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The CASE CX160 and Its Role in Mid-Size Excavation
The CASE CX160 hydraulic excavator was introduced in the early 2000s as part of CASE Construction Equipment’s CX series, designed to deliver improved fuel efficiency, electronic control, and operator comfort. With an operating weight around 36,000 lbs and a 120 HP diesel engine, the CX160 became a popular choice for contractors handling trenching, site prep, and utility work. CASE, founded in 1842, has long been known for its innovations in agricultural and construction machinery, and the CX series marked a shift toward electronically managed hydraulics and engine systems.
The CX160 features a throttle motor controlled by a cab-mounted dial and an electronic driver module. This setup allows for precise engine speed modulation, but also introduces vulnerability to electrical faults, especially during welding or repair operations.
Terminology Annotation
In one case, a technician welded a crack in the bell housing near the hydraulic pump without disconnecting the battery or throttle motor. A small fire ignited below the throttle motor, melting insulation on several wires. After splicing and replacing the damaged wires, the throttle dial in the cab still failed to respond, and the screen displayed an electrical fault.
This scenario highlights a common oversight: welding near sensitive electronics without isolating the system. Electrical current can travel through wiring harnesses, damaging control modules and sensors. The throttle motor itself appeared intact, but one ground wire was stiff and heat-damaged, suggesting internal resistance or partial failure.
Recommended steps:
Drive Motor Brake Issue and Hydraulic Pressure Imbalance
In addition to throttle failure, the same machine exhibited problems with one of the drive motors. After replacing a stripped center shaft and planetary gear bearings, the motor failed to release its brake properly. The operator had to use boom functions to build pressure before the track would move, and even then, movement was inconsistent.
Hydraulic pressure readings showed only 500 psi on the affected side, while the functional side reached 1,200 psi immediately. This suggests a failure in the servo pressure delivery to the brake piston or a misassembled valve plate inside the motor.
Inspection checklist:
Field Repair Strategy and Lessons Learned
The technician eventually purchased a service manual and confirmed the internal layout of the drive motor. Scratches on the distribution plate and missing centering pins were identified as the root cause. After installing the correct components, the drive motor began functioning normally.
Tips for future repairs:
Conclusion
Throttle failure and drive motor brake issues on the CASE CX160 excavator stemmed from electrical damage during welding and misassembly of internal hydraulic components. By methodically testing wiring, replacing the throttle driver, and realigning the valve plate with proper centering pins, the technician restored full functionality. The CX160’s electronically managed systems offer precision and efficiency, but demand careful handling during repairs. With the right approach, even complex faults can be resolved in the field—keeping the machine moving and the job on track.
The CASE CX160 hydraulic excavator was introduced in the early 2000s as part of CASE Construction Equipment’s CX series, designed to deliver improved fuel efficiency, electronic control, and operator comfort. With an operating weight around 36,000 lbs and a 120 HP diesel engine, the CX160 became a popular choice for contractors handling trenching, site prep, and utility work. CASE, founded in 1842, has long been known for its innovations in agricultural and construction machinery, and the CX series marked a shift toward electronically managed hydraulics and engine systems.
The CX160 features a throttle motor controlled by a cab-mounted dial and an electronic driver module. This setup allows for precise engine speed modulation, but also introduces vulnerability to electrical faults, especially during welding or repair operations.
Terminology Annotation
- Throttle Motor: An electric actuator that adjusts fuel delivery to control engine RPM
- Driver Module: An electronic control unit that interprets cab inputs and signals the throttle motor
- Continuity Check: A diagnostic test to verify electrical connectivity between components
- Bell Housing: The casing that connects the engine to the hydraulic pump and transmission
In one case, a technician welded a crack in the bell housing near the hydraulic pump without disconnecting the battery or throttle motor. A small fire ignited below the throttle motor, melting insulation on several wires. After splicing and replacing the damaged wires, the throttle dial in the cab still failed to respond, and the screen displayed an electrical fault.
This scenario highlights a common oversight: welding near sensitive electronics without isolating the system. Electrical current can travel through wiring harnesses, damaging control modules and sensors. The throttle motor itself appeared intact, but one ground wire was stiff and heat-damaged, suggesting internal resistance or partial failure.
Recommended steps:
- Disconnect battery and inspect all wiring for continuity
- Test throttle motor resistance and movement manually
- Replace the throttle driver module if wiring checks out
- Use dielectric grease on connectors to prevent future corrosion
Drive Motor Brake Issue and Hydraulic Pressure Imbalance
In addition to throttle failure, the same machine exhibited problems with one of the drive motors. After replacing a stripped center shaft and planetary gear bearings, the motor failed to release its brake properly. The operator had to use boom functions to build pressure before the track would move, and even then, movement was inconsistent.
Hydraulic pressure readings showed only 500 psi on the affected side, while the functional side reached 1,200 psi immediately. This suggests a failure in the servo pressure delivery to the brake piston or a misassembled valve plate inside the motor.
Inspection checklist:
- Verify hose routing and connections at the swivel joint
- Check for missing or misaligned centering pins on the valve plate
- Inspect brake piston seals for pinching or damage
- Confirm that secondary relief valves are adjusted correctly
Field Repair Strategy and Lessons Learned
The technician eventually purchased a service manual and confirmed the internal layout of the drive motor. Scratches on the distribution plate and missing centering pins were identified as the root cause. After installing the correct components, the drive motor began functioning normally.
Tips for future repairs:
- Always isolate electrical systems before welding
- Label and photograph hydraulic connections before disassembly
- Use vertical orientation when assembling final drives to prevent pin misalignment
- Pressure test each function after reassembly to confirm performance
Conclusion
Throttle failure and drive motor brake issues on the CASE CX160 excavator stemmed from electrical damage during welding and misassembly of internal hydraulic components. By methodically testing wiring, replacing the throttle driver, and realigning the valve plate with proper centering pins, the technician restored full functionality. The CX160’s electronically managed systems offer precision and efficiency, but demand careful handling during repairs. With the right approach, even complex faults can be resolved in the field—keeping the machine moving and the job on track.
We sell 3 types:
1. Brand-new excavators.
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3. Excavators sold by original owners
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Whatsapp/Line: +66989793448 Wechat: waji8243
1. Brand-new excavators.
2. Refurbished excavators for rental business, in bulk.
3. Excavators sold by original owners
https://www.facebook.com/ExcavatorSalesman
https://www.youtube.com/@ExcavatorSalesman
Whatsapp/Line: +66989793448 Wechat: waji8243
