IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0154720
(1980-05-30)
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발명자
/ 주소 |
- Basinski
- Jr. Edward M. (Enfield CT)
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출원인 / 주소 |
- The United States of America as represented by the Secretary of the Air Force (Washington DC 06)
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인용정보 |
피인용 횟수 :
5 인용 특허 :
1 |
초록
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An actuation assembly for selectively varying the throat area of a convergent-divergent exhaust nozzle of a gas turbine engine and simultaneously achieving predetermined fixed ratios of throat area versus exit area. The assembly structurally comprises a plurality of constituent components (including
An actuation assembly for selectively varying the throat area of a convergent-divergent exhaust nozzle of a gas turbine engine and simultaneously achieving predetermined fixed ratios of throat area versus exit area. The assembly structurally comprises a plurality of constituent components (including a linear actuator member on the port side, and another on the starboard side, of the nozzle in parallel spaced-apart relationship with the centerline common to the engine and to the exhaust nozzle) that interact and cooperate to pivot the convergent flaps to reduce the throat area while simultaneously moving the divergent flaps inwardly, or to pivot the convergent flaps to increase the throat area while simultaneously moving the divergent flaps outwardly, as desired, thereby permitting the selective varying of the throat area while attaining a predetermined fixed ratio of the throat area to the exit area of the convergent-divergent exhaust nozzle. In addition, and unlike the prior art, the respective lengths of linear movements required to effectuate either the convergent flaps from a minimum throat area position to a maximum throat area position or the divergent flaps from a minimum exit area position to a maximum exit area position are equal, as are the respective lengths in the converse. Thusly, only a single actuator per side is required.
대표청구항
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An actuation assembly for a convergent-divergent exhaust nozzle of a gas turbine engine having a longitudinal axis, wherein said nozzle has a longitudinal axis coincident with said longitudinal axis of said engine, a fore end, an aft end, a throat having an area, a convergent flap system with an upp
An actuation assembly for a convergent-divergent exhaust nozzle of a gas turbine engine having a longitudinal axis, wherein said nozzle has a longitudinal axis coincident with said longitudinal axis of said engine, a fore end, an aft end, a throat having an area, a convergent flap system with an upper portion and a lower portion, a divergent flap system with an upper portion and a lower portion, an external flap system, with an upper portion and a lower portion, an inner wall, a port side, a starboard side, and an exit having an area, comprising: a. a first linear actuator member disposed parallel to, and in equal spaced-apart relationship with, said longitudinal axis of said nozzle and external of said inner wall on said port side of said engine, with said first linear actuator member having a first end and a second end; b. a second linear actuator member disposed parallel to, and in equal spaced-apart relationship with, said longitudinal axis of said nozzle and external of said inner wall on said starboard side of said engine, with said second linear actuator member having a first end and a second end; c. means, common to said first and second linear actuators, for selectively, simultaneously, and linearly moving said first and second linear actuator members toward said fore end of said nozzle and toward said aft end of said nozzle, with said means connected to said first end of said first linear actuator member and to said first end of said second linear actuator member; d. a first sliding carriage member disposed parallel to, and in equal spaced-apart relationship with, said longitudinal axis of said nozzle and external of said inner wall on said port side of said engine, with said first sliding carriage member connected to said second end of said first linear actuator member; e. a second sliding carriage member disposed parallel to, and in equal spaced-apart relationship with, said longitudinal axis of said nozzle and external of said inner wall on said starboard side of said engine, with said second sliding carriage member connected to said second end of said second linear actuator member; f. first means for pivoting said upper portion of said convergent flap system, with this means disposed external of said inner wall on said port side of said engine, and with this means in fixed relation and connected to said upper portion of said convergent flap and pivotally connected to said first sliding carriage member; g. first means for pivoting said lower portion of said convergent flap system, with this means disposed external of said inner wall on said port side of said engine, and with this means in fixed relation and connected to said lower portion of said flap and pivotally connected to said first sliding carriage member; h. second means for pivoting said upper portion of said convergent flap system, with this means disposed external of said inner wall on said starboard side of said engine, and with this means in fixed relation and connected to said upper portion of said convergent flap system and pivotally connected to said second sliding carriage member; i. second means for pivoting said lower portion of said convergent flap system, with this means disposed external of said inner wall on said starboard side of said engine, and with this means in fixed relation and connected to said lower portion of said flap and pivotally connected to said second sliding carriage member; j. first means for moving outwardly and inwardly said upper portion of said divergent flap system, with this means disposed external of said inner wall on said port side of said engine, and with this means slideably connected to said upper portion of said divergent flap and pivotally connected to said first sliding carriage member, and pivotally connected to said upper portion of said external flap; k. first means for moving outwardly and inwardly said lower portion of said divergent flap system, with this means disposed external of said inner wall on said port side of said engine, and with this means slideably connected to said lower portion of said divergent flap system and pivotally connected to said first sliding carriage member, and pivotally connected to said lower portion of said external flap system; l. second means for moving outwardly and inwardly said upper portion of said divergent flap system, with this means disposed external of said inner wall on said starboard side of said engine, and with this means slideably connected to said upper portion of said divergent flap system and pivotally connected to said second sliding carriage member, and pivotally connected to said upper portion of said external flap system; m. and, second means for moving outwardly and inwardly said lower portion of said divergent flap system, with this means disposed external of said inner wall on said starboard side of said engine, and with this means slideably connected to said lower portion of said divergent flap system and pivotally connected to said second sliding carriage member, and pivotally connected to said lower portion of said external flap system; whereby when said means for selectively, simultaneously, and linearly moving said first and second linear actuator members is moved toward said fore end of said exhaust nozzle, thereby said upper and lower portions of said convergent flap are pivoted and said upper and lower portions of said divergent flap system are moved inwardly, and thereby said throat area is at a minimum and simultaneously the minimum desired exit area is achieved; and whereby when said means for selectively, simultaneously, and linearly moving said first and second linear actuator members is moved toward said aft end of said exhaust nozzle, thereby said upper and lower portions of said convergent flap are pivoted and said upper and lower portions of said divergent flap are moved outwardly, and thereby said throat area is at a maximum and simultaneously the maximum desired exit area is achieved; and also whereby the length of linear movement of said means for selectively, simultaneously, and linearly moving said first and second linear actuator members to attain said minimum throat area, or to attain said minimum exit area, is the same; and also whereby the length of linear movement at this means for selectively, simultaneously, and linearly moving said first and second linear actuator members to attain said maximum throat area, or to attain said maximum exit area, is the same;
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