IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0424761
(2012-03-20)
|
등록번호 |
US-9884677
(2018-02-06)
|
우선권정보 |
GB-1105108.3 (2011-03-28) |
발명자
/ 주소 |
- Northam, Robert
- Lyons, Neil
|
출원인 / 주소 |
- Airbus Operations Limited
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
11 |
초록
A natural-laminar-flow swept transonic wing fitted with a wing tip pod for controlling the location of a wing shock in the wing tip region, such that the shock extends outboard substantially up to the wing tip without substantially sweeping forward toward the wing tip leading edge.
대표청구항
▼
1. A natural-laminar-flow swept transonic wing for an aircraft, said wing including an upper surface, a lower surface, a leading edge, a trailing edge, an inboard root and an outboard tip, said wing including a wing tip pod, said pod including an elongate body which tapers forwardly to a nose and ta
1. A natural-laminar-flow swept transonic wing for an aircraft, said wing including an upper surface, a lower surface, a leading edge, a trailing edge, an inboard root and an outboard tip, said wing including a wing tip pod, said pod including an elongate body which tapers forwardly to a nose and tapers rearwardly to a tail, the nose is located forward of the wing tip leading edge and the tail is located aft of the wing tip trailing edge, wherein the pod has a body with a convex outer surface facing said inboard root from an intersection of the pod body and the wing tip upper surface, and the pod body has an edge profile adjacent the wing upper surface extending in plan view in a continuously convex curve from nose to tail and, during flight at a Mach number substantially close to a transonic design point of the wing, a region of natural-laminar-flow over the wing upper surface extends aerodynamically forward of a generally spanwise shock and extends outboard substantially to the wing tip pod where said spanwise shock does not substantially sweep forward toward the wing tip leading edge. 2. A wing according to claim 1, wherein the wing tip pod has a cross-section profile with a minimum radius of curvature sufficiently large to promote attached flow forward on the wing tip pod. 3. A wing according to claim 1, wherein the wing tip pod has a cross-section profile, said cross-section profile has a profile volume and a greater proportion of said profile volume is located above the wing. 4. A wing according to claim 1, wherein the wing tip pod has an asymmetrical cross-section profile, said cross-section profile has a profile volume and said wing tip pod has a centerline located equidistance between inboard and outboard surfaces of said pod, said pod has a greater proportion of said profile volume located outboard of said centerline. 5. A wing according to claim 1, wherein the wing tip pod has a volume aft of the maximum inboard position of the wing tip pod edge profile greater than a volume forward of the maximum inboard position of the wing tip edge profile. 6. A wing according to claim 1, wherein the surface of said wing tip pod is blended with the upper and lower surfaces of the wing. 7. A wing according to claim 1, wherein the wing tip pod has a cross-section shape which varies along the length of the pod. 8. A wing according to claim 1, wherein the maximum inboard position of the wing tip pod edge profile is substantially coincident with the generally spanwise shock feature at the transonic design point. 9. A wing according to claim 1, wherein the maximum inboard position of the wing tip pod edge profile is located between approximately 35% to 70% of the chord of the wing outboard tip. 10. A wing according to claim 1, wherein the wing tip pod has a cross-section profile comprising at least one of a substantially circular and a substantially semi-circular profile. 11. A wing according to claim 1, wherein the wing tip pod has a cross-section profile comprising at least one of a substantially elliptical and a substantially semi-elliptical profile. 12. A wing according to claim 1, wherein the nose of the wing tip pod extends forward of the wing tip leading edge by a distance substantially less than the distance between the wing tip trailing edge and the tail of the wing tip pod. 13. A wing according to claim 1, wherein the nose of the wing tip pod extends forward of the wing tip leading edge by a distance less than 10% of the wing tip chord. 14. An aircraft having the wing according claim 1. 15. A wing according to claim 1, wherein said pod body includes a convex surface extending from said nose to said tail. 16. A wing according to claim 1, wherein the edge profile of the pod body has a maximum inboard position intermediate said wing leading edge and said wing trailing edge. 17. A natural-laminar-flow swept transonic wing for an aircraft, said wing including a span, an upper surface, a leading edge, a trailing edge and an outboard tip, said wing including a wing tip pod attached to said outboard tip, said pod comprising an elongate body which tapers aerodynamically forwardly to a nose and tapers aerodynamically rearwardly to a tail, the nose is located forward of the leading edge and the tail is located aft of the trailing edge, and the pod body has an edge profile adjacent the wing upper surface, said profile extending in plan view from nose to tail in a continuously convex curve and, during flight at a Mach number substantially close to a transonic design point of the wing, a region of natural-laminar-flow over the wing upper surface extends aerodynamically forward of a generally spanwise shock extending outboard substantially up to the wing tip pod, said spanwise shock does not substantially sweep forward toward the wing tip leading edge. 18. In a natural-laminar-flow swept transonic wing for an aircraft, an improvement comprising a wing tip pod, said pod attached to a wing tip at a junction, said pod extending forward of a leading edge of said wing tip, said pod includes an edge profile which, in plan view, has a convex curve at least on a surface of the pod facing an inboard portion of said wing, wherein, during flight at a transonic design point of the wing, a region of natural-laminar-flow over the wing extends aerodynamically forward to the leading edge of the wing from a generally spanwise shock extending outboard to the wing tip pod where said shock does not substantially sweep forward toward the wing tip leading edge.
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