Ball valve with anti-rotational pressure plate
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F16K-005/06
F16K-005/10
F16K-027/06
F16K-005/20
출원번호
US-0085120
(2016-03-30)
등록번호
US-9625040
(2017-04-18)
발명자
/ 주소
Thomas, Kurt R.
출원인 / 주소
Schneider Electric Buildings, LLC
대리인 / 주소
Reinhart Boerner Van Deuren P.C.
인용정보
피인용 횟수 :
0인용 특허 :
43
초록▼
A ball valve having an anti-rotational pressure plate that allows for a balanced pressure load on a valve member is provided. Additionally, the pressure plate can also fix the rotation of an adjacent flow disk, allowing for angular-orientation specific flow characterizing features to be used with th
A ball valve having an anti-rotational pressure plate that allows for a balanced pressure load on a valve member is provided. Additionally, the pressure plate can also fix the rotation of an adjacent flow disk, allowing for angular-orientation specific flow characterizing features to be used with the flow disk. By fixing the rotation of the flow disk, the ball valve can characterize flows using a greater variety of flow disk geometries, including angular-orientation dependent and angular-orientation independent flow disks. Further, the pressure plate could also be directly in the form of a flow disk that has anti-rotation features.
대표청구항▼
1. A ball valve, comprising: a valve body having a plurality of ports and a valve chamber therebetween, the plurality of ports and the valve chamber defining a fluid flow passage between the ports, wherein at least two of the plurality of ports are arranged along an first axis, and at least one of t
1. A ball valve, comprising: a valve body having a plurality of ports and a valve chamber therebetween, the plurality of ports and the valve chamber defining a fluid flow passage between the ports, wherein at least two of the plurality of ports are arranged along an first axis, and at least one of the plurality of ports is arranged along a second axis at a non-zero angle to the first axis;a valve member disposed within the valve chamber and defining a flow aperture therethrough, the valve member selectively rotatable within the valve chamber to adjust flow along the fluid flow passage by adjusting the orientation of the flow aperture relative to the plurality of ports;a first and a second dynamic seal carried by the valve body, wherein the first dynamic seal is biased against the valve member along the first axis, and the second dynamic seal is biased against the valve member along the second axis; anda fixed seal arranged along the first axis and in opposed spaced relation to the first dynamic seal, wherein the fixed seal fixes the location of the valve member in a first direction along the first axis and a second direction along the second axis. 2. The ball valve of claim 1 wherein the fixed seal has an arcuate surface that sealingly engages an outer surface of the valve member, wherein the arcuate surface and outer surface cooperatively center the ball valve within the valve chamber in the first and second directions. 3. The ball valve of claim 2 wherein the fixed seal has a first and a second end, the arcuate sealing surface located at the first end and an abutting surface located at the second end, and wherein the valve body includes an annular abutment flange extending transversely away from an interior surface of the valve body, the annular abutment flange in abutted contact with the abutting surface of the fixed seal such that only a single piece is positioned between the valve body and valve member to seal the valve member at that location. 4. The ball valve of claim 1 further comprising a flow disk carried by the valve body and substantially disposed within the fluid flow passage, wherein the flow disk is operably coupled to the valve body such that the flow disk is prevented from angular rotation about a center axis of the flow disk. 5. The ball valve of claim 4 wherein the flow disk has a radially extending key extending outward from a periphery of the flow disk, the radially extending key received by a slot extending into an interior surface of the valve body causing an interference engagement preventing the angular rotation. 6. The ball valve of claim 5 wherein the slot is elongated in the axial direction of the flow disk a distance greater than the axial thickness of the radially extending key to permit axial movement of the flow disk relative to the valve body. 7. The ball valve of claim 6 wherein the slot has a width that is substantially the same as a width of the radially extending key. 8. The ball valve of claim 7 further comprising a biasing member biasing the flow disk axially towards the valve member, the biasing member directly acting on the flow disk. 9. The ball valve of claim 8 further comprising a valve seal axially interposed between the flow disk and the valve member, the valve seal including a seal member axially contacting an outer surface of the valve member, a valve body seal radially sealing the seal member to the valve body and a flow disk seal axially sealing the flow disk to the seal member, the biasing member axially biasing the flow disk into sealing engagement with the flow disk seal. 10. The ball valve of claim 4 further comprising a pressure plate carried within the valve body and within the flow passage, the flow disk being axially interposed between the valve member and the pressure plate. 11. The ball valve of claim 10 wherein the pressure plate has a radially extending key extending transversely away from a periphery of the pressure plate, the radially extending key received by a slot extending into an interior surface of the valve body preventing relative rotation therebetween. 12. The ball valve of claim 11 wherein the slot is elongated in the axial direction of the flow disk a distance greater than the axial thickness of the radially extending key to permit axial movement of the pressure plate relative to the valve body. 13. The ball valve of claim 12 wherein the slot has a width that is substantially the same as a width of the radially extending key. 14. The ball valve of claim 11 wherein the pressure plate has an axially extending key extending transversely away from an axial face of the pressure plate, the axially extending key being received by a keyway of the flow disk, whereby the receipt of the axially extending key by the keyway prevents the flow disk from rotation about the central axis of the flow disk relative to the pressure plate. 15. A ball valve, comprising: a valve body having a plurality of ports and a valve chamber therebetween, the plurality of ports and the valve chamber defining a fluid flow passage between the ports, wherein at least two of the plurality of ports are arranged along a first axis;a valve member disposed within the valve chamber and defining a flow aperture therethrough, the valve member selectively rotatable within the valve chamber to adjust flow along the fluid flow passage by adjusting the orientation of the flow aperture relative to the plurality of ports;a first and a second dynamic seal carried by the valve body wherein the first dynamic seal is biased against the valve member along the first axis and the second dynamic seal is biased against the valve member along a second axis arranged at a non-zero angle relative to the first axis; anda fixed seal arranged along the first axis and in opposed spaced relation to the first dynamic seal, the fixed seal sealing against the valve member. 16. The ball valve of claim 15 further comprising a flow disk carried by the valve body and substantially disposed within the fluid flow passage, wherein the flow disk is operably coupled to the valve body such that the flow disk is prevented from angular rotation about a center axis of the flow disk. 17. The ball valve of claim 16 wherein the flow disk has a radially extending key extending outward from a periphery of the flow disk, the radially extending key received by a slot extending into an interior surface of the valve body to prevent the angular rotation of the flow disk. 18. The ball valve of claim 16 further comprising a pressure plate carried within the valve body and within the flow passage, the flow disk being axially interposed between the valve member and the pressure plate. 19. The ball valve of claim 18 wherein the pressure plate has a radially extending key extending transversely away from a periphery of the pressure plate, the radially extending key received by a slot extending into an interior surface of the valve body preventing relative rotation therebetween. 20. The ball valve of claim 19 wherein the pressure plate has an axially extending key extending transversely away from an axial face of the pressure plate, the axially extending key being received by a keyway of the flow disk, whereby the receipt of the axially extending key by the keyway prevents the flow disk from rotation about the central axis of the flow disk relative to the pressure plate.
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이 특허에 인용된 특허 (43)
Birk Brian L. (Huntington Beach CA) Towey Michael T. (Corona DelMar CA), Air valve device having flush closing nozzle.
Koch Ulrich H. (Bainbridge Township ; Cuyahoga County OH) Williams Peter C. (Cleveland Heights OH) Lutz Gilbert F. (Chesterland OH), High pressure ball valve.
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