Rotary press

What is claimed is: 1. A rotary press, comprising: a press frame; a rotor arranged on the press frame for rotational movement, the rotor having: a die plate; an upper punch receiver for receiving upper punches; a lower punch receiver for receiving lower punches; an upper cam for carrying upper cam elements for guiding the upper punches; a lower cam for carrying lower cam elements for guiding the lower punches; at least one drive; an upper pressing station having an upper pressing roller; a lower pressing station having a lower pressing roller; and coupling means for coupling a respective drive of the at least one drive to the rotor in such a manner that, with a movement of the at least one drive, the rotor is raised out of an operating position for producing pressing, and into a removal position, wherein the rotor is removable from the removal position out of the press frame in a lateral direction relative to a mounting surface of the press frame, wherein the coupling means for a first drive of the at least one drive comprises at least one tractive element, each tractive element attached on one side to a fork plate supporting the upper pressing roller of the upper pressing station, and attached on another side to the rotor. 2. The rotary press according to claim 1 , wherein the at least one drive is at least one dosing station drive that adjusts a height of at least one dosing station in which material to be pressed is filled into receivers in the die plate. 3. The rotary press according to claim 1 , wherein each drive of the at least one drive is a pressing station drive that adjusts a height of one of the upper pressing station or the lower pressing station. 4. The rotary press according to claim 1 , wherein: each tractive element is attached at a support attachment piece arranged at the upper cam; and in the removal position of the rotor, a removal arm of a removal device engages at the support attachment piece for removal of the rotor out of the press frame. 5. The rotary press according to claim 1 , wherein each tractive element is releasably attached to at least one of the upper pressing station or the rotor. 6. The rotary press according to claim 1 , wherein each tractive element is a pull rod. 7. The rotary press according to claim 3 , wherein the coupling means for a second drive of the at least one drive comprises at least one push element, each push element attached on one side to a fork plate supporting the lower pressing roller of the lower pressing station, and attached on another side to the rotor. 8. The rotary press according to claim 7 , wherein each push element is a push bracket. 9. The rotary press according to claim 7 , wherein each push element is releasably attached to at least one of the lower pressing station or the rotor. 10. The rotary press according to claim 3 , further comprising: a rotor shaft coupled to the rotor, wherein the coupling means of a second drive of the at least one drive comprises: a lifting collar mounted rotatably surrounding the rotor shaft and resting against the rotor; and at least one engagement element, each of which is brought selectively into and out of engagement with the lower pressing station through rotation of the lifting collar, wherein with an engagement between the lower pressing station and the at least one engagement element, the lifting collar and the rotor are raised by an upward movement of the lower pressing station. 11. The rotary press according to claim 3 , wherein the coupling means of a second drive of the at least one drive comprises: a rotatably mounted lift ring; and at least one engagement element on the rotatably mounted lift ring that is brought selectively into and out of engagement with the rotor through rotation of the rotatably mounted lift ring, wherein with engagement between the rotor and the at least one engagement element, the lift ring and the rotor are raised by a movement of the lower pressing station. 12. The rotary press according to claim 11 , wherein the coupling means of a third drive of the at least one drive comprises at least one lift lever, each lift lever coupled on one side to at least one lower pressing station drive that adjusts the height of the lower pressing station and on another side to the rotor, wherein the rotor, with a downward movement of the lower pressing station by the at least one lower press station drive, is raised by the at least one lift lever. 13. The rotary press according to claim 12 , wherein each lift lever is coupled to the rotor via at least one element, engaging at the rotor. 14. The rotary press according to claim 3 , wherein each pressing station drive is a spindle drive. 15. The rotary press according to claim 12 , wherein one of a spindle or a spindle nut of the lower pressing station drive is coupled to the at least one lift lever. 16. The rotary press according to claim 3 , wherein the coupling means of a second drive of the at least one drive comprises at least one lift lever coupled on one side to at least one lower pressing station drive that adjusts the height of the lower pressing station and on another side to the rotor, wherein the rotor, with a downward movement of the lower pressing station by the at least one lower press station drive, is raised by the at least one lift lever.