[미국특허]
Turbine shroud and a method for manufacturing the turbine shroud
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-011/08
F01D-009/04
F01D-025/24
F01D-025/12
출원번호
US-0034810
(2011-02-25)
등록번호
US-8845272
(2014-09-30)
발명자
/ 주소
Weber, David Wayne
Foster, Gregory Thomas
출원인 / 주소
General Electric Company
대리인 / 주소
Dority & Manning, PA
인용정보
피인용 횟수 :
1인용 특허 :
43
초록▼
A turbine shroud includes a body having a plurality of sides. A first inward facing groove is defined by a first side of the body, and a first seal covers the first inward facing groove to define a first fluid passage in the first inward facing groove along the first side of the body. A first inlet
A turbine shroud includes a body having a plurality of sides. A first inward facing groove is defined by a first side of the body, and a first seal covers the first inward facing groove to define a first fluid passage in the first inward facing groove along the first side of the body. A first inlet port through the first seal fluid communication through the first seal into the first fluid passage. A method for forming a turbine shroud includes forming an inner surface and forming an outer surface opposed to the inner surface, wherein the outer surface is configured for exposure to a hot gas path. The method further includes defining a first slot in the inner surface and extending a first seal across the first slot to define a first fluid passage in the first slot along the inner surface.
대표청구항▼
1. A turbine shroud comprising: a. a body having a plurality of sides and a floor portion, wherein the plurality of sides extend radially outwardly from the floor portion;b. a first inward facing groove defined by the body along a first lateral side of the body proximate to the floor portion;c. a fi
1. A turbine shroud comprising: a. a body having a plurality of sides and a floor portion, wherein the plurality of sides extend radially outwardly from the floor portion;b. a first inward facing groove defined by the body along a first lateral side of the body proximate to the floor portion;c. a first seal covering the first inward facing groove to define a first fluid passage in the first inward facing groove along the first side of the body, wherein the first seal is connected to the first lateral side and to the floor portion; andd. a first inlet port through the first seal, wherein the first inlet port provides fluid communication through the first seal into the first fluid passage. 2. The turbine shroud as in claim 1, further comprising at least one outlet port through the first side of the body, wherein the at least one outlet port provides fluid communication from the first fluid passage through the first side of the body. 3. The turbine shroud as in claim 1, further comprising a continuous fluid pathway through the first seal, into the first fluid passage, and out of the first side of the body. 4. The turbine shroud as in claim 1, wherein the first seal is welded or brazed across the first inward facing groove. 5. The turbine shroud as in claim 1, wherein the first inward facing groove extends axially along a length of the body. 6. The turbine shroud as in claim 1, further comprising a second inward facing groove defined by the body along a second side of the body proximate to the floor portion and a second seal covering the second inward facing groove to define a second fluid passage in the second inward facing groove along the second side of the body, wherein the second seal is connected to the second lateral side and to the floor portion. 7. The turbine shroud as in claim 6, further comprising a second inlet port through the second seal, wherein the second inlet port provides fluid communication through the second seal into the second fluid passage. 8. A turbine shroud comprising: a. a body having an inner surface at least partially defined along an intersection between a first lateral side and a floor protion of the body;b. an outer surface opposed to the inner surface, wherein the outer surface is configured for exposure to a hot gas path;c. a first slot defined by the body along the first lateral side;d. a first seal extending across the first slot to define a first fluid passage in the first slot, wherein the first seal is connected to the body along the first lateral side and the floor protion;e. a first inlet port through the first seal, wherein the first inlet port provides fluid communication through the first seal into the first fluid passage; andf. wherein the first inlet port is oriented to direct a fluid towards an inner surface of the first lateral side. 9. The turbine shroud as in claim 8, further comprising at least one outlet port through the outer surface, wherein the at least one outlet port provides fluid communication from the first fluid passage through the outer surface. 10. The turbine shroud as in claim 8, further comprising a continuous fluid pathway through the first seal, into the first fluid passage, and out of the outer surface. 11. The turbine shroud as in claim 8, wherein the first seal is connected to the inner surface. 12. The turbine shroud as in claim 8, further comprising a second slot defined by the body along a second lateral side and a second seal extending across the second slot to define a second fluid passage in the second slot along the inner surface wherein the second seal is connected to the second lateral side and to the floor portion. 13. The turbine shroud as in claim 12, further comprising a second inlet port through the second seal, wherein the second inlet port provides fluid communication through the second seal into the second fluid passage. 14. A method for forming a turbine shroud comprising: a. forming a floor portion of a shroud body;b. forming a first lateral side that extends substantially perpendicular to the floor portion, wherein the floor portion the first lateral side at least partially define an inner surface of the shroud body;c. forming an outer surface opposed to the inner surface, wherein the outer surface is configured for exposure to a hot gas path;d. defining a first slot in the body along the first lateral side; ande. extending a first seal across the first slot to define a first fluid passage in the first slot along the inner surface, wherein the first seal is connected to the shroud body along the first lateral side and the floor portion. 15. The method as in claim 14, futher comprising forming a first inlet port through the first seal, wherein the first inlet port provides fluid communication through the first seal into the first fluid passage. 16. The method as in claim 14, further comprising forming at least one output port through the outer surface. 17. The method as in claim 14, further comprising welding or brazing the first seal to the inner surface. 18. The method as in claim 14, further comprising forming a second lateral side that extends substantially perpendicular to the inner surface, defining a second slot in the body along the second lateral side and extending a second seal across the second slot to define a second fluid passage in the second slot along the inner surface, wherein the second seal iS connected to the body along the first lateral side and the floor portion. 19. The turbine shroud as in claim 18, further comprising forming a second inlet port through the second seal, wherein the second inlet port provides fluid communication through the second seal into the second fluid passage.
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