Pumps and pump heads comprising volume-compensation feature
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04B-011/00
F01B-031/14
출원번호
US-0174463
(2011-06-30)
등록번호
US-8734139
(2014-05-27)
발명자
/ 주소
Burns, Stephen Michael
Carr, Charles F.
Grimes, David J.
출원인 / 주소
Micropump, Inc.
대리인 / 주소
Klarquist Sparkman, LLP
인용정보
피인용 횟수 :
15인용 특허 :
6
초록▼
A fluid pump having a pump housing that includes at least one expansion joint, provides volume compensation, as needed, to adjust for changes in pressure in the pump housing. Various embodiments automatically and passively reduce static pressure in the pump housing associated with a freezing event,
A fluid pump having a pump housing that includes at least one expansion joint, provides volume compensation, as needed, to adjust for changes in pressure in the pump housing. Various embodiments automatically and passively reduce static pressure in the pump housing associated with a freezing event, thereby preventing damage to the pump head. Volume compensation is achieved by employing, in each expansion joint, a dynamic seal that allows relative movement of two portions of the pump housing, and a bias that provides a selected counter-force to the movement of the housing portions. The subject pumps are particularly suited for use in automotive and other rugged applications, in which fluid pumps may experience recurring freezing events.
대표청구항▼
1. A pump, comprising: a pump housing comprising pressure-boundary walls defining a pump cavity, the pump housing having first and second housing portions conjoined with each other by a dynamic seal allowing movement of at least one housing portion relative to the other housing portion in response t
1. A pump, comprising: a pump housing comprising pressure-boundary walls defining a pump cavity, the pump housing having first and second housing portions conjoined with each other by a dynamic seal allowing movement of at least one housing portion relative to the other housing portion in response to a pressure condition in the pump cavity by automatically changing a volume of the pump cavity at least while the pump cavity is primed with fluid, the housing further defining at least one inlet and at least one outlet;a bias, situated relative to the first and second portions of the pump housing and providing a selected counter-force to the movement of the housing portion(s);a movable pumping member situated in the pump cavity and, when driven to move, urging flow of the fluid from the inlet through the pump cavity to the outlet; anda mover coupled to the pumping member so as to drive pumping motions of the pumping member,wherein the first portion of the housing comprises a respective cylindrical portion, and the second portion of the housing comprises a respective cylindrical portion that is slip-fit into the cylindrical portion of the first portion; andthe dynamic seal comprises at least one ring seal situated between the respective cylindrical portions. 2. The pump of claim 1, wherein the ring seal comprises at least one O-ring. 3. The pump of claim 1, wherein: the respective cylindrical portion of the first portion of the housing comprises a magnet cup having an interior housing a driven magnet and that is a respective portion of the pump cavity; andthe dynamic seal is between the magnet cup and the cylindrical portion of the second portion of the housing. 4. The pump of claim 1, wherein the bias comprises at least one compression spring. 5. The pump of claim 1, wherein the bias comprises a spring-loaded clamp ring. 6. A gear pump head, comprising: a pump housing comprising pressure-boundary walls defining a sealed pump cavity, the pump housing having first and second housing portions conjoined with each other by a dynamic seal allowing movement of at least one housing portion relative to the other housing portion in response to a pressure condition in the pump cavity by automatically changing a volume of the pump cavity at least while the pump cavity is primed with fluid, the housing further defining at least one inlet and at least one outlet;at least a driving gear and a driven gear enmeshed with each other in the pump cavity, and configured, when driven, to urge flow of the fluid from the inlet to the outlet; anda bias, situated relative to the first and second portions of the pump housing and providing a selected counter-force to motion of the at least one housing portion,wherein the pump housing further comprises a cup-housing, the cup-housing defining a cup-cavity in hydraulic communication with the gear cavity, the cup-cavity containing the fluid and a rotatable driven magnet that is coupled to the driving gear such that rotation of the magnet about its axis causes corresponding rotation of the driving gear and thus of the driven gear,the cup housing is rotationally symmetrical to the axis of rotation of the magnet situated in the cup housing,the cup housing is a part of the first housing portion that moves relative to the second housing portion, andthe first housing portion moves along the axis relative to the second housing portion to increase the volume of the housing in response to a pressure increase in the housing and to decrease the volume of the housing in response to a pressure decrease in the housing. 7. The gear pump head of claim 6, wherein: the first housing portion includes a portion enclosing the gears;the second housing portion comprises a pump block including the inlet and outlet; andthe dynamic seal is located between an inside surface of the first housing portion and an outside surface of the second housing portion. 8. The gear pump head of claim 6, wherein the bias comprises at least one coil spring. 9. The gear pump head of claim 6, wherein the bias comprises at least one spring-washer. 10. A fluid pump, comprising: a fluid inlet;a fluid outlet;a pump housing, comprising pressure-boundary walls defining a pump cavity having a cavity volume, the pump cavity containing a fluid at a fluid pressure; a first housing portion connected to the fluid inlet; a second housing portion connected to the fluid outlet; a bias; and an expansion joint by which at least one of the housing portions is movable relative to the other housing portion against the bias to expand the cavity volume in response to an increase in fluid pressure in the pump cavity, and to contract the cavity volume in response to a decrease in fluid pressure in the pump cavity;a movable pumping member situated in the pump cavity, the pumping member urging flow of the fluid from the inlet through the pump cavity to the outlet; anda mover coupled to the pumping member, the mover being drivable to cause pumping motions of the pumping member in the pump cavity, wherein the expansion joint comprises a bellows, and the bias provides a selected counter-force to the movement of the housing portion(s). 11. The fluid pump of claim 10, further comprising a bellows that expands and contracts in response to motion of the housing portion(s).
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