The present invention concerns a bearing structure for a composite structure rotor blade having fiber strands which extend along the length of the rotor blade. Prefabricated, stiff components are provided in the composite structure. The invention further concerns a process for the production of a sh
The present invention concerns a bearing structure for a composite structure rotor blade having fiber strands which extend along the length of the rotor blade. Prefabricated, stiff components are provided in the composite structure. The invention further concerns a process for the production of a shaped body, in particular a rotor blade, of a fiber composite structure, comprising the following steps: producing shells forming the outer contour of the shaped body, producing bearing structures of fiber strands of predetermined length which are impregnated with a hardening composite material, and transporting the bearing structure into the shells. Therefore the object of the present invention is to develop a process of the above-defined kind in such a way that the exothermic reaction is restricted and the risk of undulations is reduced.
대표청구항▼
The invention claimed is: 1. A wind power installation, comprising: a wind turbine configured to generate energy and including a rotor blade, the rotor blade including a fiber composite structure that forms the rotor blade; a bearing structure proximate to an outer surface of the rotor blade, the b
The invention claimed is: 1. A wind power installation, comprising: a wind turbine configured to generate energy and including a rotor blade, the rotor blade including a fiber composite structure that forms the rotor blade; a bearing structure proximate to an outer surface of the rotor blade, the bearing structure having fiber strands of a predetermined length; a hardened composite material incorporated into the fiber strands; and a plurality of prefabricated, flexurally stiff components that are integrated with the bearing structure. 2. The wind installation of claim 1, wherein the bearing structure is at a load-bearing position in the fiber composite structure. 3. A process for the production of a rotor blade of a wind power installation, the process comprising: producing wind installation rotor blade shells forming an outer contour of a shaped body; producing a bearing structure of fiber strands and prefabricated flexurally stiff components, the fiber strands impregnated with a hardening composite material; placing the bearing structure into the shells; and encapsulating the bearing structure in an epoxy resin to form a rotor blade having the integrated bearing structure of fiber strands and prefabricated stiff components. 4. A process according to claim 3 characterized in that the prefabricated components are produced from fiber composite materials. 5. A process according to claim 3 characterized in that the prefabricated components have predetermined lengthes, wherein the lengths are dependent on the position of installation of the components in the shaped body. 6. A process according to claim 5 characterized in that prefabricated components are positioned in the shells such that the prefabricated components bear a significant portion of an applied load. 7. The process of claim 3, wherein producing the bearing structure includes encapsulating the fiber strands and the flexurally stiff components with a resin material while the hardening composite material is in a liquid state. 8. The process of claim 7, further comprising setting the resin material after placing the bearing structure into the shells. 9. The process of claim 3, further comprising impregnating the fiber strands with the hardening composite material in a liquid state. 10. A system for generating energy, the system comprising: a wind power installation configured to generate energy and including a rotor blade, the rotor blade including an outer shell; and a bearing structure being part of the outer shell, the bearing structure including a plurality of fiber strands, a hardened composite material incorporated into the plurality of fiber strands, and a plurality of prefabricated, flexurally stiff components spaced apart from one another. 11. The system of claim 10, wherein the bearing structure further includes a matrix in which the plurality of fiber strands and the plurality of prefabricated, flexurally stiff components are embedded. 12. The system of claim 10, wherein the bearing structure is proximate to an outer surface of the rotor blade. 13. The system of claim 10, wherein the plurality of prefabricated, flexurally stiff components comprise a fiber composite material. 14. The system of claim 10, wherein the plurality of prefabricated, flexurally stiff components have elongated transverse cross-sections. 15. The system of claim 10, wherein the plurality of fiber strands are spaced apart from the plurality of prefabricated, flexurally stiff components. 16. A process for producing of a rotor blade of a wind power installation, the process comprising: producing a rotor blade shell for a wind installation; impregnating fiber strands with a hardening composite material; producing a bearing structure comprising the fiber strands and prefabricated flexurally stiff components; and placing the bearing structure into the blade shell such that the bearing structure is positioned at an outer periphery of the rotor blade. 17. The method of claim 16, wherein placing the bearing structure into the shell includes integrating the bearing structure into the shell such that the bearing structure is adjacent to an outer surface of the rotor blade.
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이 특허에 인용된 특허 (3)
Leone Michel (La Crau FRX) Carbone Robert (La Garde FRX), Multichannel structures made of composites, processes and semifinished products for the manufacture thereof.
Yarbrough, Aaron A.; Caruso, Christopher Daniel; Kasperski, Donald Joseph, Corrugated pre-cured laminate plates for use within wind turbine rotor blades.
Caruso, Christopher Daniel; Yarbrough, Aaron A.; Hynum, Daniel Alan; Tobin, James Robert, Modular wind turbine rotor blades and methods of assembling same.
Riahi, Amir; Moors, Thomas Michael; Shain, Eric Michael; Geiger, Shannon B.; Caruso, Christopher Daniel; Yarbrough, Aaron A., Pre-cured composites for rotor blade components.
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