Claims 1. A rotary tablet press comprising a housing, a rotary system constituted by a turret and a drive shaft arranged in the housing for rotation of the turret, the turret comprising a die table, and a number of punches being guided in the turret, and at least a cam for cooperation with the punches in order to effect axial displacement of the punches by rotation of the turret, whereby the turret is connectable to the drive shaft by means of a coupling comprising a first coupling part and a second coupling part, said first and second coupling parts being intercon-nectable by means of clamping elements engageable between the coupling - parts by means of at least one fluid-driven actuator situated in the rotary system. 2. A rotary tablet press according to claim 1, wherein the first coupling part comprises a mandrel extending axially therefrom, and the clamping elements are arranged in a cavity in the second coupling part so that they are displaceable to grip around the mandrel. 3. A rotary tablet press according to claim 2, wherein the gripping operation of the clamping elements is activated by displacement of an actuator spindle, which is driven by means of an actuator piston. 4. A rotary tablet press according to claim 3, wherein the clamping elements are located around the actuator spindle in a bore in the second coupling part, and each clamping element has a first end with an inward projection arranged in a peripheral groove of the actuator spindle and a second end with an inward oblique face and an outward projection with an abutment, whereby, in a retracted position of the actuator spindle, the oblique face may abut a corre- sponding conical face of the mandrel and the abutment may abut a wall of the bore in the second coupling part so that the mandrel is fixed centrally in the second coupling part, and whereby, in an advanced position of the actuator spindle, the outward projection of the clamping element may be received in a recess in the wall of the bore so that the mandrel is released by the clamping elements. 5. A rotary tablet press according to claim 4, wherein the first end of the clamping elements is provided with an outward groove in which is located an elastic ring, such as an annular spring, in order to maintain the inward projection of the first end of the clamping elements in the peripheral groove of the actuator spindle. 6. A rotary tablet press according to claim 4, wherein the first coupling part is provided on the drive shaft and the second coupling part is provided on the turret, and the fluid-driven actuator is a pneumatic actuator arranged in the turret. 7. A rotary tablet press according to claim 1, wherein the first coupling part has a peripheral groove, and the second coupling part comprises a plurality of clamping elements, each clamping element being actuated by a separate fluid-driven actuator and having a gripper adapted to engage the peripheral groove of the first coupling part. 8. A rotary tablet press according to claim 1, wherein the coupling is constituted by a bayonet coupling, the clamping elements being integral parts of bayonet coupling parts. 9. A rotary tablet press according to claim 1, wherein the actuator is driven by means of pressurized fluid supplied from the housing via tubing comprising a rotary coupling. 10. A rotary tablet press according to claim 1, wherein each coupling part is provided with a coaxially arranged toothed ring, said toothed rings being mutually engageable upon connection of the two coupling parts. 11. A method of mounting a turret of a rotary tablet press on a drive shaft of the press, the tablet press comprising a housing, a rotary system constituted by the turret and the drive shaft, the turret comprising a die table, and a number of punches being guided in the turret, and at least a cam for cooperation with the punches in order to effect axial displacement of the punches by rotation of the turret, whereby the turret is mounted on the drive shaft by means of a coupling comprising a first coupling part and a second coupling part, by interconnecting said first and second coupling parts by means of clamping elements and by engaging said clamping elements between the coupling parts by means of operating at least one fluid-driven actuator in the rotary system. 12. A method of mounting according to claim 11, whereby the operation of the fluid-driven actuator displaces an actuator spindle in a bore in the second coupling part from an advanced position to a retracted position, whereby the spindle displaces the clamping elements from a position, in which a mandrel extending axially from the first coupling part is releasable from the second coupling part, to a position, in which an oblique inward face of the clamping elements abuts a corresponding conical face of the mandrel and an outward abutment of the clamping elements abuts a wall of the bore in the second coupling part, whereby the mandrel is fixed centrally in the second coupling part.