IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0375915
(2010-06-08)
|
등록번호 |
US-8402770
(2013-03-26)
|
우선권정보 |
FR-09 53829 (2009-06-10) |
국제출원번호 |
PCT/EP2010/058014
(2010-06-08)
|
§371/§102 date |
20111202
(20111202)
|
국제공개번호 |
WO2010/142682
(2010-12-16)
|
발명자
/ 주소 |
- Garin, Fabrice Marcel Noel
- Judet, Maurice Guy
- Pasquis, Patrick Claude
- Schweblen, Wilfried Lionel
|
출원인 / 주소 |
|
대리인 / 주소 |
Oblon, Spivak, McClelland, Maier & Neustadt, L.L.P.
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
6 |
초록
▼
A turbine engine including a channel for injecting a cooling air flow of a high-pressure turbine disk, opening into a cavity that is substantially isolated, upstream, from a cavity in which an air flow sampled at the output of a high-pressure compressor circulates, by a first labyrinth seal, and dow
A turbine engine including a channel for injecting a cooling air flow of a high-pressure turbine disk, opening into a cavity that is substantially isolated, upstream, from a cavity in which an air flow sampled at the output of a high-pressure compressor circulates, by a first labyrinth seal, and downstream, from a cavity communicating with the primary flow of the turbine engine, by a second labyrinth seal. The turbine engine includes channels communicating with the injection channel and opening through a static part of the first labyrinth seal between two lips of that seal, so as to allow an air flow coming from the injection channel to be injected between the lips.
대표청구항
▼
1. A twin-shaft turbine engine, comprising: a high-pressure rotor comprising an impeller of a high-pressure compressor of the twin-shaft turbine engine and a vaned disk of a high-pressure turbine of the turbine engine, said impeller comprising a downstream side flank on a downstream side of said imp
1. A twin-shaft turbine engine, comprising: a high-pressure rotor comprising an impeller of a high-pressure compressor of the twin-shaft turbine engine and a vaned disk of a high-pressure turbine of the turbine engine, said impeller comprising a downstream side flank on a downstream side of said impeller, and said vaned disk comprising an upstream side flank on an upstream side of said vaned disk;a combustion chamber mounted axially between the high-pressure compressor and the high-pressure turbine;two coaxial walls delimiting an annular air injection channel between the two coaxial walls, which is connected to an annular bypass space of the combustion chamber, and which is configured to accelerate a cooling air flow for cooling vanes of the vaned disk of the high-pressure turbine coming from the annular bypass space of the combustion chamber;a first labyrinth seal comprising a static part securely connected to a first of the two coaxial walls delimiting the annular air injection channel, and a rotary part supported by a disk of the high-pressure rotor and the rotary part comprising at least two annular ribs protruding toward the static part;a second labyrinth seal comprising a static part securely connected to a second of the two coaxial walls delimiting the annular air injection channel, and a rotary part securely connected to the rotary part of the first labyrinth seal;an annular flange mounted opposite the upstream side flank of the vaned disk of the high-pressure turbine and delimiting, with the upstream side flank, a first upstream part of a cooling circuit of the vanes of the vaned disk;a first annular cavity delimited by the downstream side flank of the impeller, an inner case of the combustion chamber, the first wall delimiting the annular air injection channel, the first labyrinth seal, and an annular wall extending axially so as to connect the impeller to the disk of the high-pressure rotor supporting the rotary part of the first labyrinth seal;a second annular cavity into which the annular air injection channel opens and that is delimited by the first labyrinth seal, the second labyrinth seal, and an annular wall connecting the respective rotary parts of the first and second labyrinth seals, and openings are formed in the annular wall for putting the second cavity in communication with the cooling circuit of the vanes of the vaned disk of the high-pressure turbine;a third annular cavity that communicates with a channel for the flow of a primary gas stream of the turbine engine, and the third cavity is delimited at least by the second labyrinth seal and the annular flange; anda plurality of channels formed in the static part of the first labyrinth seal and emerging into an annular cavity delimited by two of the annular ribs of the rotary part of the first labyrinth seal, so as to inject air coming from the annular air injection channel therein. 2. The turbine engine according to claim 1, wherein the annular air injection channel comprises fins tilted so as to reduce relative tangential speed of the cooling air flow of the vanes relative to the high-pressure rotor. 3. The turbine engine according to claim 2, wherein the plurality of channels are connected to an inner portion of the annular air injection channel that is situated, relative to the flow of the cooling air flow of the vanes, upstream of the respective downstream ends of the fins. 4. The turbine engine according to claim 3, wherein each of the two coaxial walls delimiting the annular air injection channel comprises, relative to the flow of the cooling air flow of the vanes, a substantially tapered upstream portion and a substantially radial downstream portion. 5. The turbine engine according to claim 1, further comprising means for putting the first annular cavity in communication with a fourth annular cavity of the turbine engine, in which a hub of the vaned disk of the high-pressure turbine extends. 6. The turbine engine according to claim 5, wherein the communication means for putting the first annular cavity in communication with the fourth annular cavity comprises channels formed between an upstream surface of the disk of the high-pressure rotor that supports the rotary part of the first labyrinth seal, and a downstream surface of an annular flange arranged at the downstream end of the annular wall connecting the impeller of the high-pressure compressor to the disk of the high-pressure rotor.
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