Upper joints between outboard wing boxes and wing center sections of aircraft wing assemblies
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B64C-001/00
B64C-003/00
B64C-005/00
B64C-003/18
B64C-001/26
출원번호
US-0975158
(2013-08-23)
등록번호
US-9475570
(2016-10-25)
발명자
/ 주소
Charles, Jordan Daniel
Hamada, Jason
출원인 / 주소
The Boeing Company
대리인 / 주소
DASCENZO Intellectual Property Law, P.C.
인용정보
피인용 횟수 :
1인용 특허 :
11
초록▼
An upper joint of a wing assembly of an aircraft includes an outboard upper wing panel, a center upper wing panel, a rib, and an upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib. In some embodiments, outboard upper stringers may
An upper joint of a wing assembly of an aircraft includes an outboard upper wing panel, a center upper wing panel, a rib, and an upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib. In some embodiments, outboard upper stringers may be configured differently than center upper stringers. In some embodiments, a subset of the center upper stringers may not directly oppose the outboard upper stringers. In other embodiments, for at least a substantial fore/aft span of the upper joint, each of the center upper stringers may directly oppose an outboard upper stringer.
대표청구항▼
1. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box;a center upper wing panel of a wing center section;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operat
1. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box;a center upper wing panel of a wing center section;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines an outboard flange operatively coupled to the outboard upper wing panel, and an inboard flange operatively coupled to the center upper wing panel;a lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange. 2. The upper joint of claim 1, wherein the upper joint assembly defines a mating plane between the outboard wing box and the wing center section, wherein when the upper joint is in compression, the outboard upper wing panel expresses a compressive inward pressure toward the upper joint assembly, wherein when the upper joint is in compression, the center upper wing panel expresses a compressive outward pressure toward the upper joint assembly, and wherein the upper joint assembly is configured to direct a centroid of the compressive outward pressure to coincide with or approximately coincide with a centroid of the compressive inward pressure at the mating plane. 3. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein at least a subset of the plurality of center upper stringers includes center upper stringers that are not directly opposed to corresponding outboard upper stringers of the plurality of outboard upper stringers at the upper joint assembly. 4. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein for at least a substantial fore/aft span of the upper joint, only every other center upper stringer of the plurality of center upper stringers is directly opposed to a corresponding outboard upper stringer of the plurality of outboard upper stringers at the upper joint assembly. 5. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein for at least a substantial fore/aft span of the upper joint, the plurality of center upper stringers consists of approximately twice as many stringers as the plurality of outboard upper stringers. 6. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein a first subset of the plurality of center upper stringers is operatively coupled to the upper joint assembly, and wherein a second subset of the plurality of center upper stringers terminates without being directly coupled to the upper joint assembly. 7. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein for at least a substantial span of the upper joint, every second center upper stringer of the plurality of center upper stringers terminates without being directly coupled to the upper joint assembly. 8. The upper joint of claim 1, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 9. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein the plurality of center upper stringers includes a subset of center upper stringers that are not coupled directly to an inboard compression fitting of the plurality of inboard compression fittings. 10. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein for at least a substantial fore/aft span of the upper joint, every second center upper stringer of the plurality of center upper stringers is not coupled directly to an inboard compression fitting of the plurality of inboard compression fittings. 11. The upper joint of claim 1, wherein for at least a substantial fore/aft span of the upper joint, each of the plurality of inboard compression fittings is coupled to the lower flange directly across from an outboard compression fitting of the plurality of outboard compression fittings. 12. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 1, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 13. The upper joint of claim 1, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 14. The upper joint of claim 13, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 15. The upper joint of claim 1, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin; andwherein for at least a substantial fore/aft span of the upper joint, each of the plurality of outboard upper stringers is directly opposed to a corresponding center upper stringer of the plurality of center upper stringers at the upper joint assembly. 16. The upper joint of claim 15, wherein the plurality of outboard upper stringers comprises one or more of blade stringers, Z-stringers, and/or I-stringers, and wherein the plurality of center upper stringers comprises hat-shaped stringers. 17. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin, and wherein at least a subset of the plurality of center upper stringers includes center upper stringers that are not directly opposed to corresponding outboard upper stringers of the plurality of outboard upper stringers at the upper joint assembly;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib. 18. The upper joint of claim 17, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange. 19. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 17, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 20. The upper joint of claim 18, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 21. The upper joint of claim 20, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 22. The upper joint of claim 20, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 23. The upper joint of claim 22, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 24. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib;wherein for at least a substantial fore/aft span of the upper joint, only every other center upper stringer of the plurality of center upper stringers is directly opposed to a corresponding outboard upper stringer of the plurality of outboard upper stringers at the upper joint assembly. 25. The upper joint of claim 24, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange. 26. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 24, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 27. The upper joint of claim 25, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 28. The upper joint of claim 27, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 29. The upper joint of claim 27, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 30. The upper joint of claim 29, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 31. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin, and wherein for at least a substantial fore/aft span of the upper joint, the plurality of center upper stringers consists of approximately twice as many stringers as the plurality of outboard upper stringers;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib. 32. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 31, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 33. The upper joint of claim 31, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange. 34. The upper joint of claim 33, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 35. The upper joint of claim 34, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 36. The upper joint of claim 34, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 37. The upper joint of claim 36, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 38. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib;wherein a first subset of the plurality of center upper stringers is operatively coupled to the upper joint assembly, and wherein a second subset of the plurality of center upper stringers terminates without being directly coupled to the upper joint assembly. 39. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 38, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 40. The upper joint of claim 38, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange. 41. The upper joint of claim 40, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 42. The upper joint of claim 41, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 43. The upper joint of claim 41, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 44. The upper joint of claim 43, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 45. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib;wherein for at least a substantial span of the upper joint, every second center upper stringer of the plurality of center upper stringers terminates without being directly coupled to the upper joint assembly. 46. The upper joint of claim 45, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange. 47. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 45, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 48. The upper joint of claim 45, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 49. The upper joint of claim 48, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 50. The upper joint of claim 48, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 51. The upper joint of claim 50, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 52. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flange;wherein the plurality of center upper stringers includes a subset of center upper stringers that are not coupled directly to an inboard compression fitting of the plurality of inboard compression fittings. 53. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 52, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 54. The upper joint of claim 52, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 55. The upper joint of claim 54, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 56. The upper joint of claim 54, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 57. The upper joint of claim 56, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy. 58. An upper joint for a wing assembly of an aircraft, the upper joint comprising: an outboard upper wing panel of an outboard wing box, wherein the outboard upper wing panel includes an outboard upper skin and a plurality of outboard upper stringers operatively coupled to the outboard upper skin;a center upper wing panel of a wing center section, wherein the center upper wing panel includes a center upper skin and a plurality of center upper stringers operatively coupled to the center upper skin;a rib that is located between the outboard wing box and the wing center section; andan upper joint assembly operatively interconnecting the outboard upper wing panel, the center upper wing panel, and the rib, wherein the upper joint assembly includes: an outboard flange operatively coupled to the outboard upper wing panel;an inboard flange operatively coupled to the center upper wing panel;a lower flange operatively coupled to the rib;a plurality of outboard compression fittings operatively coupled between the outboard upper wing panel and the lower flange; anda plurality of inboard compression fittings operatively coupled between the center upper wing panel and the lower flangewherein for at least a substantial fore/aft span of the upper joint, every second center upper stringer of the plurality of center upper stringers is not coupled directly to an inboard compression fitting of the plurality of inboard compression fittings. 59. An aircraft, comprising: a fuselage; anda wing assembly operatively coupled to the fuselage, wherein the wing assembly includes: a left wing box;a right wing box;a wing center section; andtwo upper joints according to claim 58, including a left upper joint and a right upper joint, wherein the left upper joint interconnects the left wing box and the wing center section, and wherein the right upper joint interconnects the right wing box and the wing center section. 60. The upper joint of claim 58, wherein the upper joint assembly includes: a splice plate, wherein the splice plate defines the outboard flange and the inboard flange; anda lower T-fitting operatively coupled to the splice plate, wherein the lower T-fitting defines the lower flange. 61. The upper joint of claim 60, wherein the upper joint assembly further includes: an upper T-fitting operatively coupled to the splice plate opposite the lower T-fitting. 62. The upper joint of claim 60, wherein the outboard upper wing panel is constructed substantially of a first material;wherein the center upper wing panel is constructed substantially of a second material that is different from the first material; andwherein the splice plate and the lower T-fitting are constructed of a third material that is different from the first material and the second material. 63. The upper joint of claim 62, wherein the first material is a fiber reinforced composite material, wherein the second material is an aluminum alloy, and wherein the third material is a titanium alloy.
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이 특허에 인용된 특허 (11)
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