IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0735185
(2003-12-12)
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발명자
/ 주소 |
- Piehl,Travis Raymond
- Wold,Kermit Anthony
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
7 인용 특허 :
7 |
초록
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The invention provides a proportional directional control valve having a valve operating mechanism that permits communication between a first and a second channel through a linear motion of a valve element of the valve operating mechanism, a magnetic assembly operatively connected to the valve eleme
The invention provides a proportional directional control valve having a valve operating mechanism that permits communication between a first and a second channel through a linear motion of a valve element of the valve operating mechanism, a magnetic assembly operatively connected to the valve element where the magnetic assembly provides a magnetic field responsive to the linear motion of the valve element, a linear Hall-effect sensor assembly configured to generate an electrical signal responsive to a change in the magnetic field, and a control system that controls the linear movement of the valve element in response to a comparison of the electrical signal and a command electrical input signal. The valve operating mechanism includes a valve assembly configured with a chamber housing the valve element. The linear motion of the valve element within the chamber allows fluid to be selectively conveyed through channels of the valve assembly.
대표청구항
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It is claimed: 1. A proportional directional control valve comprising: a housing having a first portion and a second portion, the first portion having an interior chamber; an electronic controller mounted within the interior chamber; at least one solenoid assembly electrically coupled to the elect
It is claimed: 1. A proportional directional control valve comprising: a housing having a first portion and a second portion, the first portion having an interior chamber; an electronic controller mounted within the interior chamber; at least one solenoid assembly electrically coupled to the electronic controller, the solenoid assembly disposed in the second portion, a drive pin of the solenoid assembly being reciprocally moveable responsive to a current provided by the electronic controller; a valve assembly disposed in the second portion, the valve assembly comprising a linearly moveable valve element operatively connected to the solenoid assembly, a position of the valve element being responsive to a position of the drive pin; a magnetic assembly operatively connected to the valve element, the magnetic assembly providing a magnetic field responsive to the position of the valve element; a magnetic positioning sensor assembly coupled to the electronic controller, the magnetic positioning sensor detecting a change in the magnetic field, the magnetic positioning sensor assembly generating an output voltage proportional to the change in the magnetic field; a non-magnetic housing having a passageway extending axially through a portion of the non-magnetic housing; a first magnet disposed in the passageway; a second magnet disposed in the passageway, a south pole of the second magnet separated from a north pole of the first magnet by a non-magnetic space in the passageway; and a retaining ring disposed in the passageway holding the first and second magnets and the non-magnetic spacer in a fixed position. 2. The proportional directional control valve of claim 1, wherein the non-magnetic housing comprises a beryllium copper housing, and wherein the first and second magnets comprise a samarium cobalt material. 3. A proportional directional control valve comprising: a housing having a first portion and a second portion, the first portion having an interior chamber; an electronic controller mounted within the interior chamber; at least one solenoid assembly electrically coupled to the electronic controller, the solenoid assembly disposed in the second portion, a drive pin of the solenoid assembly being reciprocally moveable responsive to a current provided by the electronic controller; a valve assembly disposed in the second portion, the valve assembly comprising a linearly moveable valve element operatively connected to the solenoid assembly, a position of the valve element being responsive to a position of the drive pin; a magnetic assembly operatively connected to the valve element, the magnetic assembly providing a magnetic field responsive to the position of the valve element; a magnetic positioning sensor assembly coupled to the electronic controller, the magnetic positioning sensor detecting a change in the magnetic field, the magnetic positioning sensor assembly generating an output voltage proportional to the change in the magnetic field; an operator interface port coupled to the electronic controller to enable values for at least one operating parameter of the proportional directional control valve to be downloaded from a set-up drive to the electronic controller; and the current to the solenoid assembly being adjusted by the electronic controller responsive to a comparison of the output voltage and a known command electrical input signal to form an adjusting signal, the adjusting signal altering the current transmitted to the solenoid assembly and positioning the valve element corresponding to the output voltage. 4. The proportional directional control valve of claim 3, wherein the operator interface port comprises a universal serial bus port. 5. The proportional directional control valve of claim 3, further comprising a removable protective cap disposed on the operator interface port. 6. The proportional directional control valve of claim 3, wherein the at least one operational parameter is selected from the group consisting of a solenoid coil voltage, a command input voltage, a command input current, solenoid enable switch, a solenoid null parameter, a solenoid gain parameter, a solenoid acceleration parameter, a solenoid deceleration parameter a dither frequency parameter and a solenoid dither amplitude parameter. 7. The proportional directional control valve of claim 3, wherein the set-up device comprises a computer. 8. The proportional directional control valve of claim 3, further comprising a wireless transceiver coupled to the electronic controller to enable values for the at least one operating parameter of the proportional directional control valve to be downloaded from the set-up device to the electronic controller. 9. A proportional directional control valve comprising: a valve operating mechanism that permits communication between a first channel and a second channel through a linear motion of a valve element of the valve operating mechanism; a magnetic assembly operatively connected to the valve element; a magnetic positioning sensor assembly operatively coupled to the magnetic assembly providing a magnetic field responsive to the position of the valve element; a control system controlling linear movement of the valve element in response to an electrical signal generated in proportion to a change in the magnetic filed detected by the magnetic positioning sensor; at least one solenoid assembly electrically coupled to the control system, a drive pin of the solenoid assembly being reciprocally moveable responsive to a current provided by the control system; a micro-controller mounted within an interior chamber of a first portion of a housing of the proportional directional control valve; a operator interface port coupled to the micro-controller; a set-up device communicatively coupled to the operator interface port; and the electrical signal being compared to a known command electrical input signal to form an adjusting signal having a value proportional to the change in the magnetic field, the adjusting signal altering the control system and positioning the valve element corresponding to the adjusting signal. 10. The proportional directional control valve of claim 9, wherein the set-up device comprises a computer. 11. The proportional directional control valve of claim 9, wherein the control system further comprises a wireless transceiver coupled to the micro-controller. 12. The proportional directional control valve of claim 9, further comprising a main connector disposed at a second end of the first portion and coupled to the micro-controller. 13. The proportional directional control valve of claim 9, further comprising an electronic potting material disposed on the micro-controller. 14. A proportional directional control valve comprising: a valve operating mechanism that permits communication between a fluid source and one of a first channel and a second channel through a linear motion of a valve element of the valve operating mechanism; a magnetic assembly operatively connected to the valve element; a magnetic positioning sensor assembly operatively coupled to the magnetic assembly; a control system controlling linear movement of the valve element in response to an electrical signal generated by the magnetic positioning sensor; a non-magnetic housing having a passageway extending axially through a portion of the non-magnetic housing; a first magnet disposed in the passageway; a second magnet disposed in the passageway, a south pole of the second magnet separated from a north pole of the first magnet by a non-magnetic spacer in the passageway; and a retaining ring disposed in the passageway holding the first and second magnets and the non-magnetic spacer in a fixed position. 15. A proportional directional control valve comprising: a housing having a first portion and a second portion; an electronic controller mounted within the first portion; a solenoid controlled valve assembly mounted within the second portion, the valve assembly movable responsive to a first signal transmitted from the electronic controller; a magnetic positioning assembly disposed within the second portion and detecting a change in the magnetic field caused by movement of the valve assembly, a second signal created by the magnetic position assembly, the second signal proportional to the change in the magnetic field, the second signal also transmitted to the electronic controller; the electronic controller transmitting an adjusted signal to the solenoid controlled valve assembly and controlling the position of the valve assembly responsive to the adjusted signal; the first portion and second portion easily alternately rigidly secured together and separable relative to each other; and connecting elements disposed in the first and second portions, the connecting elements providing a replaceable electrical connection between the electronic controller and the solenoid controlled valve assembly when the first and second portions are joined together. 16. The proportional directional control valve of claim 15, wherein the connecting elements comprise a coupling connector enabling an electrical connection between the electronic controller and the magnetic positioning assembly when the first and second portions are joined together. 17. A proportional directional control valve comprising: a housing having a first portion and a second portion, the first portion having an interior chamber; an electronic controller mounted within the interior chamber; at least one solenoid assembly electrically coupled to the electronic controller, the solenoid assembly disposed in the second portion, a drive pin of the solenoid assembly being reciprocally moveable responsive to a current provided by the electronic controller; a valve assembly disposed in the second portion, the valve assembly comprising a linearly moveable valve element operatively connected to the solenoid assembly, a position of the valve element being responsive to a position of the drive pin; a first and a second solenoid assembly axially and operatively connected to the linearly moveable valve element; a magnetic assembly operatively connected to the valve element, the magnetic assembly providing a magnetic field responsive to the position of the valve element; a magnetic positioning sensor assembly coupled to the electronic controller, the magnetic positioning sensor detecting a change in the magnetic field, the magnetic positioning sensor assembly generating an output voltage proportional to the change in the magnetic field; and the current to the solenoid assembly being adjusted by the electronic controller responsive to a comparison of the output voltage and a known command electrical input signal to form an adjusting signal, the adjusting signal altering the current transmitted to the solenoid assembly and positioning the valve element corresponding to the output voltage. 18. The proportional directional control valve of claim 17 wherein the magnetic positioning sensor is calibrated. 19. The proportional directional control valve of claim 18 wherein the magnetic positioning sensor is calibrated by aligning output voltages of the sensor with a center position of the valve element, a full shift position of the first solenoid assembly, and a full shift position of the second solenoid assembly with known command electrical input signal values. 20. The proportional directional control valve of claim 19 wherein the relationship between the output voltage of the sensor and the position of the linearly moveable valve element is different between (a) the center position and full shift position of the first solenoid assembly and (b) the center position and full shift position of the second solenoid assembly. 21. The proportional directional control valve of claim 19 wherein the known command signal values are embedded in the electronic controller.
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