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When restoring a Case 850D dozer after extended downtime, one of the most common issues encountered is fuel delivery problems—often traced to damaged or missing injector pipes. These high-pressure lines are critical for delivering fuel from the injection pump to each cylinder, and even a minor crack or misfit can cause misfires, poor performance, or fuel leaks.
Machine Background and Engine Configuration
The Case 850D crawler dozer was introduced in the late 1980s as part of Case’s long-running 850 series. It was powered by a naturally aspirated or turbocharged diesel engine, depending on configuration, and used either a CAV Lucas or Bosch VE injection pump. These engines were known for their mechanical simplicity and field serviceability, making them popular in forestry, grading, and agricultural applications.
The part number for the injector pipe depends on whether the machine is equipped with a naturally aspirated or turbocharged engine, as well as the type of injection pump:
Repair vs. Replacement Options
In cases where the original pipe is only slightly damaged, repair may be possible:
Installation Tips and Precautions
Conclusion
Replacing an injector pipe on a Case 850D is a straightforward but critical repair that restores proper fuel delivery and engine performance. By identifying the correct part number based on engine configuration and sourcing from either OEM or reputable diesel shops, operators can minimize downtime and avoid costly misfires or leaks. Whether repairing or replacing, attention to detail during installation ensures long-term reliability in the field.
Machine Background and Engine Configuration
The Case 850D crawler dozer was introduced in the late 1980s as part of Case’s long-running 850 series. It was powered by a naturally aspirated or turbocharged diesel engine, depending on configuration, and used either a CAV Lucas or Bosch VE injection pump. These engines were known for their mechanical simplicity and field serviceability, making them popular in forestry, grading, and agricultural applications.
- Engine type: 4-cylinder diesel, naturally aspirated or turbocharged
- Fuel system: Mechanical direct injection
- Injector pipe layout: Individual steel lines from pump to each injector
- Common failure: Cracked or broken #4 injector pipe due to vibration or corrosion
The part number for the injector pipe depends on whether the machine is equipped with a naturally aspirated or turbocharged engine, as well as the type of injection pump:
- Naturally aspirated engine with CAV Lucas pump
CNH part number: J914802
Cummins equivalent: 3914802
- Turbocharged engine with Bosch VE pump
CNH part number: J903488
Cummins equivalent: 903488
Repair vs. Replacement Options
In cases where the original pipe is only slightly damaged, repair may be possible:
- Brazing or silver soldering small cracks, followed by pressure testing
- Re-flaring ends if the sealing surface is worn
- Custom fabrication by a diesel injection shop using the original as a template
Installation Tips and Precautions
- Clean all fittings thoroughly before installation to prevent contamination
- Use new sealing washers or banjo bolts if applicable
- Torque fittings to spec—over-tightening can deform the flare and cause leaks
- Prime the fuel system after installation to remove air
- Check for leaks under load after the engine reaches operating temperature
Conclusion
Replacing an injector pipe on a Case 850D is a straightforward but critical repair that restores proper fuel delivery and engine performance. By identifying the correct part number based on engine configuration and sourcing from either OEM or reputable diesel shops, operators can minimize downtime and avoid costly misfires or leaks. Whether repairing or replacing, attention to detail during installation ensures long-term reliability in the field.