A Complete Analysis for Pump Controlled Single Rod Actuators

Çalışkan, Hakan, Balkan, Tuna, Platin, Bülent E.

02 May 2016

In the current study a variable speed pump controlled hydrostatic circuit where an underlapped shuttle valve is utilized to compensate the unequal flow rate of a single rod actuator is analyzed. Parameters of the shuttle valve are included in the system analysis, rather than treating it as an ideal switching element as handled in literature. A linearized model of the system is obtained. An inverse kinematic model, which calculates the required pump drive speed for a desired actuator speed and given pilot pressure input, is formed. A numerical stability analysis program is developed, and the stability of all possible shuttle valve spool positons is determined. The theoretical findings are validated by non-linear simulation model responses.

EHA

shuttle valve

single rod

hydrostatic

stability

ddc:620

rvk:ZQ 5460

A Complete Analysis for Pump Controlled Single Rod Actuators

Çalışkan, Hakan, Balkan, Tuna, Platin, Bülent E.

January 2016

In the current study a variable speed pump controlled hydrostatic circuit where an underlapped shuttle valve is utilized to compensate the unequal flow rate of a single rod actuator is analyzed. Parameters of the shuttle valve are included in the system analysis, rather than treating it as an ideal switching element as handled in literature. A linearized model of the system is obtained. An inverse kinematic model, which calculates the required pump drive speed for a desired actuator speed and given pilot pressure input, is formed. A numerical stability analysis program is developed, and the stability of all possible shuttle valve spool positons is determined. The theoretical findings are validated by non-linear simulation model responses.

info:eu-repo/classification/ddc/620

ddc:620