Joint for connecting a wind turbine rotor blade to a rotor hub and associated methods

What is claimed is: 1. A wind turbine rotor blade, comprising: an elongate body having a root end and a tip end, the root end of the rotor blade configured to be coupled to a rotor hub of a wind turbine and including an end face and a side wall extending away from the end face; and a connection joint at the root end of the rotor blade for connecting the rotor blade to the rotor hub, the connection joint comprising a plurality of connecting elements integrated into the root end of the rotor blade, each connecting element including an eye that defines a bore through the side wall of the root end of the rotor blade and which is spaced from the end face, wherein each of the plurality of connecting elements includes a folded roving of fibers, wherein each eye of the plurality of connecting elements is defined at least in part by the fold in the roving of fibers. 2. The wind turbine rotor blade according to claim 1 , wherein the folded roving of fibers defines a through hole, each connecting element further comprising an insert positioned in the through hole such that a portion of the through hole and a portion of the insert forms a boundary of the eye of the connecting elements. 3. The wind turbine rotor blade according to claim 1 , wherein the roving of fibers includes stacked plies of fiber material. 4. The wind turbine rotor blade according to claim 3 , wherein substantially all of the stacked plies of fiber material include unidirectional fiber plies. 5. The wind turbine rotor blade according to claim 1 , wherein the fibers include glass fibers, carbon fibers, or combinations thereof. 6. The wind turbine rotor blade according to claim 1 , wherein at least a portion of the eyes of the plurality of connecting elements is formed by longitudinal side walls of the roving of fibers such that there are no fiber endings at a boundary of the eyes along the portion formed by the roving of fibers. 7. The wind turbine rotor blade according to claim 1 , wherein each of the plurality of connecting elements is made entirely from a composite material. 8. The wind turbine rotor blade according to claim 1 , wherein each of the plurality of connecting elements is wedge shaped. 9. The wind turbine rotor blade according to claim 1 , wherein the root end is a molded article and the plurality of connecting elements is integrated into the root end during molding of the root end. 10. The wind turbine rotor blade according to claim 1 , further comprising a plurality of cross pins configured to be inserted through respective eyes of the plurality of connecting elements which form the bores in the side wall of the root end, wherein when the cross pins are received in the eyes, an exposed portion of the cross pins is configured to extend away from at least one surface of the side wall of the root end of the rotor blade. 11. The wind turbine rotor blade according to claim 10 , wherein when the cross pins are received in the eyes, an exposed portion of the cross pins is configured to extend away from an outer surface of the side wall and an inner surface of the side wall of the root end. 12. The wind turbine rotor blade according to claim 10 , wherein the cross pins include one or more grooves configured to receive a fastener. 13. The wind turbine rotor blade according to claim 10 , wherein the cross pins include a pair of opposed bosses to provide a T-shaped cross pin, wherein each of the bosses includes a through hole configured to receive a fastener. 14. The wind turbine rotor blade according to claim 10 , wherein the cross pins are slidably insertable into respective eyes of the plurality of connecting elements. 15. The wind turbine rotor blade according to claim 10 , further comprising a plurality of retention heads, wherein each retention head includes a through hole for receiving a fastener, and wherein each retention head is configured to abut two adjacent cross pins. 16. The wind turbine rotor blade according to claim 10 , further comprising a plurality of fasteners for securing the root end of the rotor blade to a hub support of the rotor hub. 17. The wind turbine rotor blade according to claim 16 , wherein the fasteners are configured to engage with an exposed portion of the cross pins when the cross pins are received through respective eyes of the plurality of connecting elements. 18. The wind turbine rotor blade according to claim 16 , wherein the plurality of fasteners include a plurality of U-bolts, stud bolts, or I-bolts. 19. A wind turbine, comprising: a tower; a nacelle positioned atop of the tower; a rotor coupled to the nacelle and including a rotor hub having a hub support and at least one rotor blade according to claim 1 ; a plurality of cross pins received through respective eyes of the plurality of connecting elements which form the bores in the side wall of the root end, wherein the cross pins include an exposed portion that extends away from at least one surface of the side wall of the root end of the blade; and a plurality of fasteners, each engaging the exposed portion of the cross pins and coupled to the hub support for securing the root end of the rotor blade to the rotor hub. 20. The wind turbine according to claim 19 , wherein the exposed portion of the cross pins extends away from an outer surface and an inner surface of the side wall of the root end and a fastener engages the exposed portion extending from both the inner and outer surfaces of the side wall of the root end. 21. The wind turbine according to claim 19 , wherein each of the plurality of fasteners extends across a connection interface between the rotor blade and the rotor hub adjacent to the at least one surface of the side wall of the root end of the rotor blade. 22. A method of making the plurality of connecting elements of the wind turbine rotor blade according to claim 1 , comprising: providing a mandrel having a top surface, a bottom end, and a pair of side surfaces; arranging finite-length fiber rovings over the top surface of the mandrel to form the fold in each fiber roving and bringing ends of the fiber rovings together to define a through hole in the fiber rovings; infusing resin into the fiber rovings; at least partially curing the fiber rovings and resin to form a composite article; removing the mandrel from the composite article; and cutting the composite article to form the plurality of connecting elements. 23. The method according to claim 22 , further comprising removably coupling an insert to the bottom end of the mandrel such that the fiber rovings drape down over the insert and the insert is positioned in the through hole in the fiber rovings, wherein a portion of the through hole and a portion of the insert define the eye in each of the plurality of connecting elements. 24. The method according to claim 23 , wherein arranging finite-length fiber rovings further comprises stacking a plurality of finite-length fiber plies over the mandrel. 25. The method according to claim 22 , wherein the top surface of the mandrel is arcuate to provide a through hole in the composite article having an arcuate portion. 26. A method of making a wind turbine rotor blade having a root end, comprising: providing a molding apparatus having a molding surface; providing a plurality of connecting elements made according to the method of claim 22 ; laying a first assembly of fiber plies in the molding apparatus; inserting th