IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0486035
(2009-06-17)
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등록번호 |
US-8316888
(2012-11-27)
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발명자
/ 주소 |
- Beneker, Gerrit VanVranken
- Keller, Robert Dean
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
7 |
초록
▼
A hydraulic control valve is provided having a solenoid body, an energizable coil, and an armature positioned adjacent the coil. A valve stem extends from the armature. The coil is energizable to move the armature and the valve stem from a first position to a second position. The valve body, the arm
A hydraulic control valve is provided having a solenoid body, an energizable coil, and an armature positioned adjacent the coil. A valve stem extends from the armature. The coil is energizable to move the armature and the valve stem from a first position to a second position. The valve body, the armature and the valve stem are configured so that the armature and the valve stem are biased to the first position by pressurized fluid, allowing the armature to operate without a biasing spring.
대표청구항
▼
1. A hydraulic control valve comprising: a solenoid body;a selectively energizable coil;an armature positioned adjacent the coil and having a valve stem extending therefrom; the coil being energizable to move the armature and the valve stem from a first position to a second position;wherein the valv
1. A hydraulic control valve comprising: a solenoid body;a selectively energizable coil;an armature positioned adjacent the coil and having a valve stem extending therefrom; the coil being energizable to move the armature and the valve stem from a first position to a second position;wherein the valve body, the armature and the valve stem are configured so that the armature and the valve stem are biased to the first position by pressurized fluid;a pole piece positioned to establish a gap between the pole piece and the armature;wherein the armature is configured to route pressurized fluid between the gap and a side of the armature opposite the pole piece and the gap; and wherein a first area of the armature exposed to pressurized fluid in the gap is greater than a second area of the armature exposed to pressurized fluid at the side of the armature opposite the gap, the armature thereby being biased away from the pole piece by the fluid. 2. The hydraulic control valve of claim 1, wherein the hydraulic control valve is characterized by the absence of a spring biasing the armature and valve stem to the first position. 3. The hydraulic control valve of claim 1, wherein an area of the valve exposed to fluid force biasing the valve to the first position increases as the valve transitions from the second position to the first position and the gap between the armature and the pole piece increases. 4. The hydraulic control valve of claim 1, wherein the armature and the valve stem include a first poppet and a second poppet; wherein the valve body defines a supply chamber with a first seat, a second seat, and a control chamber between the first and second seats; wherein the first poppet is configured to sit at the first seat and the second poppet is configured to be spaced from the second seat in the first position to substantially prevent pressurized fluid flow past the first seat and to exhaust fluid from the control chamber past the second seat; and wherein the first poppet is configured to be spaced from the first seat and the second poppet is configured to sit at the second seat in the second position to permit flow of pressurized fluid from the supply chamber to the control chamber and prevent flow from the control chamber to an exhaust port. 5. The hydraulic control valve of claim 4, wherein the first poppet and the second poppet are held in a fixed spatial relationship by the valve stem. 6. The hydraulic control valve of claim 4, in combination with an engine; wherein the hydraulic control valve is mounted to the engine such that the armature falls to the second position when the engine is off and the coil is not energized, thereby moving the first poppet off of the first seat to open the supply chamber to the control chamber, air thereby expelling from the supply chamber to the control chamber when the engine is off and the coil is not energized, and the air further expelling to the exhaust port when the armature and valve stem move to the first position when the engine is restarted. 7. The hydraulic control valve of claim 6, wherein the armature is configured so that an additional area of the second poppet is exposed to pressurized fluid when the armature transitions from the second position to the first position, thereby biasing the armature to the first position. 8. The hydraulic control valve of claim 6, wherein one of the valve body and the first poppet form a bypass channel at the first seat, allowing air to bleed from the supply chamber to the control chamber through the bypass channel when the valve is in the first position. 9. A hydraulic control circuit comprising: an electromagnetic actuator selectively actuatable to create a flux path, the actuator including a valve body having a first seat past which fluid under pressure is selectively permitted to flow;an armature that is selectively moved in a first direction by electromagnetic flux, the armature defining a poppet that is moved in the first direction relative to the first seat from a closed position in which fluid flow past the first seat is substantially prevented to an open position in which fluid flow past the first seat is permitted, the armature being biased to the closed position by operation of the fluid under pressure; anda pole piece positioned to establish a gap between the pole piece and the armature; wherein the armature is configured to route pressurized fluid between the gap and a side of the armature opposite the pole piece and the gap; wherein a first area of the armature exposed to pressurized fluid in the gap is greater than a second area of the armature exposed to pressurized fluid at the side of the armature opposite the gap, the armature thereby being biased away from the pole piece and to the closed position by the pressurized fluid. 10. The hydraulic control circuit of claim 9, wherein the electromagnetic actuator is a solenoid valve that includes a coil that is energizable to create the flux. 11. The hydraulic control circuit of claim 9, wherein the valve body defines a first chamber to which the pressurized fluid is provided through a supply port; wherein the valve body further defines a second chamber from which fluid exhausts to an exhaust port; and wherein the second chamber is in fluid flow communication with the first chamber when fluid is permitted to flow past the first seat. 12. The hydraulic control circuit of claim 11, wherein the armature is connected to a valve stem that defines a second poppet that is moved with the armature relative to the exhaust port so that the second poppet closes the exhaust port when the first poppet is in the open position and opens the exhaust port when the first poppet is in the closed position. 13. The hydraulic control circuit of claim 9, wherein the poppet is a first poppet; wherein the valve body defines a second seat; wherein the armature is connected to a valve stem that defines a second poppet that is moved with the armature in the first direction relative to the second seat from a first position in which fluid flow past the second seat is permitted to a second position in which fluid flow past the second seat is prevented; and wherein the second poppet is biased toward the first position when the armature is biased toward the closed position by the fluid under pressure. 14. The hydraulic control circuit of claim 13, wherein the first poppet and the second poppet are held in a fixed spatial relationship by the valve stem. 15. The hydraulic control circuit of claim 13, in combination with an engine; wherein the electromagnetic actuator is mounted to the engine such that the second poppet falls to the second position when the engine is off and the coil is not energized, thereby moving the first poppet off of the first seat. 16. The hydraulic control circuit of claim 13, wherein the electromagnetic actuator is characterized by the absence of a spring biasing the second poppet to the first position. 17. A hydraulic control valve comprising: a valve body;a selectively energizable coil;an armature positioned adjacent the coil and having a valve stem extending therefrom; the coil being energizable to move the armature and the valve stem from a first position to a second position;wherein the valve body, the armature and the valve stem are configured so that the armature and the valve stem are biased to the first position by pressurized fluid;wherein the armature and the valve stem include a first poppet and a second poppet; wherein the valve body defines a supply chamber with a first seat, a second seat, and a control chamber between the first and second seats; wherein the first poppet is configured to sit at the first seat and the second poppet is configured to be spaced from the second seat in the first position to substantially prevent pressurized fluid flow past the first seat and to exhaust fluid from the control chamber past the second seat; wherein the first poppet is configured to be spaced from the first seat and the second poppet is configured to sit at the second seat in the second position to permit flow of pressurized fluid from the supply chamber to the control chamber and prevent flow from the control chamber to an exhaust port;wherein one of the valve body and the first poppet form a bypass channel at the first seat, allowing air to bleed from the supply chamber to the control chamber through the bypass channel when the valve is in the first position;a pole piece positioned to establish a gap between the pole piece and the armature; wherein the armature is configured to route pressurized fluid between the gap and a side of the armature opposite the pole piece and the gap; wherein a first area of the armature exposed to pressurized fluid in the gap is greater than a second area of the armature exposed to pressurized fluid at the side of the armature opposite the gap, the armature thereby being biased away from the pole piece by the fluid; andwherein an area of the second poppet exposed to fluid force biasing the valve to the first position increases as the valve transitions from the second position to the first position and the gap between the armature and the pole piece increases. 18. The hydraulic control valve of claim 17, wherein the hydraulic control valve is characterized by the absence of a spring biasing the armature and valve stem to the first position. 19. The hydraulic control valve of claim 17, in combination with an engine; wherein the hydraulic control valve is mounted to the engine such that the armature falls to the second position when the engine is off and the coil is not energized, thereby moving the first poppet off of the first seat to open the supply chamber to the control chamber, air thereby expelling from the supply chamber to the control chamber when the engine is off and the coil is not energized, and the air further expelling to the exhaust port when the armature and valve stem move to the first position when the engine is restarted. 20. The hydraulic control valve of claim 17, wherein the first poppet and the second poppet are held in a fixed spatial relationship by the valve stem.
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