Setting up Hot oil purge valve in Hydro static drive
Setting up Hot oil purge valve in Hydro static drive
(OP)
Hello there,
Can anyone give some advise on set up up hot oil purge valve correctly on a hydro static drive. I have heard that purge valve pressure should be lower than the charge pump pressure. What sort of pressure difference should be kept. I am also worried about the back pressure from the tank line due to different return flow variations from other circuitry lines.
Can anyone give some advise on set up up hot oil purge valve correctly on a hydro static drive. I have heard that purge valve pressure should be lower than the charge pump pressure. What sort of pressure difference should be kept. I am also worried about the back pressure from the tank line due to different return flow variations from other circuitry lines.





RE: Setting up Hot oil purge valve in Hydro static drive
http://www.insanehydraulics.com/letstalk/loopflush...
RE: Setting up Hot oil purge valve in Hydro static drive
Insane Hydr has been down since Nov of 2012, and no email responses.
Great site. Not so much on theory but real world mechanical experience and explaining controls.
k
RE: Setting up Hot oil purge valve in Hydro static drive
Are the pump and motor far apart?
You can reference the same line with both the pump case drain and the motor case drain if possible. This removes some of the variations.
Or, if it is not possible to actually connect both drains to the same line, then use a flushing relief valve with an external drain port and reference that to the pump case pressure. This at least removes the effect of the line from motor back to pump or tank.
Sauer at least, and probably others, uses a shuttle with blocked center (to be able to tell the motor flushing has started by seeing the charge pressure drop slightly when the system is brought onto a load), then a fairly low cracking relief valve maybe 75-150 psi, then an orifice either in the circuit or in the porting of relief valve.
They then have a fairly low shift point to start flushing, but a fairly steep rate of pressure rise with increasing flushing flow. This makes it much easier to have some pump flow and some motor flow, even if the exact proportions vary.
If the relief valve is larger and with a fairly flat pressure vs. flow curve, then it is difficult to balance. If flushing RV is set just slightly high, motor flow drops dramatically and most flow goes to pump. If flushing RV is just a bit too low, most flow goes out motor and not much at pump.
Relying more on the shape of the orifice flow curve, which steeply rises as a squared term, instead of the relief valve curve, which can be fairly flat, makes it much more reliable to set and operate.