Rotary press and method for operating a rotary press

The invention claimed is: 1. A rotary press with a rotor, whereby the rotor comprises one upper and one lower punch guide and a die plate ( 12 ) arranged between the upper and lower punch guides, furthermore with upper and lower press punches ( 14 , 16 ) which interact with the die holes in the die plate ( 12 ), whereby the rotary press comprises several stations, comprising at least one filling station ( 18 , 66 ) in which material to be pressed is filled into the die holes, at least one dosing station ( 24 , 28 ), in which the material filled into the die holes is dosed, at least one pressing station ( 32 , 38 , 44 ), in which the material that has been dosed and filled into the die holes is pressed through the upper and lower press punches ( 14 , 16 ) into pressed pellets, and at least one ejector station ( 50 , 70 ) in which the pressed pellets are ejected, characterized in that at least one of the several stations can be moved from its operating position to a disengaged resting position while a production process of the rotary press to produce pellets remains in an active state with the remainder of the several stations in their respective operating positions, such that the at least one of the several remaining stations in its resting position does not affect the production process, and further wherein the rotary press has a driving gear with which the at least one of the several remaining stations can move automatically between its operating position and its resting position, and further characterized in that the rotary press has a housing in which the rotor and the stations are arranged, whereby the at least one station in the disengaged resting position and the remainder of the several stations in their respective operating positions in the active state remain inside the housing. 2. The rotary press according to claim 1 , characterized in that the rotary press has several filling stations ( 18 , 66 ) and/or several dosing stations ( 24 , 28 ) and/or several pressing stations ( 32 , 38 , 44 ), whereby several of the filling stations ( 18 , 66 ) and/or dosing stations ( 24 , 28 ) and/or pressing stations ( 32 , 38 , 44 ), wherein all of the filling stations ( 18 , 66 ) and/or dosing stations ( 24 , 28 ) and/or pressing stations ( 32 , 38 , 44 ) can be moved to the resting position. 3. The rotary press according to claim 1 , characterized in that the at least one station is further away from the die plate ( 12 ) in its resting position in the axial direction of the rotor than in its operating position. 4. The rotary press according to claim 1 , characterized in that the at least one pressing station ( 32 , 38 , 44 ) has a pressure roller ( 34 , 40 , 46 ) arranged above the die plate ( 12 ) and a pressure roller ( 36 , 42 , 48 ) arranged below the die plate ( 12 ), whereby the pressure rollers ( 34 , 36 , 40 , 42 , 46 , 48 ) can be moved from their operating position into a resting position in an axial direction of the rotor in which they are further away from the die plate ( 12 ) than in their operating position. 5. The rotary press according to claim 1 , characterized in that it has a locking device with which the at least one station can be locked in its resting position. 6. The rotary press according to claim 1 , characterized in that the rotor is accessible for installation and/or removal if at least one of the stations is in the resting position. 7. The rotary press according to claim 1 , characterized in that in the course of transferring the at least one station from its operating into a resting position, at least one cam element assigned to the station is substituted by at least one transitional cam element.