Rotary machine aspirating seal assembly and method of assembling the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-011/00
F01D-011/02
F16J-015/34
F16J-015/44
F16J-015/00
F16J-015/447
출원번호
US-0076982
(2013-11-11)
등록번호
US-9291067
(2016-03-22)
발명자
/ 주소
Zheng, Xiaoqing
Turnquist, Norman Arnold
Mack, Michael Dennis
Bidkar, Rahul Anil
Thatte, Azam Mihir
출원인 / 주소
General Electric Company
대리인 / 주소
Armstrong Teasdale LLP
인용정보
피인용 횟수 :
1인용 특허 :
9
초록▼
An aspirating face seal for use with a rotary machine includes a rotating seal ring including a radially outer surface that includes an oblique portion. A stationary seal ring is coupled proximate the rotating seal ring such that a first gap is defined therebetween. The stationary seal ring is movab
An aspirating face seal for use with a rotary machine includes a rotating seal ring including a radially outer surface that includes an oblique portion. A stationary seal ring is coupled proximate the rotating seal ring such that a first gap is defined therebetween. The stationary seal ring is movable along a centerline axis of the rotary machine between an open position and a sealed position, and includes an extension member that extends across the first gap. An auxiliary seal includes at least one seal tooth that includes a seal tooth tip. The at least one seal tooth extends radially inward from the extension member such that a second gap is defined between the seal tooth tip and the oblique portion.
대표청구항▼
1. An aspirating face seal for use with a rotary machine that includes a centerline axis, said aspirating face seal comprising: a rotating seal ring comprising a sealing surface, an opposite upstream surface, and a radially outer surface that extends between said sealing surface and said upstream su
1. An aspirating face seal for use with a rotary machine that includes a centerline axis, said aspirating face seal comprising: a rotating seal ring comprising a sealing surface, an opposite upstream surface, and a radially outer surface that extends between said sealing surface and said upstream surface, wherein said sealing surface has a radius that is larger than a radius of said upstream surface, said radially outer surface includes an oblique portion that slopes radially inward from a first end proximate said sealing surface towards a second end proximate said upstream surface;a stationary seal ring having a sealing surface and coupled proximate said rotating seal ring such that a first gap is defined axially between said stationary seal ring sealing surface and said rotating seal ring sealing surface, said stationary seal ring including an extension member extending across said first gap; andan auxiliary seal comprising at least one seal tooth that includes a seal tooth tip, said at least one seal tooth extending radially inward from said extension member such that a second gap is defined radially between said seal tooth tip and said oblique portion, wherein said stationary seal is axially movable along said centerline axis between a first position, wherein said first gap defines a first width and said second gap defines a second width, and a second position, wherein said first gap defines a third width that is narrower than the first width and said second gap defines a fourth width that is wider than the second width. 2. The aspirating face seal in accordance with claim 1, wherein said auxiliary seal is configured to restrict a flow of process fluid through said first gap such that a pressure differential between an area of high pressure upstream of said first gap and an area of low pressure downstream of said first gap causes axial movement of said stationary seal ring from the first position to the second position. 3. The aspirating face seal in accordance with claim 2, wherein said auxiliary seal is configured to reduce the pressure differential to facilitate reducing a speed at which said stationary seal ring approaches said rotating seal ring during transition from the first position to the second position. 4. The aspirating face seal in accordance with claim 1, wherein said oblique portion is substantially arcuate. 5. The aspirating face seal in accordance with claim 1, wherein the second width is narrower than the first width, and the fourth width is wider than the third width. 6. The aspirating face seal in accordance with claim 1 further comprising a seal housing and a biasing component that extends between said seal housing and said stationary seal ring, said biasing component configured to bias said stationary seal ring away from said rotating seal ring in the first position. 7. The aspirating face seal in accordance with claim 1, wherein in the first position, said rotary machine is in one of a no pressure and a low pressure operating condition, and in the second position, said rotary machine is in a relatively higher pressure operating condition. 8. The aspirating face seal of claim 1, wherein said seal tooth tip is positioned over a central portion of said oblique portion in the first position, and said seal tooth tip is positioned proximate said second end of said oblique portion in the second position. 9. A rotary machine comprising: a casing;a rotatable shaft defining a centerline axis; anda sealing system comprising: a rotating seal ring coupled to said shaft, said rotating seal ring comprising a sealing surface, an opposite upstream surface, and a radially outer surface that extends between said sealing surface and said upstream surface, wherein said sealing surface has a radius that is larger than a radius of said upstream surface, said radially outer surface includes an oblique portion that slopes radially inward from a first end proximate said sealing surface towards a second end proximate said upstream surfacea stationary seal ring having a sealing surface and coupled to said casing proximate said rotating seal ring such that a first gap is defined axially between said stationary seal ring sealing surface and said rotating seal ring sealing surface, said stationary seal ring including an extension member extending across said first gap; andan auxiliary seal comprising at least one seal tooth that includes a seal tooth tip, said at least one seal tooth extending radially inward from said extension member such that a second gap is defined radially between said seal tooth tip and said oblique portion, wherein said stationary seal is axially movable along said centerline axis between a first position, wherein said first gap defines a first width and said second gap defines a second width, and a second position, wherein said first gap defines a third width that is narrower than the first width and said second gap defines a fourth width that is wider than the second width. 10. The rotary machine in accordance with claim 9, wherein said auxiliary seal is configured to restrict a flow of process fluid through said first gap such that a pressure differential between an area of high pressure upstream of said first gap and an area of low pressure downstream of said first gap causes axial movement of said stationary seal ring from the first position to the second position. 11. The rotary machine in accordance with claim 10, wherein said auxiliary seal is configured to reduce the pressure differential to facilitate reducing a speed at which said stationary seal ring approaches said rotating seal ring during transition from the first position to the second position. 12. The rotary machine in accordance with claim 9, wherein said oblique portion is substantially conical. 13. The rotary machine in accordance with claim 9, wherein the second width is narrower than the first width, and the fourth width is wider than the third width. 14. The rotary machine in accordance with claim 9, wherein during transition from the first position to the second position, said at least one seal tooth moves axially along said oblique portion. 15. The rotary machine in accordance with claim 9, wherein said oblique portion slopes radially inward toward said centerline axis. 16. The rotary machine in accordance with claim 9, wherein in the first position, said rotary machine is in one of a no pressure or a low pressure operating condition, and in the second position, said rotary machine is in a relatively higher pressure operating condition. 17. A method of assembling a sealing system for use in a rotary machine, said method comprising: coupling a rotating seal ring to a rotatable shaft that defines a centerline axis, wherein the rotating seal ring includes a sealing surface, an opposite upstream surface, and a radially outer surface that extends between the sealing surface and the upstream surface, wherein the sealing surface has a radius that is larger than a radius of the upstream surface, and the radially outer surface includes an oblique portion that slopes radially inward from a first end proximate the sealing surface towards a second end proximate the upstream surface;coupling a stationary seal ring having a sealing surface proximate the rotating seal ring such that a first gap is defined axially between said stationary seal ring sealing surface and said rotating seal ring sealing surface, wherein the stationary seal ring includes an extension member extending across the first gap; andforming an auxiliary seal radially outward from the rotating seal ring, wherein the auxiliary seal includes at least one seal tooth that includes a seal tooth tip, and wherein the at least one seal tooth extends radially inward from the extension member such that a second gap is defined radially between the seal tooth tip and the oblique portion, wherein the stationary seal is axially movable along the centerline axis between a first position, wherein the first gap defines a first width and the second gap defines a second width, and a second position, wherein the first gap defines a third width that is narrower than the first width and the second gap defines a fourth width that is wider than the second width. 18. The method in accordance with claim 17, wherein forming an auxiliary seal further comprises restricting a flow of process fluid through the first gap such that a pressure differential between an area of high pressure upstream of the first gap and an area of low pressure downstream of the first gap causes axial movement of the stationary seal ring from the first position to the second position. 19. The method in accordance with claim 17, wherein forming an auxiliary seal further comprises reducing the pressure differential to facilitate reducing a speed at which said stationary seal ring approaches said rotating seal ring during transition from the first position to the second position. 20. The method in accordance with claim 17, wherein coupling a stationary seal ring proximate the rotating seal ring further comprises coupling the stationary seal ring proximate the rotating seal ring such that the second width is narrower than the first width, and such that the fourth width is wider than the third width.
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이 특허에 인용된 특허 (9)
Brauer, John C.; Albers, Robert J., Aspirating face seal with axially biasing one piece annular spring.
Turnquist Norman Arnold ; Bagepalli Bharat Sampathkumaran ; Reluzco George ; Tseng Wu-Yang, Rotor and stator assembly configured as an aspirating face seal.
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