Rotation device and method for rotating a wind turbine generator

The invention claimed is: 1. A rotation device for rotating a wind turbine generator that is configured to be rotated by wind and to convert wind energy into electrical energy, the rotation device comprising: at least one rotary device configured to couple with an outer surface of the wind turbine generator; and a motor device for driving the at least one rotary device such as to thereby rotate the wind turbine generator about a generator rotation axis which coincides with a direction along which a main shaft of a wind turbine extends; wherein the rotation device comprises a support device for holding the at least one rotary device, the support device being configured to elevate and lower the at least one rotary device such that the at least one rotary device couples with the outer surface of the wind turbine generator in an elevated position and such that the at least one rotary device is separated from the outer surface of the wind turbine generator in a lowered position. 2. The rotation device according to claim 1 , wherein the at least one rotary device is configured to support the wind turbine generator from below. 3. The rotation device according to claim 1 , wherein the at least one rotary device comprises at least one cylindrical roll which is configured to be rotated about a roll rotation axis when the at least one rotary device is driven by the motor device, the roll rotation axis being parallel to the generator rotation axis. 4. The rotation device according to claim 3 , wherein the at least one rotary device comprises at least one electric motor for rotating the at least one cylindrical roll about the roll rotation axis. 5. The rotation device according to claim 3 , wherein: the at least one rotary device comprises a plurality of cylindrical rolls, the roll rotation axis of which being arranged next to one another in a parallel manner; and/or the motor device comprises a plurality of electric motors, which are respectively configured to drive one cylindrical roll of the plurality of cylindrical rolls. 6. The rotation device according to f claim 1 , wherein the rotation device is configured to rotate the wind turbine generator by 0.05 to 0.3 rounds per minute. 7. The rotation device according to claim 1 , wherein the support device comprises a hydraulic system for elevating and lowering the at least one rotary device and/or the motor device. 8. The rotation device according to claim 7 , wherein the support device comprises at least two support arms on which the at least one rotary device and/or the motor device are arranged, the at least two support arms being connected to each other in a rotatable manner at a central point. 9. The rotation device according to claim 3 , wherein the roll rotation axis is inclined at a predetermined angle with respect to a horizontal reference plane such as to match an inclination angle of the generator rotation axis. 10. The rotation device according to claim 1 , further comprising: a control unit for starting and stopping the rotation device, adjusting a rotation speed of the wind turbine generator, adjusting a predetermined angle, adjusting a ramp-up speed of the wind turbine generator, adjusting a force applied on the wind turbine generator by the rotation device, emergency stopping the rotation device and/or adjusting a torque of the at least one rotary device; a battery unit for supplying the rotation device with electrical power; a displacing device for displacing the rotation device; at least one distance sensor for determining a distance between the rotation device and an obstacle and/or object; a brush for cleaning the outer surface of the wind turbine generator; and/or an encoder device for determining a number of rotations of the wind turbine generator induced by the rotation device. 11. The rotation device according to claim 1 , wherein the rotation device is further configured to rotate a main bearing of the wind turbine such that grease provided inside the main bearing is uniformly distributed and/or such that stand still marks on the inside of the main bearing are avoided, the main bearing being configured to be rotated by wind energy. 12. A method for rotating a wind turbine generator that is configured to be rotated by wind energy and to convert the wind energy into electrical energy, the method comprising: coupling at least one rotary device with an outer surface of the wind turbine generator by elevating the at least one rotary device; driving the at least one rotary device using a motor device such as to rotate the wind turbine generator about a generator rotation axis which coincides with a direction along which a main shaft of a wind turbine extends; separating the at least one rotary device from the outer surface of the wind turbine generator by lowering the at least one rotary device. 13. The method according to claim 12 , further comprising: rotating the wind turbine generator in a state in which the wind turbine generator is not rotated by wind energy; rotating the wind turbine generator such as to simulate winds; rotating a main bearing of the wind turbine and/or a main shaft of the wind turbine by rotating the wind turbine generator with the at least one rotary device; rotating the wind turbine generator, the main bearing and/or the main shaft during assembly of a nacelle of the wind turbine such as to access different parts of the wind turbine generator, the main bearing and/or the main shaft and facilitating the assembly; and/or rotating the wind turbine generator such as to fix gutter shields all around the wind turbine generator. 14. The method according to claim 12 , which is executed using a rotation device that rotates the wind turbine generator.