Outer diameter nut piloting for improved rotor balance
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04D-029/00
F03B-011/04
F03B-011/00
출원번호
US-0176537
(2005-07-06)
등록번호
US-7470115
(2008-12-30)
발명자
/ 주소
Meacham,Walter L.
Selder,Albert G.
출원인 / 주소
Honeywell International Inc.
대리인 / 주소
Ingrassia, Fisher & Lorenz, P.C.
인용정보
피인용 횟수 :
4인용 특허 :
8
초록▼
The present invention provides for outer diameter piloting of a nut that secures stacked components to a tie-shaft or other threaded components used to axially secure one or more rotating components. Unlike conventional inner diameter piloting methods, machining a precise inner diameter of the nut i
The present invention provides for outer diameter piloting of a nut that secures stacked components to a tie-shaft or other threaded components used to axially secure one or more rotating components. Unlike conventional inner diameter piloting methods, machining a precise inner diameter of the nut is not needed. The nut face of the present invention has superior perpendicularity with the tie-shaft and the radial pilot is not lost when the nut is loaded. Outer diameter nut piloting may be conducted by using a nut alone or a nut in combination with a nut spacer, a pocket in the rotor, a nut spacer seat, or a nut piloting insert.
대표청구항▼
We claim: 1. A rotor assembly, comprising: a rotor; a shaft coaxial with the rotor; and a nut for axially loading the rotor and the shaft, wherein: the rotor includes a rotor axial facing surface and a rotor radially inward surface, the rotor includes a nut-receiving portion defining an annular rec
We claim: 1. A rotor assembly, comprising: a rotor; a shaft coaxial with the rotor; and a nut for axially loading the rotor and the shaft, wherein: the rotor includes a rotor axial facing surface and a rotor radially inward surface, the rotor includes a nut-receiving portion defining an annular recess within the rotor, the annular recess is bounded by the rotor axial facing surface and the rotor radially inward surface, the nut comprises a braced nut including a nut brace for bracing the braced nut into a nut bracing corner within the nut-receiving portion of the rotor, the nut bracing corner is disposed within the nut-receiving portion at the rotor axial facing surface, the nut includes a nut axial facing surface, the nut has a radially outward surface, and radial piloting of the nut to the rotor occurs between the rotor radially inward surface and the nut radially outward surface. 2. The rotor assembly of claim 1, farther comprising a nut spacer disposed axially between the rotor axial facing surface and the nut axial facing surface. 3. The rotor assembly of claim 1, wherein the nut comprises a steel alloy, a nickel-base alloy, a cobalt-base alloy, an aluminum alloy, or a titanium alloy. 4. The rotor assembly of claim 1, wherein an axial load exists between a rotor axial mating surface of the rotor and a nut axial mating surface of the nut. 5. The rotor assembly of claim 1, wherein the rotor radially inward surface surrounds a nut outer diameter. 6. The rotor assembly of claim 1, wherein the rotor radially inward surface mates with a nut outer diameter. 7. The rotor assembly of claim 1, wherein the shaft includes a shaft threaded portion for receiving the nut. 8. A rotor assembly, comprising: a tie-shaft; a rotor co-axial with the tie-shaft; a nut for axially loading the rotor and the tie-shaft; and a nut spacer disposed on at least one of the rotor and the tie-shaft, wherein the tie-shaft has a yield strength, and the tie-shaft is preloaded in tension to a predetermined percentage of the yield strength, the rotor includes a rotor first axial mating surface, the tie-shaft includes a tie-shaft radially outward mating surface, the nut spacer includes a spacer first axial mating surface, a spacer second axial mating surface, and a spacer first radially inward mating surface, the tie-shaft radially outward mating surface extends axially beyond the rotor axial mating surface, the spacer first radially inward mating surface mates with the tie-shaft radially outward mating surface; the spacer first axial mating surface mates with a nut axial mating surface of the nut, the nut spacer is axially disposed between the rotor and the nut, the nut spacer includes a first arm, a second arm, and a spacer nut-mating surface, the spacer nut-mating surface mates with a nut spacer-mating surface of the nut, and an internal mating surface of the second arm mates with an outer diameter of the nut. 9. The rotor assembly of claim 8, wherein: the spacer second axial mating surface mates with the rotor axial mating surface. 10. The rotor assembly of claim 8, wherein: the rotor includes a rotor second axial mating surface and a rotor radially outward mating surface, the rotor assembly further comprises a spacer seat axially disposed between the rotor second axial mating surface and the nut spacer, the spacer seat includes a seat first axial mating surface, a seat first radially inward surface, and a seat second radially inward surface, the rotor radially outward mating surface mates with both the spacer first radially inward mating surface and the seat second radially inward surface, the spacer first radially inward mating surface mates with a nut radially outward mating surface of the nut, and the spacer second axial mating surface mates with the seat first axial mating surface. 11. The rotor assembly of claim 8, wherein: the rotor includes a rotor axial facing surface and a rotor radially outward mating surface, the nut includes a nut first radially outward surface, a nut radially outward mating surface, a nut axial facing surface, and the nut axial mating surface, the rotor first axial mating surface mates with the nut axial mating surface, the nut spacer comprises an axially floating nut spacer including the spacer first radially inward mating surface, the spacer first axial mating surface, and the spacer second axial mating surface, the spacer first radially inward mating surface mates with the rotor radially outward mating surface, the spacer first radially inward mating surface further mates with the nut radially outward mating surface, the rotor axial facing surface faces the spacer second axial mating surface, the spacer first axial mating surface faces the nut axial facing surface, and an axial gap exists between the rotor axial facing surface and the spacer second axial mating surface, or between the spacer first axial mating surface and the nut axial facing surface. 12. The rotor assembly of claim 8, wherein: the rotor is piloted on the nut spacer, the nut, and a spacer seat, the rotor includes a rotor second axial mating surface, and a rotor radially outward surface, the nut spacer is disposed radially outward from the nut, the spacer seat includes a seat first radially inward surface, a seat second radially inward surface, and a seat second axial mating surface, the nut includes the nut axial mating surface and a nut outer diameter, the seat first radially inward surface mates with a spacer radially outward surface of the nut spacer, the nut axial mating surface mates with the rotor first axial mating surface, the nut spacer includes a radially inward spacer piloting surface, the nut spacer pilots the nut outer diameter along the radially inward spacer piloting surface, the spacer second axial mating surface mates with a seat first axial mating surface of the spacer seat, the seat second axial mating surface mates with the rotor second axial mating surface, and the seat second radially inward surface mates with the rotor radially outward surface. 13. A rotating component stack for a turbine system, comprising: a rotor stack having a shaft receiving bore axially defined therein; a tie-shaft disposed within the shaft-receiving bore; a nut for axially loading the rotor stack and the tie-shaft; and a nut spacer disposed on at least one of the rotor and the tie-shaft, the nut spacer having a T-shaped cross-sectional shape or an L-shaped cross-sectional shape, wherein: the rotor stack comprises a plurality of components, each of the plurality of components of the rotor stack and the nut having a common axis, each of the plurality of components of the rotor stack and the nut being secured in fixed relation to each other, the nut having a nut mating surface and a nut axial facing surface, the nut is piloted on an outer diameter of the nut, the rotor stack includes a rotor radially inward surface and a rotor axial facing surface, the rotor axial facing surface and the nut mating surface are perpendicular to the tie-shaft axis. 14. The rotating component stack of claim 13, wherein an axial load exists between the rotor axial facing surface and the nut axial facing surface. 15. The rotating component stack of claim 13, wherein the nut spacer is disposed between the rotor and the nut. 16. The rotating component stack of claim 13, wherein the tie-shaft includes a threaded portion for mounting the nut thereon. 17. The rotating component stack of claim 13, further comprising a thrust piston disposed between the rotor stack and the nut. 18. The rotating component stack of claim 13, wherein the nut spacer comprises a washer. 19. The rotating component stack of claim 13, wherein each of the nut and the nut spacer comprises a nickel-base superalloy, a cobalt-base superalloy, a titanium alloy, an aluminum alloy or an iron based alloy. 20. The rotating component stack of claim 13, wherein: the rotor stack includes a rotor axial portion comprising a rotor axial and radial piloting feature, the nut spacer includes a spacer axial portion comprising a spacer axial and radial piloting feature that mates to the rotor stack, and the rotor axial and radial piloting feature comprises a curvic coupling, a rabbit coupling, or a radial spline. 21. The rotor assembly of claim 1, wherein the shaft has a yield strength, and the shaft is preloaded in tension to a predetermined percentage of the yield strength. 22. The rotating component stack of claim 13, wherein the tie-shaft has a yield strength, and the tie-shaft is preloaded in tension to a predetermined percentage of the yield strength.
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이 특허에 인용된 특허 (8)
Joco Fidel M. (Long Beach CA), Embedded nut compressor wheel.
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