Adaptor for providing an adjustable connection between an endpiece of a lifting apparatus and a nacelle, and method of using same

The invention claimed is: 1. An adaptor for interfacing between an endpiece of a lifting apparatus and a nacelle of a wind turbine, comprising: a base plate having an outer surface and an inner surface, the outer surface having one or more projections configured to engage the adaptor to the nacelle; a first side leg extending away from the inner surface of the base plate, wherein the first side leg includes an outer surface, an inner surface, and a first bore extending between the inner and outer surfaces of the first side leg; a second side leg extending away from the inner surface of the base plate and spaced from the first side leg, wherein the second side leg includes an outer surface, an inner surface, and a second bore extending between the inner and outer surfaces of the second side leg, and wherein the base plate, first side leg, and second side leg collectively define a recess configured to engage the adaptor with the endpiece of the lifting apparatus; a first set screw positionable in the first bore such that an abutment end of the first set screw is disposed within the recess; and a second set screw positionable in the second bore such that an abutment end of the second set screw is disposed within the recess, wherein the first and second set screws are configured to be movable, relative to the first and second bores, respectively, toward and away from each other to adjustably position the adaptor relative to the endpiece of the lifting apparatus. 2. The adaptor of claim 1 , wherein the base plate is generally rectangular and further comprises a front surface, a rear surface, and opposed side surfaces, and wherein the first and second side legs extend from the inner surface adjacent respective side surfaces of the base plate. 3. The adaptor of claim 1 , wherein the first and second side legs extend from the inner surface adjacent to the rear surface of the base plate. 4. The adaptor of claim 1 , wherein the first and second side legs have a length that is less than a length of the base plate. 5. The adaptor of claim 1 , wherein the first and second side legs are aligned across a width of the base plate. 6. The adaptor of claim 1 , wherein the first and second side legs extend from the inner surface of the base plate at a substantially right angle. 7. The adaptor of claim 1 , wherein the first and second set screws and the first and second bores are threaded such that rotation moves the first and second set screws toward and away from each other. 8. The adaptor of claim 1 , wherein the first bore and the second bore extend through their respective side legs in a direction parallel to the base plate. 9. The adaptor of claim 1 , wherein the first bore and the second bore extend through their respective side legs adjacent the inner surface of the base plate. 10. The adaptor of claim 1 , wherein the first and second set screws are movable toward and away from each other along an axis, and wherein the adaptor is configured to be adjustable relative to the endpiece of the lifting apparatus in a direction parallel to the axis. 11. The adaptor of claim 1 , wherein the one or more projections further comprises a plurality of posts spaced apart on the upper surface of the base plate, and wherein each of the plurality of posts has a tapered end. 12. The adaptor of claim 1 , wherein the adaptor is configured to mount to the nacelle in a tool-less manner. 13. An endpiece assembly for a lifting apparatus having a lifting cable, comprising: an endpiece configured to be coupled to the lifting cable of the lifting apparatus, wherein the endpiece defines a lateral direction; and the adaptor of claim 1 mounted to the endpiece, wherein the position of the adaptor relative to the endpiece is adjustable in the lateral direction, and wherein the adaptor is coupled to the endpiece at least by the first and second set screws. 14. The endpiece assembly of claim 13 , wherein the endpiece includes a J-hook. 15. The endpiece assembly of claim 14 , wherein the J-hook further comprises: a first leg having an eyelet for attaching to the lifting cable and a first edge; a second leg extending from the first leg and having a second edge, wherein the adaptor is mounted on the second edge such that the inner surface of the base plate engages the second edge and the second leg of the J-hook is disposed in the recess between first and second side legs of the adaptor. 16. The endpiece assembly of claim 15 , wherein the distance between the inner surfaces of the first and second side legs of the adaptor is greater than a thickness of the second leg of the J-hook. 17. The endpiece assembly of claim 15 , wherein the J-hook includes a lock jaw for clamping the adaptor to the J-hook. 18. A method of handling wind turbine components at a facility, comprising: providing a lifting apparatus having a lifting cable and the endpiece assembly of claim 13 on the lifting cable for interfacing with a load for lifting with the lifting apparatus; providing a first wind turbine component for moving with the lifting apparatus, the first wind turbine component having a centre of gravity laterally offset from a central plane of the first wind turbine component; selectively disposing the adaptor between the endpiece of the lifting apparatus and the first wind turbine component, the adaptor being adjustable relative to the endpiece of the lifting apparatus in the lateral direction; positioning the adaptor relative to the endpiece of the lifting apparatus so that the endpiece is vertically aligned with the offset centre of gravity of the first wind turbine component; and lifting the first wind turbine component with the lifting apparatus. 19. The method of claim 18 , wherein positioning the adaptor relative to the endpiece of the lifting apparatus further comprises: predetermining the lateral offset of the centre of gravity of the first wind turbine component; and prior to lifting the first wind turbine component, adjusting the position of the adaptor relative to the endpiece of the lifting apparatus to correspond to the predetermined lateral offset. 20. The method of claim 18 , wherein positioning the adaptor relative to the endpiece of the lifting apparatus further comprises iteratively adjusting the position of the adaptor relative to the endpiece of the lifting apparatus and lifting the first wind turbine component with the lifting apparatus until the first wind turbine component fails to tilt when lifted by the lifting apparatus. 21. The method of claim 18 , further comprising using the endpiece of the lifting apparatus without the adaptor to lift a second wind turbine component at the facility. 22. The method of claim 21 , wherein the second wind turbine component is a tower section. 23. The method of claim 18 , wherein the first wind turbine component includes a nacelle assembly, comprising: a nacelle having a front end and a rear end; a first transport frame attached to the front end of the nacelle; and a second transport frame attached to the rear end of the nacelle. 24. The method of claim 23 , wherein the lifting apparatus comprises a dual-crane system, comprising: a first crane having a first lifting cable and a first endpiece; and a second crane having a second lifting cable and a second endpiece, wherein the method further comprises: selectively disposing a first adaptor between the first endpiece and the first transport frame of the nacelle ass