Device for printing hollow bodies

The invention claimed is: 1. A device for printing hollow bodies, comprising a blanket cylinder ( 02 ), wherein a feed mechanism ( 12 ) for advancing the hollow bodies to the blanket cylinder ( 02 ) is provided, wherein the feed mechanism ( 12 ) is equipped with a clamping mandrel ( 13 ) driven rotationally by a drive, wherein one of the hollow bodies to be printed is arranged coaxially on the clamping mandrel ( 13 ), wherein the axial distance between the clamping mandrel ( 13 ) and the blanket cylinder ( 02 ) can be varied by way of an adjusting movement of the feed mechanism ( 12 ), wherein the feed mechanism ( 12 ) is configured as a system for feeding the hollow bodies, one at a time in succession, to the blanket cylinder ( 02 ), wherein the feed mechanism ( 12 ) has along its travel path (S) a plurality of different positions (A; B; C) each for the positioning of said hollow body to be printed, wherein each of these positions (A; B; C) is located at a different radial distance from the blanket cylinder ( 02 ), characterized in that the feed mechanism ( 12 ) is configured as a linear system for feeding the hollow bodies radially to the blanket cylinder ( 02 ), wherein the adjusting movement of this feed mechanism ( 12 ) is a linear adjusting movement, wherein the blanket cylinder ( 02 ) is equipped with a cam disk ( 21 ) having at least two curved sections ( 22 ; 23 ), wherein the printing region of the blanket cylinder ( 02 ) is defined by a first curved section ( 22 ) of the cam disk ( 21 ) and the non-printing region of the blanket cylinder ( 02 ) is defined by a second curved section ( 23 ) of the cam disk ( 21 ). 2. The device according to claim 1 , characterized in that the blanket cylinder ( 02 ) has at least one printing region and one non-printing region, one behind the other along its periphery, wherein the hollow body to be printed, arranged on the clamping mandrel ( 13 ), is located at its shortest distance from the blanket cylinder ( 02 ) only when said printing region of the rotating blanket cylinder ( 02 ) is facing the clamping mandrel ( 13 ). 3. The device according to claim 1 , characterized in that the relevant hollow body to be printed is held for only a certain processing time at each of the positions (A; B; C) along the travel path (S). 4. The device according to claim 1 , characterized in that the first position (A) of the feed mechanism ( 12 ), located the farthest from the blanket cylinder ( 02 ), is a loading position for loading the clamping mandrel ( 13 ) with the hollow body to be printed. 5. The device according to claim 1 , characterized in that a second position (B) of the feed mechanism ( 12 ), located closer to the blanket cylinder ( 02 ) than the first position (A), is a holding position, at which the hollow body to be printed, which is held by the clamping mandrel ( 13 ), is or at least can be brought to a certain rotational speed about its longitudinal axis by the rotational drive of the clamping mandrel ( 13 ). 6. The device according to claim 1 , characterized in that a third position (C) of the feed mechanism ( 12 ), which is the position closest to the blanket cylinder ( 02 ), is a printing position at which the rotating hollow body, held by the clamping mandrel ( 13 ), can be printed by means of the printing region of the rotating blanket cylinder ( 02 ). 7. The device according to claim 1 , characterized in that the travel path (S) between the different positions (A; B; C) that is or at least can be traversed by the feed mechanism ( 12 ) can be configured as bidirectional. 8. The device according to claim 1 , characterized in that the feed mechanism ( 12 ) has a roller ( 24 ) which rolls along the cam disk ( 21 ). 9. The device according to claim 8 , characterized in that the hollow body to be printed is located at the third position (C) closest to the blanket cylinder ( 02 ) as a result of the adjusting movement of the feed mechanism ( 12 ) only when the roller ( 24 ) of the feed mechanism ( 12 ) is positioned rolling along the first curved section ( 22 ) of the cam disk ( 21 ) which defines the printing region of the blanket cylinder ( 02 ). 10. The device according to claim 1 , characterized in that an impression cylinder ( 03 ) is provided, wherein the impression cylinder ( 03 ) is or at least can be thrown onto the blanket cylinder ( 02 ). 11. The device according to claim 10 , characterized in that the entire circumferential surface of the impression cylinder ( 03 ) is coated with a ceramic. 12. The device according to claim 10 , characterized in that an applicator device ( 14 ) for applying a solvent to the lateral surface of the impression cylinder ( 03 ) for the purpose of removing printing ink from the lateral surface of the impression cylinder ( 03 ), a doctor blade system ( 16 ) for removing the solvent and residual printing ink from the lateral surface of the impression cylinder ( 03 ), and a cleaning system ( 17 ) having a drying cloth ( 18 ) placed against the lateral surface of the impression cylinder ( 03 ) are each arranged on the impression cylinder ( 03 ), one behind the other in the direction of rotation thereof. 13. The device according to claim 1 , characterized in that the rotational speed of the clamping mandrel ( 13 ) is set as lower than the rotational speed of the blanket cylinder ( 02 ). 14. The device according to claim 1 , characterized in that on the periphery of the blanket cylinder ( 02 ), a plurality of blankets ( 09 ) are arranged one behind the other, wherein each blanket ( 09 ) forms a printing region of the blanket cylinder ( 02 ).