Plain bearing arrangement

The invention claimed is: 1. A sliding bearing comprising: an inner ring element; an outer ring element; and at least one sliding bearing element, which is arranged between the inner ring element and the outer ring element; wherein the at least one sliding bearing element has multiple sliding bearing pads; wherein the individual sliding bearing pads each have a bearing surface, which is formed in the shape of a spherical cap; wherein the individual sliding bearing pads each have a fastening profile opposite the bearing surface, and wherein the inner ring element has receiving profiles on a radial outside of the inner ring element, wherein the receiving profiles serve as a positive locking connection between the sliding bearing pads and the inner ring element; a fastener arranged between each sliding bearing pad and the inner ring element, wherein each fastener is coupled to the respective fastening profile and the respective receiving profile; and wherein each fastener comprises: a main body and at least a first clamping wedge, which has a wedge surface, which cooperates with a first counter wedge surface formed in the main body and tapering in an axial direction, wherein the first clamping wedge can be displaced in the axial direction relative to the main body by a first positioning means comprising a thread element. 2. The sliding bearing according to claim 1 , wherein each fastener has a first profile element, which is coupled to the respective fastening profile on a first side, and has a second profile element on a second side, which is coupled to the respective receiving profile. 3. The sliding bearing according to claim 2 , wherein each fastening profile and the respective first profile element are formed as a dovetail connection and/or wherein each receiving profile and the respective second profile element are formed as a dovetail connection. 4. The sliding bearing according to claim 1 , wherein each fastener comprises: a second clamping wedge, which has a wedge surface, which cooperates with a second counter wedge surface formed in the main body and tapering in the axial direction, wherein the first counter wedge surface and the second counter wedge surface are formed to taper in opposite directions, wherein the second clamping wedge can be displaced in the axial direction by a second positioning means comprising a thread element. 5. The sliding bearing according to claim 4 , wherein the first positioning means and the second positioning means are formed on a common positioning rod, wherein the first positioning means has a right-handed thread and the second positioning means has a left-handed thread. 6. The sliding bearing according to claim 4 , wherein the first clamping wedge and/or the second clamping wedge extends into the respective fastening profile and into the respective receiving profile. 7. The sliding bearing according to claim 1 , wherein an axial stop for each sliding bearing pad is formed on the inner ring element in the region of the respective receiving profile. 8. The sliding bearing according to claim 7 , further comprising a fastening element configured to press each sliding bearing pad against the respective axial stop in the axial direction. 9. A method for replacing a sliding bearing pad in the sliding bearing according to claim 2 , comprising the method steps: releasing one of the fasteners by axially displacing the first and second profile elements; pulling the one of the fasteners of the relevant sliding bearing pad axially out of an intermediate space between the inner ring element and the relevant sliding bearing pad; removing the relevant sliding bearing pad by radially displacing the relevant sliding bearing pad inwards and subsequently pulling the relevant sliding bearing pad axially out of the inner ring element; inserting a new sliding bearing pad by axially inserting the new sliding bearing pad and subsequently displacing the new sliding bearing pad radially outwards; pushing the one of the fasteners axially into the intermediate space, wherein the new sliding bearing pad is coupled to the inner ring element by the one of the fasteners; and fixing the new sliding bearing pad by axially displacing the first and second profile elements. 10. A nacelle for a wind turbine, the nacelle comprising: a nacelle housing; a rotor hub; and a rotor bearing for bearing the rotor hub on the nacelle housing; wherein the rotor bearing comprises a sliding bearing comprising: an inner ring element; an outer ring element comprising a counterface being a hard, wear-resistant surface; and at least one sliding bearing element, which is arranged between the inner ring element and the outer ring element; wherein the at least one sliding bearing element has multiple sliding bearing pads; wherein the individual sliding bearing pads each have a bearing surface, which is formed in the shape of a spherical cap, wherein the bearing surface of each sliding bearing pad and the counterface of the outer ring element slide on one another during rotation of the rotor hub; and wherein the bearing surface of each sliding bearing pad is formed of a sliding bearing material which is soft in comparison to the counterface. 11. A wind turbine having a nacelle, the nacelle comprising: a nacelle housing; and a rotor hub with rotor blades arranged thereon; a rotor bearing for bearing the rotor hub on the nacelle housing; wherein the rotor bearing comprises a sliding bearing comprising: an inner ring element; an outer ring element comprising a counterface being a hard, wear-resistant surface; and at least one sliding bearing element, which is arranged between the inner ring element and the outer ring element; wherein the at least one sliding bearing element has multiple sliding bearing pads; wherein the individual sliding bearing pads each have a bearing surface, which is formed in the shape of a spherical cap, wherein the bearing surface of each sliding bearing pad and the counterface of the outer ring element slide on one another during rotation of the rotor hub; and wherein the bearing surface of each sliding bearing pad is formed of a sliding bearing material which is soft in comparison to the counterface. 12. A sliding bearing comprising: an inner ring element; an outer ring element; and at least one sliding bearing element, which is arranged between the Inner ring element and the outer ring element; wherein the at least one sliding bearing element has multiple sliding bearing pads; wherein the individual sliding bearing pads each have a bearing surface, which is formed in the shape of a spherical cap; and wherein the individual sliding bearing pads each have a fastening profile opposite the bearing surface, and wherein the inner ring element has receiving profiles on a radial outside of the inner ring element, wherein the receiving profiles serve as a positive locking connection between the sliding bearing pads and the inner ring element; a fastener arranged between each sliding bearing pad and the inner ring element, wherein each fastener is coupled to the respective fastening profile and the respective receiving profile; wherein each fastener has a first profile element, which is coupled to the respective fastening profile on a first side, and has a second profile element on a second side, which is coupled to the respective receiving profile; and wherein each fastening profile and the respective first profile element are formed as a dovetail connection and/or wherein each receiving profile and the respective second profile element are formed as a dovetail connection.