System and method of forming a component using a mandrel assembly
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29C-065/00
B23K-020/00
B29C-070/44
B29C-033/00
B29C-033/04
B29C-033/48
B29C-065/48
B29L-031/00
B29D-023/00
B29L-009/00
B29L-031/30
출원번호
US-0588465
(2015-01-02)
등록번호
US-10226899
(2019-03-12)
발명자
/ 주소
McMillan, Daniel James
출원인 / 주소
The Boeing Company
대리인 / 주소
Butscher, Joseph M.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
A mandrel assembly is configured to receive one or more layers of composite material to form a component. The mandrel assembly may include a tower having an outer forming wall surrounding a central passage, and an upper ring removably secured to the tower. The upper ring is configured to be removed
A mandrel assembly is configured to receive one or more layers of composite material to form a component. The mandrel assembly may include a tower having an outer forming wall surrounding a central passage, and an upper ring removably secured to the tower. The upper ring is configured to be removed from the tower after the layer(s) of composite material are wrapped around the outer forming wall and at least a portion of the upper ring. The component is removed from the tower after the upper ring is removed from the tower.
대표청구항▼
1. A mandrel assembly configured to receive one or more layers of composite material to form a component, the mandrel assembly comprising: a tower including a base having an upper ledge that extends around the tower; and an outer forming wall extending upwardly from the upper ledge and connected to
1. A mandrel assembly configured to receive one or more layers of composite material to form a component, the mandrel assembly comprising: a tower including a base having an upper ledge that extends around the tower; and an outer forming wall extending upwardly from the upper ledge and connected to a beveled upper rim, wherein the outer forming wall surrounds a central passage, wherein the outer forming wall comprises an upper recess defined by a lower ledge that wraps around the outer forming wall, wherein the lower ledge has a variable depth around the outer forming wall; andan upper ring removably secured to the tower, wherein the upper ring includes an upper rim secured to a lower edge through a variable depth wall, wherein the upper ring is configured to be positioned within the upper recess that wraps around the outer forming wall, wherein the lower ledge of the outer forming wall has a shape that conforms to a shape of the lower edge of the upper ring, wherein the lower ledge supports the upper ring on the tower, wherein the upper ring is configured to be removed from the tower after the one or more layers of composite material are wrapped around the outer forming wall and at least a portion of the upper ring, and wherein the component formed of the one or more layers of composite material is configured to be removed from the tower after the upper ring is removed from the tower. 2. The mandrel assembly of claim 1, wherein the upper ring comprises at least one seal that that sealingly engages a portion of the outer forming wall. 3. The mandrel assembly of claim 1, wherein the upper ring extends outwardly away from the outer forming wall. 4. The mandrel assembly of claim 1, wherein the upper ring and the tower are shaped to form an hourglass cross-sectional shape in the component. 5. The mandrel assembly of claim 1, further comprising an internal liner jacket secured to an internal portion of the outer forming wall around the central passage, wherein a duct is defined between the internal liner jacket and the outer forming wall, wherein the duct is configured to receive curing gas. 6. The mandrel assembly of claim 1, wherein the upper ring comprises an upper end defining an upper opening and a lower end defining a lower opening, wherein the upper and lower openings are non-parallel. 7. The mandrel assembly of claim 1, wherein the upper ring comprises an upper end defining an upper opening and a lower end defining a lower opening, wherein one or both of the upper and lower openings is non-planar. 8. The mandrel assembly of claim 1, wherein the upper ring includes a thin portion that connects to a thick portion. 9. The mandrel assembly of claim 1, wherein at least a portion of an interior surface of the upper ring includes a plurality of structural supports defining a plurality of thermal features defining a lattice pattern. 10. The mandrel assembly of claim 1, further comprising one or more fairing members removably secured to a lower portion of the tower, wherein the one or more fairing members are configured to be supported on the upper ledge of the base, wherein the one or more fairing members are spaced apart from the upper ring when the upper ring and the one or more fairing members are secured to the tower. 11. The mandrel assembly of claim 10, wherein each of the one or more fairing members comprises at least one seal that sealingly engages a portion of the outer forming wall when the one or more fairing members are secured to the tower. 12. A system for forming a component through one or more wrapped layers of composite material, the system comprising: a mandrel assembly configured to receive the one or more wrapped layers of the composite material, the mandrel assembly comprising: (a) a tower including a base having an upper ledge that extends around the tower; and an outer forming wall extending upwardly from the upper ledge and connected to a beveled upper rim, wherein the outer forming wall surrounds a central passage, wherein the outer forming wall comprises an upper recess defined by a lower ledge that wraps around the outer forming wall, wherein the lower ledge has a variable depth around the outer forming wall, and (b) an upper ring removably secured to the tower, wherein the upper ring includes an upper rim secured to a lower edge through a variable depth wall, wherein the upper ring is configured to be positioned within the upper recess that wraps around the outer forming wall, wherein the lower ledge of the outer forming wall has a shape that conforms to a shape of the lower edge of the upper ring, wherein the lower ledge supports the upper ring on the tower, wherein the upper ring is configured to be removed from the tower after the one or more layers of composite material are wrapped around the outer forming wall and at least a portion of the upper ring, and wherein the component formed of the one or more layers of composite material is configured to be removed from the tower after the upper ring is removed from the tower;a curing device comprising a pedestal that supports the mandrel assembly, wherein the curing device is configured to cure the one or more wrapped layers of the composite material wrapped around the mandrel assembly to form the component; andan extractor configured to extract the upper ring from the tower after the curing device cures the one or more wrapped layers, and wherein the extractor is further configured to extract the component from the mandrel assembly after the upper ring has been extracted from the tower. 13. The system of claim 12, wherein the upper ring comprises at least one seal that that sealingly engages a portion of the outer forming wall. 14. The system of claim 12, wherein the upper ring extends outwardly away from the outer forming wall. 15. The system of claim 12, wherein the upper ring and the tower are shaped to form an hourglass cross-sectional shape in the component. 16. The system of claim 12, wherein the mandrel assembly further comprises an internal liner jacket secured to an internal portion of the outer forming wall around the central passage, wherein a duct is defined between the internal liner jacket and the outer forming wall, wherein the duct is configured to receive curing gas from the curing device. 17. The system of claim 12, wherein the upper ring includes a thin portion that connects to a thick portion. 18. The system of claim 12, wherein at least a portion of an interior surface of the upper ring includes a plurality of structural supports defining a plurality of thermal features defining a lattice pattern. 19. The system of claim 12, wherein the mandrel assembly further comprises one or more fairing members removably secured to a lower portion of the tower, wherein the one or more fairing members are configured to be supported on the upper ledge of the base, wherein the one or more fairing members are spaced apart from the upper ring when the upper ring and the one or more fairing members are secured to the tower, wherein each of the one or more fairing members comprises at least one seal that sealingly engages a portion of the outer forming wall when the one or more fairing members are secured to the tower. 20. A method for forming a component, the method comprising: removably securing an upper ring to an upper portion of a tower including a base having an upper ledge that extends around the tower; and an outer forming wall extending upwardly from the upper ledge and connected to a beveled upper rim, wherein the outer forming wall surrounds a central passage, wherein the outer forming wall comprises an upper recess defined by a lower ledge that wraps around the outer forming wall, wherein the lower ledge has a variable depth around the outer forming wall, wherein the upper ring includes an upper rim secured to a lower edge through a variable depth wall, wherein the upper ring is configured to be positioned within the upper recess that wraps around the outer forming wall, wherein the lower ledge of the outer forming wall has a shape that confirms to a shape of the lower edge of the upper ring, wherein the lower ledge supports the upper ring on the tower;wrapping one or more layers of material around the outer forming wall and at least a portion of the upper ring;curing the one or more layers wrapped around the mandrel assembly to form the component;removing the upper ring from the tower after the curing operation; andremoving the component from the tower after the upper ring has been removed from the tower. 21. The method of claim 20, further comprising: removably securing one or more fairing members to a lower portion of the tower before the wrapping operation, wherein the wrapping operation further comprises wrapping a portion of the one or more layers of material around the tower proximate to the one or more fairing members to form a lower flange; andremoving the one or more fairing members from the tower after the curing operation.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (3)
Chiou, Song; Yu, Jia; Hubert, Claude; Layland, Michael, Acoustic barrel for aircraft engine nacelle including crack and delamination stoppers.
Gregory A. Allen ; Jesse C. Dinkel ; John S. Sentz, Method for fabricating an advanced composite aerostructure article having an integral co-cured fly away hollow mandrel.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.