Gas turbine engine including lift-off finger seals, lift-off finger seals, and method for the manufacture thereof
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04D-029/057
F16J-015/16
F16J-015/32
F04D-029/10
B23P-015/00
출원번호
US-0316922
(2011-12-12)
등록번호
US-9033657
(2015-05-19)
발명자
/ 주소
Gibson, Nathan
출원인 / 주소
HONEYWELL INTERNATIONAL INC.
대리인 / 주소
Ingrassia Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
20
초록▼
Embodiments of a gas turbine engine including a lift-off finger seal are provided, as are embodiments of a lift-off finger seal and embodiments of a method for the manufacture thereof. In one embodiment, the gas turbine engine includes an engine housing having low and high pressure cavities, a shaft
Embodiments of a gas turbine engine including a lift-off finger seal are provided, as are embodiments of a lift-off finger seal and embodiments of a method for the manufacture thereof. In one embodiment, the gas turbine engine includes an engine housing having low and high pressure cavities, a shaft rotatably mounted in the engine housing, and a lift-off finger seal. The lift-off finger seal includes an finger seal backing spring and an aerodynamic foil. The aerodynamic foil extends around the outer circumference of the shaft and is configured to expand radially outward in response to aerodynamic forces generated during rotation of the shaft. The finger seal backing spring resiliently biases the aerodynamic foil toward the shaft, deflects to accommodate the outward radial expansion of the aerodynamic foil, and forms an annular seal around the aerodynamic foil to impede pressurized airflow from the high to low pressure zone.
대표청구항▼
1. A gas turbine engine, comprising: an engine housing containing a high pressure zone and a low pressure zone during operation of the gas turbine engine;a shaft rotatably mounted in the engine housing and extending from the low pressure zone to the high pressure zone; anda lift-off finger seal, com
1. A gas turbine engine, comprising: an engine housing containing a high pressure zone and a low pressure zone during operation of the gas turbine engine;a shaft rotatably mounted in the engine housing and extending from the low pressure zone to the high pressure zone; anda lift-off finger seal, comprising: an aerodynamic foil extending around the outer circumference of the shaft and configured to expand radially outward in response to aerodynamic forces generated during rotation of the shaft;a finger seal backing spring biasing the aerodynamic foil toward the shaft, deflecting to accommodate the outward radial expansion of the aerodynamic foil, and forming an annular seal around the shaft to impede pressurized airflow from the high pressure zone to the low pressure zone; anda finger seal retaining structure securing the finger seal backing spring to the engine housing;wherein the finger seal backing spring comprises a plurality of disc-shaped laminates, each disc-shaped laminate comprising: an outer circumferential flange portion fixedly coupled to the finger seal retaining structure; anda plurality radially-resilient fingers extending radially inward from the outer circumferential flange portion to contact an outer circumferential surface of the aerodynamic foil. 2. A gas turbine engine according to claim 1 wherein the finger seal backing spring extends radially inward from the finger seal retaining structure to the aerodynamic foil to form an annular seal between the finger seal retaining structure and the aerodynamic foil. 3. A gas turbine engine according to claim 1 further comprising an anti-rotation feature coupled between the finger seal retaining structure and the aerodynamic foil, the anti-rotation feature preventing the aerodynamic foil from rotating with respect to the finger seal retaining structure about the longitudinal axis of the lift-off finger seal. 4. A gas turbine engine according to claim 3 wherein the aerodynamic foil comprises: a generally annular foil body positioned between the shaft and the finger seal backing spring, the generally annular foil body having a high pressure edge exposed to fluid within the high pressure zone; anda first series of retention tabs circumferentially-spaced about the longitudinal axis of the aerodynamic foil and extending radially outward from the high pressure edge of the generally annular body. 5. A gas turbine engine according to claim 4 wherein the anti-rotation feature engages a first retention tab included within the first series of retention tabs. 6. A gas turbine engine according to claim 5 wherein the anti-rotation feature comprises an anti-rotation pin extending into an opening provided in the first retention tab and into an axially-aligning opening provided in the finger seal retaining structure. 7. A gas turbine engine according to claim 6 wherein the opening provided in the first retention tab comprises a radially-elongated slot sized to permit sliding movement between the anti-rotation pin and the first retention tab in a radial direction in conjunction with circumferential expansion of the aerodynamic foil. 8. A gas turbine engine according to claim 4 wherein the finger seal backing spring has a high pressure face exposed to fluid within the high pressure zone, and wherein the first series of retention tabs abut the high pressure face of the finger seal backing spring. 9. A gas turbine engine according to claim 8 wherein the generally annular foil body further comprises a low pressure edge exposed to fluid within the low pressure zone, and wherein the aerodynamic foil further comprises: a second series of retention tabs circumferentially-spaced about the longitudinal axis of the aerodynamic foil and extending radially outward from the low pressure edge of the generally annular body. 10. A gas turbine engine according to claim 4 wherein the anti-rotation feature comprises a slot formed in an inner circumferential surface of the finger seal retaining structure and into which a first retention tab included within the first series of retention tabs extends. 11. A gas turbine engine according to claim 10 wherein a radial clearance is provided between the outer terminal end of the first retention tab and the endwall of the slot when the aerodynamic foil contacts the shaft to permit sliding movement of the first retention tab within the slot in a radial direction in conjunction with circumferential expansion of the aerodynamic foil. 12. A gas turbine engine according to claim 1 wherein the lift-off finger seal further comprises a pressure balance circuit defined, at least in part, by the finger seal retaining structure and the finger seal backing spring. 13. A gas turbine engine according to claim 12 wherein the finger seal backing spring has a high pressure face exposed to pressurized air within high pressure zone, and wherein the finger seal retaining structure further comprises a high pressure cover plate positioned over the high pressure face of the finger seal backing spring. 14. A gas turbine engine according to claim 13 wherein the pressure balance circuit comprises a pressure balance cavity formed between the high pressure cover plate and the high pressure face of the finger seal backing spring. 15. A lift-off finger seal configured to form a seal around a rotating shaft, the lift-off finger seal comprising: a finger seal retaining structure;a finger seal backing spring, comprising: an outer circumferential flange portion attached to the finger seal retaining structure; anda plurality radially-resilient fingers extending radially inward from the outer circumferential flange portion;an aerodynamic foil, comprising: a generally annular foil body extending around an inner circumference of the plurality of radially-resilient fingers; anda series of retention tabs circumferentially-spaced about the longitudinal axis of the aerodynamic foil, extending radially outward from an edge of the generally annular foil body, and contacting a face of the plurality of radially-resilient fingers; andan anti-rotation pin extending from the finger seal retaining structure into a radially-elongated slot provided in one of the series of retention tabs and having a radial clearance permitting sliding movement of the anti-rotation pin within the radially-elongated slot in conjunction with circumferential expansion of the aerodynamic foil. 16. A lift-off finger seal configured to form a seal around a rotating shaft, the lift-off finger seal comprising: a finger seal retaining structure;a finger seal backing spring; an outer circumferential flange portion fixedly coupled to the finger seal retaining structure; anda plurality of radially-resilient fingers extending radially inward from the outer circumferential flange portion;an aerodynamic foil, comprising: a generally annular foil body extending around an inner circumference of the plurality of radially-resilient fingers; anda plurality of retention tabs circumferentially-spaced about the longitudinal axis of the aerodynamic foil, extending radially outward from an edge of the generally annular foil body, and contacting a high pressure face of the plurality of radially-resilient fingers; anda pressure balance circuit having an inlet flow passage located radially adjacent the plurality of retention tabs. 17. A lift-off finger seal according to claim 16 further comprising an anti-rotation tab extending from the finger seal retention structure, through the inlet flow passage, and into a radially-elongated slot formed in one of the retention tabs to prevent rotation of the aerodynamic foil with respect to the finger seal retaining structure about a longitudinal axis of the lift-off finger seal. 18. A lift-off finger seal according to claim 16 wherein the pressure balance circuit comprises an axially-extending flow passage formed through the finger seal retaining structure.
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이 특허에 인용된 특허 (20)
Gardner James F. (Exeter RI), Compliant finer seal.
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