IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0611592
(2006-12-15)
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등록번호 |
US-7765789
(2010-08-24)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Andes, Esq., William Scott
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인용정보 |
피인용 횟수 :
4 인용 특허 :
12 |
초록
▼
A gas turbine engine assembly is provided. The gas turbine engine assembly includes a core engine. The gas turbine engine assembly further includes a first rotor spool including a first fan assembly, an intermediate-pressure turbine, and a first shaft. The first fan assembly includes a single stage
A gas turbine engine assembly is provided. The gas turbine engine assembly includes a core engine. The gas turbine engine assembly further includes a first rotor spool including a first fan assembly, an intermediate-pressure turbine, and a first shaft. The first fan assembly includes a single stage fan assembly coupled upstream from the core engine. The intermediate-pressure turbine includes a single stage turbine coupled downstream from the core engine. The first shaft extends between the first fan assembly and the intermediate-pressure turbine. The gas turbine engine assembly further includes a second rotor spool including a second fan assembly, a low-pressure turbine, and a second shaft. The second fan assembly includes a single stage fan assembly coupled upstream from the first fan assembly. The low-pressure turbine includes a single stage turbine coupled downstream from the intermediate-pressure turbine. The second shaft extends between the second fan assembly and the low-pressure turbine. A method of assembling the same is provided.
대표청구항
▼
What is claimed is: 1. A method of assembling a turbofan engine assembly including a core engine, said method comprising: coupling a first rotor spool within the engine assembly, wherein the first rotor spool includes a first single stage fan assembly coupled upstream from the core engine, an inter
What is claimed is: 1. A method of assembling a turbofan engine assembly including a core engine, said method comprising: coupling a first rotor spool within the engine assembly, wherein the first rotor spool includes a first single stage fan assembly coupled upstream from the core engine, an intermediate-pressure turbine coupled downstream from the core engine, and a first shaft coupled between the first fan assembly and the intermediate-pressure turbine; coupling a second rotor spool within the engine assembly, wherein the second rotor spool includes a second single stage fan assembly coupled upstream from the first fan assembly, a low-pressure turbine coupled downstream from the intermediate-pressure turbine, and a second shaft coupled between the second fan assembly and the low-pressure turbine; and coupling a stator vane assembly between the first single stage fan assembly and the second single stage fan assembly. 2. A method in accordance with claim 1 wherein the core engine includes a compressor, a high-pressure turbine, and a third shaft extending therebetween, said coupling a second rotor spool comprises aligning the first shaft and second shaft with the third shaft. 3. A method in accordance with claim 1 further comprising coupling the high-pressure turbine to the intermediate-pressure turbine such that airflow discharged from the high-pressure turbine is directed against the intermediate-pressure turbine without being channeled through a stator assembly. 4. A method in accordance with claim 1 wherein said method further comprising coupling a variable inlet guide vane between the intermediate-pressure turbine and the low-pressure turbine. 5. A gas turbine engine assembly comprising: a core engine; a first rotor spool comprising a first fan assembly, an intermediate-pressure turbine, and a first shaft, said first fan assembly comprising a single stage fan assembly coupled upstream from said core engine, said intermediate-pressure turbine comprising a single stage turbine coupled downstream from said core engine, said first shaft extending between said first fan assembly and said intermediate-pressure turbine; a second rotor spool comprising a second fan assembly, a low-pressure turbine, and a second shaft, said second fan assembly comprising a single stage fan assembly coupled upstream from said first fan assembly, said low-pressure turbine comprising a single stage turbine coupled downstream from said intermediate-pressure turbine, said second shaft extending between said second fan assembly and said low-pressure turbine; and a stator vane assembly coupled between said first single stage fan assembly and said second single stage fan assembly, wherein said first spool rotates in a first rotational direction and said second spool rotates in an opposite rotational direction. 6. A gas turbine engine in accordance with claim 5 wherein said first spool rotates at a first rotational speed and said second spool rotates at a second rotational speed that is slower than the first rotational speed. 7. A gas turbine engine in accordance with claim 5 wherein said core engine comprises a compressor and a high-pressure turbine coupled between said compressor and said intermediate-pressure turbine, said high-pressure turbine is immediately coupled to said intermediate-pressure turbine such that airflow discharged from said high-pressure turbine is directed against said intermediate-pressure turbine without being channeled through a stator assembly. 8. A gas turbine engine in accordance with claim 5 wherein said core engine comprises a third rotor spool comprising a compressor, a high-pressure turbine, and a third shaft, said third shaft extends between said compressor and said high-pressure turbine. 9. A gas turbine engine in accordance with claim 8 wherein said first shaft and said second shaft extend through said core engine, said second shaft is concentrically aligned with said first shaft. 10. A gas turbine engine in accordance with claim 8 wherein said third rotor shaft is concentrically aligned with said first and second shafts. 11. A gas turbine engine in accordance with claim 5 wherein said gas turbine engine further comprises a valve assembly coupled between said first and second fan assemblies, and a splitter coupled downstream from said second fan assembly, and upstream from a radially inner duct and a radially outer duct, said valve assembly is selectively operable to channel airflow through said radially inner and outer ducts. 12. A gas turbine engine in accordance with claim 11 wherein said gas turbine engine further comprises a front variable bypass injector coupled downstream from said splitter. 13. A gas turbine engine in accordance with claim 5 wherein said gas turbine engine further comprises a rear variable area bypass injector coupled downstream from said intermediate and low-pressure turbines. 14. A gas turbine engine in accordance with claim 5 wherein said gas turbine engine further comprises a splitter coupled downstream from said second fan assembly, said splitter is upstream from a radially inner duct and a radially outer duct, said radially inner duct comprises a splittered rotor therein. 15. A gas turbine engine in accordance with claim 5 wherein said gas turbine engine further comprises a variable inlet guide vane coupled between said intermediate and low-pressure turbines. 16. A gas turbine engine in accordance with claim 5 wherein said gas turbine engine further comprises a flade duct circumscribing said core engine, said flade duct comprises at least one flade coupled to at least one of said first and second fan assemblies. 17. A gas turbine engine in accordance with claim 5 wherein said gas turbine engine further comprises a third single stage fan assembly coupled upstream from said second fan assembly, said first shaft extends between said intermediate-pressure turbine, said first fan assembly, and said third fan assembly.
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