Force servo actuator with asymmetric nonlinear differential hydraulic force feedback
First Claim
1. A hydraulic servo control system, comprising in combination:
- a force servo actuator of the type having an actuator piston mounted in a dual-chamber actuator cylinder for bi-directionally moving a load in oppositely directed strokes;
a force servovalve operatively connected to the force servo actuator, the servovalve including a spool valve of the type wherein its position along its axis is controlled by volumes of fluid in first and second opposed control signal input ports, the spool valve having at least one inlet port for receiving a flow of pressurized fluid, at least one return port, and first and second outlet ports for delivering pressurized fluid to respective chambers of the dual-chamber actuator cylinder; and
hydraulic means for controlling a force asymmetry acting upon the force servo actuator, characterized by;
a first fluid passageway for providing negative nonlinear hydraulic force feedback communication between the first outlet port and the second control signal input port;
a second fluid passageway for providing negative nonlinear hydraulic force feedback communication between the second outlet port and the first control signal input port;
a first orifice in the first fluid passageway having a first preselected hydraulic force feedback impedance value;
a second orifice in the second fluid passageway having a second preselected hydraulic force feedback impedance value;
wherein the first and second preselected hydraulic force feedback impedance values are unequal and wherein the values are a function of the known or postulated force asymmetry acting upon the actuator.
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Abstract
A hydraulic force servo system provides apparatus for compensating for unequal loading forces applied to an actuator piston, and for unequal areas on opposite faces of the piston. Asymmetric nonlinear differential hydraulic force feedback from the output side of a force servovalve is summed with the hydraulic control signal inputs to the output stage of the servovalve at hydraulic summing junctions. Impedances offered by orifices in the feedback lines determine the amount of feedback. Nonlinear characteristics of the feedback method serve to compensate for nonlinearities in the servo actuator and system. The impedance ratio of the orifices is selected as a function of the known or postulated asymmetry of the loading forces to be applied to the actuator piston, and the ratio of the areas of the opposing faces of the actuator piston. Hydraulic damping further improves linearity and stability.
56 Citations
10 Claims
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1. A hydraulic servo control system, comprising in combination:
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a force servo actuator of the type having an actuator piston mounted in a dual-chamber actuator cylinder for bi-directionally moving a load in oppositely directed strokes;
a force servovalve operatively connected to the force servo actuator, the servovalve including a spool valve of the type wherein its position along its axis is controlled by volumes of fluid in first and second opposed control signal input ports, the spool valve having at least one inlet port for receiving a flow of pressurized fluid, at least one return port, and first and second outlet ports for delivering pressurized fluid to respective chambers of the dual-chamber actuator cylinder; and
hydraulic means for controlling a force asymmetry acting upon the force servo actuator, characterized by;
a first fluid passageway for providing negative nonlinear hydraulic force feedback communication between the first outlet port and the second control signal input port;
a second fluid passageway for providing negative nonlinear hydraulic force feedback communication between the second outlet port and the first control signal input port;
a first orifice in the first fluid passageway having a first preselected hydraulic force feedback impedance value;
a second orifice in the second fluid passageway having a second preselected hydraulic force feedback impedance value;
wherein the first and second preselected hydraulic force feedback impedance values are unequal and wherein the values are a function of the known or postulated force asymmetry acting upon the actuator. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A hydraulic servo control system, comprising in combination:
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a force servo actuator of the type having an actuator piston mounted in a dual-chamber actuator cylinder for bi-directionally moving a load in oppositely directed strokes;
a force servovalve operatively connected to the force servo actuator, the servovalve including a spool valve of the type wherein its position along its axis is controlled by volumes of fluid in two opposed control signal input ports, the spool valve having at least one inlet port for receiving a flow of pressurized fluid, at least one return port, and at least one outlet port for delivering pressurized fluid to the dual chamber actuator cylinder; and
hydraulic means for compensating for a force asymmetry acting upon the force servo actuator, characterized by;
at least one fluid passageway for providing negative nonlinear hydraulic force feedback communication between at least one outlet port and one of the control signal input ports; and
an orifice in the fluid passageway having a preselected hydraulic force feedback impedance, wherein the preselected impedance is a function of the known or postulated force asymmetry acting upon the actuator and is of a value unequal to the value of other orifices in other fluid passageways, if any.
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Specification