In a turbofan gas turbine engine, a fan shaft is rotatably mounted and radially supported by a bearing in a bearing support structure supported from a fixed engine structure by radially frangible bolts and radially extending spokes. The radially inner ends of the radially extending spokes are mounte
In a turbofan gas turbine engine, a fan shaft is rotatably mounted and radially supported by a bearing in a bearing support structure supported from a fixed engine structure by radially frangible bolts and radially extending spokes. The radially inner ends of the radially extending spokes are mounted on a common member that engages the bearing support structure. The radially outer ends of the radially extending spokes are mounted on a fixed engine structure located radially outwardly of the bearing support structure. The radially extending spokes are held in tension and include a super elastic material to exert a radially inward restoring force on the bearing support structure, subsequent to any radial excursion of at least part of the fan shaft relative to an engine rotational axis (X) following any fracture of the frangible bolts.
대표청구항▼
1. A turbofan gas turbine engine comprising a fan mounted on a fan shaft, the fan shaft being normally coaxial with an engine rotational axis, the fan shaft being rotatably mounted and radially supported by a bearing in a bearing support structure, the bearing support structure being supported from
1. A turbofan gas turbine engine comprising a fan mounted on a fan shaft, the fan shaft being normally coaxial with an engine rotational axis, the fan shaft being rotatably mounted and radially supported by a bearing in a bearing support structure, the bearing support structure being supported from a fixed structure of the engine by at least one member, a first end of the at least one member engaging the bearing support structure and a second end of the member being mounted on the fixed structure, the at least one member comprising a super elastic material, the at least one member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to a radial excursion of at least part of the fan shaft relative to the rotational axis of the engine; wherein the at least one member further comprises at least one generally radially extending member, a radially inner end of the at least one radially extending member being mounted on a common member, the common member engaging the bearing support structure, the radially outer end of the at least one radially extending member being mounted on the fixed structure of the engine located radially outwardly of the bearing support structure, the at least one radially extending member being held in tension, the at least one radially extending member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to any radial excursion of at least part of the fan shaft relative to the rotational axis of the engine;wherein the at least one radially extending member further comprises a plurality of generally radially extending spokes, the radially inner ends of the radially extending spokes being mounted on a common member, the common member engages the bearing support structure, the radially outer ends of the radially extending spokes being mounted on fixed structure of the engine located radially outwardly of the bearing support structure, the radially extending spokes being held in tension, andthe radially inner ends of the radially extending spokes are dovetail shaped in cross-section and engage dovetail shaped slots in the common member. 2. A turbofan gas turbine engine as claimed in claim 1 wherein the bearing support structure being supported from fixed structure of the engine by a radially frangible connection means, the at least one radially extending member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to any radial excursion of at least part of the fan shaft relative to the rotational axis of the engine following any fracture of the frangible connection means. 3. A turbofan gas turbine engine as claimed in claim 1 wherein the super elastic material comprises a super elastic metal. 4. A turbofan gas turbine engine comprising a fan mounted on a fan shaft, the fan shaft being normally coaxial with an engine rotational axis, the fan shaft being rotatably mounted and radially supported by a bearing in a bearing support structure, the bearing support structure being supported from a fixed structure of the engine by at least one member, a first end of the at least one member engaging the bearing support structure and a second end of the member being mounted on the fixed structure, the at least one member comprising a super elastic material, the at least one member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to a radial excursion of at least part of the fan shaft relative to the rotational axis of the engine; wherein the at least one member further comprises at least one generally radially extending member, a radially inner end of the at least one radially extending member being mounted on a common member, the common member engaging the bearing support structure, the radially outer end of the at least one radially extending member being mounted on the fixed structure of the engine located radially outwardly of the bearing support structure, the at least one radially extending member being held in tension, the at least one radially extending member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to any radial excursion of at least part of the fan shaft relative to the rotational axis of the engine;wherein the at least one radially extending member further comprises a plurality of generally radially extending spokes, the radially inner ends of the radially extending spokes being mounted on a common member, the common member engages the bearing support structure, the radially outer ends of the radially extending spokes being mounted on fixed structure of the engine located radially outwardly of the bearing support structure, the radially extending spokes being held in tension, andthe radially outer ends of the radially extending spokes are dovetail shaped in cross-section and engage dovetail shaped slots in the fixed structure. 5. A turbofan gas turbine engine as claimed in claim 4 wherein the super elastic material comprises a super elastic metal. 6. A turbofan gas turbine engine as claimed in claim 5 wherein the super elastic metal comprises a shape memory metal. 7. A turbofan gas turbine engine as claimed in claim 6 wherein the shape memory metal comprises Ni—Ti alloy. 8. A turbofan gas turbine engine as claimed in claim 5 wherein the super elastic metal comprises Ti—Nb alloy. 9. A turbofan gas turbine engine as claimed in claim 5 wherein the super elastic metal is selected from the group consisting of Ti—Ni—Cu, Ti—Ni—Nb, Ti—Ni—Hf, Cu—Zn—Al and Cu—Al—Ni. 10. A turbofan gas turbine engine as claimed in claim 4 wherein the bearing support structure being supported from fixed structure of the engine by a radially frangible connection means, the at least one radially extending member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to any radial excursion of at least part of the fan shaft relative to the rotational axis of the engine following any fracture of the frangible connection means. 11. A turbofan gas turbine engine comprising a fan mounted on a fan shaft, the fan shaft being normally coaxial with an engine rotational axis, the fan shaft being rotatably mounted and radially supported by a bearing in a bearing support structure, the bearing support structure being supported from a fixed structure of the engine by at least one member, a first end of the at least one member engaging the bearing support structure and a second end of the member being mounted on the fixed structure, the at least one member comprising a super elastic material, the at least one member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to a radial excursion of at least part of the fan shaft relative to the rotational axis of the engine; wherein the at least one member further comprises at least one generally radially extending member, a radially inner end of the at least one radially extending member being mounted on a common member, the common member engaging the bearing support structure, the radially outer end of the at least one radially extending member being mounted on the fixed structure of the engine located radially outwardly of the bearing support structure, the at least one radially extending member being held in tension, the at least one radially extending member exerting a radially inward restoring force on the bearing support structure, and hence the fan shaft, subsequent to any radial excursion of at least part of the fan shaft relative to the rotational axis of the engine;wherein the at least one radially extending member further comprises a plurality of generally radially extending spokes, the radially inner ends of the radially extending spokes being mounted on a common member, the common member engages the bearing support structure, the radially outer ends of the radially extending spokes being mounted on fixed structure of the engine located radially outwardly of the bearing support structure, the radially extending spokes being held in tension;wherein the radially inner ends of the radially extending spokes are dovetail shaped in cross-section and engage dovetail shaped slots in the common member;wherein the radially outer ends of the radially extending spokes are dovetail shaped in cross-section and engage dovetail shaped slots in the fixed structure; andwherein radial gaps being formed between the dovetail shaped radially outer ends of the radially extending spokes and the radially outer ends of the corresponding dovetail shaped slots in the fixed structure.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (27)
Kang, Suk Jin, Apparatus and method to control force exerted on steam turbines by inlet pipes.
Hrler Hansulrich (Zurich CHX) Koller Rudolf (Hochdorf CHX), Resilient support arrangement for shaft bearings of highspeed rotors, in particular rotors of turbo machines.
Brault,Michel Gilbert Roland; Morel,Patrick Charles Georges; Zsiga,Zoltan; Bouchy,Gael; Pandelakis,Pierre Bruno, Turbomachine with a decoupling device common to first and second bearings of its drive shaft, compressor comprising the decoupling device and decoupling device.
Khan, Esuff; Ac, Shivaram; Buravalla, Vidyashankar Ramasastry; Ghosh, Shuvajyoti; Joshi, Akash, Rotor support system with shape memory alloy components for a gas turbine engine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.