초록 ▼

A preform is joined to converging surfaces of a structure, such as an airfoil, to form a structural edge. The preform has a body having an acute-angle edge at one end and connecting areas extending from the opposing end for connecting the preform to converging planar elements of a wing or other simi

A preform is joined to converging surfaces of a structure, such as an airfoil, to form a structural edge. The preform has a body having an acute-angle edge at one end and connecting areas extending from the opposing end for connecting the preform to converging planar elements of a wing or other similar structure. In several embodiments, the acute angle of the preform generally matches the angle relative to converging ends of the planar elements, the preform forming the outer end of smooth, continuous outer surfaces after assembly. The connecting areas may be connected to interior or exterior surfaces of the elements, depending on the orientation of the preform and elements. In another embodiment, the entire preform is placed between the outer ends of the elements for aligning and supporting the elements at the desired location and angle relative to each other.

대표청구항 ▼

1. A member for forming an edge of a structure having two converging surfaces that converge toward each other at a converging angle, the member comprising:a body having a pair of flanks converging to form an edge at a crest, the flanks adapted to converge at the converging angle;a pair of connecting

1. A member for forming an edge of a structure having two converging surfaces that converge toward each other at a converging angle, the member comprising:a body having a pair of flanks converging to form an edge at a crest, the flanks adapted to converge at the converging angle;a pair of connecting surfaces, each extending from one of the flanks in a direction opposite the crest, each connecting surface being substantially parallel to one of the flanks; and whereinthe member is formed of fibers assembled in a three-dimensional pattern and located within a rigid matrix;the connecting surfaces are adapted to be connected to the converging surfaces of the structure; andeach connecting surface lies in a plane offset from a plane of each corresponding flank, defining a shoulder for abutting an end of one of the converging surfaces of the structure. 2. The member of claim 3, wherein:the fibers comprise at least two types of fibers, which are selectively located within the member for optimizing selected qualities. 3. The member of claim 1, wherein:each of the connecting surfaces is in a common plane with one of the flanks. 4. A member for forming an edge of a structure having two converging surfaces that converge toward each other at a converging angle, the member comprising:a body having a pair of flanks converging to form an edge at a crest, the flanks adapted to converge at the converging angle;a pair of connecting surfaces, each extending from one of the flanks in a direction opposite the crest, each connecting surface being substantially parallel to one of the flanks; and whereinthe member is formed of fibers assembled in a three-dimensional pattern and located within a rigid matrix;the connecting surfaces are adapted to be connected to the converging surfaces of the structure;the body has a base, the flanks extending from the base to the crest; and the connecting surfaces are formed on extension portions that are spaced apart and extend from the base. 5. The member of claim 4, wherein:the extension portions terminate in tapered ends. 6. The member of claim 5, wherein:the base is arcuate. 7. A member for forming an edge of a structure having two converging surfaces that converge toward each other at a converging angle, the member comprising:a body having a pair of flanks converging to form an edge at a crest, the flanks adapted to converge at the converging angle;a pair of connecting surfaces, each extending from one of the flanks in a direction opposite the crest, each connecting surface being substantially parallel to one of the flanks; and whereinthe member is formed of fibers assembled in a three-dimensional pattern and located within a rigid matrix;the connecting surfaces are adapted to be connected to the converging surfaces of the structure; andthe body has an internal cavity containing a rigid, non-woven core. 8. An edge structure, comprising:two converging surfaces;an edge member, the edge member being formed of fibers in a three-dimensional, interlocking pattern and within a rigid matrix, the edge member having a body with two flanks converging to an acute-angle edge at a crest;a pair of connecting surfaces, each extending from the flanks away from the crest and being joined to one of the converging surfaces in overlapping relation; and whereinthe converging surfaces have spaced apart, truncated ends;the connecting surfaces form a smooth junction with the truncated ends; andthe flanks of the edge member protrude past the truncated ends. 9. The member of claim 8, wherein:the body has an internal cavity containing a rigid, non-woven core. 10. An edge structure, comprising:two converging surfaces;an edge member, the edge member being formed of fibers in a three-dimensional, interlocking pattern and within a rigid matrix, the edge member having a body with two flanks converging to an acute-angle edge at a crest;a pair of connecting surfaces, each extending from the flanks away from the crest and being joined to one of th e converging surfaces in overlapping relation; and whereinthe converging surfaces have spaced apart, truncated ends;the connecting surfaces are located within and joined to interior portions of the converging surfaces; andthe flanks of the edge member protrude past the truncated ends. 11. The structure of claim 10, wherein:each connecting surface lies in a plane offset from a plane of each corresponding flank, defining a shoulder for abutting an end of one of the converging surfaces of the structure. 12. An edge structure, comprising:two converging surfaces;an edge member, the edge member being formed of fibers in a three-dimensional, interlocking pattern and within a rigid matrix, the edge member having a body with two flanks converging to an acute-angle edge at a crest;a pair of connecting surfaces, each extending from the flanks away from the crest and being joined to one of the converging surfaces in overlapping relation; and whereinthe converging surfaces have spaced apart, truncated ends;each connecting surface is joined to exterior portions of the converging surfaces; andthe flanks of the edge member protrude past the truncated ends. 13. The structure of claim 10, wherein:the body has a base, the flanks extending from the base to the crest; andthe connecting surfaces are formed on extension portions that are spaced apart and extend from the base, the extension portions terminating in tapered ends. 14. The structure of claim 13, wherein:the base is arcuate. 15. An edge structure, comprising:two converging surfaces;an edge member, the edge member being formed of fibers in a three-dimensional, interlocking pattern and within a rigid matrix, the edge member having a body with two flanks converging to an acute-angle edge at a crest;a pair of connecting surfaces, each extending from the flanks away from the crest and being joined to one of the converging surfaces in overlapping relation; and whereinthe converging surfaces have spaced apart, truncated ends;the connecting surfaces are located on opposing sides of an extension, each connecting surface lying in a plane offset from a plane of each corresponding flank, defining a shoulder for abutting an end of one of the converging surfaces of the structure, the extension being located within the converging surfaces, the connecting surfaces being joined to interior portions of the converging surfaces; andthe flanks of the edge member protrude past the truncated ends. 16. An edge structure, comprising:two converging surfaces;an edge member, the edge member being formed of fibers in a three-dimensional, interlocking pattern and within a rigid matrix, the edge member having a body with two flanks converging to an acute-angle edge at a crest;a pair of connecting surfaces, each extending from the flanks away from the crest and being joined to one of the converging surfaces in overlapping relation; and whereinthe body has a base, the flanks extending from the base to the crest;the converging surfaces have spaced apart ends bent out-of-plane to form flanges;the connecting surfaces are formed on a tapered, interior portion of extension portions that are spaced apart and extend from the base, the connecting surfaces being joined to exterior portions of the converging surfaces; andthe flanks of the edge member extend past the flanges. 17. An edge structure, comprising:two converging surfaces having spaced apart, truncated ends;a edge member, the edge member being formed of fibers in an interlocking, three-dimensional pattern and having a body with two flanks converging to an acute-angle edge at a crest; anda pair of connecting surfaces, each extending from the flanks away from the crest and being joined to one of the converging surfaces in overlapping relation; and wherein the flanks of the edge member protrude past the truncated ends. 18. The edge structure of claim 17, wherein:the truncated ends are bent out-of-plane to form flanges;the edge member is formed to have pockets between the co nnecting surfaces and the flanks, the flanges being received within the pockets, the connecting surfaces being joined to interior portions of the converging surfaces, inner surfaces of the pockets being joined to interior and exterior portions of the converging surfaces; andthe flanks of the edge member protrude past the truncated ends. 19. The edge structure of claim 17, wherein:the connecting surfaces are located on opposing sides of an extension, each connecting surface lying in a plane offset from a plane of each corresponding flank, defining a shoulder for abutting the end of one of the converging surfaces, the extension being located within the converging surfaces, the connecting surfaces being joined to interior portions of the converging surfaces; andthe flanks of the edge member protrude past the truncated ends. 20. The edge structure of claim 17, wherein:the converging surfaces have spaced apart ends bent out-of-plane to form flanges;the connecting surfaces are formed on a tapered, interior portion of each of a pair of extension portions that are spaced apart and extend from the body opposite the crest, the connecting surfaces being joined to exterior portions of the converging surfaces; andthe flanks of the edge member extend past the flanges. 21. An edge structure, comprising:two converging surfaces that join each other to form an external edge portion;an edge member formed of fibers in a three-dimensional, interlocking pattern and located within a rigid matrix, the edge member having a body and extension portions, the body having a base and a crest, a pair of flanks extending between the base and the crest and converging to form an edge at the crest, each extension portion extending opposite the crest from the base and terminating in a tapered end, a connecting surface being formed on an exterior portion of each extension, each connecting surface being substantially parallel to one of the flanks; and whereineach of the connecting surfaces is in a common plane with one of the flanks;the connecting surfaces are connected to interior portions of the converging surfaces of the structure; andthe entire edge member is located internally within the converging surfaces. 22. The structure of claim 21, wherein:the body has an internal cavity containing a rigid, non-woven core. 23. The structure of claim 21, wherein:the base is arcuate. 24. An edge structure, comprising:two converging surfaces that have spaced apart, truncated ends;an edge member formed of fibers assembled in a three-dimensional pattern and located within a rigid matrix, the edge member having a body and a connecting portion, the body having a base and a crest, a pair of flanks extending between the base and the crest and converging to form an edge at the crest, the connecting portion extending opposite the crest from the base and terminating in a truncated end, two connecting surfaces being formed on opposite sides of the connecting portion and being substantially parallel to one of the flanks; and whereineach connecting surface lies in a plane offset from a plane of each corresponding flank, defining a shoulder for abutting the end of one of the converging surfaces;the connecting portion is located within the converging surfaces, the connecting surfaces being joined to interior portions of the converging surfaces; andthe flanks of the edge member protrude past the truncated ends. 25. The structure of claim 24, wherein:the body has an internal cavity containing a rigid, non-woven core. 26. A method of forming an edge structure, the method comprising:(a) forming an edge member of fibers in a three-dimensional pattern and located in a rigid matrix, the member having a body with a pair of flanks and connecting surfaces extending from the body, the flanks converging to an edge;(b) positioning the edge member relative to the converging surfaces so that the body protrudes past truncated ends of the converging surfaces; and(c) joining each connecting surface to on e of a pair of converging surfaces to form an edge structure. 27. A method of forming an edge structure, the method comprising:(a) forming an edge member of fibers in a three-dimensional pattern and located in a rigid matrix, the member having a body with a pair of flanks and connecting surfaces extending from the body, the flanks converging to an edge;(b) positioning ends of the converging surfaces adjacent each other to form an edge, then positioning the edge member within an interior formed by the converging surfaces; and(c) joining each connecting surface to one of a pair of converging surfaces to form an edge structure and joining the connecting surfaces and each flank to an interior portion of the converging surfaces.