Method of operating an exhaust nozzle assembly
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
UP-0646017
(2006-12-27)
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등록번호 |
US-7775032
(2010-09-06)
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발명자
/ 주소 |
- Hauer, Thomas Anthony
- Overbeck, Cy W.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
6 |
초록
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A method of operating an exhaust nozzle assembly includes translating a translatable structure between a plurality of operational positions to open and close a flow diverting port extending in an exhaust duct. The longitudinal position of a throat constriction varies with translation of the translat
A method of operating an exhaust nozzle assembly includes translating a translatable structure between a plurality of operational positions to open and close a flow diverting port extending in an exhaust duct. The longitudinal position of a throat constriction varies with translation of the translatable structure. Additionally, the cross-sectional area of the exhaust duct at the throat constriction may vary with translation of the translatable structure. An exemplary exhaust nozzle is operable in-flight for providing at least partial reverse thrust to at least partly control the velocity of an aircraft. An exemplary exhaust nozzle is operable on the ground to spoil ground idle thrust.
대표청구항
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What is claimed is: 1. A method of directing the flow of gases in a two-dimensional exhaust nozzle assembly for an engine, the method comprising: a) translating a translatable structure between a plurality of operational positions relative to a pair of longitudinally extending sidewalls and a botto
What is claimed is: 1. A method of directing the flow of gases in a two-dimensional exhaust nozzle assembly for an engine, the method comprising: a) translating a translatable structure between a plurality of operational positions relative to a pair of longitudinally extending sidewalls and a bottom wall of an exhaust duct having a flow diverting port therein, wherein the translatable structure is operable to open and close the flow diverting port, and wherein the plurality of operational positions includes a first operational position wherein the flow diverting port is effectively fully closed, a second operational position wherein the flow diverting port is effectively fully opened, and first intermediate position intermediate the first and second operational positions wherein the flow diverting port is effectively fully closed, and wherein the second operational position is generally rearward of the first operational position; and b) during at least a part of (a), varying a cross-sectional area of the exhaust duct at a throat constriction in the exhaust duct, wherein the throat constriction is at least partly defined by an inner portion of the translatable structure. 2. The method according to claim 1 further comprising: c) during at least a part of (b), varying a longitudinal position of the throat constriction. 3. The method according to claim 1 further comprising: c) during at least a part of (a), translating the translatable structure into the second operational position. 4. The method according to claim 1 further comprising: c) during at least a part of (a), translating the translatable structure into a second intermediate operational position generally rearward of the first intermediate operational position, wherein the flow diverting port is partly opened. 5. The method according to claim 1 wherein in (a), translating the translatable structure includes: utilizing an actuation system including at least one linear actuator adapted for linear movement along a line oriented at an angle relative to a longitudinally extending line. 6. The method according to claim 1 wherein in (b), varying the cross-sectional area includes decreasing the cross-sectional area during rearward translation of the translatable structure. 7. The method according to claim 1 wherein in (b), varying the cross-sectional area includes increasing the cross-sectional area during forward translation of the translatable structure. 8. The method according to claim 2 wherein in (c), varying the longitudinal position of the throat constriction includes at least displacing the throat constriction generally rearward during rearward translation of the translatable structure. 9. The method according to claim 2 wherein in (c), varying the longitudinal position of the throat constriction includes at least displacing the throat constriction generally forward during forward translation of the translatable structure. 10. A method of directing the flow of gases in a two-dimensional exhaust nozzle assembly for an engine, the method comprising: a) translating a translatable structure between a plurality of operational positions relative to a pair of longitudinally extending sidewalls and a bottom wall of an exhaust duct having a flow diverting port therein, wherein the translatable structure is operable to open and close the flow diverting port, and wherein the plurality of operational positions includes a first operational position wherein the flow diverting port is effectively fully closed and a second operational position wherein the flow diverting port is effectively fully opened; b) during at least a part of (a), translating the translatable structure from the first operational position to a first intermediate operational position intermediate the first and second operational positions wherein the flow diverting port is effectively fully closed; c) during at least a part of (a), translating the translatable structure into a second intermediate operational position intermediate the first and second operational positions wherein the flow diverting port is partly opened; and d) during at least a part of (b), varying a longitudinal position of a throat constriction in the exhaust duct. 11. A method of directing the flow of gases in a two-dimensional exhaust nozzle assembly for an engine, the method comprising: a) translating a translatable structure between a plurality of operational positions relative to a pair of longitudinally extending sidewalls and a bottom wall of an exhaust duct having a flow diverting port therein, wherein the translatable structure is operable to open and close the flow diverting port, and wherein the plurality of operational positions includes a first operational position wherein the flow diverting port is effectively fully closed and a second operational position wherein the flow diverting port is effectively fully opened; b) during at least a part of (a), translating the translatable structure from the first operational position to a first intermediate operational position intermediate the first and second operational positions wherein the flow diverting port is effectively fully closed; c) during at least a part of (a), translating the translatable structure into a second intermediate operational position intermediate the first and second operational positions wherein the flow diverting port is partly opened; and d) during at least a part of (b), varying a cross-sectional area of the exhaust duct at the throat constriction. 12. A method of directing the flow of gases in a two-dimensional exhaust nozzle assembly for an engine, the method comprising: a) translating a translatable structure between a plurality of operational positions relative to a pair of longitudinally extending sidewalls and a bottom wall of an exhaust duct having a flow diverting port therein, wherein the translatable structure is operable to open and close the flow diverting port, and wherein the plurality of operational positions includes a first operational position wherein the flow diverting port is effectively fully closed and a second operational position wherein the flow diverting port is effectively fully opened; b) during at least a part of (a), translating the translatable structure into a first intermediate operational position intermediate the first and second operational positions wherein the flow diverting port is effectively fully closed; and c) during at least a part of (a), varying a cross-sectional area of the exhaust duct at a throat constriction, wherein the throat constriction is at least partly defined by an inner portion of the translatable structure.
이 특허에 인용된 특허 (6)
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Hatrick, Michael John; Bennett, Joel David; McEvoy, Finbarr; Campbell, Hugh Keith; Beattie, William Edwin, Aircraft propulsive power unit.
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Szupkay Imre A., Aircraft thrust reverser system with linearly translating inner and outer doors.
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Blevins, Robert D.; Aten, Michael R.; Ramlaoui, Jihad I., Cascade-type thrust reverser.
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Mayers John L. (Lake Park FL), Exhaust nozzle construction.
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Roach Thomas A. (Palm Beach Gardens FL) Starke Roy R. (Lake Park FL), Exhaust nozzle with reverser exhaust door mechanism.
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Lair, Jean-Pierre, Thrust vectoring and variable exhaust area for jet engine nozzle.
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