IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0952118
(2004-09-28)
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발명자
/ 주소 |
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
8 인용 특허 :
23 |
초록
▼
A nozzle includes a sideways split and aftwardly swept nozzle ramp extends between a fixed lower nozzle wall and a pivotal upper nozzle wall pivotally connected to an aft end of the nozzle and operable to vary a throat area of a throat of the nozzle. The upper and lower nozzle walls and the ramp ext
A nozzle includes a sideways split and aftwardly swept nozzle ramp extends between a fixed lower nozzle wall and a pivotal upper nozzle wall pivotally connected to an aft end of the nozzle and operable to vary a throat area of a throat of the nozzle. The upper and lower nozzle walls and the ramp extend transversely between first and second nozzle sidewalls. A sideways pivotable ramp structure pivotally connected to the lower nozzle wall and pivotable between the sidewalls includes a longitudinally extending upper pivotable wall spaced upwardly and aftwardly of a longitudinally extending lower pivotable wall and an aftwardly swept pivotable ramp extending between the upper and lower pivotable walls. Right hand and left hand upper ramp sections of the nozzle ramp may be connected to right hand and left hand upper nozzle wall sections respectively of the upper nozzle wall which are pivotally connected to right and left handed triangular side walls of the aft end.
대표청구항
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What is claimed is: 1. An aircraft gas turbine engine exhaust section comprising: a variable throat area nozzle spaced axially downstream of an afterburner, the nozzle including a longitudinally extending upper nozzle wall spaced upwardly and aftwardly of a longitudinally extending lower nozzle wal
What is claimed is: 1. An aircraft gas turbine engine exhaust section comprising: a variable throat area nozzle spaced axially downstream of an afterburner, the nozzle including a longitudinally extending upper nozzle wall spaced upwardly and aftwardly of a longitudinally extending lower nozzle wall, a sideways split and aftwardly swept nozzle ramp extending between the upper and lower nozzle walls, the upper and lower nozzle walls and the nozzle ramp extending transversely between first and second nozzle sidewalls, an outer nozzle wall spaced apart from the upper and lower nozzle walls, extending transversely between the first and second nozzle sidewalls, a nozzle flowpath defined between the upper and lower nozzle walls and the outer nozzle wall and the first and second nozzle sidewalls, a variable area throat extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper nozzle wall, an upper ramp section of the aftwardly swept nozzle ramp connected to the upper nozzle wall, and the upper nozzle wall being upwardly and downwardly pivotally connected to an aft end of the nozzle and operable to vary a throat area of the throat. 2. An aircraft gas turbine engine exhaust section as claimed in claim 1 further comprising an afterburner located upstream of the vectorable nozzle. 3. A variable throat area nozzle comprising: a longitudinally extending and longitudinally split upper nozzle wall spaced upwardly and aftwardly of a longitudinally extending lower nozzle wall, a sideways split and aftwardly swept nozzle ramp extending between the upper and lower nozzle walls, the upper and lower nozzle walls and the nozzle ramp extending transversely between first and second nozzle sidewalls, the upper and lower nozzle walls and the nozzle ramp extending transversely between the first and second nozzle sidewalls, an outer nozzle wall spaced apart from the upper and lower nozzle walls, extending transversely between the first and second nozzle sidewalls, a nozzle flowpath defined between the upper and lower nozzle walls and the outer nozzle wall and the first and second nozzle sidewalls, a variable area throat extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper nozzle wall, right hand and left hand upper ramp sections of the aftwardly swept nozzle ramp connected to right hand and left hand upper nozzle wall sections respectively of the upper nozzle wall, and the right hand and left hand upper nozzle wall sections being upwardly and downwardly pivotally connected to an aft end of the nozzle and operable to vary a throat area of the throat. 4. A vectorable nozzle as claimed in claim 3 further comprising: a sideways pivotable ramp structure pivotally connected to the lower nozzle wall and pivotable between the sidewalls, the pivotable ramp structure including a longitudinally extending upper pivotable wall spaced upwardly and aftwardly of a longitudinally extending lower pivotable wall and an aftwardly swept pivotable ramp extending between the upper and lower pivotable walls, and the variable area throat further extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper pivotable wall. 5. A vectorable nozzle as claimed in claim 4 further comprising the upper pivotable wall including a widthwise aftwardly tapered section. 6. A vectorable nozzle as claimed in claim 5 further comprising the tapered section having an isosceles triangular planform area including side edges extending equi-angularly aftwardly from a base line between the tapered section and a non-tapered section of the upper pivotable wall. 7. A vectorable nozzle as claimed in claim 6 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 8. A vectorable nozzle as claimed in claim 7 further comprising a fin attached to the pivotable ramp structure. 9. A vectorable nozzle as claimed in claim 8 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 10. A vectorable nozzle as claimed in claim 9 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 11. A vectorable nozzle as claimed in claim 5 further comprising: the upper pivotable wall including a widthwise aftwardly tapered section and a base line between the tapered section and a non-tapered section of the upper pivotable wall, the variable area throat further extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper pivotable wall, and the tapered and non-tapered sections of the upper pivotable wall being contoured so that the throat extends widthwise substantially along the base line during vectored and unvectored operation of the nozzle. 12. A vectorable nozzle as claimed in claim 11 further comprising the tapered section having an isosceles triangular planform area including side edges extending equi-angularly aftwardly from the base line between the tapered and the non-tapered sections of the upper pivotable wall. 13. A vectorable nozzle as claimed in claim 12 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 14. A vectorable nozzle as claimed in claim 13 further comprising a fin attached to the pivotable ramp structure. 15. A vectorable nozzle as claimed in claim 14 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 16. A vectorable nozzle as claimed in claim 15 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 17. A vectorable nozzle as claimed in claim 5 further comprising: an upper triangular surface of the upper nozzle wall bounding nozzle flowpath, at least a portion of the upper triangular surface extending aftwardly of the first and second nozzle sidewalls to an apex of the triangular surface, the tapered section having an isosceles triangular planform area including side edges extending equi-angularly aftwardly from a base line between the tapered section and a non-tapered section of the upper pivotable wall to the apex, and the right hand and left hand upper nozzle wall sections being upwardly and downwardly pivotally connected along right and left handed triangular sides respectively of the right hand and left hand upper nozzle wall sections to right and left handed triangular side walls of an aft end of the nozzle and operable to vary a throat area of the throat. 18. A vectorable nozzle as claimed in claim 17 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 19. A vectorable nozzle as claimed in claim 18 further comprising a fin attached to the pivotable ramp structure. 20. A vectorable nozzle as claimed in claim 19 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 21. A vectorable nozzle as claimed in claim 20 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 22. A vectorable nozzle as claimed in claim 17 further comprising the tapered and non-tapered sections of the upper pivotable wall being contoured so that the throat extends widthwise substantially along the base line during vectored and unvectored operation of the nozzle. 23. A vectorable nozzle as claimed in claim 22 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 24. A vectorable nozzle as claimed in claim 23 further comprising a fin attached to the pivotable ramp structure. 25. A vectorable nozzle as claimed in claim 24 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 26. A vectorable nozzle as claimed in claim 25 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 27. An aircraft gas turbine engine exhaust section comprising: a variable throat area nozzle spaced axially downstream of an afterburner; the nozzle including a longitudinally extending and longitudinally split upper nozzle wall spaced upwardly and aftwardly of a longitudinally extending lower nozzle wall, a sideways split and aftwardly swept nozzle ramp extending between the upper and lower nozzle walls, the upper and lower nozzle walls and the nozzle ramp extending transversely between first and second nozzle sidewalls, an outer nozzle wall spaced apart from the upper and lower nozzle walls and extending transversely between the first and second nozzle sidewalls, a nozzle flowpath defined between the upper and lower nozzle walls and the outer nozzle wall and the first and second nozzle sidewalls, a variable area throat extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper nozzle wall, right hand and left hand upper ramp sections of the aftwardly swept nozzle ramp connected to right hand and left hand upper nozzle wall sections respectively of the upper nozzle wall, and the right hand and left hand upper nozzle wall sections being upwardly and downwardly pivotally connected along right and left handed triangular sides respectively of the right hand and left hand upper nozzle wall sections to right and left handed triangular side walls of an aft end of the nozzle and operable to vary a throat area of the throat. 28. An aircraft gas turbine engine exhaust section as claimed in claim 27 further comprising: a sideways pivotable ramp structure pivotally connected to the lower nozzle wall and pivotable between the sidewalls, the pivotable ramp structure including a longitudinally extending upper pivotable wall spaced upwardly and aftwardly of a longitudinally extending lower pivotable wall and an aftwardly swept pivotable ramp extending between the upper and lower pivotable walls, and the variable area throat further extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper pivotable wall. 29. An aircraft gas turbine engine exhaust section as claimed in claim 28 further comprising the upper pivotable wall including a widthwise aftwardly tapered section. 30. An aircraft gas turbine engine exhaust section as claimed in claim 29 further comprising the tapered section having an isosceles triangular planform area including side edges extending equi-angularly aftwardly from a base line between the tapered section and a non-tapered section of the upper pivotable wall. 31. An aircraft gas turbine engine exhaust section as claimed in claim 30 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 32. An aircraft gas turbine engine exhaust section as claimed in claim 31 further comprising a fin attached to the pivotable ramp structure. 33. An aircraft gas turbine engine exhaust section as claimed in claim 32 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 34. An aircraft gas turbine engine exhaust section as claimed in claim 33 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 35. An aircraft gas turbine engine exhaust section as claimed in claim 29 further comprising: the upper pivotable wall including a widthwise aftwardly tapered section and a base line between the tapered section and a non-tapered section of the upper pivotable wall, the variable area throat further extending substantially downwardly across the nozzle flowpath from the outer nozzle wall to the upper pivotable wall, and the tapered and non-tapered sections of the upper pivotable wall being contoured so that the throat extends widthwise substantially along the base line during vectored and unvectored operation of the nozzle. 36. An aircraft gas turbine engine exhaust section as claimed in claim 35 further comprising the tapered section having an isosceles triangular planform area including side edges extending equi-angularly aftwardly from the base line between the tapered and the non-tapered sections of the upper pivotable wall. 37. An aircraft gas turbine engine exhaust section as claimed in claim 36 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 38. An aircraft gas turbine engine exhaust section as claimed in claim 37 further comprising a fin attached to the pivotable ramp structure. 39. An aircraft gas turbine engine exhaust section as claimed in claim 38 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 40. An aircraft gas turbine engine exhaust section as claimed in claim 39 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 41. An aircraft gas turbine engine exhaust section as claimed in claim 39 further comprising: an upper triangular surface of the upper nozzle wall bounding nozzle flowpath, at least a portion of the upper triangular surface extending aftwardly of the first and second nozzle sidewalls to an apex of the triangular surface, the tapered section having an isosceles triangular planform area including side edges extending equi-angularly aftwardly from a base line between the tapered section and a non-tapered section of the upper pivotable wall to the apex, and the right hand and left hand upper nozzle wall sections being upwardly and downwardly pivotally connected along right and left handed triangular sides respectively of the right hand and left hand upper nozzle wall sections to right and left handed triangular side walls of an aft end of the nozzle and operable to vary a throat area of the throat. 42. An aircraft gas turbine engine exhaust section as claimed in claim 41 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 43. An aircraft gas turbine engine exhaust section as claimed in claim 42 further comprising a fin attached to the pivotable ramp structure. 44. An aircraft gas turbine engine exhaust section as claimed in claim 43 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 45. An aircraft gas turbine engine exhaust section as claimed in claim 44 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall. 46. An aircraft gas turbine engine exhaust section as claimed in claim 41 further comprising the tapered and non-tapered sections of the upper pivotable wall being contoured so that the throat extends widthwise substantially along the base line during vectored and unvectored operation of the nozzle. 47. An aircraft gas turbine engine exhaust section as claimed in claim 46 further comprising taper angles between the side edges and the base line and the taper angles sized for allowing the side edges to substantially abut respective ones of the sidewalls when the pivotable ramp structure is pivoted sideways. 48. An aircraft gas turbine engine exhaust section as claimed in claim 47 further comprising a fin attached to the pivotable ramp structure. 49. An aircraft gas turbine engine exhaust section as claimed in claim 48 further comprising the fin being attached to the pivotable ramp structure along at least longitudinally extending first and second portions of the lower pivotable wall and the pivotable ramp respectively. 50. An aircraft gas turbine engine exhaust section as claimed in claim 49 further comprising the fin extending longitudinally over a pivot point where the ramp structure is pivotally connected to the lower nozzle wall.
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