A hydraulic control system for a machine is disclosed. The hydraulic control system may have a pump configured to pressurize fluid, a displacement control valve configured to affect displacement of the pump, and a tool control valve configured to receive pressurized fluid from the pump and to select
A hydraulic control system for a machine is disclosed. The hydraulic control system may have a pump configured to pressurize fluid, a displacement control valve configured to affect displacement of the pump, and a tool control valve configured to receive pressurized fluid from the pump and to selectively direct to the pressurized fluid to a hydraulic actuator. The hydraulic control system may also have a controller in communication with the displacement control valve. The controller may be configured to determine a pressure gradient across the tool control valve substantially different than a desired pressure gradient, to determine a desired condition of the displacement control valve based the pressure gradient, and to determine a flow force applied to the displacement control valve based on the desired condition. The controller may be further configured to generate a load sense response signal directed to the displacement control valve based on the desired condition and the flow force.
대표청구항▼
1. A hydraulic control system, comprising: a pump configured to pressurize fluid;a displacement control valve configured to affect displacement of the pump, the displacement control valve further configured to receive pressurized fluid from the pump;a tool control valve configured to receive pressur
1. A hydraulic control system, comprising: a pump configured to pressurize fluid;a displacement control valve configured to affect displacement of the pump, the displacement control valve further configured to receive pressurized fluid from the pump;a tool control valve configured to receive pressurized fluid from the pump and to selectively direct the pressurized fluid to a hydraulic actuator; anda controller in communication with the displacement control valve and being configured to: determine a pressure gradient across the tool control valve substantially different than a desired pressure gradient;determine a desired condition of the displacement control valve based on the pressure gradient;determine a flow force applied to the displacement control valve based on the desired condition; andgenerate a load sense response signal directed to the displacement control valve based on the desired condition and the flow force. 2. The hydraulic control system of claim 1, wherein the desired condition is associated with a desired flow of fluid through the displacement control valve. 3. The hydraulic control system of claim 2, wherein the desired condition is an effective area that provides the desired flow of fluid. 4. The hydraulic control system of claim 3, wherein the flow force is a result of the desired flow of fluid through the effective area. 5. The hydraulic control system of claim 4, wherein the flow force is determined based further on an angle of fluid exodus from the effective area. 6. The hydraulic control system of claim 5, wherein the angle of fluid exodus is assumed to be constant. 7. The hydraulic control system of claim 3, wherein: the displacement control valve includes a valve element, and a spring configured to bias the valve element; andthe controller is further configured to determine a linear translation of the valve element that provides the effective area, and to determine a force applied by the spring to the valve element as a result of the linear translation. 8. The hydraulic control system of claim 7, wherein: the displacement control valve further includes a solenoid configured to move the valve element; andthe load sense response signal is indicative of an amount of force required of the solenoid to overcome the force applied by the spring and the flow force. 9. The hydraulic control system of claim 3, wherein the effective area is calculated based on a pressure gradient across the displacement control valve. 10. The hydraulic control system of claim 9, wherein the pressure gradient across the displacement control valve is assumed to be constant. 11. The hydraulic control system of claim 9, further including at least one pressure sensor associated with the tool control valve to measure the pressure gradient across the tool control valve. 12. The hydraulic control system of claim 1, further including: a displacement control device movable to vary the displacement of the pump; anda tilt actuator configured to move the displacement control device, wherein the displacement control valve is fluidly connected to activate the tilt actuator. 13. The hydraulic control system of claim 12, wherein the desired condition is associated with a desired flow of fluid through the displacement control valve that results in a desired velocity of the tilt actuator. 14. A method of controlling fluid flow from a pump, comprising: sensing an undesired pressure gradient resulting from hydraulic tool actuation;determining a desired rate of change in displacement of the pump based on the undesired pressure gradient;determining a flow force affecting implementation of the desired rate of change in displacement of the pump; andgenerating a load sense response signal to implement the desired rate of change in displacement of the pump that accommodates the flow force, the load sense response signal controlling a flow of pressurized fluid from the pump, the pressurized fluid from the pump being used to implement the desired rate of change in displacement of the pump. 15. The method of claim 14, wherein: the desired rate of change in displacement of the pump is associated with an effective valve area that provides a desired flow of fluid to adjust displacement of the pump; andthe flow force is a result of the desired flow of fluid through the effective valve area. 16. The method of claim 15, wherein determining the flow force includes determining the flow force based on the effective valve area and on an angle of fluid exodus from the effective valve area. 17. The method of claim 16, further including determining a valve element translation required to provide the effective valve area and a spring bias associated with the valve element translation, wherein the load sense response signal also accommodates the spring bias. 18. The method of claim 15, wherein the effective valve area is calculated based on a pressure gradient resulting from a displacement change of the pump. 19. The method of claim 18, further including: sensing the pressure gradient resulting from hydraulic tool actuation; andassuming the pressure gradient resulting from the displacement change of the pump to be constant. 20. A machine, comprising: a power source;a pump driven by the power source to pressurize fluid;a tool;a hydraulic actuator configured to move the tool;a tool control valve configured to receive pressurized fluid from the pump and to selectively direct the pressurized fluid to the hydraulic actuator;a displacement control valve configured to affect displacement of the pump, the displacement control valve further configured to receive pressurized fluid from the pump; anda controller in communication with the displacement control valve and being configured to: determine a pressure gradient across the tool control valve substantially different than a desired pressure gradient;determine a desired condition of the displacement control valve based the pressure gradient;determine a linear translation of the displacement control valve required to produce the desired condition;determine a spring force resulting from the linear translation;determine a flow force applied to the displacement control valve based on the desired condition; andgenerate a load sense response signal directed to the displacement control valve based on the desired condition, the spring force, and the flow force.
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이 특허에 인용된 특허 (17)
Nozari Farhad, Aircraft hydraulic pump control system.
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