Wind turbine blade structures, lifting assemblies and methods of blade handling

The invention claimed is: 1. A wind turbine blade comprising: opposed blade surfaces; an internal load-bearing structure comprising at least one beam or web having a portion extending between the blade surfaces generally perpendicularly thereto; and a plurality of lifting points in at least one of the blade surfaces comprising lift openings through the blade surface adjacent or into the load-bearing structure for receiving lifting members insertable therein; wherein the at least one beam or web is adapted to make load-bearing connection to lifting members inserted in said openings at the portion extending between the blade surfaces. 2. The wind turbine blade according to claim 1 wherein the at least one beam or web is provided with lateral openings to receive locking elements insertable into the lateral openings and into aligned openings in inserted lifting members. 3. The wind turbine blade according to claim 2 wherein the load-bearing structure comprises a spar having opposed spar cap portions interconnected by beam or spar web portions generally perpendicular thereto, and wherein the lateral openings are provided in the spar web portions to receive locking elements insertable into the lateral openings and into openings in inserted lifting members. 4. The wind turbine blade according to claim 2 wherein the lateral openings in the beam or web portions are provided at or near a neutral axis of the blade. 5. The wind turbine blade according to claim 2 wherein the lift openings are defined in structures secured to or forming part of the load-bearing structure. 6. The wind turbine blade according to claim 5 wherein the lift openings are defined in tubular structures adjacent to and secured to the beams or spar webs. 7. The wind turbine blade according to claim 5 wherein lateral openings are provided in the structures defining the lift openings which are aligned with lateral openings in the beams or webs, in order to receive said locking elements therein. 8. The wind turbine blade according to claim 2 wherein the locking elements are locking pins. 9. The wind turbine blade according to claim 1 wherein the lift openings are defined in structures extending laterally from the beams or webs. 10. The wind turbine blade according to claim 9 wherein a locking structure is provided having a locking surface against which a portion of the lifting member can engage. 11. The wind turbine blade according to claim 10 wherein the locking surfaces are configured to allow a push and twist locking connection between the locking structure and a locking portion of a lift member inserted therein. 12. The wind turbine blade according to claim 10 wherein the locking surfaces comprise a lower abutment surface against which a laterally protruding portion on a lift member can abut, and a surface spaced therefrom defining therebetween a retention groove within which the laterally protruding portion can engage when rotated into a locking orientation, and having a cutout region allowing insertion of the lift member and passage of the laterally protruding portion when in a predetermined insertion orientation. 13. The wind turbine blade according to claim 1 wherein the internal load-bearing structure includes a pair of spaced beams or webs each provided with a lateral opening to receive therebetween a lifting bar of a lifting assembly. 14. The wind turbine blade according to claim 13 wherein the lateral openings are provided at or near a neutral axis of the blade. 15. The wind turbine blade according to claim 13 wherein the beam or web portions are of increased thickness at the positions of the openings. 16. The wind turbine blade according to claim 1 wherein one or more internal bulkheads are provided between the blade surfaces extending in the blade chordwise direction in the vicinity of the lifting points. 17. The wind turbine blade according to claim 1 wherein the openings for the lifting members are closable by covers. 18. The wind turbine blade according to claim 17 wherein the covers are pivotably mounted on the blade and are sprung so as to close on removal of a lifting member therefrom. 19. The wind turbine blade according to claim 1 wherein four lifting points are provided, spaced substantially equidistantly about the blade's centre of gravity. 20. The wind turbine blade of claim 1 , wherein the at least one beam or web is adapted to make load-bearing connection to lifting members inserted in the openings at or near a neutral axis of the blade. 21. A lifting assembly for a wind turbine blade having opposed blade surfaces, an internal load-bearing structure, and a plurality of lifting points in at least one of the blade surfaces comprising lift openings through the blade surface adjacent or into the load-bearing structure the lifting assembly comprising: lifting members for insertion in the lift openings; and locking elements for locking the inserted lifting members to the blade, wherein the locking elements comprise locking pins insertable through lateral openings in the blade load-bearing structure into aligned openings in the lifting members. 22. The lifting assembly according to claim 21 wherein the lifting members comprise elongate lift pins. 23. The lifting assembly according to claim 21 wherein the lifting members are suspended from a spreader which in use is connected to a crane lifting eye or hook or the like. 24. The lifting assembly according to claim 21 wherein the lifting members are rigidly connected on a lifting frame. 25. A lifting assembly for a wind turbine blade having opposed blade surfaces, an internal load-bearing structure comprising at least one beam or web having a portion extending between the blade surfaces and generally perpendicularly thereto, and a plurality of lifting points in at least one of the blade surfaces comprising lift openings through the blade surface adjacent or into the load-bearing structure, the lifting assembly comprising elongate lift members for insertion in the lift openings, the elongate lift members having laterally protruding portions for engaging locking surfaces on or connected to the at least one beam or web of the load-bearing structure at the portion extending between the blade surfaces. 26. A lifting assembly for a wind turbine blade having opposed blade surfaces, an internal load-bearing structure, and a plurality of lifting points in at least one of the blade surfaces comprising lift openings through the blade surface adjacent or into the load-bearing structure for receiving lifting members insertable therein, wherein the internal load-bearing structure includes a pair of spaced beams or webs each provided with a lateral opening, the lifting assembly comprising: a lift bar for receipt within the opposed web openings, and lifting elements in the form of wires, rope or webbing straps, loops, strops or a lifting yoke or the like for extending through the lift openings in the blade and engaging the lift bar. 27. The lifting assembly according to claim 26 wherein the lift bar comprises a pair of oppositely-extending pins which are relatively extendable/retractable. 28. The lifting assembly according to claim 26 wherein the pins of the lift bar are extendable/retractable from a central sleeve. 29. The lifting assembly according to claim 28 wherein one or both of the pins are connected to th