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www.teejet.com

DynaJet

®

 Flex

INSTALLATION – HIGH FLOW MODE

The following illustration and steps are only a guideline of an installation based on a specific vehicle configuration. Installations on 

other vehicles may vary. If there are questions concerning the installation of the DynaJet Flex system on this vehicle, or due to the 

changes in component specifications the parts supplied in the kit are not exactly as presented in this document, please contact 

your dealer or TeeJet customer service representative for clarification before installation. TeeJet technologies is not responsible for misuse or 

incorrect installation of the system. 

DynaJet® interface and drivers

Step 1a – mount the 

(F) 

DynaJet HF drivers 78-05124 onto brackets, one for each boom section.

Step 1b – mount the 

(D)

 DynaJet HF interface 78-05123, connecting to the 

(C) 

DynaJet interface harness 45-10177, and 

(H) 

boom harness 

45-10178.

Connect terminators

Step 2a – connect the 

(I)

 start terminator 45-05855 to 

(K) 

4 nozzle harness (1-4) 45-10174, first section.

Step 2b – connect the 

(J) 

end terminator 45-05856 to 

(M) 

4 nozzle harness (9-12) 45-10176, last section.

Nozzle harnesses

Step 3 – install nozzle harness 

(K) 

4 nozzle harness (1-4) 45-10174, 

(L) 

4 nozzle harness (5-8) 45-10175, and 

(M) 

4 nozzle harness (9-12) 

45-10176. Each harness features two solenoid connections per nozzle body, supporting (4) nozzle bodies in total.

Note: specific section breakdown may vary by installation

Connect can cables to drivers

Step 4 – using the 

(E) 

can extension cables, connect the 

(I)

 DynaJet HF drivers 45-05124 to the 

(D)

 DynaJet HF interface 78-05123.

Driver battery cables

Step 5 – connect the battery cable 45-05987 to the three (3) 

(F) 

DynaJet HF drivers 78-05124, and to the battery.

Boom harnesses

Step 6 – install the 

(H) 

boom harnesses 45-10178, 45-10179, or 45-10181 connecting to the

 (D) 

DynaJet HF interface 78-05123.

Pressure sensor

Step 7 – connect the boom pressure sensor 0-10 bar to the 

(C) 

DynaJet HF interface harness 45-10177. The pressure sensor interface kit 

should be mounted close to the boom manifold

DynaJet® 7120 console

Step 8 – connect the 

(A)

 DynaJet 7120 console 90-02887 to the 

(C) 

DynaJet HF interface harness 45-10177 via console extension cables.

Other battery cable

Step 9 – connect 401-0012 to the battery and route leads as needed.

Содержание DynaJet Flex 7120

Страница 1: ...D Y N A J E T F L E X INSTALLATION SETUP AND USER GUIDE Software version 1 02 with optional high flow option...

Страница 2: ...t 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 EIT...

Страница 3: ...les 5 Boom harnesses 5 Pressure sensor 5 DynaJet 7120 console 5 Other battery cable 5 INITIAL STARTUP 8 Favorites 8 Setup 8 Units 9 Number of sections 9 Maximum pressure sensor value 9 Nozzle selectio...

Страница 4: ...Jet Flex console is designed to provide years of service under typical agricultural and turf operating conditions A tight fitting enclosure means that typical dusty environments will not cause operati...

Страница 5: ...nator Female Start 35 50048 DynaJet Solenoid 45 05943 Battery 60 AMP Fuse Cable 78 05121 xx Power Distribution Module 45 05971 xx Driver to Power Extension Cable 45 05980 xx Driver to Power Y Cable 45...

Страница 6: ...Power will then route from 78 05121 xx to each DynaJet driver 78 05122 using cables 45 05971 xx Figure 2 Installation diagram standard mode Nozzle harnesses When installing nozzle harnesses 45 05935...

Страница 7: ...outputs If not using 45 10142 some machine specific harnesses are available The BIM can be mounted in the cab or outside depending upon your installation DynaJet interface The DynaJet interface 78 051...

Страница 8: ...the J end terminator 45 05856 to M 4 nozzle harness 9 12 45 10176 last section Nozzle harnesses Step 3 install nozzle harness K 4 nozzle harness 1 4 45 10174 L 4 nozzle harness 5 8 45 10175 and M 4 n...

Страница 9: ...zzle Harness 1 4 A 90 02887 DynaJet 7120 Console w RAM Mount Kit Kit includes Console and Mount Sensor Cable Pressure Sensor I 45 05855 CAN Terminator Female Start t o B a t t e r y P o w e r t o B a...

Страница 10: ...F interface E 45 05857 1 m 45 05858 2 m 45 05859 4 m 45 05864 10 5 m CAN extension cable F 78 05124 DynaJet HF driver G 90 04007 3 m 90 04008 10 m DynaJet pressure sensor interface kit H 45 10178 to I...

Страница 11: ...Nozzle selection the SPRAY NOZZLE icon 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 H...

Страница 12: ...easing the value will reduce the pressure value displayed during operation Decreasing this value will increase the pressure value displayed during operation Figure 10 Maximum pressure sensor value Noz...

Страница 13: ...r droplet icon and size letter code PWM duty cycle displays the current PWM duty cycle as a percentage Active solenoid high flow mode only displays if one or both sets of solenoid are active Actual pr...

Страница 14: ...tions concerning the setup of the DynaJet Flex please contact your dealer or TeeJet customer service representative for clarification before operation TeeJet technologies is not responsible for misuse...

Страница 15: ...30 Fine gain settings are 1 10 as powerful gain as coarse gain settings Coarse gain This is the more aggressive gain setting and will have the largest impact on the stability and function of the Dyna...

Страница 16: ...plication rate and droplet size 3 Fine tune 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 c...

Страница 17: ...hat produces the target application rate at a duty cycle of about 70 when running at expected travel speeds In other words choose nozzle capacity and desired pressure droplet size closer to the high e...

Страница 18: ...In this case a TT11006 at 3 4 bar will work very well 1 5 1 68 0 2 1 3 1 54 VC XC 92 to 308 69 to 231 55 to 185 46 to 154 2 1 94 0 3 1 7 1 80 VC XC 108 to 360 81 to 270 65 to 216 54 to 180 3 2 37 0 4...

Страница 19: ...eJet 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 disassemb...

Страница 20: ...88 F C F C 207 to 691 173 to 576 130 to 432 104 to 346 86 to 288 74 to 247 65 to 216 58 to 192 52 to 173 6 3 35 0 7 5 3 3 16 M C 228 to 758 190 to 632 142 to 474 114 to 379 95 to 316 81 to 271 71 to...

Страница 21: ...to 12 3 1 to 10 5 3 06 0 6 4 4 2 88 F C F C 21 to 69 14 to 46 10 to 35 8 3 to 28 6 9 to 23 5 2 to 17 4 6 to 15 4 1 to 14 3 5 to 12 6 3 35 0 7 5 3 3 16 M C 23 to 76 15 to 51 11 to 38 9 1 to 30 7 6 to 2...

Страница 22: ...5 0 8 to 4 4 0 7 to 3 7 0 5 to 2 8 60 0 98 10 50 0 89 2 4 to 12 1 1 6 to 8 1 1 2 to 6 1 0 9 to 4 8 0 8 to 4 0 0 6 to 3 0 70 1 06 12 58 0 97 2 5 to 13 2 1 7 to 8 8 1 2 to 6 6 1 0 to 5 3 0 8 to 4 4 0 6...

Страница 23: ......

Страница 24: ...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...

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