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1.发明申请METHOD AND APPARATUS FOR MANUFACTURING A WIND TURBINE BLADE COMPONENT WITH UNIFORM TEMPERATURE CURING 有权用于制造具有均匀温度固化的风力涡轮机叶片组件的方法和装置公开(公告)号:US20140327178A1
公开(公告)日:2014-11-06
申请号:US14369939
申请日:2012-12-14
Applicant: Vestas Wind Systems A/S
Inventor: Olav Davis , Damien Rajasingam , Adam Fisher , Andy Limmack , Tomasz Garstka
CPC classification number: B29C35/02 , B29C33/02 , B29C33/04 , B29C43/3642 , B29C70/44 , B29C2043/3649 , B29C2791/002 , B29D99/0025 , B29L2009/00 , B29L2031/08 , B29L2031/085 , F03D1/0675 , Y02E10/721 , Y02P70/523
Abstract: A molding apparatus for manufacturing a wind turbine blade component includes a main mold body (30) and a flexible bladder (38). The main mold body includes a shape defining surface (32) for receiving composite material forming the blade component and a heat reservoir (40) for heating the blade component during curing. The flexible bladder overlays and conforms to the shape of the blade component and is configured to receive heated liquid for heating the blade component during curing. One or both of the main mold body and the flexible bladder is divided into a plurality of zones (58, 66) that are independently controlled by a controller (70) to maintain a generally uniform temperature of the blade component at each zone.
Abstract translation: 用于制造风力涡轮机叶片部件的成型装置包括主模体(30)和柔性气囊(38)。 主模体包括用于接收形成刀片部件的复合材料的形状限定表面(32)和用于在固化期间加热刀片部件的储热器(40)。 柔性气囊覆盖并符合叶片部件的形状,并且构造成在固化期间接收用于加热叶片部件的加热液体。 主模体和柔性囊中的一个或两个被分成多个区域(58,66),这些区域由控制器(70)独立地控制,以在每个区域保持叶片部件的大致均匀的温度。
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公开(公告)号:US09782918B2
公开(公告)日:2017-10-10
申请号:US14369939
申请日:2012-12-14
Applicant: Vestas Wind Systems A/S
Inventor: Olav Davis , Damien Rajasingam , Adam Fisher , Andy Limmack , Tomasz Garstka
IPC: B29C33/02 , B29C35/02 , B29C70/44 , B29C33/04 , B29C43/36 , B29D99/00 , F03D1/06 , B29L31/08 , B29L9/00
CPC classification number: B29C35/02 , B29C33/02 , B29C33/04 , B29C43/3642 , B29C70/44 , B29C2043/3649 , B29C2791/002 , B29D99/0025 , B29L2009/00 , B29L2031/08 , B29L2031/085 , F03D1/0675 , Y02E10/721 , Y02P70/523
Abstract: A molding apparatus for manufacturing a wind turbine blade component includes a main mold body (30) and a flexible bladder (38). The main mold body includes a shape defining surface (32) for receiving composite material forming the blade component and a heat reservoir (40) for heating the blade component during curing. The flexible bladder overlays and conforms to the shape of the blade component and is configured to receive heated liquid for heating the blade component during curing. One or both of the main mold body and the flexible bladder is divided into a plurality of zones (58, 66) that are independently controlled by a controller (70) to maintain a generally uniform temperature of the blade component at each zone.
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