A module (1) for holding at least one bushing (17) within a recess, wherein it comprises two side surfaces (2, 3), an upper (4) and a lower (5) surface and at least one end surface (6), wherein the upper (4) and lower (5) surfaces are of different width and arcs, respectively, in their cross-section
A module (1) for holding at least one bushing (17) within a recess, wherein it comprises two side surfaces (2, 3), an upper (4) and a lower (5) surface and at least one end surface (6), wherein the upper (4) and lower (5) surfaces are of different width and arcs, respectively, in their cross-section, and the side surfaces (2, 3) are of equal height, and when coupled to a second module (8) by its side surfaces (3, 9), which second module (8) optionally may also hold at least one bushing (17), the sum of the angle (alpha) between the optionally imaginary plane side surface (12) of the one module (1) and the tangent (10) to its upper surface (4) at the intersection (A) with the side surface (3) and the angle (beta) between the optionally imaginary plane side surface (13) of the other module (8) and the tangent (11) to its upper surface (15) at the intersection (B) with the side surface (9) is at least 180 degrees and/or a plurality of modules (1), optionally when holding the bushings (17), form at least a section of a circular ring or a full circular ring.
대표청구항▼
1. A wind turbine blade having a root end formed by a circular outer laminate skin and a concentric circular inner laminate skin, wherein modules for mounting the wind turbine blade to a wind turbine hub are molded into an annular space between the outer laminate skin and inner laminate skin, said w
1. A wind turbine blade having a root end formed by a circular outer laminate skin and a concentric circular inner laminate skin, wherein modules for mounting the wind turbine blade to a wind turbine hub are molded into an annular space between the outer laminate skin and inner laminate skin, said wind turbine blade comprising: a circular outer laminate skin having an inside surface and comprising fibers and a cured resin;a circular inner laminate skin having an outside surface and comprising fibers and cured resin, said inner laminate being located concentrically with respect to said outer skin laminate skin so that said inside surface and said outside surface define an annular space at said root end, said annular space having an outside defined by the inside surface of said outer laminate, an inside defined by the outside surface of said inner laminate, a front located at said root end and a rear;a first tubular bushing having a front end, a rear end and an outside bushing surface which extends between the front end and the rear end of said first tubular bushing, said first tubular bushing being located in said annular space so that the front end of said first tubular bushing is located at the front of said annular space and the rear end of said first tubular bushing is located towards the rear of said annular space, said outside bushing surface of said first tubular bushing having a first side portion located in said annular space and a second side portion located in said annular space on the opposite side of the outside bushing surface of said first tubular bushing;a first module comprising fibers and a cured resin, said first module having a front end, a rear end, and a stop portion between the front end and rear end, said first module being located in said annular space so that the front end of said first module is located at the front of said annular space and the rear end of said first module is located towards the rear of said annular space, said first module having a first side extending between the front end and rear end of said first module, a second side extending between the front end and rear end of said first module, a top side extending between the front end and rear end of said first module and a bottom side extending between the front end and rear end of said first module, wherein the top side of said first module is molded to the inside surface of said outer laminate skin and the bottom side of said first module is molded to the outside surface of said inner laminate skin and wherein the first side surface of said first module is molded to the second side portion of the outside bushing surface of said first tubular bushing; anda second module comprising fibers and a cured resin, said second module having a front end, a rear end, and stop portion between the front end and rear end, said second module being located in said annular space so that the front end of said second module is located at the front of said annular space and the rear end of said second module is located towards the rear of said annular space, said second module having a first side extending between the front end and the rear end of said second module, a second side extending between the front end and rear end of said second module, a top side extending between the front end and rear end of said second module and a bottom side extending between the front end and rear end of said second module, wherein the top side of said second module is molded to the inside surface of said outer laminate skin and the bottom side of said second module is molded to the outside surface of said inner laminate skin and wherein the second side surface of said second module is molded to the first side portion of the outside hushing surface of said first tubular bushing. 2. The wind turbine blade according to claim 1 which comprises a second tubular bushing having a front end, a rear end and an outside bushing surface which extends between the front end and the rear end of said second tubular bushing, said second tubular bushing being located in said annular space so that the front end of said second tubular bushing is located at the front of said annular space and the rear end of said second tubular bushing is located towards the rear of said annular space, said outside bushing surface of said second tubular bushing having a first side portion located in said annular space and a second side portion located in said annular space on the opposite side of the outside bushing surface of said second tubular bushing, wherein the second side surface of said first module is molded to the first side portion of the outside bushing surface of said second tubular bushing. 3. The wind turbine blade according to claim 2 which comprises a third tubular bushing having a front end, a rear end and an outside bushing surface which extends between the front end and the rear end of said third tubular bushing, said third tubular bushing being located in said annular space so that the front end of said third tubular bushing is located at the front of said annular space and the rear end of said third tubular bushing is located towards the rear of said annular space, said outside bushing surface of said third tubular bushing having a first side portion located in said annular space and a second side portion located in said annular space on the opposite side of the outside bushing surface of said third tubular bushing, wherein the first side surface of said second module is molded to the second side portion of the outside bushing surface of said third tubular bushing. 4. The wind turbine blade according to claim 3 wherein the second side portion of the outside bushing surface of said third tubular bushing has a convex shape and the first side surface of said second module that is molded thereto has a concave shape. 5. The wind turbine blade according to claim 4 wherein the second side portion of the outside bushing surface of said first tubular bushing has a convex shape and the first side surface of said first module that is molded thereto has a concave shape and wherein the first side portion of the outside bushing surface of said first tubular bushing has a convex shape and the second side surface of said second module that is molded thereto has a concave shape. 6. The wind turbine blade according to claim 5 wherein the first side portion of the outside bushing surface of said second tubular bushing has a convex shape and the second side surface of said first module that is molded thereto has a concave shape. 7. The wind turbine blade according to claim 2 wherein the first side portion of the outside bushing surface of said second tubular bushing has a convex shape and the second side surface of said first module that is molded thereto has a concave shape. 8. The wind turbine blade according to claim 7 wherein the second side portion of the outside bushing surface of said first tubular bushing has a convex shape and the first side surface of said first module that is molded thereto has a concave shape and wherein the first side portion of the outside bushing surface of said first tubular bushing has a convex shape and the second side surface of said second module that is molded thereto has a concave shape. 9. The wind turbine blade according to claim 1 wherein the second side portion of the outside bushing surface of said first tubular bushing has a convex shape and the first side surface of said first module that is molded thereto has a concave shape and wherein the first side portion of the outside bushing surface of said first tubular bushing has a convex shape and the second side surface of said second module that is molded thereto has a concave shape. 10. The wind turbine blade according to claim 1 wherein said first module comprises sheet-molding compound which has been molded to form a first module comprising fibers oriented randomly in different directions and a thermosetting resin material. 11. The wind turbine blade according to claim 10 wherein said second module comprises sheet-molding compound which has been molded to form a second module comprising fibers oriented randomly in different directions and a thermosetting resin material. 12. The wind turbine blade according to claim 1 wherein the entire outside bushing surface of said first tubular bushing is surrounded by the first side surface of said first module and the second side surface of said second module. 13. The wind turbine blade according to claim 12 wherein said first module and said second module each comprises sheet-molding compound which has been molded to form first and second modules which each comprise fibers oriented randomly in different directions and a thermosetting resin material. 14. The wind turbine blade according to claim 1 wherein the outside bushing surface of said first tubular bushing comprises a top portion and a bottom portion, wherein said top portion is molded to the inside surface of said outer laminate skin and wherein said bottom portion is molded to the outside surface of said inner laminate skin. 15. The wind turbine blade according to claim 14 wherein said first module and said second module each comprises sheet-molding compound which has been molded to form first and second modules which each comprise fibers oriented randomly in different directions and a thermosetting resin material.
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이 특허에 인용된 특허 (4)
Sandahl Jeffrey (Burnsville MN), Expansion ring and clip for use with an expandable oven.
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