公开(公告)号：US09573325B2

公开(公告)日：2017-02-21

申请号：US14369948

申请日：2012-12-20

Applicant: Vestas Wind Systems A/S

Inventor： Olav Davis ,  Mohana Krishna Dhamodharan ,  Damien Rajasingam ,  Glenn Thomas

IPC: B32B41/00 ,  B29C70/34 ,  B29C33/30 ,  B29D99/00 ,  B29L31/08 ,  B29C33/00

CPC classification number: B29C70/345 ,  B29C33/005 ,  B29C33/30 ,  B29C33/301 ,  B29C33/303 ,  B29C70/34 ,  B29D99/0025 ,  B29L2031/08 ,  B29L2031/085 ,  Y02P70/523

Abstract: A mold shell for forming a wind turbine blade (20) comprises at least two mold shell sections (401, 402) each having a mold surface with a recessed portion (419, 420) adjoining the connecting edges (407, 408) between the mold shell sections. A bridging sheet (421) is accommodated in the recessed portions (419, 420) of the mold shell sections (401, 402). The bridging sheet (421) fills up the recessed portions.

Abstract translation: 用于形成风力涡轮机叶片（20）的模具壳体包括至少两个模具壳体部分（401,402），每个模具壳体部分具有模具表面，所述模具表面具有与模具之间的连接边缘（407,408）相邻的凹部（419,420） 壳部分。 桥接片（421）容纳在模具壳部（401,402）的凹部（419,420）中。 桥接片（421）填充凹部。

公开(公告)号：US20150308415A1

公开(公告)日：2015-10-29

申请号：US14646162

申请日：2013-11-20

Applicant: VESTAS WIND SYSTEMS A/S

Inventor： Damien Rajasingam ,  Toby Collard

IPC: F03D11/00 ,  B29C65/48 ,  B29C65/78 ,  F03D1/06 ,  B29C33/12

CPC classification number: F03D80/30 ,  B29C33/005 ,  B29C33/12 ,  B29C65/48 ,  B29C65/483 ,  B29C65/78 ,  B29C65/7802 ,  B29C65/7841 ,  B29C66/301 ,  B29C66/543 ,  B29C66/721 ,  B29C66/7212 ,  B29C66/72141 ,  B29C66/73141 ,  B29C66/742 ,  B29C66/81423 ,  B29K2995/0005 ,  B29L2031/085 ,  F03D1/0675 ,  F05B2230/60 ,  Y02E10/721 ,  Y02P70/523 ,  B29K2309/08

Abstract: A method of making a wind turbine blade (10) having a metallic lightning receptor (110) is described. The method comprises configuring a wind turbine blade (10) mould assembly (100) such that a clearance region (120) is defined between a mould surface (116) of at least one mould half (112, 114) and a majority of a metallic lightning receptor component (110) when the mould assembly (100) is closed, such that contact between that mould half (112, 114) and the metallic lightning receptor component (110) is substantially avoided. In certain embodiments of the invention, one or both mould halves (112, 114) are truncated such that the metallic lightning receptor component (110) projects from the mould (100) when the mould (100) is closed.

Abstract translation: 描述了制造具有金属闪电接收器（110）的风力涡轮机叶片（10）的方法。 该方法包括配置风力涡轮机叶片（10）模具组件（100），使得间隙区域（120）被限定在至少一个半模（112,114）的模具表面（116）和大多数金属 当模具组件（100）关闭时，闪电接收器部件（110），使得基本上避免了该半模（112,114）与金属闪电接收器部件（110）之间的接触。 在本发明的某些实施例中，一个或两个半模（112,114）被截断，使得当模具（100）关闭时，金属闪电接收器部件（110）从模具（100）突出。

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.

公开(公告)号：US20160354984A1

公开(公告)日：2016-12-08

申请号：US14678033

申请日：2013-09-30

Applicant: VESTAS WIND SYSTEMS A/S

Inventor： Andrew Hedges ,  Damien Rajasingam

IPC: B29C70/38 ,  F03D1/06 ,  B29D99/00

CPC classification number: B29C70/382 ,  B29C70/38 ,  B29D99/0025 ,  B29L2031/085 ,  F03D1/0675 ,  F05B2230/00 ,  F05B2230/31 ,  Y02E10/721 ,  Y02P70/523

Abstract: A production system for a wind turbine component is described. The system includes an elongate mould assembly extending in a longitudinal direction, the mould assembly comprising a mould surface and having a width that varies in the longitudinal direction. First and second tracks are defined respectively on opposite longitudinal sides of the mould surface. The perpendicular distance between the respective tracks varies along the length of the track. A transport assembly is moveable relative the mould assembly in the longitudinal direction. The transport assembly includes a pair of side supports arranged to move along the respective tracks, and a gantry supported above the mould assembly by the side supports. The gantry extends transverse to the longitudinal direction. The transport assembly is configured such that the side supports move relative to one another in a direction transverse to the longitudinal direction in accordance with the varying distance between the tracks as the transport assembly moves in the longitudinal direction.

Abstract translation: 描述了用于风力涡轮机部件的生产系统。 该系统包括沿纵向方向延伸的细长模具组件，模具组件包括模具表面并且具有在纵向方向上变化的宽度。 分别在模具表面的相对的纵向侧面上限定第一和第二轨道。 各个轨道之间的垂直距离沿轨道的长度变化。 运输组件可相对于模具组件在纵向方向上移动。 运输组件包括一对侧支撑件，其布置成沿着相应的轨道移动，以及通过侧支撑件支撑在模具组件上方的龙门架。 龙门架横向于纵向延伸。 输送组件被构造成使得侧支撑件在横向于纵向的方向上相对于彼此移动，这是随着输送组件沿纵向方向移动而在轨道之间的变化距离。

公开(公告)号：US09944024B2

公开(公告)日：2018-04-17

申请号：US14678033

申请日：2013-09-30

Applicant: Vestas Wind Systems A/S

Inventor： Andrew Hedges ,  Damien Rajasingam

IPC: B29C70/38 ,  B29C31/08 ,  B29D99/00 ,  F03D1/06 ,  B29L31/08

CPC classification number: B29C70/382 ,  B29C70/38 ,  B29D99/0025 ,  B29L2031/085 ,  F03D1/0675 ,  F05B2230/00 ,  F05B2230/31 ,  Y02E10/721 ,  Y02P70/523

Abstract: A production system for a wind turbine component is described. The system includes an elongate mold assembly extending in a longitudinal direction, the mold assembly comprising a mold surface and having a width that varies in the longitudinal direction. First and second tracks are defined respectively on opposite longitudinal sides of the mold surface. The perpendicular distance between the respective tracks varies along the length of the track. A transport assembly is moveable relative the mold assembly in the longitudinal direction. The transport assembly includes a pair of side supports arranged to move along the respective tracks, and a gantry supported above the mold assembly by the side supports. The gantry extends transverse to the longitudinal direction. The transport assembly is configured such that the side supports move relative to one another in a direction transverse to the longitudinal direction in accordance with the varying distance between the tracks as the transport assembly moves in the longitudinal direction.

公开(公告)号：US20160193752A1

公开(公告)日：2016-07-07

申请号：US14909274

申请日：2014-08-01

Applicant: Vestas Wind Systems A/S

Inventor： Damien Rajasingam ,  Diego Andres Pino ,  Olav Davis

IPC: B29C33/38 ,  F03D1/06 ,  B29D99/00 ,  B29C70/34 ,  B29C33/02

CPC classification number: B29C33/3828 ,  B29C33/02 ,  B29C70/34 ,  B29D99/0025 ,  B29K2105/0872 ,  B29K2307/04 ,  B29K2905/02 ,  B29K2995/0013 ,  B29L2031/085 ,  F03D1/0675 ,  Y02E10/721 ,  Y02P70/523

Abstract: A mould (30) for a wind turbine component (10) is described. The component comprises a plurality of elements having different respective heat capacities. The mould comprises an inner mould layer (38) defining a mould surface (40) for supporting the plurality of elements, heating means (44) disposed beneath the mould surface, and a heat distribution layer (46) adjacent to the heating means. The mould has one or more first regions (34) configured to support elements of the component having relatively high heat capacity, one or more second regions (36) configured to support elements of the component having relatively low heat capacity, and one or more transition regions (35) defined between the first and second regions. The heat distribution layer in one or more transition regions of the mould is configured to enhance heat transfer within the distribution layer to one or more first regions of the mould.

Abstract translation: 描述了一种用于风力涡轮机部件（10）的模具（30）。 该组件包括具有不同相应热容量的多个元件。 模具包括限定用于支撑多个元件的模具表面（40）的内模层（38），设置在模具表面下方的加热装置（44）和与加热装置相邻的热分布层（46）。 模具具有一个或多个第一区域（34），其被配置为支撑具有相对高的热容量的部件的元件，一个或多个第二区域（36），其构造成支撑具有相对低热容量的部件的元件，以及一个或多个转变 限定在第一和第二区域之间的区域（35）。 模具的一个或多个过渡区域中的热分布层被配置为增强分布层内的热传递到模具的一个或多个第一区域。

公开(公告)号：US20140338815A1

公开(公告)日：2014-11-20

申请号：US14369948

申请日：2012-12-20

Applicant: Vestas Wind Systems A/S

Inventor： Olav Davis ,  Mohana Krishna Dhamodharan ,  Damien Rajasingam ,  Glenn Thomas

IPC: B29C70/34 ,  B29D99/00 ,  B29C33/30

CPC classification number: B29C70/345 ,  B29C33/005 ,  B29C33/30 ,  B29C33/301 ,  B29C33/303 ,  B29C70/34 ,  B29D99/0025 ,  B29L2031/08 ,  B29L2031/085 ,  Y02P70/523

Abstract: A mould shell for forming a wind turbine blade (20) comprises at least two mould shell sections (401, 402) each having a mould surface with a recessed portion (419, 420) adjoining the connecting edges (407, 408) between the mould shell sections. A bridging sheet (421) is accommodated in the recessed portions (419, 420) of the mould shell sections (401, 402). The bridging sheet (421) fills up the recessed portions.

Abstract translation: 用于形成风力涡轮机叶片（20）的模具壳体包括至少两个模具壳体部分（401,402），每个模具壳体部分具有模具表面，所述模具表面具有与模具之间的连接边缘（407,408）相邻的凹部（419,420） 壳部分。 桥接片（421）容纳在模具壳部（401,402）的凹部（419,420）中。 桥接片（421）填充凹部。

公开(公告)号：US10245761B2

公开(公告)日：2019-04-02

申请号：US14909274

申请日：2014-08-01

Applicant: Vestas Wind Systems A/S

Inventor： Damien Rajasingam ,  Diego Andres Pino ,  Olav Davis

IPC: B29C33/38 ,  B29C70/34 ,  B29C70/42 ,  B29C33/02 ,  B29D99/00 ,  F03D1/06 ,  B29L31/08 ,  B29K105/08 ,  B29K307/04

Abstract: A mold (30) for a wind turbine component (10) is described. The component comprises a plurality of elements having different respective heat capacities. The mold comprises an inner mold layer (38) defining a mold surface (40) for supporting the plurality of elements, heating means (44) disposed beneath the mold surface, and a heat distribution layer (46) adjacent to the heating means. The mold has one or more first regions (34) configured to support elements of the component having relatively high heat capacity, one or more second regions (36) configured to support elements of the component having relatively low heat capacity, and one or more transition regions (35) defined between the first and second regions. The heat distribution layer in one or more transition regions of the mold is configured to enhance heat transfer within the distribution layer to one or more first regions of the mold.

公开(公告)号：US09932968B2

公开(公告)日：2018-04-03

申请号：US14646162

申请日：2013-11-20

Applicant: Vestas Wind Systems A/S

Inventor： Damien Rajasingam ,  Toby Collard

IPC: F03D11/00 ,  B29C33/12 ,  B29C65/48 ,  B29C65/78 ,  F03D1/06 ,  B29C33/00 ,  B29C65/00 ,  F03D80/30 ,  B29L31/08

CPC classification number: F03D80/30 ,  B29C33/005 ,  B29C33/12 ,  B29C65/48 ,  B29C65/483 ,  B29C65/78 ,  B29C65/7802 ,  B29C65/7841 ,  B29C66/301 ,  B29C66/543 ,  B29C66/721 ,  B29C66/7212 ,  B29C66/72141 ,  B29C66/73141 ,  B29C66/742 ,  B29C66/81423 ,  B29K2995/0005 ,  B29L2031/085 ,  F03D1/0675 ,  F05B2230/60 ,  Y02E10/721 ,  Y02P70/523 ,  B29K2309/08

Abstract: A method of making a wind turbine blade (10) having a metallic lightning receptor (110) is described. The method comprises configuring a wind turbine blade (10) mold assembly (100) such that a clearance region (120) is defined between a mold surface (116) of at least one mold half (112, 114) and a majority of a metallic lightning receptor component (110) when the mold assembly (100) is closed, such that contact between that mold half (112, 114) and the metallic lightning receptor component (110) is substantially avoided. In certain embodiments of the invention, one or both mold halves (112, 114) are truncated such that the metallic lightning receptor component (110) projects from the mold (100) when the mold (100) is closed.

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

IPC: B29C33/02 ,  B29D99/00 ,  F03D1/06

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。