Sliding bearing arrangement for a wind turbine

The invention claimed is: 1. A sliding bearing arrangement of a wind turbine, wherein the arrangement comprises a first shaft and a second shaft, the first shaft and the second shaft being arranged coaxially to each other, and one of the first shaft and the second shaft shafts is rotatable with respect to the other shaft around a common axis of rotation, wherein a first radial sliding bearing is arranged between the first shaft and the second shaft to support the rotatable shaft by the stationary shaft, wherein the first radial sliding bearing comprises bearing pads, wherein the first shaft comprises a collar, the collar being arranged mainly perpendicular to the common axis of rotation, and radially overlaps at least a part of a radial surface of the second shaft, wherein the collar comprises a first axial sliding bearing to support axial loads between the first shaft and the second shaft, wherein the collar is connected to the first shaft at a first radial position of the collar, and the first axial sliding bearing is connected to the collar at a second radial position of the collar, wherein the collar comprises an opening in an area between the first radial position and the second radial position, to exchange the bearing pads of the first radial sliding bearing of the sliding bearing arrangement. 2. The sliding bearing arrangement according to claim 1 , wherein the second shaft comprises a collar that is arranged mainly parallel to the collar of the first shaft, and that the first axial sliding bearing is located between the two collars. 3. The sliding bearing arrangement according to claim 1 , wherein the first shaft is the stationary shaft. 4. The sliding bearing arrangement according to claim 1 , wherein the first shaft is an outer one of the coaxially arranged shafts. 5. The sliding bearing arrangement according to claim 1 , wherein the bearing pads of the first sliding bearing are attached to the first shaft, and the first shaft comprises a recess to retain a bearing pad of the first radial sliding bearing, wherein the recess is in communication with the opening in the collar of the first shaft, so that the bearing pad can be removed and exchanged by moving the bearing pad along the recess and through the opening. 6. The sliding bearing arrangement according to claim 2 , wherein the collar of the first shaft comprises a structure that enframes the collar of the second shaft to support a second axial sliding bearing that acts on the collar of the second shaft in an opposite direction than the first axial sliding bearing. 7. The sliding bearing arrangement according to claim 1 , wherein the collar of the first shaft is connected to an axial end of the first shaft. 8. The sliding bearing arrangement according to claim 1 , further comprising a second radial bearing between the first shaft and the second shaft in a certain predetermined distance to the first radial sliding bearing, to support radial loads or tilting moments. 9. The sliding bearing arrangement according to claim 8 , wherein the first shaft is more rigid in an area of the first radial sliding bearing than in an area of the second radial bearing. 10. The sliding bearing arrangement according claim 9 , wherein the second shaft is more rigid in the area of the second radial bearing than in the area of the first radial sliding bearing. 11. The sliding bearing arrangement according to claim 8 , wherein the second radial bearing is a sliding bearing that comprises bearing pads, and the bearing pads are arranged in openings in the first shaft. 12. The sliding bearing arrangement according claim 1 , wherein at least one axial sliding bearing comprises bearing pads and the bearing pads are arranged in openings in the collar structure of the first shaft. 13. The sliding bearing arrangement according to claim 1 , wherein the second shaft is at least partially arranged radially inward of the first shaft, and the collar connected to the first shaft extends from the first shaft radially inward in the direction to the center axis of the first shaft. 14. The sliding bearing arrangement according to claim 1 , wherein at least one opening in the collar of the first shaft comprises a liquid tight cover. 15. A method for exchanging a bearing pad of a sliding bearing arrangement of a wind turbine, wherein the sliding bearing arrangement comprises a first shaft and a second shaft, wherein the first shaft and the second shaft are arranged coaxially to each other, and one of the first shaft and the second shaft is rotatable with respect to the other shaft around a common axis of rotation, wherein a first radial sliding bearing is arranged between the first shaft and the second shaft to support the rotatable shaft by the stationary shaft, wherein the first radial sliding bearing comprises bearing pads, wherein the first shaft comprises a collar, wherein the collar is arranged mainly perpendicular to the common axis of rotation, and radially overlaps at least a part of a radial surface of the second shaft, wherein the collar comprises a first axial sliding bearing to support axial loads between the first shaft and the second shaft, wherein the collar is connected to the first shaft at a first radial position of the collar, and the first axial sliding bearing is connected to the collar at a second radial position of the collar, wherein the collar comprises an opening in an area between the first radial position and the second radial position, the method comprising the step of: exchanging a bearing pad of the first radial sliding bearing through the opening in the collar of the first shaft.