I have a hydraulic lift that raises normally, but rapidly drifts down. While isolating the problem, I ran into behavior I can't explain. I'm hoping someone can provide some of that good learnin'. The hydraulic diagram is attached.
I removed, cleaned and inspected the components in the power unit. They are all in good shape. The flow control valve and lift cylinder are harder to reach. Before removing those, I installed two valves to isolate the problem. The results are confusing.
Theoretically... if the lift is raised and allowed to begin drifting down, then valve B is closed, any leaks within the power unit are isolated and can no longer affect the drift. Indeed, after closing valve B, the cylinder still drifts at the same speed. Since the drift speed doesn't change, the power unit isn't the culprit. The cylinder seals must be leaking. BUT, when I reopen valve B (during the same run), the lift begins drifting at twice the previous speed. It comes down at an unsafe speed, much faster than the flow control orifice should allow. A stuck flow control check valve is possible, but why did the speed increase so dramatically?
Theoretically... if the lift is raised and allowed to drift, then valve A is closed, the lowering piston would create a vacuum on the rod side. That vacuum would prevent the lift from lowering... unless there is a leak past the cylinder seals. In which case there will be no vacuum and the lift will continue to fall. Indeed, closing valve A stops the drift dead. So... no leaking cylinder seals. Huh? Reopening valve A allows the lift to drift again at the previous speed.
I guess I'll have to pull the flow control valve and cylinder. The results have me scratching my head.
Can anyone explain what's going on here?
I removed, cleaned and inspected the components in the power unit. They are all in good shape. The flow control valve and lift cylinder are harder to reach. Before removing those, I installed two valves to isolate the problem. The results are confusing.
Theoretically... if the lift is raised and allowed to begin drifting down, then valve B is closed, any leaks within the power unit are isolated and can no longer affect the drift. Indeed, after closing valve B, the cylinder still drifts at the same speed. Since the drift speed doesn't change, the power unit isn't the culprit. The cylinder seals must be leaking. BUT, when I reopen valve B (during the same run), the lift begins drifting at twice the previous speed. It comes down at an unsafe speed, much faster than the flow control orifice should allow. A stuck flow control check valve is possible, but why did the speed increase so dramatically?
Theoretically... if the lift is raised and allowed to drift, then valve A is closed, the lowering piston would create a vacuum on the rod side. That vacuum would prevent the lift from lowering... unless there is a leak past the cylinder seals. In which case there will be no vacuum and the lift will continue to fall. Indeed, closing valve A stops the drift dead. So... no leaking cylinder seals. Huh? Reopening valve A allows the lift to drift again at the previous speed.
I guess I'll have to pull the flow control valve and cylinder. The results have me scratching my head.

Can anyone explain what's going on here?