Thread Rating:
  • 0 Vote(s) - 0 Average
  • 1
  • 2
  • 3
  • 4
  • 5
Diagnosing Hydraulic Failure in a 1967 Case 580CK Loader Backhoe
#1
The Case 580CK and Its Hydraulic Legacy
The Case 580 Construction King (CK) was introduced in the mid-1960s as one of the earliest integrated loader-backhoe machines. Built by J.I. Case Company, the 580CK combined a rugged diesel powertrain with a fully hydraulic loader and backhoe system. It quickly became a staple in municipal fleets, farms, and small contractors’ yards. With tens of thousands sold across North America, the 580CK helped define the compact backhoe market.
The 1967 model featured a gear-driven transmission, mechanical clutch, and open-center hydraulic system. Fluid was supplied from a reservoir integrated with the transmission housing, routed through a suction line to a front-mounted gear pump, then distributed to loader and backhoe valves. While simple in design, the system is vulnerable to age-related failures—especially contamination, seal degradation, and relief valve malfunction.
Symptoms of Hydraulic Loss and Initial Observations
In one case, the operator experienced sudden failure of both loader and backhoe lift functions. The bucket would only rise a fraction of an inch with each lever pull, accompanied by a bypassing sound—suggesting fluid was returning to tank without building pressure. The backhoe boom showed identical behavior, pointing to a shared hydraulic fault.
Initial checks included:
  • Fluid level: Slightly low, topped off
  • Filter condition: Dirty, with visible debris
  • Debris type: Orange rubber fragments resembling degraded O-rings
Terminology annotation:
- Open-center system: A hydraulic configuration where fluid flows continuously through the valve until a function is activated.
- Bypass sound: Audible indication of fluid returning to reservoir without performing work, often due to relief valve activation.
- Relief valve: A pressure-regulating component that protects the system from overload by diverting excess fluid.
- Poppet: A small valve element that opens or closes under pressure, critical in staged relief valves.
Filter Contamination and O-Ring Fragmentation
The discovery of rubber fragments in the filter housing suggested internal seal failure. The pieces measured approximately 3/16" thick and curved, indicating they likely came from a large-diameter O-ring—possibly from a cylinder gland, pump section, or valve body. In older machines, degraded seals can migrate through the system and lodge in critical components.
Contaminated filters restrict flow and can trigger premature relief valve activation. In this case, replacing the filter and topping off fluid did not restore function, confirming that the issue lay deeper in the hydraulic circuit.
Relief Valve Inspection and Debris Clearing Technique
The main relief valve on the 580CK is a two-stage unit with a small poppet controlling the primary dump. A single fragment of rubber or dirt lodged in the poppet seat can cause the valve to remain open, bypassing pressure to tank. One technician recommended backing out the relief valve adjustment screw several turns (while counting for reset), running the machine briefly at high idle, then resetting the screw. This technique can flush debris from the poppet without disassembly.
If unsuccessful, the valve cartridge must be removed and inspected for:
  • Missing or damaged O-rings
  • Broken springs
  • Scored poppet surfaces
  • Lodged debris in the seat
This approach resolved the issue in the reported case, restoring full lift function to both loader and backhoe.
Pump Integrity and Shaft Coupling Considerations
While pump failure was considered, the fact that the bucket moved incrementally suggested the pump was still producing pressure. However, older gear pumps may suffer from:
  • Worn gears reducing displacement
  • Broken shaft keys or couplers
  • Internal leakage due to worn seals
If the pump shaft is broken, no pressure will be generated. But partial movement and audible bypassing point more toward relief valve malfunction or valve body blockage.
Cylinder Diagnosis and Secondary Leak Detection
Once lift functions were restored, the operator noticed rapid leak-down in the main boom cylinder. This confirmed that the original O-ring failure likely occurred in the cylinder gland, with fragments migrating into the system. Cylinder seal kits are available for the 580CK and typically include:
  • Rod seal
  • Wiper
  • Backup ring
  • O-ring or square ring
Rebuilding the cylinder requires removing the pin, retracting the rod, and using a gland wrench or spanner to extract the seal head. Care must be taken to avoid scoring the rod or barrel.
Preventive Measures and Long-Term Maintenance
To prevent recurrence:
  • Flush the hydraulic system after major seal failure
  • Replace fluid with high-detergent hydraulic oil
  • Install a magnetic suction screen to trap debris
  • Inspect all cylinders for seal degradation
  • Maintain clean fill procedures to avoid contamination
For machines stored long-term, seals dry out and crack. Running the system without warming up can cause sudden failure. Periodic cycling of functions and fluid checks are essential.
Conclusion
Hydraulic failure in a 1967 Case 580CK often stems from age-related seal breakdown and contamination. In this case, debris from a failed O-ring lodged in the relief valve poppet, causing system-wide bypassing and loss of lift. By flushing the valve and inspecting the filter, the operator restored function and identified the source of contamination. For legacy equipment, understanding the interplay between valves, pumps, and seals is key to diagnosing and repairing hydraulic faults. With careful attention and methodical troubleshooting, even a half-century-old backhoe can return to reliable service.
We sell 3 types:
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
Reply


Possibly Related Threads…
Thread Author Replies Views Last Post
  Resolving Hydraulic Plug Leakage on the Caterpillar D3G Dozer MikePhua 0 1 Less than 1 minute ago
Last Post: MikePhua
  Removing the Differential Cover for Brake Repair on the 1970 Case 580CK Backhoe MikePhua 0 2 3 minutes ago
Last Post: MikePhua
  Starting Troubleshooting for the 1973 International 175C Track Loader MikePhua 0 1 9 minutes ago
Last Post: MikePhua
  Removing the Crown Gear Shaft from a 580B Backhoe MikePhua 0 1 10 minutes ago
Last Post: MikePhua
  Lock Ring Fitment Issues on IH 3500A Hydraulic Tube Assemblies MikePhua 0 1 10 minutes ago
Last Post: MikePhua
  Diagnosing Power and Drive Issues on the 2006 Tigercat 625C Skidder MikePhua 0 3 5 hours ago
Last Post: MikePhua
  Resolving Power Loss in the Caterpillar B277 Compact Track Loader MikePhua 0 3 5 hours ago
Last Post: MikePhua
  Replacing the Hydraulic Pump Driveshaft on a JCB 1400B Backhoe MikePhua 0 3 5 hours ago
Last Post: MikePhua
  Troubleshooting Hydraulic Weakness on the Champion 730A VHP Series V Grader MikePhua 0 4 5 hours ago
Last Post: MikePhua
  Diagnosing Progressive Power Loss in a Hitachi OH082 Excavator MikePhua 0 1 5 hours ago
Last Post: MikePhua
  Diagnosing Steering Resistance on the John Deere 650G Dozer MikePhua 0 1 5 hours ago
Last Post: MikePhua
  Diagnosing Function Loss on a JLG 40H Boom Lift MikePhua 0 2 6 hours ago
Last Post: MikePhua
  Hydraulic Line Repair on the Hitachi UH062 Excavator MikePhua 0 1 6 hours ago
Last Post: MikePhua
  Rebuilding the Dipper Cylinder on a Case 580C Backhoe MikePhua 0 1 6 hours ago
Last Post: MikePhua
  Diagnosing Fuse Blowouts on the Caterpillar 302.5C Mini Excavator MikePhua 0 1 6 hours ago
Last Post: MikePhua

Forum Jump:


Users browsing this thread: