Rotor blade manufacturing arrangement

The invention claimed is: 1. A manufacturing arrangement for the manufacture of a rotor blade, the manufacturing arrangement comprising: a pair of tracks arranged along the longitudinal sides of a blade mold; a first gantry assembly configured to span the pair of tracks and to carry a first tool arrangement comprising at least a fiber distributor for distributing a fiber material into the blade mold; a second gantry assembly configured to span the pair of tracks and to carry a second tool arrangement comprising at least a handling tool for handling a cover sheet for the fiber distributor, the cover sheet configured to apply pressure to the distributed fiber material; and a control arrangement configured to effect a coordinated movement of the first gantry assembly and the second gantry assembly along the pair of tracks and to coordinate an operation of the second tool arrangement with an operation of the first tool arrangement. 2. The manufacturing arrangement according to claim 1 , wherein the fiber distributor realised configured to distribute a fiber roving and/or a fiber matting into the blade mold. 3. The manufacturing arrangement according to claim 1 , wherein the fiber distributor comprises a breakup unit configured to break up sizing of the fiber material prior to distribution into the blade mold. 4. The manufacturing arrangement according to claim 1 , wherein the first tool arrangement is configured to lay the cover sheet onto the fiber material being distributed by the fiber distributor. 5. The manufacturing arrangement according to claim 1 , wherein the cover sheet comprises an essentially negligible elasticity in a longitudinal direction. 6. The manufacturing arrangement according to claim 1 , wherein the cover sheet has a material thickness in a range 2.0 mm-25.0 mm. 7. The manufacturing arrangement according to claim 1 , comprising a guiding means realised configured to guide the cover sheet through a fiber distributor tool of the fiber distributor. 8. The manufacturing arrangement according to claim 1 , wherein the cover sheet comprises a first sheet and a second sheet, and wherein the second sheet is laid out and the first sheet is retracted in response to a movement of the first gantry assembly along the pair of tracks. 9. The manufacturing arrangement according to claim 1 , wherein the fiber distributor comprises a fiber in-feed means for feeding the fiber material from a fiber material supply, the fiber in-feed means being arranged on an upper face of a fiber distributor tool of the fiber distributor. 10. A fiber distributor tool for use with a manufacturing arrangement according to claim 1 , which the fiber distributor tool comprising: a connector for connecting to a robot arm of the fiber distributor of the first tool arrangement; a raising means for raising the cover sheet from the blade mold; and a feeding means for distributing the fiber material into the blade mold under the raised cover sheet. 11. A manufacturing line for the manufacture of wind turbine rotor blades, the manufacturing line comprising: a first manufacturing arrangement according to claim 1 for manufacturing an upper blade half, wherein the pair of tracks is arranged along the longitudinal sides of an upper blade mold; and a second manufacturing arrangement according to claim 1 for manufacturing a lower blade half, wherein the pair of tracks is arranged along the longitudinal sides of a lower blade mold; wherein control arrangements of the first manufacturing arrangement and the second manufacturing arrangements are configured to coordinate the operation of the tool arrangements such that the blade halves are manufactured essentially simultaneously. 12. The manufacturing line according to claim 11 , wherein the pair of tracks of each of the first manufacturing arrangement and the second manufacturing arrangement are arranged to accommodate a plurality of blade molds arranged sequentially between the pair of tracks. 13. The manufacturing arrangement according to claim 1 , wherein the cover sheet has a material thickness in a range 5.0 mm 15.0 mm. 14. A method of manufacturing a rotor blade, the method comprising the steps of: (A) arranging a pair of tracks along the longitudinal sides of a blade mold; (B) arranging a first gantry assembly to span the pair of tracks and placing a first tool arrangement on the first gantry assembly, the first tool arrangement comprising at least a fiber distributor for distributing a fiber material into the blade mold; (C) arranging a second gantry assembly to span the pair of tracks and placing a second tool arrangement on the second gantry assembly, the second tool arrangement comprising at least a handling tool for handling a cover sheet for the fiber distributor; and (D) operating a control arrangement to effect a coordinated movement of the first gantry assembly and the second gantry assembly along the pair of tracks and to coordinate an operation of the second tool arrangement with an operation of the first tool arrangement. 15. The method according to claim 14 , further comprising the steps of actuating the fiber distributor to raise the cover sheet; distributing the fiber material underneath the raised cover sheet; and lowering the cover sheet onto the distributed fiber material. 16. The method according to claim 14 , wherein the control arrangement is operated to control the first gantry assembly and the second gantry assembly and/or the first tool arrangement and the second tool arrangement on a basis of a position of a gantry assembly relative to the rotor blade mold. 17. A wind turbine rotor blade manufactured using the method according to claim 14 .