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公开(公告)号:US20230256689A1
公开(公告)日:2023-08-17
申请号:US17747070
申请日:2022-05-18
Applicant: LM WP PATENT HOLDING A/S
Inventor: Steven Hauge PEDERSEN , Kim Ansholm RASMUSSEN
CPC classification number: B29C70/443 , B29C33/308 , B29C70/541 , B29D99/0003 , B29C70/026 , B29C70/028 , B29C70/543 , Y02P70/50 , B29K2105/08
Abstract: A shear web mould system for manufacturing a wind turbine component in form of an I-shaped shear web having a web body and a first web foot flange at a first end of the web body and a second web foot flange at a second end of the web body is described. The system comprises a central moulding portion for forming at least a part of the web body, a first moulding plate for forming at least a part of the first web foot flange, and a second moulding plate for forming at least a part of the second web foot flange. The angles of the first moulding plate and the second moulding plate relative to the central moulding portion are adjustable.
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公开(公告)号:US20230175474A1
公开(公告)日:2023-06-08
申请号:US17540292
申请日:2021-12-02
Applicant: LM WP PATENT HOLDING A/S
Inventor: Martin DAHL , Lars NIELSEN
CPC classification number: F03D1/0675 , B29C70/12 , B29C70/345 , B29K2309/08
Abstract: A rope for reinforcing joints in fibre-reinforced composite structures is described. The rope comprises chopped reinforcement fibres and retaining means for retaining the chopped fibres in a rope-shape. Further, composite structures utilising such ropes as filler elements are described as well as an apparatus for manufacturing such ropes.
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公开(公告)号:US11428202B2
公开(公告)日:2022-08-30
申请号:US15751009
申请日:2016-08-12
Applicant: LM WP PATENT HOLDING A/S
Inventor: Flemming Ejlersen , René Van Den Berg , David Roberts , Eddy Keesmekers
Abstract: A wind turbine blade (10) for a horizontal axis wind turbine (2), wherein the wind turbine blade (10) extends in a longitudinal direction parallel to a longitudinal axis and having a tip end (14) and a root end (16), and wherein the wind turbine blade (2) further includes a shell body is disclosed. The wind turbine blade (10) further includes a root end flange (55, 155, 255) at the root end (16) of the blade (10) and which includes a ring-shaped body that extends circumferentially along the entire root end (16), the root end flange (55, 155, 255) preferably made from a metal, such as stainless steel. The root end flange (55, 155, 255) includes an inwardly extending protrusion (70, 170) with a distal plate part (72, 172, 272, 372, 472, 572, 672, 772) arranged in a distance from the ring body.
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公开(公告)号:US11241847B2
公开(公告)日:2022-02-08
申请号:US16144268
申请日:2018-09-27
Applicant: LM WP PATENT HOLDING A/S
IPC: B29C70/86 , B29C70/54 , B29C70/38 , B29C33/12 , B29D99/00 , F03D1/06 , B32B38/18 , B32B38/00 , B29C70/56 , B29L31/08 , B29K105/08
Abstract: A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.
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公开(公告)号:US11203167B2
公开(公告)日:2021-12-21
申请号:US15033944
申请日:2014-11-05
Applicant: LM WP PATENT HOLDING A/S
Inventor: Jesper Hasselbalch Garm
IPC: B29C65/00 , B29C65/50 , F03D1/06 , B29C70/30 , B29D99/00 , F03D13/10 , B29C65/48 , B29L31/08 , B29C65/52
Abstract: A method of manufacturing a wind turbine blade is described, the blade being formed from at least a pair of blade shells being joined together. For at least a portion of the wind turbine blade, the blade shells are joined by an overlamination applied between the edges of the blade shells, thereby substantially reducing or eliminating the need for a structural adhesive to join the blade shells, particularly in the area of the leading edge of the blade or the root region of the blade trailing edge. The overlamination can be formed from the same material as the blade shells themselves, thereby minimising the possibility of structural faults or cracks due to differences in materials or stiffness levels at the interface between the blade shells.
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公开(公告)号:US10989172B2
公开(公告)日:2021-04-27
申请号:US15509636
申请日:2015-09-10
Applicant: LM WP PATENT HOLDING A/S
Inventor: Peter Bæk , Michael Klitgaard , Claus Byskov
Abstract: A method for the determination of the deflection of a wind turbine blade is provided. A distance between at least one root location towards a root end of the wind turbine blade and at least one tip location towards a tip end of the wind turbine blade is measured. A blade deflection profile is then calculated based on the measured distance between the root and tip locations and a known modal profile of the wind turbine blade.
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公开(公告)号:US10953611B2
公开(公告)日:2021-03-23
申请号:US16307189
申请日:2017-06-13
Applicant: LM WP PATENT HOLDING A/S
Inventor: Kristian Lehmann Madsen
Abstract: A blade mould and a method for manufacturing a blade shell part of a wind turbine blade is disclosed. The blade mould comprises a first mould frame; a mould shell supported by the first mould frame and provided with a moulding surface that defines an outer shape of the blade shell part, wherein the mould shell has a longitudinal direction and comprises a root end mould part at a first end thereof; and a first deformation device for deforming the root end mould part of the mould shell. The method comprises arranging reinforcement material on the moulding surface of the root end mould part; deforming the root end mould part to a receiving configuration; inserting the root end insert in the root end mould part; and bringing the root end mould part to a moulding configuration.
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公开(公告)号:US10850453B2
公开(公告)日:2020-12-01
申请号:US14903868
申请日:2014-07-22
Applicant: LM WP PATENT HOLDING A/S
Inventor: Michael Scholearth Koefoed , Flemming Kiel Sorensen , Kim Ansholm Rasmussen , Klavs Jespersen , Morten Olesen
IPC: B29C70/88 , B29C70/02 , B32B5/26 , B29D99/00 , B29C70/20 , F03D1/06 , F03D80/30 , B29C70/46 , B29K105/08 , B29K307/04 , B29K309/08 , B29L31/08
Abstract: A hybrid material mat for use in the manufacture of fibre-composite articles, in particular parts for wind turbine blades, is described. The mat comprises a plurality of glass fibre rovings provided on top of a relatively thin planar substrate of carbon fibres. Such a hybrid mat construction provides for an improvement in the structural properties of a component manufactured using the mat, as well as allowing for ease of handling and manufacturing of both the mat itself and the component.
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公开(公告)号:US10746158B2
公开(公告)日:2020-08-18
申请号:US15483198
申请日:2017-04-10
Applicant: LM WP PATENT HOLDING A/S
Inventor: Kore Bjarke Berg
IPC: F03D1/06
Abstract: A wind turbine blade (10) for a rotor of a wind turbine (2) having a substantially horizontal rotor shaft is disclosed. The rotor comprises a hub (8), from which the blade (10) extends substantially in a radial direction when mounted to the hub (8), the blade having a longitudinal direction (r) with a tip end (16) and a root end (14) and a transverse direction. The wind turbine blade comprises a blade shell defining a profiled contour of the blade and having an inner shell wall, wherein the blade is provided with a bulkhead mounted to the inner shell wall at the root end of the blade via an attachment part, the bulkhead comprising a first side and a second side. The attachment part is integrally formed with or connected to the bulkhead, and the attachment part comprises an elastomeric material.
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公开(公告)号:US10723089B2
公开(公告)日:2020-07-28
申请号:US16064818
申请日:2016-12-19
Applicant: LM WP PATENT HOLDING A/S
Inventor: Lars Nielsen , Klavs Jespersen
IPC: B29C70/54 , B29C70/88 , B29C70/44 , F03D80/30 , B29C70/34 , F03D1/06 , B29L31/08 , B29C70/48 , B29K307/04
Abstract: A method of manufacturing a composite laminate structure of a wind turbine blade part is performed by resin transfer moulding. The fibre-reinforcement material is impregnated with liquid resin in a mould cavity which includes a rigid mould part having a mould surface defining a surface of the wind turbine blade part. The method includes alternately stacking on the rigid mould part: i) a number of fibre-reinforcement layers including electrically conductive fibres and ii) a flow strip layer in form of a layer of flow strips having a strip width and which are arranged so as to form voids having a void width between two juxtaposed strips. The method includes sealing a second mould part against the rigid mould part in order to form the mould cavity, optionally evacuating the mould cavity, supplying a resin to the mould cavity, and curing the resin to form the composite laminate structure.
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