IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0306329
(2006-10-12)
|
등록번호 |
US-8151551
(2012-04-10)
|
국제출원번호 |
PCT/US2006/039957
(2006-10-12)
|
§371/§102 date |
20081223
(20081223)
|
국제공개번호 |
WO2008/045070
(2008-04-17)
|
발명자
/ 주소 |
|
출원인 / 주소 |
- United Technologies Corporation
|
대리인 / 주소 |
Carlson, Gaskey & Olds, P.C.
|
인용정보 |
피인용 횟수 :
9 인용 특허 :
3 |
초록
▼
A nozzle for use in a gas turbine engine includes nozzle doors coupled with a fan nacelle wherein the nozzle doors move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage. A linkage connects the nozzle doors and an actuator. A louver section coupled
A nozzle for use in a gas turbine engine includes nozzle doors coupled with a fan nacelle wherein the nozzle doors move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage. A linkage connects the nozzle doors and an actuator. A louver section coupled with the linkage moves in unison with the nozzle doors between a plurality of louver positions to direct a portion of the bypass airflow in a selected direction.
대표청구항
▼
1. A nozzle for use in a gas turbine engine, comprising: a frame supported by a nacelle;first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage, wherein the first and second nozzle doors are pivotally connected to
1. A nozzle for use in a gas turbine engine, comprising: a frame supported by a nacelle;first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage, wherein the first and second nozzle doors are pivotally connected to the frame;a louver section that moves in unison with the nozzle doors between a plurality of louver positions;a linkage connecting the nozzle doors and the louver section; andan actuator coupled with the linkage, wherein the actuator is selectively operative to move the nozzle doors and the louver section in unison using the linkage and the actuator is disposed downstream of a portion of the frame. 2. The nozzle as recited in claim 1, wherein the first nozzle door is radially outwards of the second nozzle door relative to an engine centerline axis. 3. The nozzle as recited in claim 1, wherein the linkage includes a link that is slidably connected to each of the nozzle doors. 4. The nozzle as recited in claim 1, wherein the linkage includes a link having a first linear section that extends in a first lengthwise direction and a second linear section that extends in a second lengthwise direction that is transverse to the first lengthwise direction. 5. The nozzle as recited in claim 1, wherein each of the nozzle doors are moveable about a pivot point. 6. The nozzle as recited in claim 1, wherein the linkage includes a first link and a second link, the first link is pivotally connected to the frame and the second link is pivotally connected to the first link and the actuator. 7. The nozzle as recited in claim 1, wherein the louver section includes a plurality of louvers that are pivotally connected to the frame. 8. The nozzle as recited in claim 1, wherein the first and second nozzle doors each include a slot that slidably receives a portion of the linkage. 9. A nozzle for use in a gas turbine engine, comprising: first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage;a louver section that moves in unison with the nozzle doors between a plurality of louver positionsa linkage connecting the nozzle doors and the louver section, wherein the linkage includes a link that is slidably connected to each of the nozzle doors, and the linkage includes another link having one end that is pivotally connected with the link and another end that is pivotally connected with the actuator; andan actuator coupled with the linkage, wherein the actuator is selectively operative to move the nozzle doors and the louver section in unison using the linkage. 10. A nozzle for use in a gas turbine engine, comprising: first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage, wherein the first nozzle door includes a linear slot and the second nozzle door includes a non-linear slot;a louver section that moves in unison with the nozzle doors between a plurality of louver positions;a linkage connecting the nozzle doors and the louver section, wherein the linear slot and the non-linear slot are slidably connected with the linkage; andan actuator coupled with the linkage, wherein the actuator is selectively operative to move the nozzle doors and the louver section in unison using the linkage. 11. A nozzle for use in a gas turbine engine, comprising: first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage, wherein each of the nozzle doors are moveable about a pivot point, and the first nozzle door moves in an aft direction about its pivot point in unison with movement of the second nozzle door in a forward direction about its pivot point;a louver section that moves in unison with the nozzle doors between a plurality of louver positions;a linkage connecting the nozzle doors and the louver section; andan actuator coupled with the linkage, wherein the actuator is selectively operative to move the nozzle doors and the louver section in unison using the linkage. 12. A nozzle for use in a gas turbine engine, comprising: first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage;a louver section that moves in unison with the nozzle doors between a plurality of louver positions, wherein the louver section directs the bypass airflow in a forward direction in one of the plurality of louver positions and directs the bypass airflow in an aft direction in another of the plurality of positions;a linkage connecting the nozzle doors and the louver section; andan actuator coupled with the linkage, wherein the actuator is selectively operative to move the nozzle doors and the louver section in unison using the linkage. 13. A nozzle for use in a gas turbine engine, comprising: first and second nozzle doors that move in unison between a plurality of positions to influence a bypass airflow through a fan bypass passage;a louver section that moves in unison with the nozzle doors between a plurality of louver positions, wherein the louver section includes a plurality of louvers that are each moveable about corresponding pivots, each of the plurality of louvers including an end that is connected with a link rod that connects to the linkage, wherein movement of the linkage causes movement of the link rod such that the plurality of louvers move about the pivots;a linkage connecting the nozzle doors and the louver section; andan actuator coupled with the linkage, wherein the actuator is selectively operative to move the nozzle doors and the louver section in unison using the linkage. 14. A gas turbine engine system comprising: a fan;a nacelle arranged about the fan;a frame supported by a nacelle;a gas turbine engine core having a compressor and a turbine at least partially within the nacelle;a fan bypass passage downstream of the fan for conveying a bypass airflow;between the nacelle and the gas turbine engine core;first and second nozzle doors associated with the fan bypass passage that move in unison between a stowed position, an intermediate position, and a thrust reverse position to influence the bypass airflow, wherein the first and second nozzle doors are pivotally connected to the frame;a louver section that moves in unison with the first and second nozzle doors between a plurality of louver positions;a linkage connecting the nozzle doors and the louver section; an actuator coupled with the linkage; anda controller that selectively commands the actuator to move the nozzle doors and the louver section in unison using the linkage and the actuator is disposed downstream of a portion of the frame. 15. The gas turbine engine system as recited in claim 14, wherein the stowed position corresponds to an aircraft cruise condition, the intermediate position corresponds to an aircraft take-off condition, and the thrust reverse position corresponds to an aircraft condition after landing. 16. The gas turbine engine system as recited in claim 14, wherein the first nozzle door extends in a radially outward direction from the nacelle relative to a centerline axis of the gas turbine engine core, and the second nozzle door extends in a radial inward direction into the fan bypass passage in the intermediate position and the thrust reverse position. 17. The gas turbine engine system as recited in claim 16, wherein the nozzle doors direct the bypass airflow in an aft direction to provide thrust while in the intermediate position, and the nozzle doors direct the bypass airflow in a forward direction to produce a thrust reversing force in the thrust reverse position. 18. The gas turbine engine system as recited in claim 14, wherein movement of the nozzle doors changes a variable cross-sectional area associated with the fan bypass passage to influence the bypass airflow. 19. The gas turbine engine system as recited in claim 14, wherein the linkage includes a first link and a second link, the first link is pivotally connected to the frame and the second link is pivotally connected to the first link and the actuator. 20. The gas turbine engine system as recited in claim 14, wherein the louver section includes a plurality of louvers that are pivotally connected to the frame. 21. The gas turbine engine system as recited in claim 14, wherein the first and second nozzle doors each include a slot that slidably receives a portion of the linkage. 22. The gas turbine engine system as recited in claim 14, wherein the linkage includes a link that is slidably connected to each of the nozzle doors. 23. The gas turbine engine system as recited in claim 22, wherein the linkage includes another link having one end that is pivotally connected with the link and another end that is pivotally connected with the actuator. 24. The gas turbine engine system as recited in claim 14, wherein the first nozzle door includes a linear slot, the second nozzle door includes a non-linear slot, and the linear slot and the non-linear slot are slidably connected with the linkage. 25. The gas turbine engine system as recited in claim 14, wherein each of the nozzle doors are moveable about a pivot point. 26. The gas turbine engine system as recited in claim 25, wherein the first nozzle door moves in an aft direction about its pivot point in unison with movement of the second nozzle door in a forward direction about its pivot point. 27. The gas turbine engine system as recited in claim 14, wherein the louver section includes a plurality of louvers that are each moveable about corresponding pivots, each of the plurality of louvers including an end that is connected with a link rod that connects to the linkage, and movement of the linkage causes movement of the link rod such that the plurality of louvers move about the pivots.
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