Dual flow check valve for positive crankcase ventilation system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02M-013/00
F01M-013/00
출원번호
US-0943110
(2013-07-16)
등록번호
US-9217343
(2015-12-22)
발명자
/ 주소
Rice, Alan E.
Bryde, Steven G.
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Quinn Law Group, PLLC
인용정보
피인용 횟수 :
1인용 특허 :
2
초록▼
A dual flow check valve includes a valve body having an inner valve cavity, a first valve opening, and a second valve opening. The dual flow check valve further includes a seal disposed within the valve body. The seal is operatively coupled within the valve body such that the seal is configured to m
A dual flow check valve includes a valve body having an inner valve cavity, a first valve opening, and a second valve opening. The dual flow check valve further includes a seal disposed within the valve body. The seal is operatively coupled within the valve body such that the seal is configured to move relative to the valve body between an open position, in which the seal allows the gas to flow between the first and second valve openings through the inner valve cavity, and a closed position, in which the seal inhibits the gas and the liquid from flowing through the inner valve cavity from the first valve opening to the second valve opening.
대표청구항▼
1. A dual flow check valve comprising: a valve body having an inner valve cavity, a first valve opening leading to the inner valve cavity, and a second valve opening leading to the inner valve cavity, wherein the inner valve cavity fluidly couples the first valve opening with the second valve openin
1. A dual flow check valve comprising: a valve body having an inner valve cavity, a first valve opening leading to the inner valve cavity, and a second valve opening leading to the inner valve cavity, wherein the inner valve cavity fluidly couples the first valve opening with the second valve opening;a seal disposed within the valve body, the seal configured to be buoyant in a liquid,the seal being configured to remain stationary in relation to the valve body when a gas flows between the first valve opening and the second valve opening through the inner valve cavity, and the seal having a maximum seal cross-sectional dimension;wherein the seal is operatively coupled within the valve body such that the seal is configured to move relative to the valve body between an open position, in which the seal allows the gas to flow between the first and second valve openings through the inner valve cavity, and a closed position, in which the seal inhibits the gas and the liquid from flowing through the inner valve cavity from the first valve opening to the second valve opening; anda base fixed within the valve body, wherein the base is configured to support the seal when the seal is in the open position, the base has at least one hole extending therethrough, the at least one hole is configured to allow the gas to flow between the first and second valve openings through the inner valve cavity, the base includes a base body, the base body has a maximum body cross-sectional dimension, the maximum seal cross-sectional dimension is less than the maximum body cross-sectional dimension, the at least one hole extends through a portion of the base that is outside the maximum body cross-sectional dimension such that the seal does not extend over the at least one hole when the seal is in the open position and sits on the base. 2. The dual flow check valve of claim 1, wherein the liquid is oil, and the seal is configured to be buoyant in oil. 3. The dual flow check valve of claim 1, wherein the seal is substantially hollow. 4. The dual flow check valve of claim 3, wherein the seal is a substantially hollow aluminum ball. 5. The dual flow check valve of claim 1, wherein the base has a plurality of holes each extending therethrough, each hole being configured to allow the gas to flow between the first and second valve openings through the inner valve cavity. 6. The dual flow check valve of claim 5, wherein a portion of the base is substantially disk-shaped. 7. The dual flow check valve of claim 6, wherein the plurality of holes are arranged circumferentially along the base. 8. The dual flow check valve of claim 1, further comprising at least one wall supported by a portion of the base, the at least one wall being disposed within the valve body such as to guide the movement of the seal when the seal moves between the open position and the closed position. 9. The dual flow check valve of claim 8, wherein the valve body defines an inner valve surface that defines at least the inner valve cavity, and the at least one wall is disposed between the inner valve surface and the seal. 10. A dual flow check valve comprising: a valve body having an inner valve cavity, a first valve opening leading to the inner valve cavity, and a second valve opening leading to the inner valve cavity, wherein the inner valve cavity fluidly couples the first valve opening with the second valve opening;a seal disposed within the valve body, the seal configured to be buoyant in a liquid,wherein the seal is configured to remain stationary in relation to the valve body when a gas flows between the first valve opening and the second valve opening through the inner valve cavity, the seal is operatively coupled within the valve body such that the seal is configured to move relative to the valve body between an open position, in which the seal allows the gas to flow between the first and second valve openings through the inner valve cavity, and a closed position, in which the seal inhibits the gas and the liquid from flowing through the inner valve cavity from the first valve opening to the second valve opening;a base fixed within the valve body, wherein the seal sits on the base when the seal is in the open position, wherein the base defines a plurality of holes, the holes are spaced apart from the seal when the seal is in the open position and sits on the base so as to enable the gas to flow through the base when the seal is in the open position while the seal remains stationary relative to the valve body when the gas flows through the holes, and the base is disposed between the first valve opening and the second valve opening to enable the gas to flow from the first valve opening to the second valve opening via the holes when the seal is in the open position;wherein the seal has a maximum seal cross-sectional dimension, and at least one of the holes is entirely disposed outside the maximum seal cross-sectional dimension when the seal sits on the base so as to allow the gas to flow through the base and around the seal when the seal is in the open position; andwherein the base includes a base body, the base body has a maximum body cross-sectional dimension, the maximum seal cross-sectional dimension is less than the maximum body cross-sectional dimension, the holes extend through a portion of the base that is outside the maximum body cross-sectional dimension such that the seal does not extend over the holes when the seal is in the open position and sits on the base. 11. The dual flow check valve of claim 10, wherein the seal has a seal density, the gas has a gas density, and the seal density is greater than the gas density in order to allow the seal to remain stationary relative to the valve body when the gas flows through the holes. 12. The dual flow check valve of claim 10, wherein an entirety of each of the plurality of holes is disposed outwardly relative to the seal when the seal is in the open position in order to allow bidirectional flow of the gas between the first valve opening and the second valve opening via the holes.
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