The present invention provides a wind turbine blade of hybrid material composition, wherein the blade comprises a structural box mainly made of a epoxy based prepreg and a shell manufactured by resin infusion technique using polyester or vinylester, and the box and the shell are bonded using an adhe
The present invention provides a wind turbine blade of hybrid material composition, wherein the blade comprises a structural box mainly made of a epoxy based prepreg and a shell manufactured by resin infusion technique using polyester or vinylester, and the box and the shell are bonded using an adhesive that is not a polyester, a vinylester and an epoxy. The present invention also provides a method for producing such a blade.
대표청구항▼
1. A wind turbine blade of hybrid material composition, wherein the blade comprises a structural box and a shell each molded as independent parts and then bonded together to form the blade, the shell comprising an upper shell part and a lower shell part having inner layers respectively between which
1. A wind turbine blade of hybrid material composition, wherein the blade comprises a structural box and a shell each molded as independent parts and then bonded together to form the blade, the shell comprising an upper shell part and a lower shell part having inner layers respectively between which the structural box is adhesively bonded to form the blade,the shell is manufactured by resin infusion technique using polyester or vinylester,wherein the structural box includes inner and outer cover layers and between the cover layers, upper and lower cap layers and a sandwich core material serving as sidewalls between the upper and lower cap layers,the inner and outer cover layers are epoxy and multidirectional fiber prepreg,and the structural box is, by weight, made up of more than 75% materials selected from epoxy carbon fiber unidirectional prepreg, epoxy fiberglass unidirectional prepreg, and epoxy basalt fiber unidirectional prepreg,the box and the shell are bonded using an adhesive that is methyl methacrylate or polyurethane. 2. The blade of claim 1, wherein the cap layers are epoxy and unidirectional fiber prepreg. 3. The blade of claim 1, wherein the resin infused shell comprises a sandwich core between inner and outer layers of multiaxial fiber cloth. 4. The blade of claim 3, wherein the sandwich core of the shell is PVC foam. 5. The blade of claim 3, wherein the upper and lower shell parts include at least one of leading and trailing edge flanges bonded by the adhesive to secure the upper shell part to the lower shell part. 6. The blade of claim 1, wherein the adhesive is methyl methacrylate. 7. The blade of claim 1, wherein the resin is a dicyclopentadiene resin. 8. The blade of claim 1, wherein the inner and outer cover layers are epoxy and multidirectional fiber prepreg;the cap layers are epoxy and unidirectional fiber prepreg; andwherein the resin infused shell comprises a sandwich core between inner and outer layers of multiaxial fiber cloth. 9. The blade of claim 8, wherein the adhesive is methyl methacrylate and the resin is a dicyclopentadiene resin. 10. The blade of claim 8, wherein the upper and lower shell parts include at least one of leading and trailing edge flanges bonded by the adhesive to secure the upper shell part to the lower shell part. 11. A method of producing a wind turbine blade comprising steps of: molding as an independent part a structural box which is, by weight, made up of more than 75% materials selected from epoxy carbon fiber unidirectional prepreg, epoxy fiberglass unidirectional prepreg, and epoxy basalt fiber unidirectional prepreg;the structural box includes inner and outer cover layers and between the cover layers, upper and lower cap layers and a sandwich core material serving as sidewalls between the upper and lower cap layers,the inner and outer cover layers are epoxy and multidirectional fiber prepreg,molding as an independent part a shell comprising an upper shell part having an inner layer and a lower shell part having an inner layer, each shell part being manufactured by resin infusion technique using polyester or vinylester;applying an adhesive that is methyl methacrylate or polyurethane to at least one of the outer surfaces of the structural box or the inner layers of the shell parts and adhesively bonding the structural box between the inner layers of the upper and lower shell parts to form the blade. 12. The method of claim 11, wherein the forming of the structural box uses a semirigid inflatable bladder. 13. The method of claim 11, wherein a mould for forming the shell is coated with gelcoat.
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이 특허에 인용된 특허 (6)
Gau, Lutz-Reiner, Method for assembling a rotor blade for a wind turbine.
Hancock, Mark; Hedges, Andrew; Vronsky, Tomas, Method of manufacturing a spar for a wind turbine from elements having end portions extending transversely to an intermediate portion.
Hancock, Mark; Hedges, Andrew; Vronsky, Tomas, Method of manufacturing a spar for a wind turbine from elements having geometrically well-defined joint surface portions.
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