Claims
- 1. A hydraulic control system for use in a machine actuated by hydraulic actuators, the system comprising:
a fluid flow sensor disposed for measurement of a hydraulic fluid flow traveling into and out of a cavity of a hydraulic actuator and having a sensor signal that is related to piston information selected from a group consisting of at least one of a position, a velocity, an acceleration, and a direction of movement of a piston contained in a hydraulic cylinder of the hydraulic actuator; a controller configured to receive the sensor signal and produce a piston information signal relating to the piston information; and a communication link between the controller and the fluid flow sensor, whereby the sensor signal is provided to the controller.
- 2. The hydraulic control system of claim 1, wherein the communication link is selected from a group consisting of a physical communication link that provides power to the fluid flow sensor to completely power the sensor, and a wireless communication link.
- 3. The hydraulic control system of claim 1, wherein the communication link is selected from a group consisting of a two-wire (4-20) data bus, and a data bus.
- 4. The hydraulic control system of claim 1, wherein the communication link is configured in accordance with a communication standard selected from a group consisting of a digital communication standard, an analog communication standard, FOUNDATION™ fieldbus, Controller Area Network (CAN), profibus, and Highway Addressable Remote Transducer (HART®).
- 5. The hydraulic control system of claim 1, including a human-machine interface coupled to the controller and adapted to receive the piston information signal.
- 6. The hydraulic control system of claim 1, wherein the piston information signal comprises a control signal, which relates to a comparison of the sensor signal to a reference signal.
- 7. The hydraulic control system of claim 6, including a hydraulic control valve adapted to control the hydraulic fluid flow.
- 8. The hydraulic control system of claim 7, wherein:
the communication link further provides the control signal to the hydraulic control valve; and the hydraulic control valve controls the hydraulic fluid flow in response to the control signal.
- 9. The hydraulic control system of claim 8, wherein the communication link is selected from a group consisting of a physical communication link, and a wireless communication link.
- 10. The hydraulic control system of claim 8, wherein the communication link is a data bus that is configured in accordance with a communication standard selected from a group consisting of a digital communication standard, an analog communication standard, FOUNDATION™ fieldbus, Controller Area Network (CAN), profibus, and Highway Addressable Remote Transducer (HART®).
- 11. The hydraulic control system of claim 1, wherein:
flow sensor is a differential pressure flow sensor; and the sensor signal is based upon a differential pressure measured across a discontinuity in the hydraulic fluid flow.
- 12. A hydraulic control system for use in a machine actuated by hydraulic actuators, the system comprising:
a fluid flow sensor disposed for measurement of a hydraulic fluid flow traveling into and out of a cavity of a hydraulic actuator and having a sensor signal that is related to piston information selected from a group consisting of at least one of a position, a velocity, an acceleration, and a direction of movement of a piston contained in a hydraulic cylinder of the hydraulic actuator; a reference signal relating to at least one of a desired piston position, velocity, acceleration, and direction of movement; a controller configured to produce a control signal based upon a comparison of the sensor signal to the reference signal; and a hydraulic control valve adapted to receive the control signal and adjust the hydraulic fluid flow in response thereto.
- 13. The hydraulic control system of claim 12, including:
a first communication link between the controller and the flow sensor; a communication link between the controller and the hydraulic control valve; wherein the first communication link provides the controller with the sensor signal, the second communication link provides the hydraulic control valve with the control signal, and the first and second communication links are selected from a group consisting of a physical link that is supplies power, a data bus, a two-wire data bus, and a wireless communication link.
- 14. The hydraulic control system of claim 12, wherein the communication link is configured in accordance with a communication standard selected from a group consisting of a digital communication standard, an analog communication standard, FOUNDATION™ fieldbus, Controller Area Network (CAN), profibus, and Highway Addressable Remote Transducer (HART®).
- 15. A hydraulic control system for use in a machine actuated by hydraulic actuators, the system comprising:
a plurality of fluid flow sensors disposed for measurement of hydraulic fluid flow traveling into and out of a cavity of each hydraulic actuator, each flow sensor providing a sensor signal that is related to piston information; a controller configured to receive the sensor signals and produce a control signal based upon at least one of the sensor signals; and at least one hydraulic control valve adapted to receive the control signal and adjust hydraulic fluid flow in response thereto.
- 16. A method of controlling at least one hydraulic actuator having a piston, comprising steps of:
measuring a flow rate of a hydraulic fluid flow traveling into and out of a cavity of the hydraulic actuator defined by the piston and a hydraulic cylinder; calculating piston information selected from at least one of a position, a velocity, an acceleration, and a direction of movement of the piston, based upon the flow rate; providing a reference signal relating to at least one of a desired position, velocity, acceleration, and direction of movement of the piston; controlling the hydraulic fluid flow based upon a comparison between the piston information and the reference signal.
- 17. The method of claim 16, wherein the measuring step includes measuring differential pressure across a discontinuity placed in the hydraulic fluid flow.
- 18. The method of claim 16, wherein the controlling step includes:
generating a control signal based upon the comparison between the piston information and the reference signal; and adjusting the hydraulic fluid flow in response to the control signal to provide desired actuation of the piston.
CROSS-REFERENCE TO RELATED APPLICATION
[0001] The present invention claims the benefit of U.S. patent application Ser. No. 09/521,132, entitled “PISTON POSITION MEASURING DEVICE,” filed Mar. 8, 2000, and U.S. Provisional Application No. 60/218,329, entitled “HYDRAULIC VALVE BODY WITH DIFFERENTIAL PRESSURE FLOW MEASUREMENT,” filed Jul. 14, 2000. In addition, the present invention claims the benefit of U.S. patent application Ser. No. 09/521,537, entitled “BI-DIRECTIONAL DIFFERENTIAL PRESSURE FLOW SENSOR,” filed Mar. 8, 2000, and U.S. Provisional Application No. 60/187,849, entitled “SYSTEM FOR CONTROLLING MULTIPLE HYDRAULIC CYLINDERS,” filed Mar. 8, 2000.
Provisional Applications (2)
|
Number |
Date |
Country |
|
60218329 |
Jul 2000 |
US |
|
60187849 |
Mar 2000 |
US |