Thrust vectoring and variable exhaust area for jet engine nozzle
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02K-001/11
F02K-001/60
F02K-001/68
출원번호
US-0379633
(2003-03-05)
발명자
/ 주소
Lair, Jean-Pierre
출원인 / 주소
Propulsion Vectoring, L.P.
대리인 / 주소
Thompson &
인용정보
피인용 횟수 :
26인용 특허 :
47
초록▼
A jet engine nozzle having a pair of pivoting extension arms and a pair of pivoting shells connected to a jet pipe is provided. The first extension arm is pivotally connected to the jet pipe at a first location, while the second extension arm is pivotally connected to the jet pipe at a second locati
A jet engine nozzle having a pair of pivoting extension arms and a pair of pivoting shells connected to a jet pipe is provided. The first extension arm is pivotally connected to the jet pipe at a first location, while the second extension arm is pivotally connected to the jet pipe at a second location. Each shell is pivotally connected at both the first and second locations. An axis of rotation associated with the first location is coaxial to an axis of rotation associated with the second location. Independent actuation means are provided to rotate the extension arms and the shells, thereby enabling adjustment of the thrust-vector angle or the exhaust area of the nozzle.
대표청구항▼
1. An engine nozzle mounted on a jet pipe of an engine, the nozzle comprising:a first extension arm pivotally cooperating with an inner surface of the jet pipe at a first location; a second extension arm pivotally cooperating with the inner surface of the jet pipe at a second location, the first and
1. An engine nozzle mounted on a jet pipe of an engine, the nozzle comprising:a first extension arm pivotally cooperating with an inner surface of the jet pipe at a first location; a second extension arm pivotally cooperating with the inner surface of the jet pipe at a second location, the first and second locations being coaxial about a fixed axis; a first shell pivotally connected to the jet pipe at the first and second location; and a second shell pivotally connected to the jet pipe at the first and second location, the first and second extensions cooperating with inner surfaces of the first and second shells to form an inner surface of the engine nozzle. 2. An engine nozzle according to claim 1 further comprising:a first actuator operably attached between the jet pipe and at least one of the extension arms; and a second actuator operably attached between at least one of the extension arms and at least one of the shells. 3. An engine nozzle according to claim 1 further comprising:a first actuator operably attached between the jet pipe and at least one of the extension arms; a second actuator operably attached between at least one of the extension arms and at least one of the shells; wherein the first actuator permits adjustment of the value of a thrust-vector angle; and wherein the second actuator permits adjustment of the value of a nozzle exhaust area. 4. An engine nozzle according to claim 1 further comprising:an actuator operably attached between the jet pipe and at least one of the shells; and wherein the at least one of the shells is operably attached to at least one of the extension arms. 5. An engine nozzle according to claim 1, further comprising:an actuator operably attached between the jet pipe and at least one of the shells; wherein the at least one of the shells is operably attached to at least one of the extension arms; and wherein the actuator permits adjustment of one of the value of a thrust-vector angle and the value of a nozzle exhaust area. 6. An engine nozzle according to claim 1, wherein the shells and extension arms are capable of providing simultaneous adjustment of the nozzle exhaust area and the thrust-vector angle.7. A jet engine nozzle mounted on a jet pipe of an engine and adapted to provide a variable exhaust area and a variable thrust-vector angle, the nozzle comprising:a first extension arm pivotally connected to the jet pipe at a first location; a second extension arm pivotally connected to the jet pipe at a second location; the first and second locations being coaxial about a fixed axis; a first shell pivotally connected to the jet pipe at the first and second location; a second shell pivotally connected to the jet pipe at the first and second location; and actuation means for selectively rotating the extension arms and the shells about pivotal axes of the first and second locations. 8. A jet engine nozzle according to claim 7, wherein the actuation means further comprises:a first actuator operably attached between the jet pipe and at least one of the extension arms; and a second actuator operably attached between at least one of the extension arms and at least one of the shells. 9. A jet engine nozzle according to claim 7, wherein the actuation means further comprises:a first actuator operably attached between the jet pipe and at least one of the extension arms; a second actuator operably attached between at least one of the extension arms and at least one of the shells; wherein the first actuator permits adjustment of the value of a thrust-vector angle; and wherein the second actuator permits adjustment of the value of a nozzle exhaust area. 10. A jet engine nozzle according to claim 7, wherein the actuation means further comprises:an actuator operably attached between the jet pipe and at least one of the shells; and wherein the at least one of the shells is operably attached to at least one of the extension arms. 11. A jet engine nozzle according to claim 7, wherein the actuation means further comprises:an actuator operably attached between the jet pipe and at least one of the shells; wherein the at least one of the shells is operably attached to at least one of the extension arms; wherein the actuator permits adjustment of one of the value of a thrust-vector angle and the value of a nozzle exhaust area. 12. A jet engine nozzle according to claim 7, wherein the shells and extension arms are capable of providing simultaneous adjustment of the nozzle exhaust area and the thrust-vector angle.13. A jet engine nozzle mounted on a jet pipe of an engine and adapted to provide a variable nozzle exhaust area and a variable thrust-vector angle, the nozzle comprising:a first extension arm pivotally connected to a jet pipe at a first location; a second extension arm pivotally connected to the jet pipe at a second location; a first shell having a pair of first hinge arms, each first hinge arm having a distal end, one of the first hinge arms being pivotally connected to the jet pipe at the first location and the other of the first hinge arms being pivotally connected to the jet pipe at the second location; a second shell having a pair of second hinge arms, each second hinge arm having a distal end, one of the second hinge arms being pivotally connected to the jet pipe at the first location and the other of the second hinge arms being pivotally connected to the jet pipe at the second location; a first actuator having a first end connected to the jet pipe and a second end connected to the first extension arm; and a second actuator connected to one of the first and second extension arms, the second actuator being capable of driving a cross arm operably connected to both the first and second shells. 14. A jet engine nozzle according to claim 13, wherein:the extension arms each include a distal arm; and wherein the first end of the first actuator is pivotally connected to the jet pipe and the second end is pivotally to the distal arm of one of the extension arms. 15. A jet engine nozzle according to claim 13, wherein the second actuator controls synchronous and symmetrical rotation of the first and second shells to enable variation of the nozzle exhaust area.16. A jet engine nozzle according to claim 13, wherein the first actuator controls rotation of the first extension arm and the first and second shells to enable variation of the thrust-vector angle.17. A jet engine nozzle according to claim 13, further comprising:a first seal connected at a first end to the first shell and at a second end to the first extension arm, the jet pipe, and the second extension arm; and a second seal connected at a first end to the second shell and at a second end to the first extension arm, the jet pipe, and the second extension arm. 18. A jet engine nozzle according to claim 17, wherein the first and seals are accordion seals.19. A jet engine nozzle according to claim 13, further comprising:a third actuator having a first end connected to the jet pipe and a second end connected to the second extension arm; and a fourth actuator connected to the one of the first and second extension arms not connected to the second actuator, the fourth actuator being capable of driving a second cross arm operably connected to the both the first and second shells.
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이 특허에 인용된 특허 (47)
Lymons Dennis E. ; Aten Michael R., Actuator and safety lock system for pivoting door thrust reverser for aircraft jet engine.
Yoshida Ryuichi (Takarazuka JPX) Yamamura Tetsushi (Takasago JPX) Kadota Koji (Kobe JPX), Propulsive air stream deflecting apparatus for air cushion vehicle.
Durand Lionel F. G. J. (Fontaine la Mallet FRX) Lor Xavier R. Y. (Le Havre FRX), Turbojet engine having a thrust reverser door and variable exhaust cross-section.
Bayle-Laboure Grard J. P. (Avon FRX) Bouiller Jean G. (Brunoy FRX) Buisson Marc F. B. (Le Mee sur Seine FRX) Soligny Marcel R. (Chevilly-Larue FRX), Variable section nozzle for a turbo-jet engine and an aircraft comprising such equipment.
Petty, Dale William; McMahon, Shawn M.; Murphy, Michael Joseph; Zamora, Sean P.; Swanson, Timothy A., Gas turbine engine systems involving variable nozzles with sliding doors.
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