Fluid transfer seal assemblies, fluid transfer systems, and methods for transferring process fluid between stationary and rotating components using the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-011/02
F16J-015/34
F16J-015/447
F01D-011/04
F02C-007/28
F16J-015/40
F16J-015/3244
F01D-005/08
출원번호
US-0857829
(2013-04-05)
등록번호
US-9790863
(2017-10-17)
발명자
/ 주소
O'Brien, Michael
출원인 / 주소
HONEYWELL INTERNATIONAL INC.
대리인 / 주소
Lorenz & Kopf, LLP
인용정보
피인용 횟수 :
0인용 특허 :
71
초록▼
Fluid transfer seal assemblies for transferring process fluid between a stationary component and a rotating component, fluid transfer systems, and methods for transferring process fluid between the stationary and rotating components via a fluid transfer assembly are provided. A rotatable component i
Fluid transfer seal assemblies for transferring process fluid between a stationary component and a rotating component, fluid transfer systems, and methods for transferring process fluid between the stationary and rotating components via a fluid transfer assembly are provided. A rotatable component includes a sealing surface. The fluid transfer seal assembly comprises a face seal ring having at least one segment of a fluid passageway and a sealing face configured to be disposed opposite of the sealing surface. The sealing face or the opposed sealing surface includes a geometric feature for forming a hydrodynamic seal therebetween. A secondary seal is configured to be disposed between and contacting the face seal ring and the stationary component.
대표청구항▼
1. A fluid transfer seal assembly for transferring process fluid between a stationary component and a rotating component, the rotating component including a sealing surface, the fluid transfer seal assembly comprising: a pair of face seal rings each having a seal nose with a sealing face and a retai
1. A fluid transfer seal assembly for transferring process fluid between a stationary component and a rotating component, the rotating component including a sealing surface, the fluid transfer seal assembly comprising: a pair of face seal rings each having a seal nose with a sealing face and a retainer having a first side substantially opposite a second side, the second side that supports the seal nose, the retainer including a groove defined on the first side, the pair of face seal rings each having at least one segment of a fluid passageway in fluid communication with the stationary component and the rotating component, and the sealing face configured to be disposed opposite of the sealing surface, one of the sealing face or the opposed sealing surface including a geometric feature for forming a hydrodynamic seal therebetween; anda pair of secondary seals each received in a respective one of the grooves, the pair of secondary seals each configured to be disposed between and contacting the respective one of the pair of face seal rings and the stationary component,wherein the sealing face of each face sealing ring faces away from each other and is disposed opposite a corresponding sealing surface disposed outboard thereof. 2. The fluid transfer seal assembly of claim 1, wherein each of the face seal rings is axially movable and non-rotating. 3. The fluid transfer seal assembly of claim 1, wherein the pair of secondary seals are selected from the group consisting of a metal bellows, an O-ring, and a piston ring, wherein if the selected secondary seal comprises an O-ring or a piston ring, the fluid transfer seal assembly further comprises means for locking the respective face seal ring to the stationary component in a manner preventing rotation thereof with respect to the stationary component. 4. The fluid transfer seal assembly of claim 3, wherein if the selected secondary seal comprises an O-ring or a piston ring, the fluid transfer seal assembly further comprises a mechanical loading device to substantially insure a sealing relationship between the fluid transfer seal assembly and the rotating component. 5. A fluid transfer system comprising: a stationary component having an interior containing process fluid under pressure;a rotatable component in fluid flow communication with the interior of the stationary component via a fluid passageway, the rotatable component having a sealing surface along a portion thereof; anda fluid transfer seal assembly disposed between the stationary component and the rotatable component, the fluid transfer seal assembly comprising: a pair of face seal rings having a seal nose with a sealing face, a retainer that supports the seal nose and a retainer extension that extends from a first side of the retainer, the retainer including a groove defined on the first side, the pair of face seal rings each having at least one segment of the fluid passageway defined through the retainer extension and in fluid communication with the stationary component and the rotating component, and the sealing face configured to be disposed opposite of the sealing surface, one of the sealing face or the opposed sealing surface including a geometric feature for forming a hydrodynamic seal therebetween, anda pair of secondary seals each received in a respective one of the grooves, the pair of secondary seals each configured to be disposed between and contacting a respective one of the pair of face seal rings and the stationary component. 6. The fluid transfer system of claim 5, wherein each of the face seal rings is axially movable and non-rotating. 7. The fluid transfer system of claim 6, wherein the rotatable component includes a central hub portion having the sealing surface along opposite sides thereof, the sealing face of each face seal ring disposed opposite and facing the other sealing face to define an axial space therebetween for receiving the central hub portion with the central hub portion disposed between the sealing faces with a gap on each side of the central hub portion. 8. The fluid transfer system of claim 7, wherein the pair of face seal rings are connected as a single unit. 9. The fluid transfer system of claim 8, wherein the interior of the stationary component contains process fluid under high pressure and the exterior of the stationary component comprises a forward lower pressure region and an aft lower pressure region, wherein if the pressure in the forward and aft lower pressure regions is equal, the fluid transfer seal assembly comprises a symmetrical fluid transfer seal assembly and if unequal, the fluid transfer seal assembly comprises an asymmetrical fluid transfer seal assembly. 10. The fluid transfer system of claim 9, wherein a face diameter and a secondary seal balance diameter in the higher lower pressure region are radially increased relative to the face diameter and the secondary seal balance diameter in the other lower pressure region in the asymmetrical fluid transfer seal assembly. 11. The fluid transfer system of claim 5, wherein the pair of secondary seals are selected from the group consisting of a metal bellows, an O-ring, and a piston ring, wherein if the selected secondary seal comprises an O-ring or a piston ring, the fluid transfer seal assembly further comprises means for locking the respective face seal ring to the stationary component in a manner preventing rotation thereof with respect to the stationary component. 12. The fluid transfer system of claim 11, wherein if the selected secondary seal comprises an O-ring or a piston ring, the fluid transfer seal assembly further comprises a mechanical loading device to substantially insure a sealing relationship between the fluid transfer seal assembly and the rotatable component upon rotation. 13. The fluid transfer system of claim 5, wherein a gas turbine engine has a turbine as the rotatable component and a source of cooling air for cooling the turbine and a tangential on board injector (TOBI) for directing the cooling air to the turbine, the fluid transfer seal assembly disposed between the TOBI and the turbine of the gas turbine engine. 14. A method for transferring process fluid from a stationary component containing the process fluid under pressure to a rotating rotatable component via a fluid transfer seal assembly, the rotatable component having a sealing surface, the method comprising: disposing the fluid transfer seal assembly between the stationary component and the rotatable component such that the rotatable component is in fluid flow communication with the stationary component, the fluid transfer seal assembly comprising: a pair of face seal rings having a seal nose with a sealing face, a retainer that supports the seal nose and a retainer extension that extends from a first side of the retainer, the retainer including a groove defined on the first side, the pair of face seal rings each having at least one segment of a fluid passageway defined through the retainer extension, and the sealing face configured to be disposed opposite the sealing surface of the rotatable component for forming a gap therebetween, only one of the sealing face or the opposed sealing surface including a geometric feature for forming a hydrodynamic seal in the gap;a pair of secondary seals each received in a respective one of the grooves, the pair of secondary seals each disposed between and contacting a respective one of the pair of face seal rings and the stationary component; andcausing the rotatable component to rotate, thereby transferring the process fluid from the stationary component to the rotating component through the fluid passageway and into the gap forming the hydrodynamic seal. 15. The method of claim 14, wherein the process fluid comprises a barrier fluid for the hydrodynamic seal.
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