IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0858399
(2010-08-17)
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등록번호 |
US-8672637
(2014-03-18)
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발명자
/ 주소 |
- Zawilinski, David J.
- Makulec, Jeffrey M.
- Slayter, Matthew
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출원인 / 주소 |
- Hamilton Sundstrand Corporation
|
대리인 / 주소 |
Carlson, Gaskey & Olds, P.C.
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인용정보 |
피인용 횟수 :
1 인용 특허 :
19 |
초록
▼
A blade profile section for an Air Turbine Starter includes an airfoil which defines an airfoil profile section through a leading edge and a trailing edge. The airfoil profile section is defined by a set of X-coordinates and Y-coordinates defined in any of Table I, Table II, Table III or Table IV sc
A blade profile section for an Air Turbine Starter includes an airfoil which defines an airfoil profile section through a leading edge and a trailing edge. The airfoil profile section is defined by a set of X-coordinates and Y-coordinates defined in any of Table I, Table II, Table III or Table IV scaled by a desired factor. The X-coordinate is the tangential direction, the Y-coordinate is the axial direction, and the Z-coordinate is a radial direction between an airfoil root and an airfoil tip.
대표청구항
▼
1. A blade profile section for an Air Turbine Starter comprising: an airfoil which defines an airfoil profile section through a leading edge and a trailing edge parallel to an axis of rotation, said airfoil profile section defined by a set of X-coordinates and Y-coordinates defined in any of Table I
1. A blade profile section for an Air Turbine Starter comprising: an airfoil which defines an airfoil profile section through a leading edge and a trailing edge parallel to an axis of rotation, said airfoil profile section defined by a set of X-coordinates and Y-coordinates defined in any of Table I-1, Table I-2, Table II-1, Table II-2, Table III-1, Table III-2, Table IV-1 or Table IV-2 scaled by a desired factor, said X-coordinate is in a tangential direction relative to the axis of rotation, and said Y-coordinate is an axial direction relative to the axis of rotation. 2. The blade profile section for an Air Turbine Starter as recited in claim 1, wherein said airfoil comprises: a root region;an inboard region outboard of said root region;a main region outboard of said inboard region; anda tip region outboard of said main region. 3. The blade profile section for an Air Turbine Starter as recited in claim 2, wherein said root region is defined by one of Table I-1 and Table I-2 scaled by a desired factor. 4. The blade profile section for an Air Turbine Starter as recited in claim 2, wherein said inboard region is defined by one of Table II-1 and Table II-2 scaled by a desired factor. 5. The blade profile section for an Air Turbine Starter as recited in claim 2, wherein said main region is defined by one of Table III-1 and Table III-2 scaled by a desired factor. 6. The blade profile section for an Air Turbine Starter as recited in claim 2, wherein said tip region is defined by one of Table IV-1 and Table IV-2 scaled by a desired factor. 7. The blade profile section for an Air Turbine Starter as recited in claim 2, wherein said root region is defined by one of Table I-1 and Table I-2 scaled by a desired factor, said inboard region is defined by one of Table II-1 and Table II-2 scaled by a desired factor, said main region is defined by one of Table III-1 and Table III-2 scaled by a desired factor, and said tip region is defined by one of Table IV-1 and Table IV-2 scaled by a desired factor. 8. A turbine rotor comprising: a turbine rotor shaft; anda turbine hub which extends from said turbine rotor shaft, said turbine rotor hub defines a multiple of turbine blades, each of said multiple of turbine blades define an airfoil profile section through a leading edge and a trailing edge, parallel to an axis of rotation, said airfoil profile section defined by a set of X-coordinates and Y-coordinates defined in any of Table I-1, Table I-2, Table II-1, Table II-2, Table III-1, Table III-2, Table IV-1 or Table IV-2 scaled by a desired factor, the X-coordinate is the tangential direction, and the Y-coordinate is the axial direction. 9. The turbine rotor as recited in claim 8, wherein each of said multiple of turbine blades comprises: a root region;an inboard region outboard of said root region;a main region outboard of said inboard region; anda tip region outboard of said main region. 10. The turbine rotor as recited in claim 9, wherein said root region is defined by one of Table I-1 and Table I-2 scaled by a desired factor. 11. The turbine rotor as recited in claim 9, wherein said inboard region is defined by one of Table II-1 and Table II-2 scaled by a desired factor. 12. The turbine rotor as recited in claim 9, wherein said main region is defined by one of Table III-1 and Table III-2 scaled by a desired factor. 13. The turbine rotor as recited in claim 9, wherein said tip region is defined by one of Table IV-1 and Table IV-2 scaled by a desired factor. 14. The turbine rotor as recited in claim 9, wherein said root region is defined by Table I scaled by a desired factor, said inboard region is defined by one of Table II-1 and Table II-2 scaled by a desired factor, said main region is defined by one of Table III-1 and Table III-2 scaled by a desired factor, and said tip region is defined by one of Table IV-1 and Table IV-2 scaled by a desired factor. 15. An Air Turbine Starter comprising: a turbine nozzle that includes a central dome shape with a multiple of turbine vanes which extend in a radial manner therefrom; anda turbine rotor downstream of said multiple of turbine vanes, said turbine rotor defines a multiple of turbine blade, each of said multiple of turbine blades define an airfoil profile section through a leading edge and a trailing edge parallel to an axis of rotation, said airfoil profile section defined by the set of X-coordinates and Y-coordinates defined in any of Table I-1, Table I-2 Table II-1, Table II-2, Table III-1, Table III-2, Table IV-1 or Table IV-2 scaled by a desired factor, said X-coordinate is the tangential direction, and said Y-coordinate is the axial direction. 16. The Air Turbine Starter as recited in claim 15, further comprising an inlet housing which contains said turbine nozzle, an inlet flowpath defined by said central dome shape and said inlet housing. 17. A method of assembling an Air Turbine Starter comprising: rotationally mounting a turbine rotor into an inlet housing downstream of a turbine nozzle, the inlet housing at least partially surrounds the turbine rotor, the inlet housing defines an outer flowpath curve of an inlet flowpath in communication with the turbine rotor, the outer flowpath curve defined at least partially by a multiple of arcuate surfaces in cross-section, the nozzle defines an inner flowpath curve of the inlet flowpath in communication with the turbine rotor, the inner flowpath curve at least partially defined by the central dome shape, wherein the turbine rotor defines a multiple of turbine blades downstream of the multiple of turbine vanes, each of the multiple of turbine blades define an airfoil profile section through a leading edge and a trailing edge parallel to an axis of rotation, the airfoil profile section defined by a set of X-coordinates and Y-coordinates defined in any of Table I-1, Table I-2, Table II-1, Table II-2, Table III-1, Table III-2, Table IV-1 or Table IV-2 scaled by a desired factor, the X-coordinate is the tangential direction, and the Y-coordinate is the axial direction.
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