Machine arrangement with printing unit for the sequential processing of sheet-type substrates

The invention claimed is: 1. A machine arrangement for the sequential processing of sheet-type substrates having multiple different processing stations ( 01 ; 02 ; 03 ; 04 ; 06 ; 07 ; 08 ; 09 ; 11 ; 12 ), wherein two of the processing stations ( 01 ; 02 ; 03 ; 04 ; 06 ; 07 ; 08 ; 09 ; 11 ; 12 ) each have at least one non-impact printing unit ( 06 ; 37 ) for printing each of the substrates, wherein the relevant processing station that has the at least one non-impact printing unit ( 06 ; 37 ) has a printing cylinder ( 22 ; 38 ), wherein the respective non-impact printing unit ( 06 ; 37 ) is arranged on the periphery of the printing cylinder ( 22 ; 38 ) in each case, wherein each respective printing cylinder ( 22 ; 38 ) is configured as triple-sized or quadruple-sized, wherein each respective printing cylinder ( 22 ; 38 ) is configured as a suction cylinder, wherein the supply of suction air to the relevant printing cylinder ( 22 ; 38 ) is or at least can be switched on and off in each case dependent upon the angular position of said printing cylinder ( 22 ; 38 ), wherein each respective printing cylinder ( 22 ; 38 ) has multiple fields ( 51 ; 52 ; 53 ; 54 ) arranged one behind the other in the circumferential direction on its lateral surface, each for holding one substrate in each case, wherein a dryer ( 09 ) is located downstream of the first non-impact printing unit ( 06 ) in the direction of transport (T) of the substrates, wherein downstream of this dryer ( 09 ) in the direction of transport (T) of the substrates, a turning device ( 23 ) is provided, which enables the reverse side of the substrates to also be printed as the process progresses, wherein said turning device ( 23 ) is arranged between the processing station having the first non-impact printing unit ( 06 ) and the processing station having the second non-impact printing unit ( 37 ), in the direction of transport (T) of the substrates. 2. The machine arrangement according to claim 1 , characterized in that a double-sized or triple-sized transfer drum ( 43 ) or a corresponding feed cylinder ( 43 ) is located immediately upstream of the respective printing cylinder ( 22 ; 38 ) in each case, and/or in that a double-sized or triple-sized transfer drum ( 44 ) or a corresponding transport cylinder ( 44 ) is located immediately downstream of said printing cylinder. 3. The machine arrangement according to claim 2 , characterized in that the transfer drum ( 43 ) located immediately upstream of each respective printing cylinder ( 22 ; 38 ), or the feed cylinder ( 43 ) located immediately upstream in each case has multiple cylinder surfaces ( 29 ) that are adjustable in the circumferential direction, wherein the cylinder surfaces ( 29 ) of the transfer drum ( 43 ) located immediately upstream of the respective printing cylinder ( 22 ; 38 ) in each case or of the immediately upstream feed cylinder ( 43 ) are each mounted such that their position is adjustable. 4. The machine arrangement according to claim 2 , characterized in that the double-sized or triple-sized transfer drum ( 43 ; 44 ) or the corresponding feed cylinder ( 43 ) or the corresponding transport cylinder ( 44 ) are configured such that they can accommodate two or three substrates one behind the other on their respective periphery. 5. The machine arrangement according to claim 1 , characterized in that at the leading end of each field ( 51 ; 52 ; 53 ; 54 ) in the direction of rotation of the respective suction cylinder, grippers and/or suckers ( 58 ) are arranged in each case, and at the trailing end of each field ( 51 ; 52 ; 53 ; 54 ) in the direction of rotation of the respective suction cylinder, suckers ( 58 ) are arranged in each case. 6. The machine arrangement according to claim 1 , characterized in that with respect to the relevant printing cylinder ( 22 ; 38 ), the angular position of the trailing end of a first field ( 51 ; 52 ; 53 ; 54 ) relative to the leading end of a second field ( 51 ; 52 ; 53 ; 54 ) that immediately follows said first field ( 51 ; 52 ; 53 ; 54 ) in the direction of rotation of said printing cylinder ( 22 ; 38 ) is variably adjustable based upon the format of the substrate to be held in the first field ( 51 ; 52 ; 53 ; 54 ). 7. The machine arrangement according to claim 1 , characterized in that multiple channels ( 56 ), each terminating in one of the fields ( 51 ; 52 ; 53 ; 54 ), form a suction bore field in the respective field ( 51 ; 52 ; 53 ; 54 ) on the lateral surface of the relevant printing cylinder ( 22 ; 38 ), wherein the size of the respective suction bore field is or at least can be adjusted based upon the format of the substrate to be held. 8. The machine arrangement according to claim 1 , characterized in that in the fields ( 51 ; 52 ; 53 ; 54 ), fixed strips ( 59 ) extending in the circumferential direction are formed, on which a suctioned substrate can rest, wherein such a substrate is held on the lateral surface of the relevant suction cylinder by suction air acting between adjacent fixed strips ( 59 ). 9. The machine arrangement according to claim 1 , characterized in that at least or only at the leading end of each field ( 51 ; 52 ; 53 ; 54 ) in the direction of rotation of each respective printing cylinder ( 22 ; 38 ), a row of teeth ( 57 ) is provided, containing multiple teeth arranged adjacent to and spaced apart from one another in the axial direction of the respective printing cylinder ( 22 ; 38 ), wherein each tooth in the row of teeth ( 57 ) has at least one sucker ( 58 ). 10. The machine arrangement according to claim 1 , characterized in that a straight line that runs through the rotational axis of the printing cylinder ( 22 ; 38 ) and through the rotational axis of the transfer drum ( 44 ) located immediately downstream or through the rotational axis of the transport cylinder ( 44 ) located immediately downstream forms an acute angle (α 1 ) to a horizontal line, and/or in that a straight line that runs through the rotational axis of the printing cylinder ( 22 ; 38 ) and through the rotational axis of the transfer drum ( 43 ) located immediately upstream or through the rotational axis of the feed cylinder ( 43 ) located immediately upstream forms an acute angle (α 2 ) to a horizontal line, wherein in each case the horizontal line runs through the rotational axis of the relevant transfer drum ( 43 ; 44 ) or through the rotational axis of the relevant transport cylinder ( 44 ) or the rotational axis of the relevant feed cylinder ( 43 ). 11. The machine arrangement according to claim 10 , characterized in that the angle (α 1 ) directed toward the transfer drum ( 44 ) downstream or toward the transport cylinder ( 44 ) downstream measures between one and two times the angle (α 2 ) directed toward the transfer drum ( 43 ) upstream or toward the feed cylinder ( 43 ) upstream, or between 1.3 times and 1.7 times the angle (α 2 ) directed toward the transfer drum ( 43 ) upstream or toward the feed cylinder ( 43 ) upstream, or amounts to 1.5 times the angle (α 2 ) directed toward the transfer drum ( 43 ) upstream or toward the feed cylinder ( 43 ) upstream, and/or in that the angle (α 2 ) directed toward the transfer drum ( 43 ) upstream or toward the feed cylinder ( 43 ) upstream measures between 15° and 30° or between 20° and 25°, or measures 22.5°. 12. The machine arrangement according to claim 1 , characterized in that the respective triple-sized or quadruple-sized printing cylinder ( 22 ; 38 ) has at least enough holding elements on its periphery that three or four substrates are or at least can be arranged one behind the other on its periphery, each held in place in