Rotors for long-stator linear motor systems, having a low-wear mounting arrangement

The invention claimed is: 1. A rotor for a long-stator linear motor system, comprising: at least two rollers for mounting the rotor on parallel guide rails of the long-stator linear motor system, wherein at least one of a) at least one pair of rollers of the at least two rollers is rotatably mounted to at least one rotatable bolster of the rotor, or b) at least one roller of the at least one pair of rollers comprises a steering rotational axis with an integrated castor; wherein the at least one roller is mounted on a roller axle by means of a bolt, via at least one of an asymmetric bore or a sloping bore; and wherein the at least one roller further comprises a pendulum ring mounted on the bolt, the pendulum ring having an external ball or slide bearing. 2. The rotor according to claim 1 , further comprising: the at least one rotatable bolster; and at least one guide element which can be displaced perpendicular to a direction of travel or pivoted in a guide plane, wherein the at least one guide element is designed to maintain a constant distance from a guide rail or a control cam in engagement with the long-stator linear motor system; wherein the at least one rotatable bolster is connected to the at least one guide element in such a way that a displacement of the at least one guide element perpendicular to the direction of travel or a pivoting of the at least one guide element in the guide plane causes a change in a rotary position of the at least one rotatable bolster. 3. The rotor according to claim 2 , wherein the at least one guide element comprises a guide roller, a sliding shoe or a guide pin. 4. The rotor according to claim 2 , wherein the at least one rotatable bolster is connected to the at least one guide element via at least one connecting element, wherein the at least one connecting element is designed such that displacement of the at least one guide element during cornering toward an outside of a curve causes an alignment of the at least one rotatable bolster towards a curve radius. 5. The rotor according to claim 4 , wherein the at least one rotatable bolster comprises two rotatable bolsters, wherein the at least one connecting element comprises an elastic rail or rod connecting the two rotatable bolsters together, wherein the elastic rail or rod is connected to the at least one guide element such that displacement of the at least one guide element causes an elastic deformation of the elastic rail or rod. 6. The rotor according to claim 4 , wherein the at least one rotatable bolster comprises two rotatable bolsters, wherein the at least one connecting element comprises a rigid slide which interconnects the two rotatable bolsters in a positive manner, wherein the rigid slide is connected to the at least one guide element in such a way that a displacement of the at least one guide element causes a displacement of the rigid slide perpendicular to the direction of travel. 7. The rotor according to claim 6 , wherein a relative position of a positive connection between the at least one rotatable bolster and a center of the rigid slide is selected such that a virtual axis connecting the pair of rollers is aligned in a direction of a curve radius of a curve with a predetermined curvature. 8. The rotor according to claim 1 , wherein the at least two rollers have a concave roll-off profile configured such that the at least two rollers roll in a laterally stable manner on a surface of the parallel guide rails. 9. The rotor according to claim 1 , wherein the roller axle of the at least one roller is arranged parallel or obliquely to a plane of movement of the rotor. 10. The rotor according to claim 1 , wherein the at least one roller further comprises an outer ring mounted on the external ball or slide bearing. 11. The rotor according to claim 1 , wherein the bolt is non-rotatably connected to the roller axle and the pendulum ring is rotatably mounted on the bolt. 12. The rotor according to claim 1 , wherein the pendulum ring is non-rotatably connected to the bolt and the bolt is rotatably mounted on the roller axle. 13. The rotor according to claim 1 , wherein an inner diameter of the pendulum ring is greater than a diameter of the roller axle by a predetermined amount, so that an annular gap is formed between the roller axle and the pendulum ring. 14. The rotor according to claim 13 , wherein the pendulum ring is spaced from the roller axle by means of one or more spacer elements, by at least one of a) formation of the bolt as a stepped bolt, b) press fitting to the bolt, or c) adhesive bonding to the bolt. 15. The rotor according to claim 1 , wherein the pendulum ring comprises recesses on an inside of the pendulum ring that permit oscillation about the roller axle. 16. A long-stator linear motor system, comprising: a plurality of rotors, at least one rotor of the plurality of rotors comprising: at least two rollers for mounting the at least one rotor on parallel guide rails of the long-stator linear motor system, wherein at least one of a) at least one pair of rollers of the at least two rollers is rotatably mounted to at least one rotatable bolster of the rotor, or b) at least one roller of the at least one pair of rollers comprises a steering rotational axis with an integrated castor; wherein the at least one roller is mounted on a roller axle by means of a bolt, via at least one of an asymmetric bore or a sloping bore; and wherein the at least one roller further comprises a pendulum ring mounted on the bolt, the pendulum ring having an external ball or slide bearing; a transport path having at least two parallel guide rails on which the plurality of rotors are movably mounted, wherein a respective first roller of the pair of rollers of the at least one rotor is mounted on a first one of the at least two guide parallel rails and a respective second roller of the pair of rollers of the at least one rotor is mounted on a second one of the at least two parallel guide rails; wherein the transport path comprises at least one of a) at least one straight piece and at least one curved piece or b) curved pieces with different radii of curvature. 17. The long-stator linear motor system of claim 16 , wherein the at least one rotor further comprises: the at least one rotatable bolster; and at least one guide element which can be displaced perpendicular to a direction of travel or pivoted in a guide plane, wherein the at least one guide element is designed to maintain a constant distance from a guide rail or a control cam in engagement with the long-stator linear motor system; wherein the at least one rotatable bolster is connected to the at least one guide element in such a way that a displacement of the at least one guide element perpendicular to the direction of travel or a pivoting of the at least one guide element in the guide plane causes a change in a rotary position of the at least one rotatable bolster. 18. The long-stator linear motor system of claim 17 , wherein the at least one rotatable bolster is connected to the at least one guide element via at least one connecting element, wherein the at least one connecting element is designed such that displacement of the at least one guide element during cornering toward an outside of a curve causes an alignment of the at least one rotatable bolster towards a curve radius. 19. The long-stator linear motor system of claim 18 , wherein the at least one rotatable bolster comprises two rotatable bolsters, wherein the at least one connecting element comprises an elastic rail or rod connec