The present disclosure relates to an apparatus for flexographic printing of a web of packaging material with printing ink and an inlet module for a flexographic printing apparatus. The apparatus may include an ink pan or chamber, and an anilox roll rotary at least partly inside the ink chamber for picking up and transferring printing ink from the ink chamber to an impression cylinder which is rotary in transfer contact with the anilox roll. The ink chamber may be elongated and extend axially along the anilox roll, the ink chamber having a first axial end and a second axial end opposite the first axial end. The apparatus may further include a first printing ink inlet arranged at the first axial end and a second printing ink inlet arranged at the second axial end.

The present disclosure relates to an apparatus for flexographic printing of a web of packaging material with printing ink and an inlet module for a flexographic printing apparatus. The apparatus may include an ink pan or chamber, and an anilox roll rotary at least partly inside the ink chamber for picking up and transferring printing ink from the ink chamber to an impression cylinder which is rotary in transfer contact with the anilox roll. The ink chamber may be elongated and extend axially along the anilox roll, the ink chamber having a first axial end and a second axial end opposite the first axial end. The apparatus may further include a first printing ink inlet arranged at the first axial end and a second printing ink inlet arranged at the second axial end.

A method is provided for automatically exchanging a sleeve (18a) of a printing tool (14, 16, 18, 22, 24) mounted in a printing machine (12), in particular a flexographic printing machine, by means of a printing tool handling unit (28) comprising a coupling interface (36). In one step of the method the printing tool handling unit (28) is temporarily coupled to a coupling interface (46) located at the end of a shaft (54, 56, 58, 60) of the printing tool (14, 16, 18, 22, 24) with its coupling interface (36). In a further step, the printing tool handling unit (28) transports the printing tool (14, 16, 18, 22, 24) to a separation unit (78) comprising at least one clamping device (80, 82, 84) and places the printing tool (14, 16, 18, 22, 24) in the clamping device (80) of the separation unit (78). The printing tool (14, 16, 18, 22, 24), in particular a sleeve (18a) of the printing tool (14, 16, 18, 22, 24), is clamped by the clamping device (80), and the printing tool handling unit (28) separates the shaft (54, 56, 58, 60) from the sleeve (18a) by pulling the shaft (54, 56, 58, 60) out of the sleeve (18a) while the sleeve (18a) is clamped in the clamping device (80).

A printing roller for a printing machine, e.g., for a flexographic printing machine, wherein the printing roller includes a rotary and longitudinal axis and an external surface, the external surface being substantially cylindrical and adapted for mounting a plate. The new feature of a printing roller according to the invention is that the external cylindrical surface includes at least one longitudinal groove, where the at least one longitudinal groove includes a geometry with one or more surfaces, the surface or surfaces lying within a circumscribed cylindrical surface for the external surface of the printing roller. In other words, this means that the longitudinal groove or grooves are cutouts in the form of milled or ground grooves in the external cylindrical surface itself on a printing roller.

The invention provides for the use of pharmaceutical compositions comprising a thiazolide in the stimulation of the immune system in a subject in need thereof, thereby preventing and/or treating viral diseases, cancer and diseases caused by intracellular protozoan infections

The invention provides for the use of pharmaceutical compositions comprising a thiazolide in the stimulation of the immune system in a subject in need thereof, thereby preventing and/or treating viral diseases, cancer and diseases caused by intracellular protozoan infections

A processing unit for rotational processing includes at least two processing cylinders and a machine frame. A first processing cylinder is movably mounted in the machine frame, a second processing cylinder is stationarily mounted in the machine frame and a pair of support members is provided for each respective processing cylinder. A respective support member of the second processing cylinder has a solid joint, a manipulator and an annular segment attached to the solid joint and contacting one support member of the first processing cylinder. A solid joint is linearly displaceable by the manipulator and an annular segment is linearly displaceable therewith. A gap dimension between the processing cylinders can therefore be adjusted in a simple, accurate manner with precise repeatability. A label printing machine having the processing unit is also provided.

A processing unit for rotational processing includes at least two processing cylinders and a machine frame. A first processing cylinder is movably mounted in the machine frame, a second processing cylinder is stationarily mounted in the machine frame and a pair of support members is provided for each respective processing cylinder. A respective support member of the second processing cylinder has a solid joint, a manipulator and an annular segment attached to the solid joint and contacting one support member of the first processing cylinder. A solid joint is linearly displaceable by the manipulator and an annular segment is linearly displaceable therewith. A gap dimension between the processing cylinders can therefore be adjusted in a simple, accurate manner with precise repeatability. A label printing machine having the processing unit is also provided.

Examples include a printing machine for producing a security document. The printing machine includes an impression cylinder for guiding a substrate of the security document and a transfer cylinder cooperating with the impression cylinder at a transfer point for printing a print image onto the substrate. The substrate includes a transparent window with a micro-optical structure composed of microlenses disposed on one side of the substrate in the region of the transparent window and opposite to the side of the substrate with the print image. A printing device applies a layer that covers the print image and is of a lighter hue than a hue of the print image. The impression cylinder includes an embossing device around a circumference thereof. The embossing device creates the micro-optical structure of the microlenses during rotation of the impression cylinder on the substrate in a contactless manner by molding using an injection embossing method.

Examples include a printing machine for producing a security document. The printing machine includes an impression cylinder for guiding a substrate of the security document and a transfer cylinder cooperating with the impression cylinder at a transfer point for printing a print image onto the substrate. The substrate includes a transparent window with a micro-optical structure composed of microlenses disposed on one side of the substrate in the region of the transparent window and opposite to the side of the substrate with the print image. A printing device applies a layer that covers the print image and is of a lighter hue than a hue of the print image. The impression cylinder includes an embossing device around a circumference thereof. The embossing device creates the micro-optical structure of the microlenses during rotation of the impression cylinder on the substrate in a contactless manner by molding using an injection embossing method.