Mounting lug for connecting a vane to a turbine engine case
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-025/24
F01D-025/16
출원번호
US-0592085
(2012-08-22)
등록번호
US-9546571
(2017-01-17)
발명자
/ 주소
Simonds, Mark E.
출원인 / 주소
United Technologies Corporation
대리인 / 주소
O'Shea Getz P.C.
인용정보
피인용 횟수 :
0인용 특허 :
16
초록▼
A turbine engine includes a vane and a case with a flange ring. The flange ring defines a channel that extends axially into a side of the flange ring to a channel end surface. The vane has a mounting lug that projects into the channel. The mounting lug includes a lug end surface that extends radiall
A turbine engine includes a vane and a case with a flange ring. The flange ring defines a channel that extends axially into a side of the flange ring to a channel end surface. The vane has a mounting lug that projects into the channel. The mounting lug includes a lug end surface that extends radially between substantially parallel lug side surfaces, where the lug end surface is engaged with the channel end surface.
대표청구항▼
1. A turbine engine, comprising: a case having a flange ring defining a channel that extends axially into a side of the flange ring to a channel end surface; anda vane having a mounting lug projecting into the channel, the mounting lug including a lug end surface that extends radially between substa
1. A turbine engine, comprising: a case having a flange ring defining a channel that extends axially into a side of the flange ring to a channel end surface; anda vane having a mounting lug projecting into the channel, the mounting lug including a lug end surface that extends radially between substantially parallel lug side surfaces, wherein the lug end surface is engaged with the channel end surface, and wherein the substantially parallel lug side surfaces extend axially into the channel. 2. The turbine engine of claim 1, wherein the flange ring extends radially to a flange ring end, and the mounting channel is located adjacent to the flange ring end. 3. The turbine engine of claim 1, wherein the channel end surface extends radially between substantially parallel channel side surfaces. 4. The turbine engine of claim 3, wherein the channel has a channel height that extends radially between the channel side surfaces, the lug has a lug height that extends radially between the lug side surfaces, and an average difference between the channel height and the lug height is less than about twelve one thousandths (0.012) of an inch when the turbine engine is non-operational. 5. The turbine engine of claim 4, wherein the average difference between the channel height and the lug height is less than about six one thousandths (0.006) of an inch when the turbine engine is non-operational. 6. The turbine engine of claim 1, wherein the channel has an annular cross-sectional geometry, and the mounting lug has an arcuate cross-sectional geometry. 7. The turbine engine of claim 1, further comprising: a threaded bore in the mounting lug and communicating through the lug end surface; anda bolt projected through the flange ring and threaded into the threaded bore. 8. The turbine engine of claim 7, wherein a threaded insert is arranged in the threaded bore, and mates with the bolt. 9. The turbine engine of claim 1, wherein the case further includes a second flange ring, the vane extends axially between a vane mount and the mounting lug, and the vane mount is connected to the second flange ring. 10. The turbine engine of claim 9, wherein the second flange ring extends radially to a flange ring end, the vane mount includes a mounting plate that engages the flange ring end, and at least one bolt projects radially through the mounting plate and into the flange ring end to connect the vane mount to the second flange ring. 11. The turbine engine of claim 9, wherein the vane further includes a structural stiffening rib that extends axially between the vane mount and the mounting lug. 12. The turbine engine of claim 9, wherein the vane further includes an airfoil segment that extends radially between a first mounting segment and a second mounting segment, and axially between a leading edge and a trailing edge, and wherein the first mounting segment includes the mounting lug and the vane mount. 13. The turbine engine of claim 12, wherein the second flange ring is located axially upstream of the flange ring. 14. The turbine engine of claim 1, wherein the vane comprises a structural fan exit guide vane. 15. The assembly of claim 14, wherein the case comprises a compressor case. 16. A turbine engine, comprising: a case having a flange ring defining a channel that extends axially into a side of the flange ring to a channel end surface; anda vane having a mounting lug projecting into the channel, the mounting lug including a lug end surface that extends radially between substantially parallel lug side surfaces, wherein the lug end surface is engaged with the channel end surface;wherein the vane is one of a plurality of vanes arranged circumferentially around the case, and each of the vanes includes a threaded bore in the respective mounting lug and communicating through the respective lug end surface;wherein a plurality of bolts project through the flange ring and are respectively threaded into the threaded bores;wherein the threaded bores in a first and a second of the vanes have substantially equal diameters; andwherein the bolt that threads into the threaded bore in the first of the vanes has a first diameter, and the bolt that threads into the threaded bore in the second of the vanes has a second diameter that is different than the first diameter. 17. A turbine engine, comprising: a first case having a flange ring defining a channel that extends axially into a side of the flange ring to a channel end surface;a second case;a plurality of vanes extending radially between the first case and the second case, wherein one or more of the vanes each includes a mounting lug projecting into the channel, the mounting lug of a first of the vanes includes a lug end surface that extends radially between substantially parallel lug side surfaces, and the lug end surface is engaged with the channel end surface;a threaded bore in the mounting lug of the first of the vanes and communicating through the lug end surface; anda bolt projected through the flange ring and threaded axially into the threaded bore;wherein the substantially parallel lug side surfaces extend axially into the channel. 18. The turbine engine of claim 17, wherein the parallel lug side surfaces extend axially towards the lug end surface. 19. The turbine engine of claim 17, wherein a first chamfer surface extends between a first of the parallel lug side surfaces and the lug end surface, and a second chamfer surface extends between a second of the parallel lug side surfaces and the lug end surface. 20. The turbine engine of claim 17, wherein the vanes are configured as fan exit guide vanes.
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