Examples include a printing unit having a first tool-dependent printing nip formed by a pair of cooperating rotational bodies. The printing unit includes, along a transport path, downstream from the first tool-dependent printing nip, a first alignment cylinder and a first non-impact printing position to which at least one first print head is assigned. The printing unit further includes, along the transport path, downstream from the first non-impact printing position, a first curing device having a first curing area assigned thereto. The printing unit, downstream from the at least one first alignment cylinder, including at least one second alignment cylinder and a second non-impact printing position, to which a second print head is assigned. The printing unit, downstream from the second non-impact printing position, comprising a second curing device having a second curing area assigned thereto.

A printing press for security printing has an Orloff offset printing unit comprising a plurality of stencil cylinders which can be inked, in each case, by an associated inking unit, an ink-collecting cylinder which interacts with the plurality of stencil cylinders, an Orloff plate cylinder which interacts with the ink-collecting cylinder, a transfer cylinder which interacts with the Orloff plate cylinder, and an impression cylinder which forms a printing point with the transfer cylinder. At least the transfer cylinder which interacts with the Orloff plate cylinder in the thrown-on position is included by a first printing unit section and is mounted in or on a first part frame. The ink-collecting cylinder is included by a second printing unit section and is mounted in or on a second part frame which is different from the first part frame. The first and the second part frame can be moved optionally into a first relative position with respect to one another, which forms a working position, and into a second relative position with respect to one another which forms a maintenance position. In the maintenance position, a space is formed between the first and the second printing unit section and/or between the first and the second part frame, which space ensures direct access at least to the ink-collecting cylinder, to the Orloff plate cylinder and to the transfer cylinder which interacts with the Orloff plate cylinder. Moreover, the invention relates to a method for changing a printing forme and for starting production.

In an apparatus for manufacturing an LED reflective sheet, release paper adhesive printing grooves are integrally formed on both sides of a printing roller having pattern printing grooves formed therein along an outer circumference thereof, such that when printing a light-induced pattern on the reflective sheet through the printing roller, a release paper adhesive pattern is also printed, thus both ends of the release paper are adhered to the release paper adhesive pattern during attaching the release paper to the reflective sheet, and thereby preventing an occurrence of a lifting phenomenon between the release paper and the reflective sheet.

An apparatus is disclosed for printing images on generally cylindrical objects. The apparatus comprises an impression station that includes a movable imaging surface for bearing an ink image; and a transport mechanism for advancing the objects through the impression station, comprising a drive member rotatably connected to a plurality of rotatable mandrels, each for mounting a respective one of the objects, the transport mechanism being configured to cause each object to rotate during passage through the impression station such that, within a nip region of the impression station, the surface of the object makes rolling contact with the imaging surface, thereby causing the ink image to be impressed on the object. An impression platen is provided opposite the imaging surface within the nip region, the impression platen being configured to apply a force, directly or indirectly, to the objects to ensure rolling contact between the objects and the imaging surface.

A system including a non-contact plate sensor and a processor configured to characterize a configuration of a plate based upon information received from the sensor, such as position on a press or plate quality. The processor is configured to initiate a responsive action based upon the characterized configuration. A related method includes setting pressure of a printing plate relative to an ink-receiving substrate and register of a printing plate relative to another printing plate on a press, without generating printed waste. The non-contact plate sensor measures a distance of the printing surface of the plate relative to the sensor in locations along the plate longitudinal axis to characterize a starting configuration of the plate. The plate longitudinal axis is adjusted to correspond with a desired position of the plate for exerting a desired pressure on the substrate, based upon a difference between the measured starting position and the desired position.

The present invention relates to an inversion transfer module (60) for a converting machine having a printing module (16) comprising a first printing unit (17) arranged to print on a top side (S1) of the sheet (1), and a second printing unit (17) arranged to print a bottom side (S2) of the sheet. The inversion transfer module is arranged between the first printing unit and the second printing unit and comprises a first inversion vacuum transfer (62) arranged to contact the first side of the sheet and a second inversion vacuum transfer (64) configured to contact the second side of the sheet, whereby the inversion transfer module is configured to change the side of adherence and transportation of the sheet.

In an apparatus for manufacturing an LED reflective sheet, release paper adhesive printing grooves are integrally formed on both sides of a printing roller having pattern printing grooves formed therein along an outer circumference thereof, such that when printing a light-induced pattern on the reflective sheet through the printing roller, a release paper adhesive pattern is also printed, thus both ends of the release paper are adhered to the release paper adhesive pattern during attaching the release paper to the reflective sheet, and thereby preventing an occurrence of a lifting phenomenon between the release paper and the reflective sheet.