DynaJet User Manual 98-05334-EN
Contents
1. Li 11005 x DG TT TJGO an XR 50 175 583 aT to 202 _ 192 to 20 320 08 to 544 i M 1H te Hr 6510 16 34 19 180 460 154 di to 135 Aio 108 9000 263 b to 221 ar te 189 20 to 166 4010 133 Tite 257 6 to 220 58 193 sns to 171 A to 154 104 10 346 8610 288 6510 216 afte 173 Tto dar 114 00 379 9510 316 2110 190 I fto dof 103to 342 dU Gite 205 11006 TT TJ60 TT I60 XR XRC 50 100 t 137 to 11008 1 3 to TT TJ60 TT J60 XR MRC 50 112 ta i 23 te 320 T 69 229 f enie a00 3310 378 ito 160 39 ba 330 to 220 5510 198 11010 k 1 XC 238 to 198 to 660 149 to 455 J60 TTJ60 1 5 917 229019 164 17210 373 11510 382 5 287 foie 255 69 229 AR 50 5 2 Mito 1022 256 852 19210 639 153 to zii 12810 426 110 wo 165 Sto 320 8510 284 Thto 256 r EICXDIEJFENESLFE NR LR tate 380 Stee oi CE E 36100 1202 301 1002 22510 752 100 601 15010 501 129 429 11310 376 100 334 S000 301 www teejet com DYNAJET FLEX INSTALLATION SETUP AND USER GUIDE An innovative new product from TeeJet makes spraying more efficient and more productive The DynaJet Flex system uses a touch screen controller and individual solenoids to control each spray nozzle This innovative system works along with an e2. Pressure Sensor Interface Kit The DynaJet system requires one Pressure Sensor Interface Kit 90 04007 or 98 04008 to be installed The Pressure Sensor Interface Kit should be mounted close the boom manifold Boom Interface Module BIM The Boom Interface Module BIM 78 05091 is used by the DynaJet System for boom sense The BIM Harness connects between the BIM and the CAN On the BIM Harness 45 10142 the Boom Sense Wire or flying leads are supplied to tie into existing machine harnesses or switches If not using the BIM Harness some machine specific harnesses are available The BIM can be mounted in the cab or outside depending upon your installation YN L lt Kk 7 DynaJet Driver DynaJet Solenoids DynadJet Solenoids DynaJet Solenoids DynadJet Solenoids DynaJet Solenoids Dynalet Flex DynaJet Interface The DynaJet Interface 78 05106 connects to the Sentry Interface Harness 45 10148 The Sentry Interface Harness connects to a The Console 75 30119 extension cable may be used b Power 12V for powering the CAN c CAN d BIM Harness The DynaJet Interface can be mounted in the cab or outside depending upon your installation CAN Cables amp Terminators The Start Terminator 45 05855 must be connected to the DynaJet Driver 78 05122 for Section 1 CAN cables must be connected in series To each DynaJet Driver 78 05122 To the Boom Interface Module 7
3. OL FL 4 o1 gg OLGEL 0 ye E A Opt ok 0169 016 t 0811 x 010 yg 01765 0107 E 016 0L 0 oe y 8 GL o1 L9 E 0116 E g o Le i ore 4 Sc rz j F 4 01579 1 i 16 01 L9 1 z 01 C t 8 G SF 079 5 9 OF LE 1 9 1 05 yuy 0 i 7 F 01 6 090 1 Ju 1 091 Lg OL O18 F Lg 096 1 l 09 11 Sr i 0198 BE i FOOLL T gE 0197 OL OE 05 YX oor oorr OLOLL 05 Yx AMENS SOOLE UC GA d 2 K2 ON di L 02 dit SNP G33dS N3AI5 LV 53174 98 05334 EN R1 Figure 15 Metric 1 07 775 257 5424 461 39 128 321e 107 2810 92 _2410 80 211 1 1910 amp 4 8 C 8910 298 T to 248 8610 186 4510 149 37to 124 340 106 2810 93 25 to 83 22to 74 3 E 1 J 15 z 109 365 Site 4 228 5510 182 dto 152 Jot 130 114 3036 101 2719 i Ma 12710 422 1060 352 79 6310 211 5310 176 4010 132 3510 117 3210 106 50 4 14310 475 11910 396 238 5910 198 4510 149 4010 132 2610 119 i ET 156 te Dr 432 9710 324 259 ETETE 35 te s 4914 162 EI TERETE vc Sito 176 0 98
4. The range of Duty Cycle available is typically 30 to 100 meaning that the nozzles on the machine will have the approximately 30 to 100 of their rated flow capacity With the DynaJet system Spray Nozzle Flow Capacity Spray Nozzle Size x Duty Cycle By varying the duty cycle the DynaJet Flex is essentially varying spray nozzle capacity on the fly When more pressure is required the nozzle capacity duty cycle is reduced When higher nozzle capacity is required the duty cycle 15 increased C e Although the operator has a much more flexible and forgiving application system with DynaJet care should be taken to select spray nozzles that give the best possible results When selecting a spray nozzle review the DynaJet nozzle selection charts and select a spray nozzle capacity that produces the target application rate at a duty cycle of about 7096 when running at expected travel speeds In other words choose nozzle capacity and desired pressure droplet size closer to the high end of the speed or rate range than to the lower end This will provide plenty of adjustment range for DynaJet to reduce duty cycle when travel speed slows while also providing additional capacity if travel speed increases above the planned speed i The default setting for minimum duty cycle is 30 This means the system will not adjust the duty cycle below 30 on While this setting can be set as low as 20 by the operator the higher default v
5. too high will result in pressure oscillation Range is 1 to 100 Default is 5 Setting Description Default Value x Hold current duty cycle E Phase offset 128 counts Jump Point 5 psi or 0 35 bar This setting determines the threshold at which Coarse Gain becomes Max Duty Cycle 80 all ON above this value active Value is shown in the pressure units previously chosen bar or PSI Range is 0 07 to 1 38 bar For example if operating in PSI units with a setting of 7 coarse gain becomes active when actual pressure is 7 or more PSI away from the target value Increasing this value makes the Coarse setting in effect less of the time higher value means higher tolerance between actual pressure and target pressure Decreasing this value means coarse regulation is active more frequently Setting coarse gain ON too high would disable the feature Decreasing this value too much will result in pressure oscillations Coarse Gain Off This setting determines the threshold at which coarse regulation is switched OFF and fine regulation takes over Value is shown in the pressure units previously chosen bar or PSI Range is 0 07 to 1 38 bar 1 to 20 psi This value must be lower than coarse gain ON For example if operating in PSI units and with a setting of 4 coarse regulation will be switched OFF and Fine Gain becomes active when the difference between target and actual pressure is 4 psi or less Regulation
6. 6 30 0 52 0 48 vc vc 7 10 24 5 3to 17 8 4 310 14 3 Fa 98 05334 EN R1 ES Dynalet Flex 55295 E CHEMSAVER MAINTENANCE INSTRUCTIONS The 55295 e ChemSaver is a solenoid actuated shutoff compatible with a wide range of TeeJet nozzle bodies equipped with a diaphragm check valve It can be used for end of boom nozzles as well as individual nozzle shutoff and PWM controls The valve is normally closed and opens when the solenoid is energized The 55295 has a 2 Pin MetriPack connector molded into the body for a clean weather tight electrical connection General Disassembly and Reassembly NOTE O rings 8 9 10 should be handled with care as they can be damaged deformed qe me Loosen and remove the Nylon Nut 4 and Stainless Steel Washer 5 Separate the Coil Assembly 1 from the rest of the Tube Plunger Assembly 2 3 6 11 Remove the Locking Ring 11 Using pliers to grip the Stainless Steel Interface Cap 7 loosen the Tube Sub Assembly 2 using a 9 16 14 mm or adjustable wrench Note a low profile 9 16 wrench is available from TeeJet using part number 97 00067 All repairable parts should be accessible at this point The Plunger Sub Assembly 3 Stainless Steel Spring 6 and O rings 8 9 10 can be replaced without further disassembly During reassembly place the Plunger Sub Assembly 3 and Stainless Steel Spring 6 in the Tube Sub Assembly 2 NOTE The Plunger Sub Assembly 3 should be oriented with the black i
7. the DynaJet Flex console are not and will automatically be added to the favorites list accurate compared to a mechanical gauge adjust this value until there 15 a match Figure 12 Select Nozzle Capacit gt Increasing the value will reduce the pressure value displayed TTJ60 11004 during operation TTJ60 11005 Decreasing this value will increase the pressure value TTJ60 11006 displayed during operation TTJ60 11002 TTJ60 110025 Figure 9 Max Pressure Sensor Value Nozzle Selection Accesses the nozzle selection process to select which nozzle is to be used At this time only TeeJet nozzles are supported 98 05334 EN R1 E Dynalet Flex Ready to Pressure Test the System 1 Ensure that current rate control system is operating at the optimum level Set DynaJet operating mode to manual and set PWM duty cycle at 10096 This will make the system operate as if DynaJet was not present Use this configuration to verify the rate control system is operating normally 2 Keep DynaJet operating mode on manual and change PWM duty cycle to 5096 Use this configuration to verify the rate control system is operating normally 3 Confirm boom section functionality by observing the row of rectangles below the on the operating display 4 Switch the master switch ON on rate control or other boom section control switches and individual sections one at a time Make sure each section appropriately changes colour to blue With the mas
8. will remain in Fine until the error reaches the Coarse Gain On value described above EN www teejet com Flex TUNING DYNAJET 1 Identify the speed range rate range and system pressures for the application Ensure the operating conditions are compatible with the nozzle capacity speeds and duty cycles shown in the TeeJet PWM nozzle selection guide 2 Using the identified speed range based on nozzle selection use the rate controllers test speed or simulated speed to target a desired application rate and droplet size 3 Finetune the regulation performance of the rate control system and the DynaJet system a Typical settings used for DynaJet fine tuning include Fine Gain Coarse Gain Coarse Gain On and Coarse Gain Off b Coarse Gain On must be a higher value than coarse gain Off A good starting point for Coarse Gain On is a pressure value that is about 35 40 of the target pressure Coarse Gain Off value is typically is about 25 of the target pressure or 5 10 PSI 0 3 0 6 bar lower than Coarse Gain On d Coarse Gain On and Coarse Gain are used to make major adjustments to pressure regulation Once coarse gain has brought pressure near target Coarse Gain Off and Fine Gain will influence the smaller adjustments e Coarse Gain should be increased if large pressure adjustments need to be made more quickly f Fine Gain should be decreased if actual pressure constantly moves across the target pressure DynaJet an
9. 8 05091 via BIM Harness 45 10142 To the DynaJet Interface 78 05106 via Sentry Interface Harness 45 10148 To the Pressure Sensor Interface Kir via Pressure Interface 78 05110 Q The End Terminator 45 05856 must be connected to the Driver Module 78 05122 for the last section Lf L __ CAN Start Terminator female at Boom Section 1 DynaJet Driver DynaJet Solenoids 98 05334 EN R1 Dynalet Flex INITIAL STARTUP This section will explain basic setup of the values required for first time setup of a DynaJet Flex system When these settings are completed initial operation and fine tuning should be possible To access setup menu from the work screen touch center of the screen 1 Select from Figure 4 Options Menu gt Favorites The FAVORITE icon r represents favorite spray nozzles This function automatically stores the most recent five 5 nozzles chosen Use this to quickly access your most frequently used spray nozzles gt Setup The SETUP icon Y is used to access settings This will enter the configuration menu gt Nozzle Selection The SPRAY Nozzle icon amp is used to select the spray nozzle style and capacity Once chosen here the spray nozzle style and capacity is automatically added to the favorites list 2 Press HOME icon A to return to the main work screen Favorites Setup The favorite icon represents favorite spray noz
10. DYNAJET FLEX INSTALLATION SETUP AND USER GUIDE Software Version 1 01 22 2 A Subsidiary of 0 Spraying Systems Co Copyrights 2015 TeeJet Technologies All rights reserved No part of this document or the computer programs described in it may be reproduced copied photocopied translated or reduced in any form or by any means electronic or machine readable recording or otherwise without prior written consent from TeeJet Technologies Trademarks Unless otherwise noted all other brand or product names are trademarks or registered trademarks of their respective companies or organizations Limitation of Liability TEEJET TECHNOLOGIES PROVIDES THIS MATERIAL AS IS WITHOUT WARRANTY OF ANY KIND EITHER EXPRESSED OR IMPLIED NO COPYRIGHT LIABILITY OR PATENT IS ASSUMED IN NO EVENT SHALL TEEJET TECHNOLOGIES BE LIABLE FOR ANY LOSS OF BUSINESS LOSS OF PROFIT LOSS OF USE OR DATA INTERRUPTION OF BUSINESS OR FOR INDIRECT SPECIAL INCIDENTAL OR CONSEQUENTIAL DAMAGES OF ANY KIND EVEN IF TEEJET TECHNOLOGIES HAS BEEN ADVISED OF SUCH DAMAGES ARISING FROM TEEJET TECHNOLOGIES SOFTWARE Safety Information A TeeJet Technologies is not responsible for damage or physical harm caused by failure to adhere to the following safety requirements As the operator of the vehicle you are responsible for its safe operation The DynaJet Flex is not designed to replace the vehicle s operator Be sure that the area around the vehicle is c
11. TS LIST M PERDRE EN www teejet com Dynalet Flex 9 01981 01 g SOL 01 FEL 0197 01 gg 018 6 4 01592 016 LSE gj Ol F s GE OlS 0L 01 FL rl 126 01981 ol p o 010 8 E OL OL G 0094 oleg ec 01959 098 y 016 0 09 tc 0169 g g 096 Ol F oj 75 0199 0197 016 0 FSE 0 z Eg 0 9 0158 sc 019 0 EFL ol L 1 35 05 24x 0 67 01975 0199 0187 E 0186 al FEL 59 0196 88 J OOF LL ol SF WS 864 0169 01 L7 068 016 bE G OLE 1 1 OF iL 01575 01 9 gg 016 OS OL 01 8 6L t 800LL opt 016 ab BL Oly G 018 8 TLE rE Sr VEL 0199 GE OP O LL 0 g 9 FS 0197 056 0 0681 0 9 FL OS 864 016 068 G 0187 1 E 01 G G 019 9 0128 0014 GG 050 Ti 05 Dux org 01 6 01 L 9 OE OL g 5 OOF LL E EL 01956 0107 E 476 010 FL 1 a 01 qe a 4 FE tb OL 0109 01279 8c ECS F GEL 95 900kLL i kL UFE FL OCF OES L7 9c 0 PL 1 016 FL 0185 078 0 9 019 F k 0108 E 017 DL s 010 9L 7 gt GE 0197 010 SL j E ELE 0l 0t 9 0107 t 476 0167
12. alue provides a more uniform application at lower speeds D 2 Spray Nozzle Selection a The DynaJet system is not compatible with air inducted spray nozzles Be sure to select a conventional spray nozzle for use with the system The recommended options are TeeJet DG TeeJet Turbo TwinJet and Turbo TeeJet b Different nozzle styles have different droplet size characteristics across the range of operating pressures The spray nozzle style should be selected based on the desired droplet size at the pressures expected to be in use for your application Always use spray nozzles with 110 or wider spray pattern These spray nozzle part numbers will typically include the 110 in their name for example TT11006VP or XR11006 VS 80 spray nozzles are not recommended with DynaJet 3 Spray Height a In order to achieve the best possible spray coverage make sure to keep spray height at or above 20 from the nozzle to the target SP www teejet com Nozzle Selection Example These columns show droplet These columns show flow rates at various sizes for different styles pressures The Delta P represents pressure of spray nozzle at given loss through the DynaJet solenoid valve and pressures Use these columns Just like a normal nozzle chart these columns show rates available the resulting Nozzle PSI and Flow show actual to choose the best nozzle at given speeds The only difference is the range of values that values at the spray no
13. ays the actual pressure Current Nozzle Selection Displays the current selected nozzle Boom Sections Blue turned on gt Empty turned off Pressure Guage Red Diamond Actual pressure gt Colours Droplet size Operation Modes gt Nozzle Mode Pressure When the user changes the desired drop sizes choices via the droplet size selectors checkboxes the system will recalculate the desired pressure It will then adjust the PWM duty cycle to attempt to attain the desired pressure in the system gt Manual Mode PWM The user can manually adjust the PWM duty cycle to attempt to attain the desired pressure in the system Droplet Size Selectors gt Red X and greyed out Not selected EN www teejet com USER SETTINGS Dynalet Flex If there are questions concerning setup of the DynaJet Flex please contact your dealer TeeJet Customer service representative for clarification before operation TeeJet Technologies is not responsible for misuse or incorrect operation of the system Setup is used to configure Units Display Brightness Key Beep Number of Sections Boom Section On Off Beep Maximum Presure Sensor Value Minimum Duty Cycle Control Hold Delay Fine Gain Coarse Gain and Coarse Gain On Off Display Brightness Sets the brightness level of the display Range is 5 to 100 in 5 increments Units Sets the units to US psi or Metric bar Key Beep Enable disable all beepin
14. ccasional splashing of water will not damage the unit the DynaJet Flex console is not designed for direct exposure to rain Take care not to operate the DynaJet Flex console in wet conditions Figure 1 DynaJet Flex 7120 Console Front and Back Power Switch Bright Touch Screen USB Port to DynaJet Interface Harness Connection Standard RAM Bracket ES www teejet com Dynalet Flex Fiqure 2 System Diagram Alayjeg 0 ues 4 sopeutua NYS 95990 9 aged An gt 0 JeAU 08690 97 NI 9 Q8O UOISUS X4 JOMOd 0 690 9 ES CO sseuJe di XX 07 8 660 Sv 94 uolsu9 xg NVO MS U0ISu9 X3 diL Z Apeajs Udy ag panieoas s NVO e seusej4 q31 eoeueju NYO 95850 57 Ss 0 80070 06 aged WE Ob L0070 06 Josuas JOSUAS ensseJg pue 9145 JOSUaS eoeuieju JY eoeneju JOSUBS einsseJg jereu q IG ejnpojN eoepeju woog 6090 97 SaM esuag woog J MOd AZ 0 07 06S0 Sr 9 Q O 9L00 L0P WQ 02 20690 97 10690 97 G 00690 97 il M ege uoisuejx3 ejosuo2 juno pue ejosuo sepnjoul JM Jy JUNON 9josuo 021 1ereu q 9820 06 98 05334 EN R1 D
15. d the existing rate controller are two control systems that must coexist Because DynaJet is a second control device that is installed on the same liquid system users should be prepared to adjust the rate controller regulation settings to harmonize the two system For example if subtle changes in duty cycle on DynaJet induce noticeable rate or pressure oscillations the rate control regulation gain settings may need to be reduced Placing the rate control system in manual regulation mode during the tuning process will help determine if oscillations are being caused by the DynaJet or by the rate controller TeeJet control systems like 844E 854 or Radion will typically perform better with DynaJet when their coarse and fine regulating speeds are reduced by 2 3 digits General rule of thumb under normal operating conditions for flow rate changes DynaJet in combination with the rate controller should have rate pressure stabilized in 2 3 seconds 98 05334 EN R1 Dynalet Flex DYNAJET NOZZLE SELECTION Selection of the proper spray nozzle for use with the DynaJet system is much like selecting the spray nozzle for a traditional spraying operation Along with the extra application flexibility DynaJet brings a few other nozzle related considerations that will be summarized below 1 Duty cycle a DynaJet Flex controls nozzle flow rate by varying the portion of time that each nozzle is on vs off The on time is referred to as Duty Cycle
16. ee ee eee 8 On Screen IG AU ES 8 USER SETTINGS 9 Fe a ee eee 10 TUNING DYNAJET 11 DYNAJET NOZZLE SELECTION 12 Nozze a ion E i1 u u 13 55295 E CHEMSAVER MAINTENANCE INSTRUCTIONS 14 General Disassembly and 14 APPLICATION RATES AT GIVEN SPEED 15 98 05334 EN R1 Dynalet Flex DYNAJET FLEX OVERVIEW The DynaJet Flex controller works in conjunction with an existing rate controller that regulates flow via a control valve or pump regulation to achieve a target application rate when a speed change occurs This system only works with automatic rate controllers that use flow based monitoring systems and not pressure based monitoring systems Automatic rate controllers equipped for both flow and pressure based control should have the pressure based system disabled to work in conjunction with DynaJet Flex The independent automatic rate controller loop performs the same as it would if the DynaJet controller were not present The DynaJet Flex controller changes flow output to each individual nozzle based upon input provided from the operator about the optimum droplet size pressure for the application INSTALLATION CONSOLE The DynaJet Flex console is designed to provide years of service under typical agricultural operating conditions A tight fitting enclosure means that typical dusty environments will not cause operational problems While o
17. g from console Number of Sections the number of boom sections Range is 1 to 15 Boom Section On Off Beep Enable disable beep when a boom section 15 turned on or off Maximum Pressure Sensor Sets the value from the pressure sensor description Either 10 bar or 25 bar Minimum Duty Cycle Sets the minimum duty cycle to which the DynaJet will control Default is 30 minimum is 20 Higher values reduce the overall control range of the system Control Hold Delay When any boom switch changes state DynaJet Flex will not make control adjustments for the specified time period Range is 0 0 to 10 0 seconds Default is 1 0 second Fine Gain Allows the control system to make minor adjustments when close to the target with the goal of stable pressures and minimal overshoot of target Range is 0 to 100 Default is 30 Fine gain settings are 1 10 as powerful gain as coarse gain settings 98 05334 EN R1 EN Dynalet Flex Coarse Gain OEM Settings This is the more aggressive gain setting and will have the largest The settings described below are engineering and development impact on the stability and function of the DynaJet Flex system values used in development of the DynaJet Flex system Do not Coarse gain makes major adjustments to duty cycle to attempt to alter these settings unless directed by TeeJet Technologies support bring actual pressure back to the target A Coarse Gain setting that is personnel
18. lear of people and obstacles before and during engagement The DynaJet Flex is designed to support and improve efficiency while working in the field The driver has full responsibility for the quality and work related results Dynalet Flex Table of Contents DYNAJET FLEX OVERVIEW 2 INSTALLATION 2 CONSOLE 2 INSTALLATION 4 accent cae vse E DRE EEUU E Dus N qM MEM MP MM MC CMM 4 enn PIONEER NORUNT s 4 i A aN E Z 4 Pressure Sensor Interface 24 LLL Si EEEa 5 boom Module BIM u u Lu cerca gere hiatu 5 Omm 5 CAN T ME NR 5 INITIAL STARTUP 6 BN gt u u KIM MEM MERE 6 rcl er un M 6 Jn m M 9 T Number of SO e 0 ERR _______ 7 Maximum Pressure Sensor Value i ik t caeno ica c bn aar 7 7 ___ __________ 7 Select Nozzle Capacity 7 I a ey C 8 V DEED _ _ _ _ _ 8 Cr meme meee r
19. nsert facing outward visible when placed in the Tube Sub Assembly 2 While compressing the Spring 6 thread the Tube Plunger Assembly 2 3 6 11 to the Stainless Steel Interface Cap 7 and tighten using a wrench and pliers Optional Apply 1 drop of Loctite Blue 243 to the threads of the Interface Cap 7 and Tube Sub Assembly 2 Torque Specifications tighten Interface Cap 7 and Tube Sub Assembly 2 to 12 in Ibs 1 36 Return the Locking Ring 11 to its original position and slide the Tube ITEA PART NUMBER _texrrnoy ___ PI A bly 2 3 6 11 through th weak add ssembly 2 3 6 11 through the 24 VOLT COIL ASSEMBLY 55295 1 24 55295 2 24 amp 55295 4 24 Coil Assembly 1 NOTE The Coil Assembly 1 should 3 WA PLUNGERSUB ASSEMBY i N A NUT NYLON BLACK be oriented with the MetriPack WASHER 303 STAINLESS STEEL connectors facing away from the 6 NA SPRING 302 STAINLESS STEEL Interface Cap 7 _7 N A INTERFACE 303 STAINLESS STEEL 55295 1 12 amp 55295 4 12 Place the Stainless Steel Washer 5 above the Coil Assembly 1 and tighten 112 amp I the Nylon Nut 4 to the Tube Plunger Assembly 2 3 6 11 10 d DESCRIPTION 55295 1 12 55295 2 12 55295 4 12 i Spray and Accessories 55295 1 24 55295 2 24 55295 4 24 PO Bix PBU Whaalon AM PAR
20. ter switch OFF all active sections will be grey again Work Screen Figure 13 Work Screen PWM Duty Cycle Current Droplet Size Actual Pressure Boom Status Current Nozzle Selection Pressure Guage Nozzle Mode Manual Mode Droplet Size Selectors Pressure PWM Nozzle Mode Droplet Size Chart When choosing a spray nozzle that produces droplet sizes in one of the eight droplet size classification categories it is important to remember that a single nozzle can produce different droplet size classifications at different pressures A nozzle might produce medium droplets at low pressures while producing fine droplets as pressure is increased Category Symbol Colour code Violet Medium Coarse Very coarse Extremely coarse Ultra coarse 5 Start pump and ensure no leaks 6 Verify pressure on mechanical gauge matches the digital pressure display within reason If not adjust max pressure sensor value as previously described 7 Configure in PWM mode DynaJet at duty cycle of 50 Confirm each e ChemSaver ECS is pulsating At this point the system is functioning Further details for fine tuning the system are available in the User Settings section of this guide On Screen Indicators Current Droplet Size Displays the current droplet size using both the appropriate colour droplet icon and size letter code PWM Duty Cycle Displays the current PWM duty cycle as a percentage Actual Pressure Displ
21. xisting rate controller and allows the operator to choose specific droplet sizes that will be used for a particular job The rate controller manages application rate and the DynaJet system uses PWM technology to control system pressure and thereby control spray droplet size Droplet size data is built into the controller so setup is easy and droplet sizes can be changed on the go PWM control of each nozzle delivers very large ranges of speeds and application rates with a single spray nozzle and with consistent spray quality www teejet com A Subsidiary of Spraying Systems Co 98 05334 EN A4 R1 English TeeJet Technologies 2015
22. ynalet Flex Dynajet Drivers Nozzle Harnesses There will be one DynaJet Driver 78 05122 per boom section with a When installing Nozzle Harnesses 45 05935 xx xx always start with limit of 20 nozzles per section Section 1 and continue to the last section The DynaJet Drivers will mount on the boom at the end of each Each section will require Nozzle Harnesses designed for your section specific nozzle spacing and number of nozzles Mount them so they are at the end of each section that is Nozzle harnesses are built with an even number of outputs closest to the middle of the boom Some sections will use more than one harness to equal the Power number of nozzles in that section Power will be sourced from the battery using the 60amp fused cable The yellow and white solenoid cables on the nozzle harnesses must 45 05943 alternate across the entire boom When sections have odd numbers of nozzles then accounting for the altering can be accomplished Power from the battery will be routed to the boom using the 6 gauge one of two ways power cables 45 05942 xx The Power Distribution Modules 78 05121 xx will connect to the a By crossing the two solenoid cables 45 05942 xx cables b By installing Nozzle Harness Reversing Adapters 45 05952 Power will then route from 78 05121 xx to each DynaJet Driver 78 05122 using cables 45 0597 1 xx Figure 3 Installation Diagram DynaJet Solenoids DynaJet Solenoids www teejet com
23. zles This The setup icon is used to access settings This will enter the function automatically stores the most recent five 5 nozzles configuration menu Selections are automatically saved when chosen Use this to quickly access your most frequently used spray adjusted nozzles NOTE Not all settings are listed below See User Settings section Figure 5 Favorites of this guide for additional settings and details Figure 6 Setu x TTJ60 11004 __TTJ60 11002 x TT1 1 005 Change Value IU 11006 Work Screen Work Previous Next Screen Page Page www teejet com Dynalet Flex Units Figure 10 Nozzle Selection Sets the units to US psi or Metric bar Figure 7 Units Select Nozzle Series Number of Sections Use the green up and down arrows to highlight the correct spray Set the number of boom sections This should match the number of nozzle series family sections used on the spray controller Range is 1 to 15 Figure 11 Select Nozzle Series Figure 8 Number of Sections Turbo TwinJet TwinJet 110 XR TeeJet 110 TeeJet 110 DG TwinJet Maximum Pressure Sensor Value Select Nozzle Capacity Verify this value by looking at the pressure sensor description With the correct nozzle capacity highlighted select the HOME icon Values will be either 10 bar or 25 bar gt to return to operating mode The selected nozzle will be active If pressure value displayed on
24. zzle style for your application corresponds to the range of flows available with DynaJet flex 5 8 to 7 1 to 8 3 to 9 4 to 10 2 to 11 0 to 11 9 to 12 6 to 11006 TT TJ60 TTJ60 XR XRC 50 c Ch If the operator wants to apply 15 GPA at 10 MPH he would look in the 10 MPH column and find the row that shows 15 GPA with room above and below to compensate for higher and lower speeds that may be experienced in the field In this case a TT11006 at 40 50 PSI will work very well 20 settee 039 XC 5 8to 19 3 4 310 14 5 3 5to 11 6 2 9to 9 7 0 52 0 48 vc 7 1to 24 5 3 to 17 8 4310 143 3 6to 11 9 11006 0 60 0 56 8310 28 6 2 to 21 5 0 10 16 6 4 2 10 13 9 160 XR 1 i ZU Tto 17 XRC 50 62 11 me 37 8 2 27 6 6to 22 5 5to 18 3 11 9to 40 8 0to 30 T 1to 24 5 0 to 19 8 12 6to 42 9 510 32 T 6to 25 6 310 21 The next consideration is droplet size The chart shows that a Turbo TeeJet TT nozzle will give Very Coarse VC droplets in this pressure range and a Turbo TwinJet TTJ60 will give Coarse C droplets The benefit of the TT is that the operator could select droplets from VC to M all at the same rate and speed 11006 TT TJ60 TTJ60 XR XRC 50 0 60 0 56 8 310 28 6 210 21 5 0 to 16 6 10 2 10 34 T T to 26 6 110 20 11 0 to 37 8 2to 27 6 610 22 11 910 40 8 9 30 7 110 24 12 610 42 9 510 32 T 6to 25 20 5 8to 19 3 4 310 14 5 3 5to 11
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