Method and apparatus for sensing piston position using a dipstick assembly
First Claim
1. A method of determining the position of a piston moveable within a cylinder housing, the cylinder housing having a first end, a second end and a side wall between the first and the second ends, comprising the steps of:
- generating uncompensated electromagnetic (EM) bursts;
launching the EM bursts along a dipstick towards the piston, the dipstick mounted within the cylinder housing between the first and the second ends and in electrical communication with the piston, whereby the dipstick acts as a transmission guide for the EM bursts;
detecting reflections of the EM bursts along the dipstick from the piston;
generating a timing signal representative of the time between launching the EM bursts and detecting the reflections, the timing signal depending upon the position of the piston and a parameter of a fluid within the cylinder housing;
generating a compensation signal responsive to the parameter of the fluid within the cylinder housing; and
converting the timing signal and the compensation signal into a position signal representative of the position of the piston within the cylinder housing, the position signal being compensated for the effect of the parameter of the fluid on the timing signal.
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0 Petitions
Accused Products
Abstract
A system for determining the position of a piston moveable within a cylinder, or of an implement or joint, is disclosed herein. Electromagnetic (EM) bursts such as ultra-wideband or frequency pulses are generated and applied to a transmitter/receiver unit. The EM bursts are launched by the transmitter along a transmission guide from an end of the cylinder housing towards the piston. The transmission guide can be a dipstick mounted within the cylinder housing or the cylinder housing itself. The dipstick or cylinder housing is in electrical communication with the piston such that a surface of the piston represents an electrical impedance discontinuity which causes the EM bursts to be reflected back to the receiver. The time for the EM bursts to travel from the transmitter to the piston and for the reflections to travel back to the receiver is determined and converted into a position signal representing the piston'"'"'s position. A compensation signal can be used to compensate the position signal for variations in a parameter of the fluid within the cylinder such as dielectric constant caused by factors such as temperature, contamination and fluid type. The compensation circuit can include a pulse level analyzer, resonance circuit, capacitance circuit, compensation dipstick, or second transmitter/receiver circuit configured to measure the piston'"'"'s position from the opposite end of the cylinder.
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Citations
23 Claims
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1. A method of determining the position of a piston moveable within a cylinder housing, the cylinder housing having a first end, a second end and a side wall between the first and the second ends, comprising the steps of:
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generating uncompensated electromagnetic (EM) bursts; launching the EM bursts along a dipstick towards the piston, the dipstick mounted within the cylinder housing between the first and the second ends and in electrical communication with the piston, whereby the dipstick acts as a transmission guide for the EM bursts; detecting reflections of the EM bursts along the dipstick from the piston; generating a timing signal representative of the time between launching the EM bursts and detecting the reflections, the timing signal depending upon the position of the piston and a parameter of a fluid within the cylinder housing; generating a compensation signal responsive to the parameter of the fluid within the cylinder housing; and converting the timing signal and the compensation signal into a position signal representative of the position of the piston within the cylinder housing, the position signal being compensated for the effect of the parameter of the fluid on the timing signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An apparatus for determining the positions of a piston moveable within a cylinder housing, the cylinder housing having a first end, a second end and a side wall between the first and the second ends, comprising:
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a generator for generating uncompensated EM bursts; a dipstick mounted within the cylinder housing between the first and the second ends, the dipstick being in electrical communication with the piston; a transmitter coupled to the generator and the dipstick, the transmitter configured to launch the EM bursts towards the piston along the dipstick, whereby the dipstick acts as a transmission guide for the EM bursts; a receiver coupled to the dipstick and configured to detect reflections after the EM bursts are reflected by the piston towards the receiver along the dipstick; a timing circuit configured to generate a timing signal representative of the time for the EM bursts to travel from the transmitter to the piston and for the reflections to travel from the piston to the receiver, the timing signal depending upon the position of the piston and a parameter of a fluid within the cylinder housing; a compensation circuit configured to generate a compensation signal responsive to the parameter of the fluid within the cylinder housing; and a conversion circuit configured to convert the timing signal and the compensation signal into a position signal representative of the position of the piston within the cylinder housing, the position signal being compensated for the effect of the parameter of the fluid on the timing signal. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
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23. An electrohydraulic control system for controlling the positions of an implement, comprising:
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an input device configured to generate command signals representative of a commanded position of the implement; a hydraulic actuator coupled to the implement and including a cylinder housing, a piston moveable within the cylinder housing, and a cylinder rod attached to the piston, whereby the cylinder rod moves with the piston, the cylinder housing having a first end, a second end and a side wall between the first and the second ends; a source of pressurized hydraulic fluid; a valve assembly coupled between the actuator and the source, the valve assembly configured to control the flow of hydraulic fluid between the actuator and the source in response to control signals; a generator for generating uncompensated EM bursts; a dipstick mounted within the cylinder housing between the first and the second ends, the dipstick being in electrical communication with the piston; a transmitter coupled to the generator and the dipstick, the transmitter configured to launch the EM bursts towards the piston along the dipstick, whereby the dipstick acts as a transmission guide for the EM bursts; a receiver coupled to the dipstick and configured to detect reflections after the EM bursts are reflected by the piston towards the receiver along the dipstick; a timing circuit configured to generate a timing signal representative of the time for the EM bursts to travel from the transmitter to the piston and for the reflections to travel from the piston to the receiver, the timing signal depending upon the position of the piston and a parameter of a fluid within the cylinder housing; a compensation circuit configured to generate a compensation signal responsive to the parameter of the fluid within the cylinder housing; a conversion circuit configured to convert at least the timing signal and the compensation signal into a position signal representative of the position of the piston within the cylinder housing, the position signal being compensated for the effect of the parameter of the fluid on the timing signal; and a control circuit coupled to the input device, the valve assembly and the conversion circuit, the control circuit configured to generate the control signals based upon the command signals and the position signal and to apply the control signals to the valve assembly.
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Specification