START key It lasts for 15 seconds and is used to give a warning before radiation emission 6 15 4 Door interlock This message appears in the following circumstances a the INTERLOCK terminals on the Power Unit are not closed e g a connected interlock circuit is not safe b the INTERLOCK terminals on the Audio Visual Warning unit are not closed c the emergency stop button X RAY STOP on the Power Unit has been pressed d the emergency stop button on the Control Panel has been pressed e the Audio Visual Warning Unit has detected that one of it s beacons is not functioning correctly In cases a and b it is necessary to check the interlocks or to close the terminals by a wire link In case d the Emergency Stop button should be pressed again to return it to its raised position In case e the faulty beacon will be indicated by an adjacent red LED being illuminated This beacon may need replacing To clear the error message from the screen clear the fault situation as described above and then press the STOP button Please note that to clear an error caused by a fault on the Audio Visual unit it is necessary to turn the circuit breaker OFF followed by the MAINS key switch The system should then be left for 10 seconds before switching the MAINS key switch back on followed by the circuit breaker 3 4 seconds later 6 15 5 Power off This message indi
3. HAZARDOUS SITUATIONS THIS SYMBOL MEANS ELECTRICAL HAZARD OBSERVE INSTRUCTIONS THE PXB 6 M WORKS WITH POTENTIALLY DANGEROUS VOLTAGES UNDER NO CIRCUMSTANCES SHOULD ANY UNAUTHORISED PERSON ATTEMPT TO REMOVE ANY OF THE EQUIPMENT COVERS TO CARRY OUT MAINTENANCE OR REPAIR THE PXB 6 M IS TO BE RETURNED TO JME LTD AS THE AUTHORISED SERVICE COMPANY THIS SYMBOL MEANS RADIATION HAZARD YOUR SAFETY AND THAT OF OTHERS IS INVOLVED THE PXB 6M IS ONLY TO BE OPERATED BY AUTHORISED RADIATION WORKERS IN ACCORDANCE WITH YOUR COMPANY GUIDELINES THIS SYMBOL MEANS LASER HAZARD PLEASE REFER TO INSTRUCTIONS AND SAFETY INFORMATION IN SECTION 1 18 See also section 5 Safety Requirements before use JME PORTABLE 6 MeVM X RAY BETATRON Page 4 Operating Manual Section 1 7 EEEN SAFETY WARNING A THIS EQUIPMENT SHALL ONLY BE USED BY QUALIFIED INDUSTRIAL RADIOGRAPHERS WHO HAVE HAD TRAINING IN ITS SAFE USE JME Ltd PXB 6 portable x ray Betatron systems emit high levels of x ray radiation during radiographic exposure sequences An energized Betatron at close range can cause serious injury sickness or possibly death to anyone who is exposed to it unintentionally A Betatrons x ray accelerator containing the x ray tube must NOT be touched by hand under any circumstances whenever energized Since x ray and gamma radiation cannot be detected by the normal human senses strict procedures must be followed and proper use made of radia
4. X RAY BETATRON Page 29 Operating Manual Section 10 Charts and Diagrams 10 1 Dose rate distribution in the Horizontal plane Percentage of dose rate T target 10 5 5 5 JME PORTABLE 6 MeVM X RAY BETATRON Page 30 Operating Manual Section 10 10 2 Dose rate distribution in the Vertical plane Percentage of dose rate T target JME PORTABLE 6 MeV M X RAY BETATRON Page 31 Operating Manual Section 10 10 3 Exposure chart for Concrete 300 E 6 MeV a99 Dose rate 3 R m min Focal distance 1 25 m Density 2 5 100 80 60 50 lt 2 40 WS ar oE E pS E 20 oe A 2 pS 8 6 5 4 3 2 200 300 400 500 600 700 Concrete thickness mm JME PORTABLE 6 MeVM X RAY BETATRON Page 32 Operating Manual Section 10 10 4 Exposure chart for Steel 300 E 6 MeV 200 Dose rate 3 R m min Focal distance 1m Density 2 5 100 80 60 50 40 a 20 e777 as E se p Z o 10 a Q 8 6 5 4 3 50 100 150 200 Steel thickness mm JME PORTABLE 6 MeVM X RAY BETATRON Operating Manual 11 1 11 2 11 3 11 4 11 5 11 6 11 7 11 8 11 9 Technical data Peak energy of accelerated electrons not less than MeV Adjustment range of the energy of accelerated electrons with a step of 0 5 MeV X Ray dose rate at peak energy and at m distance from a target at frequency 200Hz not less than R min Focal spot dimensions mm Power consumption from AC mains at frequency 50 60
5. have read and understand the requirements of this operator s manual or by trained assistants working under direct supervision AA 1 1 7 A Betatron containing the x ray source must NOT be touched by hand under any circumstances whenever energised AA 1 1 8 JME Ltd PXB Portable Betatron systems emit high levels of x ray radiation during exposure sequences JME PORTABLE 6 MeVM X RAY BETATRON Page ri Operating Manual Section 1 1 2 Electrical Safety A 1 2 1 Some Betatron circuits contain voltages in excess of 1 kV and contain potentially dangerous components such as large capacitors which could retain a charge for several hours after switching off For safety reasons and to avoid the possibility of inadvertent component damage outer casings of modules should therefore NOT be removed except by fully trained experienced and authorised service engineers AA 1 2 2 To avoid damage to conductor wires and termination s interconnection cables should always be treated carefully They must not be twisted knotted crossed by vehicles placed over sharp edges or be allowed to hang unsupported Use supporting boards and or rope slings to protect cables in such circumstances A 1 2 3 In particular ensure that the heavy HT cable between Power Converter and accelerator is fully uncoiled before use Where possible avoid crossing the heavy HT cable and the thinner signal cable Where this is not possible ensure that the cable
6. pre set value After this message the Betatron will continue working but a sound signal is emitted This message may appear and disappear periodically The operator should check the injection current I reading and dose rate Rp and then switch off the Betatron If both the dose rate and injection current differ slightly from the rated values the operator will have to extend the upper limit of the filament voltage This adjustment is made manually with radiation switched off This procedure is described in 6 16 If both dose rate and injection current are low there may be a fault in the filament power supply circuitry or in the high voltage pulse generating injection system In this case it will be necessary to trace the fault JME PORTABLE 6 MeVM X RAY BETATRON Page 22 Operating Manual Section 6 6 15 11 High filament This message means that the injection current is exceeding its preset value and the processor cannot decrease it because it has already reached the lower limit of the adjustment range The Betatron will go on working but its operation will be accompanied by a sound signal In this case the operator s actions should be similar to those in 6 15 10 The message High filament may indicate a fault in the filament voltage regulator circuit that results in high voltage at the output for instance transistor V5 short circuit If the injection current is at or close to its preset value then the adjustment range will nee
7. AINS key switch on After approximately 3 4 seconds turn the circuit breaker ON Then return to the control panel and turn the key switch to the ENABLE position After all these stages have been followed the Control Panel will illuminate as will the power indicator lights on the power unit Also all fans within the power unit and radiator will operate After a few seconds the Control Panel will display the following D Dg T s 999 9 9 99 9999 0 00 6 0 0 55 Rp E hA JME PORTABLE 6 MeVM X RAY BETATRON Page 18 Operating Manual Section 6 A 6 8 Following transportation and after following the above switching on procedure the operator should check that all of the cooling fans fitted inside the power unit and radiator are operating correctly This can be achieved by listening to the units and by checking air flow through their vents 6 9 If an automatic termination of the exposure is required once some dose or exposure time is reached the operator needs to input the required data using the keypad To begin inputting the data the operator must first ensure that the keypad is enabled by turning the safety key to Enable and then press the parameter selection button P This displays a lt sign next to the parameter D Further presses of the P button scroll between the D Dg and T settings These symbols refer to Internal Dose External Dose and Time Once the lt sign is next to the parameter
8. E PORTABLE 6 MeVM X RAY BETATRON Page 36 Operating Manual Section 12 Disclaimer This manual or any part thereof may not be reproduced stored or transmitted in any media in any form including but not limited to electronic photocopying mechanical copying electrostatic copying recording or other means without express written permission from JME Ltd This manual is provided only to assist the reader in the use and maintenance of the equipment and although the information contained in this manual and literature provided with the equipment is given in good faith JME Ltd does not warrant the accuracy of that information and accepts no responsibility or liability for any loss or damage arising from the use of any information provided or omitted In any event JME Ltd accepts no liability for any consequence loss or damage arising from the use of failure of the equipment or any information provided including but not limited to economic or financial loss damage to peripheral equipment or products loss of use productivity or time In line with a policy of continuing product development JME Ltd reserve the right to vary the design or specification of this equipment without prior notice or warning
9. Hz voltage 220 V 110 V with permitted deviations from a nominal value 10 not more than kW The Betatron continuous operation should not exceed 10 hours per day with duty cycle of 100 20 degrees C Dimensions of Betatron units mm radiator power unit control panel remote dosimeter Weight of Betatron units kg radiator power unit control panel remote dosimeter Connecting cables m control panel power unit 1 cable radiator power unit 2 cables remote dosimeter power unit 1 cable mains power unit 1 cable Page 33 Section 11 2 6 MeV 3 4 3 4c Gy min 0 2 x 1 0 1 8 700x430x330 590x360x390 130x200x35 70x53x26 90 55 1 0 3 29 8 15 5 JME PORTABLE 6 MeVM X RAY BETATRON Page 34 Operating Manual Section 11 Betatron focal spot location 2 j N SS AAF S N S Pa R target radius Target Poke a i _ Anode rs N Electron track during expansion e View A Focal spot Target material tantalum T thickness 0 6mm arget AA Cathode Anode R Focal spot mm dimension Medium plane A of accerelator PXB 6 74 5 1 0 2 x 1 0 JME PORTABLE 6 MeV M X RAY BETATRON Operating Manual Rev Number Document Amendment Record Comments Signed Page 35 Section 12 Date Issue 1 rev1 Documents amendment record added 15 05 07 JM
10. JME PORTABLE 6 MeVM X RAY BETATRON Page 1 Operating Manual Section 1 JME Portable 6 MeV X RAY BETATRON Microprocessor model PXB 6 M For Radiographic Non Destructive Testing Operating Manual This is an uncontrolled document No amendments will be issued JME PORTABLE 6 MeV M X RAY BETATRON Page 2 Operating Manual Section 1 Contents 1 Safety Precautions 1 1 Radiation Safety 1 2 Electrical safety 1 3 Physical protection 1 4 Laser safety precautions 1 5 Other precautions 2 Introduction 2 Basic Description 3 Equipment Modules and Components 3 1 System components 4 Assembly and Installation 5 Requirements Before Use 6 Preparation for operation 6 15 Error Messages 6 16 Setting optimum injection current 6 17 Replacement of HV injection unit 7 Instructions for X raying 8 Technical Maintenance 9 Guidelines for Storage and Transportation 10 Charts and Diagrams 10 1 Dose rate distribution vertical plane 10 2 Dose rate distribution horizontal plane 10 3 Exposure chart for steel 10 4 Exposure chart for concrete 11 Technical Specification 11 1 Betatron focal spot location 12 Disclaimer JME PORTABLE 6 MeV M X RAY BETATRON Page 3 Operating Manual Section 1 The following symbols are used throughout this manual to indicate where special safety precautions must be observed A A THIS SYMBOL MEANS BE ALERT YOUR SAFETY IS INVOLVED EXERCISE GREAT CARE AND FOLLOW THE ADVICE GIVEN TO AVOID POTENTIALLY
11. ON Page 17 Operating Manual Section 6 Preparation for operation 6 1 After the Betatron has been transported and before operation the units condition should be verified by a visual inspection A 6 2 The Betatron radiator should be loaded onto a suitable support or manipulating rig and all other modules should be connected by the flexible cables Do not connect to mains supply at this point A 6 3 Ensure that the circuit breaker and MAINS key switch found on the power unit are set to the OFF position A 6 4 Connect all necessary external interlock circuits to the INTERLOCK binding posts on either the power unit or Audio Visual warning unit These circuits should form a closed loop between the interlock posts when all interlocks are in the safe position e g doors closed If additional interlock devices are not to be connected the interlock terminals should be connected together using the supplied wire links Connect the components together using the cables provided Ensure that the mains supply to the Betatron is protected by a suitably rated RCD 6 5 Ensure that the Emergency Stop push button on the control panel is in the raised position 6 6 Connect the remote dosimeter to the power unit if required Connect the control panel to the power unit Connect the radiator to the power unit Connect the AV unit to the power unit if required A 6 7 Connect the mains cable to a suitable supply and switch the M
12. and Installation A 4 0 All Betatron modules are interconnected via flexible cables The socket that each cable connects to is clearly marked on the module See note on previous page about high voltage cables A 4 1 The Betatron has an earth leakage current of approx 7mA and must be installed by a qualified electrician to a suitably rated supply A 4 2 Due to the fact that dangerous x ray radiation is produced when the system is running special precautions should be taken to avoid exposing personnel to this radiation Where possible the radiator or accelerator should be deployed in a specially designed and approved radiography bay to provide radiation protection Where the system is to be used in an on site situation the entire area where dangerous radiation is present should be clearly marked and all possible measures to restrict unauthorized access to that area should be taken JME PORTABLE 6 MeVM X RAY BETATRON Page 15 Operating Manual Section 5 Requirements before Use 5 0 Ensure keys are removed from the control panel and the power unit before connecting any cables The operator should keep control of the keys at all times The control panel ENABLE key MUST be removed when unattended and after every exposure The operator should check that the mains supply to the Betatron is protected by a suitable RCD A 5 1 The Betatron should only be operated in accordance with national and local rules and regulations f
13. cates that a large current has been consumed by the magnet from the filter capacitors This message causes the Control Panel to give an audible tone To stop the sound the operator has to press STOP and should then check if the circuit breaker on the power unit is still switched on Either way the operator should turn the circuit breaker OFF followed by the MAINS key switch The system should then be left for 30 seconds before switching the MAINS key switch back on followed by the circuit breaker 3 4 seconds later If the situation reoccurs a fault may have developed JME PORTABLE 6 MeVM X RAY BETATRON Page 21 Operating Manual Section 6 6 15 6 Console power This message means that one of d c supply voltages either 100V 12V or 12V is not present To clear the error message from the screen and to stop the sounder press the STOP button The operator should turn the circuit breaker OFF followed by the MAINS key switch The system should then be left for 30 seconds before switching the MAINS key switch back on followed by the circuit breaker 3 4 seconds later If the situation reoccurs a fault may have developed 6 15 7 Overvoltage This message is displayed if during operation the magnet voltage exceeds its nominal value by more than 5 To clear the error message from the screen and to stop the sounder press the STOP button The operator should turn the circuit breaker OFF followed by the MAINS key switch The syste
14. d back into course scan mode by holding the SCAN button until the output radiation drops This may be useful if the operator is aware that the Betatron can produce greater output than it is currently producing but the machine has tuned to a local maximum 6 12 Injection current Ir is controlled by the microprocessor and is displayed on the Control Panel The value of the optimum injection current will have been recorded by JME Ltd and should not normally need adjustment If adjustment is necessary this is performed using the INJ CURRENT potentiometer mounted on the Control Panel If the adjustment range is insufficient an error message will be displayed see section 6 15 After any adjustment to injection current it is advisable to press the SCAN button to commence a new search for optimum settings It should be noted that during operation the values of the injection current and the dose rate may vary but these variations should not be too great Great deviations may indicate that a fault has developed 6 13 If a parameter has been set to automatically terminate the exposure and this parameter is met radiation will cease and the Control Panel will generate a pulsing sound signal To stop this sounder press the STOP button 6 14 During short periods when radiation is not required the system should be left switched ON This allows the cooling fans to continue to operate For longer periods above 1 2 hours the circuit breaker shou
15. d to be tuned as it is described in section 6 16 6 15 12 If injection current is much greater than its preset value there may be a fault in the filament circuit JME PORTABLE 6 MeVM X RAY BETATRON Page 23 Operating Manual Section 6 6 16 Setting the optimum injection current and tuning the injection current adjustment range 6 16 1 Injection current is said to be optimized when it provides the capture of the greatest amount of injected electrons and consequently gives a peak dose rate During prolonged operation the optimum current can vary slightly If this results in a reduction in dose rate the operator should try and adjust the injection current 6 16 2 To adjust the injection current the operator must switch on the Betatron initiate an exposure and allow the Betatron to operate for 2 3 minutes observe the injection current and peak dose rate increase the injection current by 1 or 2 units by turning the INJ CURRENT potentiometer on the Control Panel clockwise and observe the new dose rate after 30 40 seconds if this adjustment gives a drop in dose rate the INJ CURRENT potentiometer should be returned to its original position and the test should be repeated by decreasing the injection current by turning anti clockwise 6 16 3 To eliminate the possibility of cathode failure the filament voltage range achievable by the microprocessor is limited However during operation of the system the emissivity properties of
16. e beam many times and can result in damage to the retina DO NOT STARE DIRECTLY AT THE BEAM DO NOT ATTEMPT TO VIEW THE BEAM A WITH ANY OPTICAL INSTRUMENTS A BEWARE OF REFLECTED LASER RADIATION FROM REFLECTIVE SURFACES 1 4 3 The Laser Alignment Device should be attached to the Betatron Accelerator by the bracket that is mounted directly over the emission window A 1 4 4 Ensure that no personnel are in a position where their eyes may be exposed to the laser beam Keep in mind that the laser beam will be emitted directly out of the emission aperture and may be reflected by shiny surfaces 1 4 5 The device should be switched on using the ON OFF toggle switch and the push button pressed once This will enable the laser diode The beam of red light indicates the where the X ray radiation beam will fall when an exposure is initiated Adjust the Accelerator and x ray film to their appropriate position 1 4 6 The laser has an on board timer and will automatically switch off after 60 seconds To reactivate the beam press the push button once more 1 4 7 When the Accelerator is correctly aligned the Laser Alignment Device should be switched off using the ON OFF toggle switch and must be removed from the Accelerator JME PORTABLE 6 MeVM X RAY BETATRON Page 9 Operating Manual Section 1 1 5 Other precautions A 1 5 1 When Betatron modules or cables require lifting to a high working position place them inside a suitab
17. er hrs Mains key Switch Current trip Interlock Posts Control Panel Emergency stop i Button Display LCD este a A Ta ae eee E Control buttons X ray enable key switch 6 MeV BETATRON JME LTD LOWESTOFT UK CONTROL PANEL TEL 44 0 1502 500969 JME PORTABLE 6 MeV M X RAY BETATRON Page 12 Operating Manual Section 2 Remote Dosimeter Radiation alarm Audio Visual Warning Unit Laser Alignment Unit A 2 1 3 The Betatron draws electrical power from either a 110 volt or 220 volt nominal single phase AC mains supply or an adequately rated portable generator A 2 1 4 Supply frequency is either 50 Hz European Standard or 60Hz American Standard A 2 1 5 The Power Unit conveys pulses of electrical energy to an electromagnet within the Accelerator Radiator and sends monitoring signals to the Control Panel located safely outside the radiation zone 2 1 6 The radiation dose accumulated by an X Ray film or sensor placed behind the object being examined may be measured by the Remote Dosimeter and displayed on the Control Panel By this means exposures may be terminated automatically as soon as the correct pre set dose has been received for the particular film intensifying screen combination being used and the film density required A 2 1 7 Audible and visible warning signals are provided by the Audio Visual Warning Unit which must be used In addition existing interlock switches and warni
18. ied out 7 2 The PXB 6 M is recommended for the radiographic testing of welded joints and castings of steel having a thickness in the range of 50 200mm Also structures built of concrete and other materials having a thickness in the range of 200 900mm The maximum limit of material thickness is influenced by exposure time and is up to 300mm for steel or 1200mm for concrete 7 3 The penetrability of radiation is characterized by a half value thickness of material The half value thickness depends upon the material being inspected Average values for the PXB 6 is 28mm for steel 100mm for aluminium and its alloys and 102mm for concrete of density 2 35 t m 7 4 An important characteristic of the radiation source is the size of the radiation field This property is defined by both the physical interaction between electrons and target material and by design elements of the Betatron For the PXB 6 M the radiation field size is equal to 240mm x 250mm at a distance of 1m The PXB 6 M has no need for equalization filters 7 5 During radiography of materials and products with the Betatron the main radiographic parameters sensitivity and efficiency are defined by sensitivity and contrast of X ray films and the type of intensifying screens used These screens improve image quality by attenuating back scattered radiation Metal screens are made out of heavy metals Pb W Ta etc Their intensifying action depends on thickness of front and rear
19. in an appropriate storeroom 9 2 The storeroom personnel should take measures to eliminate the possibility of fire 9 3 The system can be stored in a storeroom with an ambient temperature in the range of 20 C to 40 C for up to 2 years After this 2 year period stored exposure parameters may be lost due to discharging of the memory back up battery 9 4 Minor blemishes on the protective coating of the units such as scratches and minor paint chips can be repaired using a suitable paint When transporting the system the following rules should be followed gt 9 5 The system should only be transported when fully packed in its transit cases gt 6 During carrying loading and transportation all warning notices and guidelines isplayed on the transit cases should be followed a gt 9 7 Great care should be taken when carrying and loading cases to eliminate the risk of damaging the equipment and to prevent personal injury gt 9 8 During transportation the cases should be properly secured so as to eliminate the risk of falls and shocks 9 9 The system can be transported a by rail water and air in closed vans or containers b by road in a car or van with an closed or open body in the latter case the cases should be covered with tarpaulin gt 9 10 The system should not be transported together with corrosive substances such as acids or alkalis nor with inflammable substances JME PORTABLE 6 MeVM
20. l cables c Check for satisfactory operation of cooling fans Once every six months a Remove the upper half of the radiator and check the condition of the tube transformer fixings and all wires b Check that the tube transformer has not leaked any oil c Clean all internal spaces preferably by blowing away dust and dirt with an air line d check the state of the central insert spacers e Remove the large side covers of the Power Unit and check that all components are secure All internal spaces should be cleaned preferably by blowing away dust and dirt with an air line or vacuum cleaner 8 3 After any operation in a dusty environment e g at a building site the Betatron should be cleaned with a vacuum cleaner and wiped by clean dry and soft cloth In the case of rain or snow at the operating site the Betatron should be used only under cover A 8 4 In the event of a fuse blowing the operator can change the fuse fuses situated on the outside of the units under no circumstances must ANY panels be removed by unauthorized unqualified personnel In the event of the fuse fuses blowing again after replacement please inform maintenance as a fault may have occurred JME PORTABLE 6 MeVM X RAY BETATRON Page 28 Operating Manual Section 9 Guidelines for storage and transportation When storing the system the following rules should be observed A 9 1 The system should be packed in its transit cases and kept
21. ld be turned OFF followed by the MAINS key switch It is also advisable to disconnect the mains supply The ENABLE key on the control panel MUST be removed and secured after every exposure and when the control unit is unattended During operation of the Betatron unforeseen circumstances and faults may arise that cause the microprocessor to terminate the exposure prematurely When this occurs the Control Panel will display a relevant error message and emit a constant tone JME PORTABLE 6 MeVM X RAY BETATRON Page 20 Operating Manual Section 6 6 15 List of error messages and the required action 6 15 1 Link is absent and Waiting for link During first 6 sec after mains switch on these messages indicate that the system is being set for operation If this message remains after 6 sec it means that there is no data link between the microprocessors of the power supply unit and of the Control Panel In this case the operator should first of all check all cable connections are correct and secure Another possible reason is software malfunction where it is suggested to switch off mains supply for a short time 20 30 sec then switch back on again If these actions do not clear the error a fault may have developed 6 15 2 Key off This message indicates that the safety key switch on the Control Panel is not switched to enable The message disappears when the safety key switch is in the Enable position 6 15 3 Delay time
22. le carrying container with its own lifting attachments Slings should only be connected to equipment as shown below The Accelerator may be lifted by placing lifting strops around the stepped ends of the case as shown below Do not lift from the black positioning end supports See picture below A 1 5 2 To avoid injury to fingers while carrying the Accelerator or lifting it into its storage box make sure that both adjustment knobs at each end of position stand are tightened so that no rotation of the accelerator can occur 1 5 3 Lifting Note the Accelerator and Power Converter weigh more than can be safely lifted by one person Apply appropriate mechanical lifting procedures as shown below JME PORTABLE 6 MeVM X RAY BETATRON Page 10 Operating Manual Section 2 Introduction 2 1 Basic Description 2 1 1 The JME PXB 6 M Portable X Ray Betatron is a compact system designed to produce the high energy radiation necessary for radiographic inspection of objects and structures composed of thick and or dense materials 2 1 2 The Betatron system comprises of three principle and three ancillary modules linked by flexible interconnecting cables as follows X ray Accelerator Radiator Detachable positioning Stand X Ray window amp integral dosimeter Laser alignment unit Air circulation fans JME PORTABLE 6 MeVM X RAY BETATRON Page 11 Operating Manual Section 2 Power Unit 5v DC operating time Indicator Count
23. m should then be left for 30 seconds before switching the MAINS key switch back on followed by the circuit breaker 3 4 seconds later If the situation reoccurs a fault may have developed A 6 15 8 Overheat R Overheat D Overheat T These messages are displayed if the temperature of any of the 3 thermal sensors mounted throughout the machine exceeds a set level Radiator Diode or Thyristor respectively Pressing the STOP button will stop the sound signal but the message will remain until temperature drops below the critical level A new exposure can only be initiated after the Overheat message has disappeared 6 15 9 Faulty monitor After pressing the START button during the pre warning delay the processor tests the internal and external dosimeters by measuring its output voltage while no radiation is present This voltage is to be within certain limits if it is not the processor yields the above message and gives a sound signal Pressing the STOP button clears the message and stops the sound signal After this it is necessary to attempt another exposure If the dosimeter is still giving the same voltage reading the microprocessor will re calibrate itself and the Betatron can continue to be operated 6 15 10 Low filament This message means that the processor has achieved its upper limit of the filament voltage adjustment and cannot overcome it without the injection current exceeding its
24. min For the inspection of unlisted materials the required exposure can be determined by experimentation 7 10 When operating with a remote dosimeter the operator has to know the required radiation dose to give a set optical density High accuracy in the setting of the required dose under specific conditions can be achieved using test exposures A list of required doses to give a certain density is shown in the list below Table 1 Required doses and associated optical density for D7 Agfa Geveart film type Exposure dose Optical density of images Calibration conditions R rel units 1 4 1 5 Cassette loading order 2 25 2 0 0 5mm Pb film 1 0mm Pb 2 8 25 Inspected piece flat steel plate 80mm thick 3 5 3 0 Developer D19 Kodak Fixer Kodak unifix Table 2 Required relative doses in comparison with D7 film under the similar conditions Film type D4 MX5 AX CX PT 1 PT 4M Dose coefficient 2 65 2 8 1 25 0 57 0 53 1 6 relative to D7 7 11 When testing steel items thicker than 100mm and when large reflective surfaces e g walls are present behind the film cassette the remote dosimeter should be used with its Imm thick Pb screen in place Page 25 Section 7 JME PORTABLE 6 MeVM X RAY BETATRON Page 26 Operating Manual Section 7 A 7 12 If the required exposure time exceeds 60 minutes then it is necessary to switch off radiation after 45 minutes of opera
25. ng devices may be connected directly to the Interlock socket on the Power Unit or Audio Visual Unit A A simple Laser Alignment Device is included and should be used for setting up procedures only it should not be used during normal radiographic procedures See Laser Safety in section 2 4 JME PORTABLE 6 MeVM X RAY BETATRON Page 13 Operating Manual Section 3 Equipment modules and components 3 1 Betatron system components The PXB 6 M Portable X Ray Betatron system comprises the following modules cables and ancillaries X Ray Accelerator Radiator Unit with integral output dose rate dosimeter air circulation fans detachable positioning stand and laser alignment device Power Unit with integral cooling fans Control Panel with x ray enable key Remote film side dosimeter with lead back scatter shield for automatic exposure control Audio Visual Warning Unit with integral connecting cable High voltage cable Power unit to accelerator Accelerator control cable Power unit to accelerator Main control cable mounted on cable reel Power unit to Control Panel Mains cable Power unit to AC supply Dosimeter cable Power unit to remote dosimeter Spares Kit Operators manual 1 set of 3 transit cases AX The high voltage cable accelerator control cable and mains cable carry dangerous voltages when the system is operational JME PORTABLE 6 MeVM X RAY BETATRON Page 14 Operating Manual Section 4 Assembly
26. ompetent and experienced personnel who ensure that nobody could become inadvertently exposed to radiation levels in excess of prescribed limits JME PORTABLE 6 MeVM X RAY BETATRON Page 6 Operating Manual Section 1 AA 1 1 5 When the Betatron is not in use both the MAINS key on the power Unit and the X Ray Enable key on the Control Panel must be removed and placed in secure storage under the control of a designated competent person The manufacturer cannot accept any responsibility for the consequences of non compliance with appropriate or recommended procedures AA 1 1 6 Since x ray radiation cannot be detected by the normal human senses strict procedures must be followed and proper use made of radiation survey meters to avoid and prevent dangerous levels of exposure It is recommended that a suitable calibrated survey meter is used to establish safe boundary conditions for a given set of operating conditions This should be done by approaching from a safe distance towards the radiation area whilst using a survey meter Never assume an area is safe after timed radiographic exposure always perform a survey to ensure the x ray generator has de energized to comply with federal and provincial regulations It is very important and required by regulations to prevent access by unauthorised persons to the control units and the keys which allow them to be activated The systems must be operated only by properly trained qualified operators who
27. onnel likely to be near the radiation controlled area before using the Betatron JME PORTABLE 6 MeVM X RAY BETATRON Page 5 Operating Manual Section 1 Safety Precautions A THIS EQUIPMENT SHALL ONLY BE USED BY QUALIFIED PERSONNEL WHO HAVE HAD TRAINING IN ITS SAFE USE 1 1 Radiation Safety AA 1 1 0 An energized x ray tube in the Betatron can cause serious injury sickness or possibly death to anyone who is exposed to it unintentionally A 1 1 1 The JME PXB 6 M Portable X Ray Betatron is designed to produce high energy ionising radiation for industrial radiographic non destructive testing Because such radiation is potentially harmful to living tissue no attempt should be made to use or operate the Betatron unless and until appropriate safety precautions have been taken to ensure no possible danger to personnel AA 1 1 2 Radiation can only be emitted when the three major modules Accelerator Power Unit and Control Panel have been properly interconnected supplied with external electrical power and the safety interlock circuit is correctly enabled Otherwise the Betatron is completely inert and cannot emit X Rays A 1 1 3 X rays cannot be produced while the Safety key on the front of the Control Panel is removed or in the DISABLE position thereby disabling the electron injection circuit A 1 1 4 The Betatron may only be operated in accordance with applicable Ionising Radiation and Public Health Regulations and by c
28. or x ray sources having a peak photon energy of 6MeV A 5 2 The operator should be positioned to be as far away as possible from the accelerator in the opposite direction to the direction of radiation emission Also adequate protective screens should be employed A 5 3 The diagrams of dose rate distribution around the radiator in both the horizontal and vertical planes are shown in diagrams 10 1 and 10 2 5 4 The thickness of any protective screens will need to be calculated for every different case depending on required attenuation screen material and position A 5 5 During Betatron operation adequate ventilation must be provided around the Accelerator and Power Unit and any radiographic bay used must be properly ventilated A 5 6 Before Betatron operation begins the operator should ensure that there is nobody in the radiographic bay or in the designated danger area A 5 7 During Betatron operation all personnel are prohibited from entering the radiographic bay or designated danger area JME PORTABLE 6 MeVM X RAY BETATRON Page 16 Operating Manual Section 5 A 5 8 All staff engaged in Betatron operation and maintenance should have personal dosimeters A 5 9 The Betatron generates very high voltages during operation As such all staff should be governed by safety requirements for operating and maintaining high voltage equipment See also Section 1 Safety Precautions JME PORTABLE 6 MeVM X RAY BETATR
29. s cross at 90 1 3 Physical Protection A 1 3 1 Although strongly constructed of durable materials to withstand normal use at both indoor and outdoor radiographic inspection sites the Betatron contains components which could suffer damage or deterioration if subjected to incorrect operation misuse careless handling or unprotected exposure to adverse environmental conditions A 1 3 2 All Betatron modules and components should be stored transported and operated in reasonably clean and dry conditions In particular all equipment should be protected from ingress by moisture dirt or extraneous material without impeding air circulation to ventilation apertures while the Accelerator and Power Unit are switched on JME PORTABLE 6 MeVM X RAY BETATRON Page 8 Operating Manual Section 1 1 4 Laser safety precautions A 1 4 1 The Laser Alignment Device contains a laser diode lens and associated driver circuitry and is a Class 2 laser product The output power of the laser diode is typically 0 8mW at a wavelength of 635nm and is set in accordance with British Standard BS EN 60825 As such the laser emits an intense beam of focused red light A 1 4 2 Intense monochromatic light such as that produced by the Laser Alignment Device can present biological hazards The most vulnerable organ is the eye as it will tend to focus the light from the laser directly on the retina This focusing action increases the energy density of th
30. screens radiation energy and surface roughness among other factors 7 6 Under normal circumstances Pb screens are used with a thickness of 0 5mm and Imm The film cassette should be loaded such that the 0 5mm screen is in front of the film the Imm screen behind Using these screening materials is recommended for initial testing However with experimentation the operator may find other materials of a different thickness may be used to obtain optimal intensification and sensitivity 7 7 Fluorescent screens allow exposure time reduction although their scattering properties and graininess may reduce the definition of the resulting film Metal screens are often used in combination with fluorescent screens to decrease the effect of scattered radiation JME PORTABLE 6 MeVM X RAY BETATRON Operating Manual 7 8 When inspecting a critical construction it is recommended to use a small grain x ray film Recommended films include D4 Belgium F and J4200 Japan Kodak MX 5 Great Britain and PT 4M Russia However certain situations may require more sensitive films such as D7 Belgium Kodak AX5 CX Great Britain and PT 1 Russia All films should be loaded into cassettes with metal intensifying screens 7 9 Radiation exposure can be controlled using either the built in timer or a remote dosimeter For timed control exposure charts are used see 10 3 and 10 4 These charts assume a peak electron energy of 6MeV and a dose rate of 3R
31. that is required to terminate the exposure the operator should use the and keys to set that required parameter Momentarily pressing the or button will adjust the parameter by one unit at a time By holding the buttons down the parameter will adjust more quickly Please note that the parameters can only be set while the Betatron is not radiating In order for a particular parameter to automatically terminate the exposure it must he enabled To do this select the appropriate parameter with the P key although it may already selected and then pres SET The lt symbol will change to a J Now when the exposure is started the display will show the preset value every 4 to 5 seconds and at all other times show the running value 6 10 If it is necessary to change the electron energy use the E R key to select the E parameter and adjust it to the desired level It is not necessary to press the SET key Also the maximum dose rate rate of output radiation that the microprocessor will tune to can be set by adjusting the Rp parameter This is also selected by the E R button and adjusted in the same way as the electron energy A 6 11 Press START after completion of all the above set up operations The Audio Visual Warning Unit s amber light and siren will operate giving warning of imminent radiation This warning will last for 10 seconds and the Control Panel will display a countdown like this DELAY TIME
32. the cathode may vary and the processor adjustment range may be inadequate The range may also be inadequate if the accelerating tube has been replaced When the microprocessor has reached either it s upper or lower limit of adjustment the Control Panel will display the messages Low Filament or High Filament If this occurs the microprocessor adjustment range will need to be adjusted using the potentiometer mounted on the filament control PCB mounted inside the power unit A AX This adjustment should be made as follows The Betatron should be switched off and disconnected from the mains supply The Power Unit s side panel on the side with the MAINS switch should be removed If the Control Panel read Low Filament the operator should turn the resistor clockwise by 3 4 revolutions Ifthe Control Panel read High Filament the operator should turn the resistor anti clockwise by 3 4 revolutions The side panel should be replaced and Betatron operation should be re tested JME PORTABLE 6 MeVM X RAY BETATRON Page 24 Operating Manual Section 7 Instructions for X raying AA 7 1 The use of the PXB 6 M Betatron for non destructive testing should be performed in accordance with all relevant rules and regulations and following all approved methods for the use of charged particle accelerators There may also be additional regulations in place specific to the particular type of inspection being carr
33. tion for an interval of 15 minutes During this off period the mains should be left switched on so that the cooling fans can continue to operate 7 13 Quality standards indicators should be placed on the material to be tested on the side directed toward the radiation source Wire standards should be placed directly adjacent to the weld at 90 to the weld Grooved standards are placed adjacent to the weld and should be parallel to the weld Plate standards are placed adjacent to the weld the standard directed along the weld or on the weld itself with the standard directed across the weld Sensitivity depends on a great number of factors energy focal spot thickness and shape of the material film type intensifying screens focal distance and operator experience JME PORTABLE 6 MeVM X RAY BETATRON Page Er Operating Manual Section 8 Technical Maintenance A 8 0 After Betatron unpacking the operator should check that all Betatron units are appear in good order and should set up and switch on the machine as per the instructions in section 6 AA 8 1 When connecting the Betatron units together do not pull the cables by the connectors Take care when connecting connectors Do not let dust dirt and moisture enter the connectors 8 2 Under normal circumstances a maintenance routine would consist of Once a week a Check bolts and fastenings that hold both halves of the radiator together b Check for satisfactory connection of al
34. tion survey meters to avoid and prevent dangerous levels of exposure It is recommended that a suitable calibrated survey meter is used to establish safe boundary conditions for a given set of operating conditions pipe wall thickness MeV setting etc This should be done by approaching from a known safe distance towards the radiation area whilst using the survey meter Never assume an area or the pipeline is safe after a timed radiographic exposure always perform a survey to ensure the x ray accelerator has de energized to comply with federal and provincial regulations All work site radiographers should use an audible alarm rate meters set to alarm at 5 mSv hr 500 mR hr as an additional safety precaution It is very important and required by regulations to prevent access by unauthorized persons to the betatrons control units and the keys which allow them to be activated The systems must be operated only by properly trained qualified radiographers who have read and understand the requirements of this Operator s Manual or by trained assistants working under their direct supervision In Canada it is mandatory to have an audio visual alarm system A JME audio visual alarm is provided as part of the system and must be used In other countries it is provided as an optional accessory with the advice that it is recommended as a safety feature The alarm comes with an instruction manual which should be read and be freely available to all pers
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