Composite-material structure and aircraft main wing and aircraft fuselage provided with the same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-003/14
B32B-003/24
B32B-003/26
B32B-007/02
B32B-007/08
B64C-001/12
B64C-001/00
B64C-001/06
B64C-003/00
B64C-003/26
B64C-003/18
B64C-001/14
B32B-007/00
B32B-003/08
출원번호
US-0386737
(2010-10-05)
등록번호
US-9108718
(2015-08-18)
우선권정보
JP-2009-234633 (2009-10-08)
국제출원번호
PCT/JP2010/067475
(2010-10-05)
§371/§102 date
20120124
(20120124)
국제공개번호
WO2011/043346
(2011-04-14)
발명자
/ 주소
Yoshida, Shinichi
Tanaka, Hideaki
Tanaka, Yuya
출원인 / 주소
MITSUBISHI HEAVY INDUSTRIES, LTD.
대리인 / 주소
Wenderoth, Lind & Ponack, L.L.P.
인용정보
피인용 횟수 :
1인용 특허 :
25
초록▼
A main wing (1) on which a tensile load is exerted in a longitudinal direction includes a holed structural member that is a composite material made of fiber reinforced plastic which extends in the longitudinal direction and in which access holes (5) are formed and that serves as a center portion (3b
A main wing (1) on which a tensile load is exerted in a longitudinal direction includes a holed structural member that is a composite material made of fiber reinforced plastic which extends in the longitudinal direction and in which access holes (5) are formed and that serves as a center portion (3b); and a front portion (3a) and a rear portion (3c) that are composite materials made of fiber reinforced plastic which extend in the longitudinal direction of the main wing and which are connected to side portions of the center portion. The tensile rigidity of the center portion in the longitudinal direction is set to be lower than the tensile rigidity of the front portion and the rear portion in the longitudinal direction.
대표청구항▼
1. An aircraft main wing including a composite structure forming a bottom surface skin, the composite-material structure comprising: a holed structural member that is a composite material made of fiber reinforced plastic, the holed structural member extending in a longitudinal direction and having a
1. An aircraft main wing including a composite structure forming a bottom surface skin, the composite-material structure comprising: a holed structural member that is a composite material made of fiber reinforced plastic, the holed structural member extending in a longitudinal direction and having at least one hole formed therein; andan adjacent structural member that is a composite material made of fiber reinforced plastic, the adjacent structural member extending in the longitudinal direction and being connected to a side portion of the holed structural member,wherein the holed structural member and the adjacent structural member are configured to receive a tensile load and/or a compressive load in the longitudinal direction,wherein a tensile rigidity and/or a compressive rigidity of the holed structural member in the longitudinal direction are/is lower than a tensile rigidity and/or a compressive rigidity of the adjacent structural member in the longitudinal direction, andwherein the holed structural member and the adjacent structural member are connected at division surfaces that extend in the longitudinal direction, and, the hole is an access hole. 2. The aircraft main wing according to claim 1, wherein the holed structural member is a composite material whose main components are fibers oriented in directions of +/−30° or greater and +/−60° or less, when the longitudinal direction of the main wing is defined as 0°. 3. The aircraft main wing according to claim 1, wherein the holed structural member is a composite material whose main components are fibers oriented in +/−45° directions, when the longitudinal direction is defined as 0°. 4. The aircraft main wing according to claim 1, wherein a plurality of stringers are provided in the longitudinal direction of the bottom-surface of the main wing, each of the plurality of stringers secures the holed structural member and the adjacent structural member,an increased thickness portion, formed by gradually increasing the thickness thereof with a tapering portion, is provided at an end of the adjacent structural member close to the division surface, andeach of the stringers is secured to the holed structural member and the adjacent structural member by fasteners including nuts and bolts, and/or by bonding. 5. The aircraft main wing according to claim 1, wherein a plurality of stringers are provided in the longitudinal direction of the bottom-surface of the main wing, each of the plurality of stringers secures the holed structural member and the adjacent structural member,fillers are interposed between each of the stringers and the adjacent structural member, andeach of the stringers is secured to the holed structural member and the adjacent structural member by fasteners including nuts and bolts and/or by bonding. 6. The aircraft main wing according to claim 1, wherein a plurality of stringers are provided in the longitudinal direction of the bottom-surface skin of the main wing, each of the plurality of stringers secures the holed structural member and the adjacent structural member,plate thicknesses of flanges in the stringer near the adjacent structural member are greater than thicknesses of flanges thereof near the holed structural member, and bottom surfaces of the flanges near the adjacent structural member are positioned closer to the adjacent structural member, andeach of the stringers is secured to the holed structural member and the adjacent structural member by fasteners including nuts and bolts, and/or by bonding. 7. A bottom-surface skin of an aircraft main wing, the bottom-surface skin comprising: a holed structural member that is a composite material made of fiber reinforced plastic, the holed structural member extending in a longitudinal direction and having at least one hole formed therein;a first adjacent structural member that is a composite material made of fiber reinforced plastic which extends in the longitudinal direction and which is connected to a leading side portion of the holed structural member; anda second adjacent structural member that is a composite material made of fiber reinforced plastic which extends in the longitudinal direction and which is connected to a trailing side portion of the holed structural member; anda plurality of stringers are provided in the longitudinal direction of the main wing at division surfaces of the holed structural member and the first and second adjacent structural members, each of the stringers being secured to the holed structural member and the adjacent structural member by fasteners including nuts and bolts, and/or by bonding,wherein the holed structural member and the first and second adjacent structural members are configured to receive a tensile load and/or a compressive load in the longitudinal direction,wherein a tensile rigidity and/or a compressive rigidity of the holed structural member in the longitudinal direction are/is lower than a tensile rigidity and/or a compressive rigidity of the first and second adjacent structural members in the longitudinal direction, andwherein the hole of the holed structural member is an access hole. 8. An aircraft fuselage comprising: a composite-material structure comprising:a holed structural member that is a composite material made of fiber reinforced plastic, the holed structural member extending in a longitudinal direction of the composite-material structure and at least one hole is formed therein;an adjacent structural member that is a composite material made of fiber reinforced plastic which extends in the longitudinal direction and which is connected to a side portion of the holed structural member; anda plurality of stringers that are provided in the longitudinal direction of the aircraft fuselage at division surfaces of the holed structural member and the adjacent structural member,wherein a plate thickness of the holed structural member is greater than a thickness of the adjacent structural member,wherein each of the stringers is secured to the holed structural member and the adjacent structural member by fasteners including nuts and bolts, and/or by bonding,wherein fillers are interposed between each of the stringers and the adjacent structural member to absorb a difference in plate thicknesses between the holed structural member and the adjacent structural member,wherein the holed structural member and the adjacent structural member are configured to receive a tensile load and/or a compressive load in the longitudinal direction,wherein a tensile rigidity and/or a compressive rigidity of the holed structural member in the longitudinal direction are/is lower than a tensile rigidity and/or a compressive rigidity of the adjacent structural member in the longitudinal direction, andwherein the holed structural member and the adjacent structural member are connected at division surfaces that extend in the longitudinal direction, and, the hole is a window hole where window materials are installed. 9. The aircraft fuselage according to claim 8, wherein the holed structural member is a composite material whose main components are fibers oriented in directions of +/−30° or greater and +/−60° or less, when the longitudinal direction is defined as 0°. 10. The aircraft fuselage according to claim 8, wherein the holed structural member is a composite material whose main components are fibers oriented in +/−45° directions, when the longitudinal direction is defined as 0°. 11. The aircraft fuselage according to claim 8, wherein an increased thickness portion formed by gradually increasing the thickness thereof with a tapering portion is provided at an end of the adjacent structural member close to the division surface. 12. The aircraft fuselage according to claim 8, wherein plate thicknesses of flanges in the stringer near the adjacent structural member are made greater than thicknesses of flanges thereof near the holed structural member, and bottom surfaces of the flanges near the adjacent structural member are positioned closer to the adjacent structural member.
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이 특허에 인용된 특허 (25)
Hunt James (King County WA), Aerodynamic structures of composite construction.
Kastner, Wolfgang; Grauerholz, Thomas, Method for manufacturing a fibre-composite component, fibre-composite component and fibre-composite fuselage component of an aircraft.
Arno Pabsch DE; Wilm Felix Unckenbold DE; Axel Herrmann DE, Method for producing sections in sandwich structures of fiber composites and sections produced accordingly.
Jones, Darrell D.; Berg, Arvid J.; Brennan, Joseph D.; Sherwood, Travis J., Method of fabricating structures using composite modules and structures made thereby.
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