Fabrication method and fabrication device for composite material hollow part
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29C-070/34
B29C-043/12
B29C-070/44
B29C-043/36
출원번호
US-0981204
(2012-03-28)
등록번호
US-9403302
(2016-08-02)
우선권정보
JP-2011-081255 (2011-03-31)
국제출원번호
PCT/JP2012/058149
(2012-03-28)
§371/§102 date
20130723
(20130723)
국제공개번호
WO2012/133534
(2012-10-04)
발명자
/ 주소
Hattori, Hidetaka
Horizono, Hideki
Yazaki, Tadashi
Fujiwara, Naoaki
출원인 / 주소
MITSUBISHI HEAVY INDUSTRIES, LTD.
대리인 / 주소
Wenderoth, Lind & Ponack, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
A fabrication method and a fabrication device capable of fabricating medium-scale mass production parts. The method of fabricating a composite material hollow part includes: holding a tool on a frame using a holding section that maintains a gap between the tool and the frame, placing a prepreg on th
A fabrication method and a fabrication device capable of fabricating medium-scale mass production parts. The method of fabricating a composite material hollow part includes: holding a tool on a frame using a holding section that maintains a gap between the tool and the frame, placing a prepreg on the tool, covering the tool and the prepreg using a highly stretchable sheet, securing the highly stretchable sheet and the frame with a securing jig so that tension is applied to the highly stretchable sheet from the top portion of the prepreg where the highly stretchable sheet contacts the prepreg at the highly stretchable sheet and the outer periphery of both the tool and the prepreg to the edges of the highly stretchable sheet, thereby forming an enclosed space that houses the tool and the prepreg, and subsequently evacuating the inside of the enclosed space to wrap the prepreg around the tool.
대표청구항▼
1. A method of fabricating a composite material hollow part, the method comprising: holding a tool on a frame using a holding section that maintains a gap between the tool and the frame, wherein the tool is arranged so that an uppermost portion of the tool forms a convex surface;placing a prepreg fo
1. A method of fabricating a composite material hollow part, the method comprising: holding a tool on a frame using a holding section that maintains a gap between the tool and the frame, wherein the tool is arranged so that an uppermost portion of the tool forms a convex surface;placing a prepreg formed from a fiber-reinforced resin on the tool;covering the tool and the prepreg from above the prepreg using a highly stretchable sheet;securing the highly stretchable sheet and the frame with a securing jig so that tension is applied to the highly stretchable sheet from a top portion of the prepreg, where the highly stretchable sheet contacts the outer periphery of the prepreg, to the edges of the highly stretchable sheet, thereby forming an enclosed space inside of which the tool and the prepreg are housed; andsubsequently evacuating the inside of the enclosed space using an evacuation device connected to the inside of the enclosed space, thereby wrapping the prepreg completely around the tool,wherein the tool is positioned so that an uppermost portion of the prepreg forms a convex surface in a direction following an outer periphery of the prepreg. 2. The method of fabricating a composite material hollow part according to claim 1, wherein a release film is interposed between edges of the prepreg and a member that acts as an underlying substrate beneath the edges of the prepreg. 3. The method of fabricating a composite material hollow part according to claim 1, wherein an elastic member that exhibits elasticity in a direction leading from the frame toward the tool is positioned on the frame opposing the tool, anda press jig, which is capable of using a reactive force of the elastic member to press against a surface of the tool that faces the frame, is positioned on the elastic member. 4. The method of fabricating a composite material hollow part according to claim 1, wherein, during the evacuation process, vacuum pressure is sequentially applied from the uppermost portion of the tool to a lowermost portion of the tool so that the prepreg is completely around the tool in a single wrapping cycle. 5. The method of fabricating a composite material hollow part according to claim 1, wherein, during the evacuation process, the prepreg is completely wrapped around the tool in a single wrapping cycle. 6. A device for fabricating a composite material hollow part, the device comprising: a frame,a tool for wrapping a prepreg formed from a fiber-reinforced resin, wherein the tool is positioned so that an uppermost portion of the tools forms a convex surface in a direction following an outer periphery of the prepreg,a holding section that holds the tool on the frame with a gap maintained between the tool and the frame,a highly stretchable sheet that covers the tool and the prepreg from above the prepreg,a securing jig which secures the highly stretchable sheet and the frame so that tension is applied to the highly stretchable sheet from a top portion of the prepreg, where the highly stretchable sheet contacts the outer periphery of the prepreg, to the edges of the highly stretchable sheet, thereby forming an enclosed space inside which the tool and the prepreg are housed, andan evacuation device that is connected to the inside of the enclosed space so as to enable the inside of the enclosed space to be evacuated and the prepreg to be completely wrapped around an outer periphery of the tool. 7. The device for fabricating a composite material hollow part according to claim 6, wherein a release film is disposed between edges of the prepreg and a member that acts as an underlying substrate beneath the edges of the prepreg. 8. The device for fabricating a composite material hollow part according to claim 6, further comprising: an elastic member, which is positioned on the frame opposing the tool and exhibits elasticity in a direction leading from the frame toward the tool,and a press jig, which is disposed on the elastic member and is capable of using a reactive force of the elastic member to press against a surface of the tool that faces the frame.
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이 특허에 인용된 특허 (2)
Iszczyszyn Nicholas ; Trudeau Allen E. ; Kovalsky David A., Method for manufacture of a fiber reinforced composite spar for rotary wing aircraft.
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