Fuel Delivery Failure in the Case 1835C with TMD20 Diesel Engine

[MikePhua]

The Case 1835C and Its Mechanical Simplicity
The Case 1835C skid steer loader was introduced in the 1980s as part of Case’s compact equipment lineup. Designed for versatility in construction, agriculture, and landscaping, the 1835C featured a robust frame, mechanical controls, and a reliable diesel powerplant. Many units were equipped with the TMD20 engine, a naturally aspirated three-cylinder diesel built by Mitsubishi. Known for its fuel efficiency and low-end torque, the TMD20 was a popular choice for compact machines requiring consistent performance in tight spaces.
Despite its simplicity, the fuel system in the 1835C can suffer from age-related degradation, especially when components like lift pumps, filters, and injection pumps are neglected. Fuel starvation—particularly during startup or under load—is a common issue in older machines and often misdiagnosed.
Terminology Notes

• Lift Pump: A low-pressure mechanical or electric pump that draws fuel from the tank to the injection pump.
  
• Injection Pump: A high-pressure pump that meters and delivers fuel to each cylinder at precise timing intervals.
  
• Fuel Solenoid: An electrically actuated valve that enables or disables fuel flow to the injection pump.
  
• Bleed Screw: A small valve used to purge air from the fuel system during priming.
  

Symptoms of Fuel Delivery Failure
Operators typically report:

• Engine cranks but does not start
  
• No fuel reaching injectors during cranking
  
• Fuel present at filter but absent at injection pump
  
• Solenoid clicks but fails to open fully
  
• Engine starts briefly with ether but dies immediately
  

A contractor in Alberta noted that his 1835C would crank strongly but never fire. After checking the tank and lines, he discovered no fuel at the injector lines despite a full tank and clean filter.
Initial Diagnostic Steps
Start with basic checks:

• Confirm fuel level and inspect tank for debris or water
  
• Check lift pump operation by disconnecting outlet and cranking engine
  
• Inspect fuel filter for clogging or collapsed media
  
• Test fuel solenoid for voltage and audible activation
  
• Crack injector lines and observe fuel spray during cranking
  

A technician in Georgia used a hand primer to push fuel through the system and found resistance at the injection pump inlet. Removing the inlet banjo bolt revealed a blocked screen inside the fitting.
Common Failure Points and Solutions
Fuel starvation in the TMD20 system often stems from:

• Clogged inlet screen at injection pump
  
• Failed lift pump diaphragm or check valve
  
• Air leaks at hose clamps or fittings
  
• Stuck fuel solenoid due to corrosion or weak spring
  
• Internal injection pump wear or seized plungers
  

Recommended solutions:

• Replace lift pump with OEM or high-quality aftermarket unit
  
• Clean or replace inlet screen and banjo bolt washers
  
• Test solenoid with direct 12V source and verify full stroke
  
• Bleed system thoroughly using primer and injector line cracking
  
• If pump remains dry, remove and bench test injection pump
  

A municipal crew in Maine rebuilt the injection pump after discovering internal rust from water-contaminated fuel. Post-repair, the machine started reliably even in cold weather.
Preventive Maintenance and Upgrade Suggestions
To prevent future fuel issues:

• Replace fuel filter every 250 hours or annually
  
• Drain water separator weekly in humid climates
  
• Use biocide additives to prevent microbial growth
  
• Install clear inline filter before lift pump for visual inspection
  
• Add manual primer bulb for easier bleeding after service
  

Upgrade options:

• Retrofit electric lift pump with relay and fuse protection
  
• Replace rubber fuel lines with ethanol-resistant hose
  
• Add fuel pressure gauge between lift and injection pump
  
• Install tank vent with moisture trap to reduce condensation
  

A contractor in Texas added a fuel pressure sensor and discovered intermittent drop during hot operation. Replacing the lift pump resolved the issue and improved throttle response.
Anecdote from the Field
In 2023, a small excavation firm in Pennsylvania faced repeated no-start conditions on their aging 1835C. The operator suspected electrical faults, but a mechanic traced the issue to a blocked inlet screen at the injection pump. After cleaning the screen and replacing the lift pump, the machine started instantly. The owner later added a laminated fuel system diagram to the cab for quick reference during troubleshooting.
Conclusion
Fuel delivery failure in the Case 1835C with TMD20 engine is often caused by overlooked components like inlet screens, solenoids, and lift pumps. With methodical inspection and targeted repairs, most issues can be resolved without major overhaul. For operators who rely on their machines daily, fuel flow is not just a technical detail—it’s the heartbeat of productivity. Regular maintenance and thoughtful upgrades ensure that even vintage iron keeps moving forward.