Valve configured for regulating the flow of fluid between a device and a cooler
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-017/20
F16K-031/00
F16K-001/12
F16K-001/14
F16K-003/02
F03G-007/06
F16K-015/18
출원번호
US-0253166
(2016-08-31)
등록번호
US-9939077
(2018-04-10)
발명자
/ 주소
Gao, Xiujie
Johnson, Nancy L.
Semel, Ronald R.
McIntyre, Rory P.
Heikoop, Mark J.
Neelakantan, Vijay A.
Olson, Bret M.
Ownby, Tyler P.
Brown, James H.
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Quinn IP Law
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
A fluid circuit includes a device, a cooler, and a valve. The valve includes a housing, a sealing member, a biasing device, and an actuator. The sealing member moves inside the housing between a first position and a second position. The actuator includes a smart material that is activated when the t
A fluid circuit includes a device, a cooler, and a valve. The valve includes a housing, a sealing member, a biasing device, and an actuator. The sealing member moves inside the housing between a first position and a second position. The actuator includes a smart material that is activated when the temperature of a fluid inside the housing exhibiting at least a first temperature, causing the sealing member to move to the second position. The smart material is deactivated when the fluid is a sufficient number of degrees less than the first temperature, causing the sealing member to move to the first position. The fluid flows from the housing to the device and then to the housing when the sealing member is in the first position. The fluid flows from the housing to the cooler and then to the device when the sealing member is in the second position.
대표청구항▼
1. A valve configured for directing the flow of fluid received from a device to one of the device and a cooler within a fluid circuit, the valve comprising: a housing defining a cavity extending along a longitudinal axis between a first end and a second end, wherein the cavity is configured for rece
1. A valve configured for directing the flow of fluid received from a device to one of the device and a cooler within a fluid circuit, the valve comprising: a housing defining a cavity extending along a longitudinal axis between a first end and a second end, wherein the cavity is configured for receiving and expelling the fluid;wherein the housing includes a first reaction surface and a second reaction surface, wherein the second reaction surface is disposed in spaced and facing relationship to the first reaction surface along the longitudinal axis;a sealing member disposed in the cavity and movable therein along the longitudinal axis between a first position and a second position, wherein the sealing member extends along the longitudinal axis between a first face and a second face;wherein the sealing member defines a first recess extending along the longitudinal axis from the first face to a first side;a biasing device partially operatively disposed in the first recess between the first side of the sealing member and the first reaction surface of the housing; andan actuator operatively disposed in the cavity between the sealing member and the second reaction surface of the housing;wherein the actuator is configured to be in continuous fluid contact with the fluid and the actuator includes a smart material configured to be activated in response to the temperature of the fluid in the cavity having at least a first temperature such that activation of the smart material activates the actuator;wherein the smart material is configured to be deactivated in response to a temperature of the fluid in the cavity being a sufficient number of degrees less than the first temperature such that the smart material deactivates the actuator;wherein the biasing device reacts between the first side and the first reaction surface to apply a first force to the sealing member, in a first longitudinal direction, along the longitudinal axis;wherein the actuator reacts between the sealing member and the second reaction surface to apply a second force to the sealing member, in a second longitudinal direction, opposite the first longitudinal direction;wherein the first force is greater than the second force when the actuator is deactivated, such that the sealing member moves in the first longitudinal direction from the second position to the first position;wherein the second force is greater than the first force when the actuator is activated, such that the sealing member moves in the second longitudinal direction from the first position to the second position;wherein the fluid is only permitted to flow between the cavity, the cooler, and the device when the sealing member is in the second position; andwherein the fluid is only permitted to flow from the cavity to the device and from the device to the cavity when the sealing member is in the first position. 2. The valve, as set forth in claim 1, wherein the housing defines an inlet, a first outlet, and a second outlet; and wherein the inlet is configured to provide fluid communication from the device to the cavity when the sealing member is in each of the first position and the second position. 3. The valve, as set forth in claim 2, wherein the housing defines a conduit fluidly extending between an entry to the housing and the inlet to the cavity; and wherein the conduit is configured to provide fluid communication from the device to the cavity when the sealing member is in each of the first position and the second position. 4. The valve, as set forth in claim 3, wherein the conduit extends non-linear between the entry and the inlet. 5. The valve, as set forth in claim 4, wherein the conduit includes a first conduit and a second conduit in fluid communication with one another; wherein the first conduit extends between the entry and the second conduit; andwherein the second conduit extends between the first conduit and the entry. 6. The valve, as set forth in claim 5, wherein the first conduit extends at an angle relative to the longitudinal axis; and wherein the angle is non-perpendicular. 7. The valve, as set forth in claim 6, wherein the second conduit extends in generally perpendicular relationship to the longitudinal axis. 8. The valve, as set forth in claim 2, wherein the first outlet is configured to provide fluid communication from the cavity to the device when the sealing member is in the first position; and wherein the second outlet is configured to provide fluid communication from the cavity to the cooler when the sealing member is in the second position. 9. The valve, as set forth in claim 8, wherein the device is configured to receive fluid from the cooler when the sealing member is in the second position. 10. The valve, as set forth in claim 9, wherein the first outlet is configured to provide fluid communication from the cavity to the device when the sealing member is in the first position; and wherein the second outlet is configured to provide fluid communication from the inlet to the cooler, from the cooler to the cavity, and from the cavity to the device when the sealing member is in the second position. 11. The valve, as set forth in claim 1, wherein the housing, proximate the first end, and the sealing member cooperate to define the first outlet; wherein the sealing member is configured to be in sealing relationship with the housing, proximate the first end, when the sealing member is in the second position, such that fluid is prevented from flowing from the cavity, through the first outlet, while fluid is permitted to flow from the cavity through the second outlet;wherein the housing, proximate the second end, and the sealing member cooperate to define the second outlet; andwherein the sealing member is configured to not be in sealing relationship with the housing, proximate the first end, when the sealing member is in the first position, such that fluid permitted to flow from the cavity, through the first outlet, while fluid is prevented from flowing from the cavity, through the second outlet. 12. The valve, as set forth in claim 11, wherein the sealing member is configured to be in sealing relationship with the housing, proximate the second end, when the sealing member is in the first position, such that fluid is prevented from flowing from the cavity, through the second outlet, while fluid is permitted to flow from the cavity through the first outlet; and wherein the sealing member is configured to not be in sealing relationship with the housing, proximate the second end, when the sealing member is in the second position, such that fluid is permitted to flow from the cavity, through the second outlet, while fluid is prevented from flowing from the cavity, through the first outlet. 13. The valve, as set forth in claim 1, wherein the sealing member includes a barrel and a flange; wherein the barrel extends along the longitudinal axis to the second face;wherein the flange radially surrounds the longitudinal axis and is longitudinally disposed in adjacent relationship to the barrel; andwherein the flange presents the first face and a second side, opposite the first face, such that the second side is disposed in facing relationship to the second reaction surface. 14. The valve, as set forth in claim 13, wherein the flange longitudinally extends from the barrel; and wherein the actuator radially surrounds the barrel such that the actuator is operatively disposed to react between the second side of the sealing member and the second reaction surface. 15. The valve, as set forth in claim 13, wherein the actuator is longitudinally disposed to react between the second face and the second reaction surface. 16. The valve, as set forth in claim 15, wherein the sealing member further includes an intermediate section, longitudinally disposed between the barrel and the flange; wherein the barrel and the flange are radially sized to fit within the cavity such that fluid is prevented from passing within the cavity between the housing and each of the barrel and the flange;wherein the intermediate section is radially sized to be smaller than each of the barrel and the flange;wherein barrel, the intermediate section, and the flange cooperate to define a groove configured to received fluid from the second outlet when the valve is in the second position; andwherein the groove is in fluid communication with the cooler, such that fluid is permitted to flow from the groove and into the cavity. 17. The valve, as set forth in claim 1, wherein the biasing device extends a first length oriented along the longitudinal axis and the actuator extends a second length oriented along the longitudinal axis; wherein the first length is longer than the second length, irrespective of the temperature of the fluid in the cavity;wherein the biasing device has a first diameter and the actuator has a second diameter; andwherein the second diameter is larger than the first diameter, irrespective of the temperature of the fluid in the cavity. 18. The valve, as set forth in claim 17, wherein the biasing device is a compression spring. 19. The valve, as set forth in claim 17, wherein the actuator is a compression spring. 20. A valve configured for directing the flow of fluid received from a device to one of the device and a cooler within a fluid circuit, the valve comprising: a housing defining a cavity extending along a longitudinal axis between a first end and a second end, wherein the cavity is configured for receiving and expelling the fluid;wherein the housing includes a first reaction surface and a second reaction surface, wherein the second reaction surface is disposed in spaced and facing relationship to the first reaction surface along the longitudinal axis;a sealing member disposed in the cavity and movable therein along the longitudinal axis between a first position and a second position, wherein the sealing member is spherically shaped and presents a first face and a second face, opposite the first face;a biasing device operatively disposed in the cavity between the first face of the sealing member and the first reaction surface of the housing; andan actuator operatively disposed in the cavity between the second face and the second reaction surface of the housing;wherein the actuator is configured to be in continuous fluid contact with the fluid and the actuator includes a smart material configured to be activated in response to the temperature of the fluid in the cavity having at least a first temperature such that activation of the smart material activates the actuator;wherein the smart material is configured to be deactivated in response to a temperature of the fluid in the cavity being a sufficient number of degrees less than the first temperature such that the smart material deactivates the actuator;wherein the biasing device reacts between the first face of the sealing member and the first reaction surface to apply a first force to the sealing member, in a first longitudinal direction, along the longitudinal axis;wherein the actuator reacts between the second face and the second reaction surface to apply a second force to the sealing member, in a second longitudinal direction, opposite the first longitudinal direction;wherein the first force is greater than the second force when the actuator is deactivated, such that the sealing member moves in the first longitudinal direction from the second position to the first position;wherein the second force is greater than the first force when the actuator is activated, such that the sealing member moves in the second longitudinal direction from the first position to the second position;wherein the fluid is only permitted to flow between the cavity, the cooler, and the device when the sealing member is in the second position; andwherein the fluid is only permitted to flow from the cavity to the device and from the device to the cavity when the sealing member is in the first position.
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