Turbomachine compressor scroll with load-carrying inlet vanes
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-001/02
F01D-001/00
F04D-029/44
출원번호
US-0829114
(2004-04-20)
발명자
/ 주소
Smoke,Jason C.
Frost,Cristopher
Kocher,Richard D.
Guymon,Jeff D.
Nguyen,Ly D.
출원인 / 주소
Honeywell International, Inc.
대리인 / 주소
Ingrassia Fisher &
인용정보
피인용 횟수 :
22인용 특허 :
12
초록▼
A compressor scroll housing for use in conjunction with turbo-machinery, particularly applicable in aircraft. The scroll housing can include a plurality of scroll vanes arrayed around the scroll housing. Scroll vanes, integrally formed with the scroll housing, carry stress load on the scroll housin
A compressor scroll housing for use in conjunction with turbo-machinery, particularly applicable in aircraft. The scroll housing can include a plurality of scroll vanes arrayed around the scroll housing. Scroll vanes, integrally formed with the scroll housing, carry stress load on the scroll housing, including the load from fluid pressure within the scroll and carcass loading from the engine. The plurality of scroll vanes adapted for guiding flow of fluid from an inlet to an outlet while supporting the scroll housing. Chord length and cross sectional area of each scroll vane can be sized to maintain an equal stress in all scroll vanes. A method of making the scroll housing for use with an impeller connected to an engine is disclosed, as well as a method of operating turbo-machinery including supporting a load on the scroll housing with scroll vanes while maintaining an equal stress on each scroll vane.
대표청구항▼
We claim: 1. A scroll housing for use in conjunction with a fluid compressor comprising: an inlet adapted to receive a flow of fluid; a scroll shaped outer wall; a forward flange and an aft flange fanned on said scroll shaped outer wall; an outlet; and a plurality of scroll vanes integrally formed
We claim: 1. A scroll housing for use in conjunction with a fluid compressor comprising: an inlet adapted to receive a flow of fluid; a scroll shaped outer wall; a forward flange and an aft flange fanned on said scroll shaped outer wall; an outlet; and a plurality of scroll vanes integrally formed with said scroll shaped outer wall and extending between said forward and aft flanges, and said plurality of scroll vanes connecting said forward and aft flanges, said plurality of scroll vanes adapted for guiding the flow of fluid from said inlet to said outlet while supporting said scroll housing and configured such that an equal stress is maintained on each scroll vane when a load is applied to the scroll shaped outer wall. 2. The scroll housing of claim 1, wherein each of said plurality of scroll vanes has a leading edge and a trailing edge, said leading edge and said trailing edge are separated by a chord length, wherein said chord length enables at least one of said plurality of scroll vanes to carry a load upon said scroll housing adjacent each of said plurality of scroll vanes. 3. The scroll housing of claim 1, wherein at least one of said plurality of scroll vanes has a cross sectional area, wherein said cross sectional area carries a load upon said scroll housing adjacent each of said plurality of scroll vanes. 4. The scroll housing of claim 1, wherein said plurality of scroll vanes carry a portion of a load on said scroll housing, said portion in the range of 70-100% of the load. 5. The scroll housing of claim 1, wherein said scroll housing is cast titanium. 6. The scroll housing of claim 1, wherein said fluid is air. 7. A compressor including a scroll housing, said compressor comprising: an impeller; said scroll housing having a scroll shaped outer wall; a forward flange and an aft flange formed on said scroll shaped outer wall; an inlet adapted for receiving a fluid from said impeller; and a plurality of scroll vanes integrally formed with said scroll shaped outer wall, wherein said plurality of scroll vanes are adapted for guiding the flow of fluid from said inlet to an outlet, and wherein said plurality of scroll vanes are further adapted for supporting said scroll housing and configured such that an equal stress is maintained on each scroll vane when a load is applied to the scroll shaped outer wall. 8. The compressor of claim 7, wherein said forward flange and said aft flange are circular. 9. The compressor of claim 8, wherein said forward flange and said aft flange each include a flat machined surface. 10. The compressor of claim 9, further including a diffuser disposed between said impeller and said scroll housing. 11. The compressor of claim 9, wherein said plurality of scroll vanes carry a portion of a load on said scroll housing, said portion in the range of 70-100% of the load. 12. The compressor of claim 7, wherein said plurality of scroll vanes carry a portion of a load on said scroll housing, said portion in the range of 98-100% of the load. 13. The compressor of claim 12, wherein said fluid is air and wherein said scroll housing is cast titanium. 14. A turbo-machine, comprising: a compressor having a scroll housing; a forward flange and an aft flange formed on said scroll shaped outer wall; a forward engine housing and an aft engine housing, said compressor connected to said engine between said forward engine housing and said aft engine housing and an impeller; wherein, said compressor including a plurality of scroll vanes for receiving fluid from said impeller, said plurality of scroll vanes integrally formed with said scroll shaped outer wall, and said plurality of scroll vanes adapted for guiding the flow of fluid from an inlet to an outlet while said plurality of scroll vanes support said scroll housing against loads from said forward engine housing and said aft engine housing and configured such that an equal stress is maintained on each scroll vane when a load is applied to the scroll shaped outer wall. 15. The turbo-machine of claim 14, wherein each of said plurality of scroll vanes has a cross sectional area, said cross sectional area designed to carry said loads, said loads including at least a carcass load between said forward engine housing and said aft engine housing, and a pressure load generated by fluid pressure from said impeller. 16. The turbo-machine of claim 15, wherein said integrally formed scroll shaped housing and said plurality of scroll vanes are formed by investment casting titanium. 17. The turbo-machine of claim 14, wherein said forward flange connecting said scroll shaped housing to said forward engine housing, and said aft flange connecting said scroll shaped outer wall to said aft engine housing. 18. The turbo-machine of claim 14, wherein each of said plurality of scroll vanes has a cross sectional area determined by a portion of said loads acting on said scroll shaped housing adjacent to each of said plurality of scroll vanes. 19. The turbo-machine of claim 17, wherein said forward flange includes a machined surface adapted to fit to said forward engine housing, and wherein said aft flange includes a machined surface adapted to fit to said aft engine housing. 20. The turbo-machine of claim 14, wherein each of said plurality of scroll vanes gets progressively larger as an air flow path in said scroll shaped housing increases in cross sectional area. 21. A scroll housing for use in combination with an air compressors, comprising: a scroll shaped outer wall; a forward flange and an aft flange formed on said scroll shaped outer wall; a plurality of scroll vanes integrally fanned with said scroll shaped outer wall and with said forward and aft flanges, each of said plurality of scroll vanes including a leading edge and a trailing edge, each scroll vane of said plurality of scroll vanes guiding a flow of air trough said scroll housing while supporting said scroll housing and configured such that an equal stress is maintained on each scroll vane when a load is applied to the scroll shaped Outer wall. 22. The scroll housing of claim 21, wherein said each of said plurality of scroll vanes gets progressively larger in a radial direction around said scroll shaped outer wall. 23. The scroll housing of claim 21, wherein each of said plurality of scroll vanes is sized according to a local load distribution in said scroll housing. 24. The scroll housing of claim 22, wherein said plurality of scroll vanes carry 70-100% of a load transmitted between said forward flange and said aft flange. 25. A method of making a scroll housing for use with an impeller connected to an engine, including the steps of: determining the optimum size and shape characteristics for the scroll housing; calculating loads on a scroll shaped outer wall of said scroll housing; based on said calculating loads step, designing a plurality of scroll vanes internal to said scroll shaped outer wall; and based on said designing step, casting said scroll housing and said plurality of scroll vanes as one piece. 26. The method of claim 25, wherein said casting is investment casting. 27. The method of claim 25, wherein said step of calculating loads includes the step of calculating local loads on the scroll shaped outer wall, and said step of designing a plurality of scroll vanes includes the step of determining the cross-sectional area of each of said plurality of scroll vanes to support said local loads. 28. The method of claim 26, wherein, based on said designing step, an equal stress occurs in each of said plurality of scroll vanes. 29. A method of operating turbo-machinery, including the steps of; providing an airflow with an impeller; guiding said airflow through a scroll housing using a plurality of scroll vanes integrally cast with said scroll housing; and supporting a load on said scroll housing with said plurality of scroll vanes, said plurality of scroll vanes configured such that an equal stress is maintained on each scroll vane when a load is applied to the scroll shaped outer wall by determining a chord length, cross sectional area and distance from a scroll housing wall for each of said plurality of scroll vanes. 30. The method of claim 29, wherein said scroll housing is cast in one piece.
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