Pilot Control Shimming on ASV RC30: Diagnosis and Solutions

[MikePhua]

The ASV RC30 is a compact track loader known for its versatility and efficient operation in various applications. One of the core systems in the ASV RC30 is its pilot control system, which governs the loader's movements. When issues arise in this system, such as erratic or unresponsive controls, shimming may become necessary to restore proper function. Understanding the process of pilot control shimming, its causes, and how to resolve it effectively is key to maintaining the performance and longevity of the machine.
This article will provide a detailed explanation of pilot control shimming on the ASV RC30, including how to diagnose control issues, the importance of shimming, and practical steps for fixing it.
What is Pilot Control Shimming?
Pilot controls are hydraulic systems used to operate heavy equipment in a smooth, precise manner. In the case of the ASV RC30, the pilot control system is responsible for the loader’s steering and boom functions. It uses hydraulic pressure to transmit movement commands from the operator to the machine. When the pilot system becomes misaligned or worn, the loader can experience issues such as slow or jerky movements, erratic control responses, or even failure to operate certain functions altogether.
Shimming is the process of adjusting the internal components of the pilot control system, specifically the valves or other parts, to restore proper operation. This adjustment involves adding or modifying shims (thin metal washers) to correct valve alignment, control sensitivity, and ensure that the system is functioning within optimal parameters.
Causes of Pilot Control Issues
Several factors can cause pilot control issues that may require shimming on the ASV RC30:
1. Hydraulic System Wear
The pilot control system is highly dependent on hydraulic fluid pressure. Over time, as the hydraulic components wear down, there can be excessive play or leakage within the system, causing a loss of control sensitivity. This results in delayed or jerky responses from the machine’s movements, especially when using precise functions such as boom lifts or steering adjustments.

• Worn Valves: The control valves responsible for directing hydraulic fluid can wear down, leading to poor or inconsistent movement control.
  
• Leaking Seals: Leaking seals around pilot lines can reduce pressure, affecting the responsiveness of the system.
  

2. Improperly Calibrated Controls
If the pilot control system was not properly calibrated during manufacturing, or if it has been tampered with during repairs or upgrades, the control levers may not provide consistent input to the hydraulic system. This can cause the loader to behave unpredictably, especially when operating under high load or pressure.
3. Contamination in the Hydraulic System
Contaminants such as dirt, debris, or water can compromise the hydraulic fluid’s integrity. Contaminants can lead to clogging, affecting the flow of hydraulic fluid, which in turn affects the pilot control system’s precision.

• Dirty Filters: If the hydraulic filters are clogged, the fluid’s flow rate will be disrupted, leading to sluggish or uneven control responses.
  
• Water in the Hydraulic Fluid: Water can cause corrosion within the system and reduce its ability to properly transmit hydraulic pressure.
  

4. Improper Shimming or Adjustments
In some cases, the pilot control system may not have been properly shimmed during assembly or previous repairs. Shims control the clearance within hydraulic valves, and if they are either too thick or too thin, they can cause improper operation. Too much clearance can result in loss of control, while too little clearance can cause binding and resistance.
Diagnosing Pilot Control Problems on the ASV RC30
Before beginning any work on the pilot control system, it’s important to diagnose the problem accurately. Below are steps to troubleshoot pilot control issues:
1. Check for Control Irregularities
Operate the loader and observe how the pilot controls respond. Pay attention to the following:

• Unresponsive or Slow Movements: If the loader is slow to respond to input or movements feel jerky, it could be due to air or fluid entering the system, or issues with the valves.
  
• Erratic Control: If the loader moves in unpredictable directions or the response varies with the load, there may be an issue with the hydraulic pressure regulation or shimming.
  

2. Inspect Hydraulic System Pressure
Using a pressure gauge, check the hydraulic fluid pressure at various points within the system, especially near the pilot control valves. Low or fluctuating pressure can point to issues such as:

• Worn Hydraulic Pump: A pump that is not delivering consistent pressure can lead to erratic movements.
  
• Leaking Hoses or Valves: Visible leaks or a drop in pressure when certain functions are engaged can indicate compromised seals or valves.
  

3. Examine Pilot Control Levers and Linkages
Check the levers or joysticks for proper movement. If they feel stiff, loose, or unresponsive, there may be an issue with the internal components, such as the linkages or control valves.
4. Inspect Hydraulic Lines and Fluid

• Check for Contamination: Drain the hydraulic fluid and inspect for signs of contamination, such as particles or a milky appearance (indicative of water in the fluid).
  
• Replace Filters: Dirty or clogged filters should be replaced to ensure proper fluid flow.
  

5. Check for System Leaks
Perform a thorough inspection of all hydraulic lines, seals, and connections. Even a small leak can cause a drop in hydraulic pressure, affecting the responsiveness of the pilot control system.
Shimming the Pilot Control System
Once the issue is diagnosed and the cause identified, shimming the pilot control system may be the necessary solution. The process involves the following steps:
1. Gather Necessary Tools and Parts
Before starting, ensure that you have the following tools and components:

• Shims: These thin metal washers come in different thicknesses and materials. Make sure you have the right type for the valves in the pilot control system.
  
• Wrenches and Screwdrivers: For removing and installing parts.
  
• Torque Wrench: To ensure proper tightness when reassembling.
  
• Hydraulic Fluid: Ensure that the fluid is clean and compatible with the system.
  

2. Disassemble the Pilot Control Valve

• Remove the Control Levers: Carefully remove the control levers or joystick from their mounts.
  
• Access the Pilot Control Valve: Once the levers are removed, access the control valves and locate the valve stack. The valves may be housed under a cover or panel that needs to be removed.
  

3. Inspect and Replace Shims

• Check Existing Shims: Once the valve is exposed, check the existing shims for wear or deformation. If the shims are too thick, they may be causing excessive clearance, while if they’re too thin, they may be causing binding.
  
• Adjust the Shims: Replace or add shims as needed. Ensure that the new shims restore proper alignment of the valve components and create the right amount of clearance. Use a feeler gauge to measure the gap accurately.
  

4. Reassemble and Test the System

• Reassemble the Control Valve: Once the shimming is complete, reassemble the control valve carefully. Torque all bolts to the manufacturer’s specified settings.
  
• Test the System: After reassembling, start the loader and test the pilot control system. Check for smooth, responsive control and make sure there is no binding or delay in movement. If needed, fine-tune the shims to achieve optimal performance.
  

Preventive Measures and Maintenance Tips

• Regular Hydraulic Fluid Changes: Regularly change the hydraulic fluid and replace the filters to prevent contamination and maintain proper fluid pressure.
  
• Check for Leaks: Perform routine inspections for leaks in hydraulic lines, seals, and valves to ensure the system remains airtight and pressurized.
  
• Calibrate Pilot Controls: Ensure that the pilot control system is calibrated correctly after any maintenance or shimming work to maintain precise control.
  
• Monitor Hydraulic Pressure: Regularly check the hydraulic pressure to ensure that it is within the recommended range. Low or high pressure can indicate underlying issues.
  

Conclusion
Pilot control shimming is an essential task for restoring the performance of the ASV RC30 when the control system becomes unresponsive or erratic. Whether caused by hydraulic wear, improper calibration, or mechanical failure, shimming ensures that the valve system is correctly aligned, leading to improved performance and smoother operation. By following a systematic approach to diagnosis, shimming, and maintenance, you can keep your ASV RC30 running at peak efficiency, reducing downtime and ensuring optimal performance on every job.