Information fuel-injection pump
BOSCH
9 410 617 943
9410617943
ZEXEL
104266-5110
1042665110
NIIGATA-URAWA
12147005A
12147005a
Rating:
Components :
| 0. | INJECTION-PUMP ASSEMBLY | 104266-5110 |
| 1. | _ | |
| 2. | FUEL INJECTION PUMP | |
| 3. | NUMBER PLATE | |
| 4. | _ | |
| 5. | CAPSULE | |
| 6. | ADJUSTING DEVICE | |
| 7. | NOZZLE AND HOLDER ASSY | |
| 8. | Nozzle and Holder | |
| 9. | Open Pre:MPa(Kqf/cm2) | |
| 10. | NOZZLE-HOLDER | |
| 11. | NOZZLE |
Scheme ###:
| 1. | [1] | 141053-5920 | PUMP HOUSING |
| 5. | [1] | 141176-0621 | PLUNGER-AND-BARREL ASSY |
| 12. | [1] | 141145-1920 | DELIVERY-VALVE ASSEMBLY |
| 20. | [1] | 141118-2000 | O-RING |
| 21. | [1] | 141119-3600 | FLANGE BUSHING |
| 22. | [6] | 141124-1300 | BLEEDER SCREW |
| 25. | [1] | 141482-9600 | O-RING |
| 50. | [1] | 141215-5402 | COMPRESSION SPRING |
| 51. | [1] | 141216-1800 | SLOTTED WASHER |
| 52. | [1] | 141217-5500 | SLOTTED WASHER |
| 53. | [1] | 141218-7920 | GUIDE |
| 55. | [1] | 141220-1200 | LOCKING WASHER |
| 60. | [1] | 141244-8200 | CONTROL RACK |
| 77. | [1] | 141241-7200 | CONTROL SLEEVE |
| 81. | [1] | 141245-2000 | POINTER |
| 82/1. | [0] | 023500-6210 | PLAIN WASHER D11&6.4T1.5 |
| 82/1. | [0] | 029300-6010 | PLAIN WASHER D11&6.4T0.8 |
| 82/1. | [0] | 029300-6020 | PLAIN WASHER D11&6.4T0.35 |
| 83. | [1] | 020006-1440 | BLEEDER SCREW M6P1L14 |
| 92. | [1] | 141401-2500 | BUSHING |
| 93. | [1] | 141402-2720 | EYE BOLT |
| 94. | [2] | 141403-1600 | GASKET |
| 110. | [1] | 140420-1600 | BLEEDER SCREW |
| 111. | [1] | 141421-0000 | GASKET |
| 160. | [1] | 141418-1400 | SET OF NUTS |
| 161. | [1] | 141107-0700 | GASKET |
| 162. | [1] | 141480-0900 | COVER |
| 163. | [1] | 010038-1020 | BLEEDER SCREW |
| 164. | [1] | 141107-0700 | GASKET |
| 170. | [1] | 141133-1000 | CAPSULE |
| 171. | [1] | 141403-1600 | GASKET |
Include in #1:
101491-9771
as _
Include in #2:
104266-5110
as INJECTION-PUMP ASSEMBLY
Cross reference number
Zexel num
Bosch num
Firm num
Name
104266-5110
12147005A NIIGATA-URAWA
FUEL-INJECTION PUMP
K 24FX FUEL INJECTION PUMP PF-1GX PF
K 24FX FUEL INJECTION PUMP PF-1GX PF
104266-5110
12147005A NIIGATA-TEKKOU
FUEL-INJECTION PUMP
K 24FX FUEL INJECTION PUMP PF-1GX PF
K 24FX FUEL INJECTION PUMP PF-1GX PF
Information:
Locations and Methods for Measuring the Pressures of the Low-Pressure Fuel System
Illustration 1 g03325145
Front View of a typical fuel inlet lines group (A) Fuel inlet port (B) Test port for the fuel supply pressure (C) Fuel transfer pump (D) Test port location for system pressureInlet Fuel Pressure to the Transfer Pump (set at rated speed and load)
Install a 6V-3965 Fitting into Port (B) using a 214-7568 O-Ring Seal Note: The inlet pressure to the fuel transfer pump can affect overall system pressure. All filters or water separators before the transfer pump must be new and clean prior to setting the system pressure at the fuel pressure regulator.
Connect the 6V-7830 Pressure Gauge to the fitting installed in the previous step.
Set the engine to rated speed and load. Record the fuel pressure, and refer to the specifications above.Primary and Secondary Fuel Filter Differential Pressure
Primary and secondary fuel filter differential pressures are determined by the pressures from both sides of the fuel filters. This measurement will monitor fuel filter cleanliness and determine when the fuel filters require changing. Filter replacement will vary depending on fuel quality. Fuel quality can change with each shipment of fuel so monitoring the filter differential is necessary to obtain maximum filter life.Too high of a differential can cause air bubbles in the fuel system and if not corrected will lead to poor performance and injector damage. After the measurements are taken, refer to the specification above for the maximum allowable differential pressure.Primary filters or water separators should be properly sized to meet the flow requirements of the engine or engines as well as fuel being returned to the tank. Reference Table 4 for the flow requirements.
Table 4
3600 Engine Fuel Flow
Engine Model Rated Speed (rpm) Fuel Flow to Engine Fuel Flow from Engine Fuel Heat Rejection
3606 1000
41.5 L/min (11 US gpm)
32.4 L/min (8.6 US gpm)
12.5 kW (712 Btu/min)
900
38 L/min (10 US gpm)
30.0 L/min (7.9 US gpm)
11.0 kW (626 Btu/min)
750
31.5 L/min (8.3 US gpm)
24.5 L/min (6.5 US gpm)
10.5 kW (598 Btu/min)
720
30 L/min (7.9 US gpm)
23.6 L/min (6.2 US gpm)
10.0 kW (567 Btu/min)
3608 1000
41.5 L/min (11 US gpm)
30.0 L/min (7.9 US gpm)
16.7 kW (951 Btu/min)
900
38 L/min (10 US gpm)
27.6 L/min (7.3 US gpm)
14.6 kW (831 Btu/min)
750
31.5 L/min (8.3 US gpm)
22.6 L/min (6.0 US gpm)
14.0 kW (797 Btu/min)
720
30 L/min (7.9 US gpm)
21.4 L/min (5.6 US gpm)
13.3 kW (757 Btu/min)
3612 1000
78.5 L/min (20.7 US gpm)
60.1 L/min (15.9 US gpm)
25.0 kW (1423 Btu/min)
900
72 L/min (19 US gpm)
55.4 L/min (14.6 US gpm)
22.0 kW (1252 Btu/min)
750
61.2 L/min (16.2 US gpm)
47.3
Illustration 1 g03325145
Front View of a typical fuel inlet lines group (A) Fuel inlet port (B) Test port for the fuel supply pressure (C) Fuel transfer pump (D) Test port location for system pressureInlet Fuel Pressure to the Transfer Pump (set at rated speed and load)
Install a 6V-3965 Fitting into Port (B) using a 214-7568 O-Ring Seal Note: The inlet pressure to the fuel transfer pump can affect overall system pressure. All filters or water separators before the transfer pump must be new and clean prior to setting the system pressure at the fuel pressure regulator.
Connect the 6V-7830 Pressure Gauge to the fitting installed in the previous step.
Set the engine to rated speed and load. Record the fuel pressure, and refer to the specifications above.Primary and Secondary Fuel Filter Differential Pressure
Primary and secondary fuel filter differential pressures are determined by the pressures from both sides of the fuel filters. This measurement will monitor fuel filter cleanliness and determine when the fuel filters require changing. Filter replacement will vary depending on fuel quality. Fuel quality can change with each shipment of fuel so monitoring the filter differential is necessary to obtain maximum filter life.Too high of a differential can cause air bubbles in the fuel system and if not corrected will lead to poor performance and injector damage. After the measurements are taken, refer to the specification above for the maximum allowable differential pressure.Primary filters or water separators should be properly sized to meet the flow requirements of the engine or engines as well as fuel being returned to the tank. Reference Table 4 for the flow requirements.
Table 4
3600 Engine Fuel Flow
Engine Model Rated Speed (rpm) Fuel Flow to Engine Fuel Flow from Engine Fuel Heat Rejection
3606 1000
41.5 L/min (11 US gpm)
32.4 L/min (8.6 US gpm)
12.5 kW (712 Btu/min)
900
38 L/min (10 US gpm)
30.0 L/min (7.9 US gpm)
11.0 kW (626 Btu/min)
750
31.5 L/min (8.3 US gpm)
24.5 L/min (6.5 US gpm)
10.5 kW (598 Btu/min)
720
30 L/min (7.9 US gpm)
23.6 L/min (6.2 US gpm)
10.0 kW (567 Btu/min)
3608 1000
41.5 L/min (11 US gpm)
30.0 L/min (7.9 US gpm)
16.7 kW (951 Btu/min)
900
38 L/min (10 US gpm)
27.6 L/min (7.3 US gpm)
14.6 kW (831 Btu/min)
750
31.5 L/min (8.3 US gpm)
22.6 L/min (6.0 US gpm)
14.0 kW (797 Btu/min)
720
30 L/min (7.9 US gpm)
21.4 L/min (5.6 US gpm)
13.3 kW (757 Btu/min)
3612 1000
78.5 L/min (20.7 US gpm)
60.1 L/min (15.9 US gpm)
25.0 kW (1423 Btu/min)
900
72 L/min (19 US gpm)
55.4 L/min (14.6 US gpm)
22.0 kW (1252 Btu/min)
750
61.2 L/min (16.2 US gpm)
47.3