Wind turbine component having an electrical line embedded in a laminate and method for making the same
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0492555
(2012-06-08)
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등록번호 |
US-8622710
(2014-01-07)
|
우선권정보 |
DE-10 2011 105 228 (2011-06-10) |
발명자
/ 주소 |
- Rindt, Philipp
- Austinat, Dirk
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
3 인용 특허 :
2 |
초록
▼
A wind turbine component has a laminate of fibrous material and plastic and an electrical line embedded in the laminate, wherein a profile is arranged on a lateral surface of the electrical line, the profile counteracting the formation of a hollow space or plastic nest between the lateral surface an
A wind turbine component has a laminate of fibrous material and plastic and an electrical line embedded in the laminate, wherein a profile is arranged on a lateral surface of the electrical line, the profile counteracting the formation of a hollow space or plastic nest between the lateral surface and a fibrous material layer which covers an upper side of the electrical line during the manufacture of the laminate.
대표청구항
▼
1. A wind turbine component comprising: a laminate of fibrous material and plastic;an electrical cable having a lateral surface, an upper side and a lower side and being embedded in said laminate;said laminate including a fibrous material cover layer and a plurality of lower fibrous material layers;
1. A wind turbine component comprising: a laminate of fibrous material and plastic;an electrical cable having a lateral surface, an upper side and a lower side and being embedded in said laminate;said laminate including a fibrous material cover layer and a plurality of lower fibrous material layers;said plurality of lower fibrous material layers including a topmost lower fibrous material layer disposed beneath said cover layer;said lower side of the electrical cable resting on the topmost lower fibrous material layer;said cover layer being arranged so as to cover said upper side of said electrical cable; and,a profile arranged on said lateral surface and configured to counteract a formation of a hollow space or a plastic nest between said lateral surface and said fibrous material cover layer during the manufacture of said laminate; and,said cover layer extending laterally beyond said profile and resting against said topmost lower fibrous material layer. 2. The wind turbine component of claim 1, wherein: said topmost lower fibrous material layer is an essentially planar material layer in an area of said electrical cable; and,said electrical cable has a lower side which rests against said essentially planar material layer. 3. The wind turbine component of claim 1, wherein said profile has a cross-section which is wedge-shaped. 4. The wind turbine component of claim 1, wherein said profile has a cross-section which is ramp-shaped. 5. The wind turbine component of claim 1, wherein said profile is made of a flexible material. 6. The wind turbine component of claim 1, wherein said profile is made of a foamed material. 7. The wind turbine component of claim 1, wherein: said electrical cable has a height (h);said profile has a height (a); and,said height (a) of said profile is at least 50% of said height (h) of said electrical cable. 8. The wind turbine component of claim 1, wherein: said electrical cable has a circular cross-section and a first curvature radius;said profile has a cross-section having a concave section with a second curvature radius;said concave section of said profile is arranged so as to border on said lateral surface of said electrical cable and,said second curvature radius of said concave section of said profile corresponds to said first curvature radius of said electrical cable. 9. The wind turbine component of claim 1, wherein: said electrical cable has a rectangular cross-section; and,said profile has a triangular cross-section. 10. The wind turbine component of claim 1, wherein said electrical cable has a further lateral surface arranged adjacent to said lateral surface, said wind turbine component further comprising: a further profile arranged on said further lateral surface; and,said further profile being configured to counteract a formation of a hollow space or a plastic nest between said further lateral surface and said fibrous material cover layer during the manufacture of said laminate. 11. The wind turbine component of claim 1, wherein said electrical cable is a first electrical cable and said profile is a first profile, said wind turbine component further comprising: at least a second electrical cable;said second profile arranged between said first electrical cable and said second electrical cable; and,said second profile being configured to, during the manufacture of said laminate, counteract a formation of a hollow space or plastic nest between said first electrical cable and said second electrical cable and/or between one of said first and second electrical cables and said fibrous material cover layer. 12. The wind turbine component of claim 11, wherein said second profile has a cross-section having two concavely curved side edges lying opposite one another. 13. The wind turbine component of claim 1, wherein said wind turbine component is one of a rotor blade and a part of a rotor blade. 14. The wind turbine component of claim 1, wherein said wind turbine component was manufactured in a vacuum injection process. 15. A method for making a wind turbine component comprising the steps of: inserting a plurality of fibrous material layers including a topmost lower fibrous material layer into a mold;placing an electrical cable having a lateral surface onto the topmost lower fibrous material layer;placing a profile next to the lateral surface of the electrical cable on the topmost lower fibrous material layer on which the electrical cable was placed to counteract a formation of a hollow space or a plastic nest between said lateral surface and said topmost lower fibrous material layer during the manufacture of said laminate;applying a cover fibrous material layer which covers an upper side of the electrical cable and which extends laterally beyond said profile and rests against said topmost lower fibrous material layer;injecting a plastic in a vacuum injection process;curing the plastic; and,removing the wind turbine component from the mold.
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Richers, Tilman; Zeller, Lenz Simon; Danekas, Kai, Device and method for manufacturing a component for rotor blade lightning protection.
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Chacon, Joseph Lawrence; Hardison, Richard Allen, Lightning protection system for wind turbine rotor blades.
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Akhtar, Afroz; Kavala, Venkateswara Rao; Maiti, Parnasree, System and method for securing a conductive cable within a wind turbine rotor blade.
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