Information governor
BOSCH
9 420 610 767
9420610767
ZEXEL
105404-5230
1054045230
Rating:
Scheme ###:
| 1. | [1] | 154620-0200 | GOVERNOR HOUSING |
| 2. | [1] | 154007-2900 | CAPSULE |
| 3. | [1] | 154620-3200 | GASKET |
| 4. | [1] | 154620-1400 | COVER |
| 5. | [4] | 020006-1640 | BLEEDER SCREW M6P1L16 4T |
| 6. | [1] | 154621-4300 | BLEEDER SCREW |
| 7. | [1] | 154621-4100 | PLAIN WASHER |
| 8. | [1] | 154620-7900 | ADAPTOR |
| 9. | [1] | 154375-9020 | PLATE |
| 10. | [5] | 029010-6810 | BLEEDER SCREW |
| 11. | [1] | 020106-1840 | BLEEDER SCREW M6P1L18 |
| 12. | [1] | 154010-0100 | FLAT-HEAD SCREW |
| 13. | [2] | 154011-0100 | HEXAGON NUT |
| 13. | [2] | 154011-0100 | HEXAGON NUT |
| 16. | [1] | 029632-5070 | O-RING |
| 35. | [1] | 154500-0020 | GOVERNOR COVER |
| 38. | [1] | 154031-3000 | FLAT-HEAD SCREW |
| 39. | [1] | 139206-0600 | UNION NUT |
| 47. | [1] | 154036-0300 | CAPSULE |
| 51. | [2] | 139006-7100 | BLEEDER SCREW |
| 53. | [1] | 154010-0200 | FLAT-HEAD SCREW |
| 56. | [4] | 020106-3840 | BLEEDER SCREW |
| 65. | [1] | 155404-5120 | STOPPING DEVICE |
| 66. | [1] | 026518-2240 | GASKET D21.9&18.2T1 |
| 80. | [1] | 154063-5100 | COVER |
| 81. | [1] | 154358-7200 | BRACKET |
| 82. | [1] | 029020-6260 | BLEEDER SCREW |
| 83. | [1] | 029020-6260 | BLEEDER SCREW |
| 84. | [1] | 020006-1640 | BLEEDER SCREW M6P1L16 4T |
| 86. | [1] | 020006-2040 | BLEEDER SCREW M6P1L20 4T |
| 100. | [1] | 154621-2120 | FLYWEIGHT ASSEMBLY |
| 102. | [1] | 029321-2020 | LOCKING WASHER |
| 103. | [1] | 029231-2030 | UNION NUT |
| 117. | [1] | 154123-0120 | SLIDING PIECE |
| 118/1. | [0] | 029311-0010 | SHIM D14&10.1T0.2 |
| 118/1. | [0] | 029311-0180 | SHIM D14&10.1T0.3 |
| 118/1. | [0] | 029311-0190 | SHIM D14&10.1T0.40 |
| 118/1. | [0] | 029311-0210 | SHIM D14&10.1T1 |
| 118/1. | [0] | 139410-0000 | SHIM D14.0&10.1T0.5 |
| 118/1. | [0] | 139410-0100 | SHIM D14.0&10.1T1.5 |
| 118/1. | [0] | 139410-3000 | SHIM D14&10.1T2.0 |
| 118/1. | [0] | 139410-3100 | SHIM D14&10.1T3.0 |
| 118/1. | [0] | 139410-3200 | SHIM D14&10.1T4.0 |
| 130. | [1] | 154150-0400 | GOVERNOR SPRING |
| 132. | [1] | 154154-5200 | COILED SPRING |
| 135. | [1] | 154158-0920 | HEADLESS SCREW |
| 136. | [1] | 154011-1700 | UNION NUT |
| 137. | [2] | 026512-1540 | GASKET D15.4&12.2T1.50 |
| 138. | [1] | 154159-1200 | CAP NUT |
| 140. | [1] | 154177-1020 | HEADLESS SCREW |
| 141. | [1] | 029201-6010 | UNION NUT |
| 150. | [1] | 154200-7020 | SWIVELLING LEVER |
| 151. | [1] | 154204-3000 | BUSHING |
| 152. | [2] | 029631-8020 | O-RING |
| 152. | [2] | 029631-8020 | O-RING |
| 153. | [2] | 016010-1640 | LOCKING WASHER |
| 153. | [2] | 016010-1640 | LOCKING WASHER |
| 154. | [1] | 139611-0000 | PACKING RING |
| 155. | [1] | 139411-0000 | SHIM |
| 156. | [0] | 029311-1070 | SHIM D16&11T0.5 |
| 157. | [1] | 154204-3100 | BUSHING |
| 159. | [1] | 025803-1310 | WOODRUFF KEY |
| 160. | [1] | 154206-2800 | BUSHING |
| 161. | [0] | 154206-0200 | PLAIN WASHER D19.5&11.2T1.0 |
| 170. | [1] | 154211-4420 | FORK LEVER |
| 174. | [1] | 154620-2520 | STRAP |
| 175. | [1] | 016010-0540 | LOCKING WASHER |
| 181. | [1] | 154236-4100 | TENSIONING LEVER |
| 182. | [1] | 154237-1100 | BEARING PIN |
| 190. | [1] | 154395-8620 | CONTROL LEVER |
| 236. | [1] | 154390-0000 | GASKET |
| 237. | [1] | 154390-0300 | GASKET |
| 238. | [1] | 029635-2020 | O-RING |
| 335. | [2] | 026506-1040 | GASKET D9.9&6.2T1 |
| 336. | [1] | 154035-1600 | CAP NUT |
| 400. | [1] | 154620-8700 | CAPSULE |
| 401. | [1] | 154620-3100 | GASKET |
| 402. | [1] | 154620-8800 | BEARING PIN |
| 403. | [1] | 154620-8900 | PLATE |
| 404. | [1] | 010038-1840 | BLEEDER SCREW M8P1.25L18 |
| 405. | [1] | 154620-1300 | FLANGE BUSHING |
| 406. | [1] | 154620-4700 | BLEEDER SCREW |
| 407. | [2] | 014110-8440 | LOCKING WASHER |
| 407. | [2] | 014110-8440 | LOCKING WASHER |
| 408. | [2] | 014010-8140 | PLAIN WASHER D18&8.5T1.6 |
| 408. | [2] | 014010-8140 | PLAIN WASHER D18&8.5T1.6 |
| 409. | [1] | 154620-9000 | O-RING |
Cross reference number
Zexel num
Bosch num
Firm num
Name
Information:
Test Procedure
System Operation
The SLC 5/04 diagnostic indicators are located on the front of the following components: Power Supply, CPU and I/O Modules.The diagnostic indicators help trace the source of the fault. Faults can be found in the following components: Input devices, Output devices, Wiring and The controller.The battery is a replaceable lithium battery. The battery provides backup power for approximately two years. The "BATT" LED on the front of the processor alerts you when the battery voltage has fallen below a threshold level.The red "FLT" LED is flashing during operation. The processor detects a major fault. The fault is in the processor expansion chassis or the fault is in the memory.The red "BATT" LED is illuminated. The battery voltage has fallen below a threshold level.The red "BATT" LED is not illuminated. The battery is functional.
Illustration 1 g00563546
Diagram of the LED indicators
Illustration 2 g00563548
Functional Test
Check the electrical connectors and check the wiring.
Bodily contact with electrical potential can cause bodily injury or death.To avoid the possibility of injury or death, ensure that the main power supply has been disconnected before performing any maintenance or removing any modules.
Disconnect the power supply.
Check the electrical connectors and check the wiring for damage or bad connections.
Verify that all modules are properly seated.
Verify the status of the LED on the SLC 5/04.The results of the preceding procedure are in the following list:
All of the components are fully installed. All of the components are free of corrosion. All of the components are free of damage. All of the modules are properly seated. Proceed to 2.
The components are not fully installed. The components are not free of corrosion. The components are damaged. All of the modules are not properly seated. Repair the component. Verify that the repair resolves the problem. STOP.
Verify that the battery is connected.
Verify that the battery is properly connected.The results of the preceding procedure are in the following list:
The battery is properly connected. Replace the battery. Verify that the repair resolves the problem. Refer to Maintenance Procedure, "Battery - Replace". Stop.
The battery is not properly connected. Proceed to 3.
Replace the battery.
To avoid damage to electronic components, do not remove the processor from the SLC 5/04 Chassis until all power is removed from the power supply.Do not expose memory modules to surfaces or areas that may typically hold an electrostatic charge.
Secure power to the processor.
Press the retaining clips at the top of the processor and press the retaining clips at the bottom of the processor.
Remove the processor from the chassis.
To avoid potential damage to the processor, handle all modules by the ends of the carrier or edges of the plastic housing. Skin oil or dirt can corrode metallic surfaces, inhibiting electrical contact.
Disconnect the battery. Remove the battery.
Install the new battery. Connect the new battery.
Align the processor and the guides in the chassis.
Gently slide the processor in the chassis. Secure the top retainer clips and secure the bottom retainer clips.
Install a wire tie in order to secure the wiring.The results of the preceding procedure are in the following
System Operation
The SLC 5/04 diagnostic indicators are located on the front of the following components: Power Supply, CPU and I/O Modules.The diagnostic indicators help trace the source of the fault. Faults can be found in the following components: Input devices, Output devices, Wiring and The controller.The battery is a replaceable lithium battery. The battery provides backup power for approximately two years. The "BATT" LED on the front of the processor alerts you when the battery voltage has fallen below a threshold level.The red "FLT" LED is flashing during operation. The processor detects a major fault. The fault is in the processor expansion chassis or the fault is in the memory.The red "BATT" LED is illuminated. The battery voltage has fallen below a threshold level.The red "BATT" LED is not illuminated. The battery is functional.
Illustration 1 g00563546
Diagram of the LED indicators
Illustration 2 g00563548
Functional Test
Check the electrical connectors and check the wiring.
Bodily contact with electrical potential can cause bodily injury or death.To avoid the possibility of injury or death, ensure that the main power supply has been disconnected before performing any maintenance or removing any modules.
Disconnect the power supply.
Check the electrical connectors and check the wiring for damage or bad connections.
Verify that all modules are properly seated.
Verify the status of the LED on the SLC 5/04.The results of the preceding procedure are in the following list:
All of the components are fully installed. All of the components are free of corrosion. All of the components are free of damage. All of the modules are properly seated. Proceed to 2.
The components are not fully installed. The components are not free of corrosion. The components are damaged. All of the modules are not properly seated. Repair the component. Verify that the repair resolves the problem. STOP.
Verify that the battery is connected.
Verify that the battery is properly connected.The results of the preceding procedure are in the following list:
The battery is properly connected. Replace the battery. Verify that the repair resolves the problem. Refer to Maintenance Procedure, "Battery - Replace". Stop.
The battery is not properly connected. Proceed to 3.
Replace the battery.
To avoid damage to electronic components, do not remove the processor from the SLC 5/04 Chassis until all power is removed from the power supply.Do not expose memory modules to surfaces or areas that may typically hold an electrostatic charge.
Secure power to the processor.
Press the retaining clips at the top of the processor and press the retaining clips at the bottom of the processor.
Remove the processor from the chassis.
To avoid potential damage to the processor, handle all modules by the ends of the carrier or edges of the plastic housing. Skin oil or dirt can corrode metallic surfaces, inhibiting electrical contact.
Disconnect the battery. Remove the battery.
Install the new battery. Connect the new battery.
Align the processor and the guides in the chassis.
Gently slide the processor in the chassis. Secure the top retainer clips and secure the bottom retainer clips.
Install a wire tie in order to secure the wiring.The results of the preceding procedure are in the following