IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0389989
(2003-03-18)
|
우선권정보 |
GB-0206880(2002-03-23) |
발명자
/ 주소 |
- Austin,Gary P
- Paluszkiewicz,Czeslaw
- Leishman,Benjamin A
- Cumpsty,Nicholas A
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
9 |
초록
▼
A vane (20) for a rotor arrangement (14) of a gas turbine engine (10) comprises an aerofoil member (34) and a mounting member (23) from which the aerofoil member ( 34) extends. The mounting member (23) includes a sloped region (46, 62) to guide gas flowing over the mounting member (23) into a bleed
A vane (20) for a rotor arrangement (14) of a gas turbine engine (10) comprises an aerofoil member (34) and a mounting member (23) from which the aerofoil member ( 34) extends. The mounting member (23) includes a sloped region (46, 62) to guide gas flowing over the mounting member (23) into a bleed arrangement (30). A vane assembly (19) and a rotor arrangement (14) comprising such vanes (20) are also disclosed.
대표청구항
▼
What is claimed is: 1. A vane for a rotor arrangement of a gas turbine engine, the rotor arrangement having a main axis, the vane comprising a mounting member and an aerofoil member extending from the mounting member, the mounting member including an inclined region to guide gas flowing over the mo
What is claimed is: 1. A vane for a rotor arrangement of a gas turbine engine, the rotor arrangement having a main axis, the vane comprising a mounting member and an aerofoil member extending from the mounting member, the mounting member including an inclined region to guide gas flowing over the mounting member into a bleed arrangement wherein the angle of said inclined region is inclined relative to the main axis of the rotor arrangement at an angle of between substantially 5째 and substantially 30째. 2. A vane accordingly to claim 1 wherein the inclined region is generally planar. 3. A vane according to claim 1 wherein the inclined region is curved and presents a convex face towards said aerofoil member. 4. A vane according to claim 3 wherein the inclined region is substantially elliptical in profile. 5. A vane according to claim 1 wherein the mounting member defines a recess to allow gas to enter the bleed arrangement, and the inclined region constitutes an entry region to the recess to guide said gas into the recess. 6. A vane for a rotor arrangement of a gas turbine engine, the rotor arrangement having a main axis, the vane comprising a mounting member and an aerofoil member extending from the mounting member, the mounting member including an inclined region to guide gas flowing over the mounting member into a bleed arrangement wherein the angle of said inclined region is inclined relative to the main axis of the rotor arrangement wherein said angle is between substantially 7째 and substantially 13째. 7. A vane for a rotor arrangement of a gas turbine engine, the rotor arrangement having a main axis, the vane comprising a mounting member and an aerofoil member extending from the mounting member, the mounting member including an inclined region to guide gas flowing over the mounting member into a bleed arrangement wherein the mounting member defines a recess to allow gas to enter the bleed arrangement, and the inclined region constitutes an entry region to the recess to guide said gas into the recess wherein the mounting member defines two of said recesses, each on respective opposite sides of the aerofoil member, and the mounting member further includes two of said inclined regions, each associated with a respective one of the recesses. 8. A vane according to claim 7 wherein the recesses and the inclined regions are provided on the mounting member so that, when said vane is disposed in abutment with an adjacent further one of said vanes, the recesses on the respective vanes are aligned, and the inclined regions are aligned to provide a single inclined region which extends across the abutting mounting members. 9. A vane according to claim 8 wherein the mounting member is provided with a second inclined region arranged between the first inclined region and the aerofoil member. 10. A vane according to claim 9 wherein the second inclined region is in the form of a ramp, which slopes from the first surface of the mounting member towards the second face. 11. A vane according to claim 10 wherein the second inclined region terminates between said first and second surfaces. 12. A vane according to claim 10 wherein the second inclined region slopes from the first surface towards the second surface in a downstream direction relative to the direction to the intended flow of gas across the mounting member. 13. A vane according to claim 9 wherein the second inclined region is inclined relative to the main axis of the rotor arrangement. 14. A vane according to claim 9 wherein the second inclined region extends from a region between the upstream and downstream edges of the mounting member towards the downstream edge of the mounting member. 15. A vane according to claim 9 wherein the second inclined region makes an angle of between substantially 0째 and substantially 10째 with the main axis of the rotor arrangement. 16. A vane according to claim 9 wherein an edge extends between the second inclined region and the first incline region, the edge being rounded. 17. A vane according to claim 9 wherein the second inclined region extends to the downstream edge of the mounting member. 18. A rotor arrangement for a gas turbine engine, the arrangement comprising a vane assembly comprising a plurality of vanes according to claim 17 arranged in an annular array, the arrangement further comprising annular structure downstream of the vane assembly, wherein the annular structure defines a subsidiary bleed aperture downstream of the second inclined regions of the vanes. 19. A rotor arrangement according to claim 18 wherein the subsidiary bleed aperture is a single annular aperture. 20. A rotor arrangement according to claim 18 wherein the subsidiary bleed aperture comprises a plurality of apertures arranged in an annular array. 21. A vane according to claim 9 wherein the second inclined region includes a downstream section extending across the downstream end of the mounting member. 22. A vane according to claim 21 wherein the vane includes two of said second inclined regions, a respective one being provided on each side of the aerofoil member and said downstream section extends between both of said second inclined regions. 23. A vane according to claim 22 wherein each of said second inclined regions makes an angle of between substantially 0째 and 10째 with the main axis of the rotor arrangement. 24. A vane according to claim 21 wherein the downstream edge of said downstream section is rounded. 25. A vane according to claim 9 wherein the second inclined region is extended, in a generally circumferential direction, in the region of the aerofoil suction surface, to an extent sufficient to reduce substantially the recirculation of air from the recess. 26. A vane as claimed in claim 25 wherein the second inclined region is extended over substantially one-third of the circumferential distance between adjacent aerofoils. 27. A vane as claimed in claim 25 wherein the second inclined region has an inclined region at its downstream end to assist the flow of gas into the bleed aperture, particularly at higher bleed flows. 28. A rotor arrangement for a gas turbine engine, the arrangement comprising a vane assembly comprising a plurality of vanes arranged in an annular array, each vane having an aerofoil member, the arrangement further including a rotor blade assembly downstream of the vane assembly, the rotor blade assembly comprising a plurality of rotor blades arranged in an annular array on a rotary support member, and an annular surface arrangement extending around the aerofoil members and the rotor blade assembly, the surface arrangement defining outlet means upstream of the rotor blade assembly through which gas can flow to a bleed arrangement, the surface arrangement including a first surface extending around the aerofoil members and a second surface extending around the rotor blade assembly, wherein the radius of the first surface is greater than the radius of the second surface wherein the difference between the radius of the first surface and of the second surface provides an annular step between said first and second surfaces, the annular cross-sectional area of the step, calculated as a percentage of the total annular cross-sectional area of the rotor assembly at the step, is substantially equal to the percentage volume of air flow removed via said bleed arrangement.
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