Engraver configured to be coupled to a heater piece of a hot foil stamping machine for decorating sides of plastic cards wherein the engraver is made of silicone and capable of being heated up and comprising a recess on its external face opposite to a foil of the hot foil stamping machine, in such a way that a cross-section of said engraver is a negative shape and size of a side of plastic cards, including rounded corners formed by said side and adjacent side, wherein engraver size is dependent on number of plastic cards and the engraver is capable of being heated up and is suitable for being coupled to the heater head piece of the hot foil stamping machine.

There is described a method of increasing the output of a transfer film (1) upon embossing, in particular hot embossing, wherein the transfer film (1) has a carrier film (1a) and a transfer layer portion (1b) which is releasable from the carrier film (1a). During a first embossing operation first regions (10) of the transfer layer portion (1b) which are arranged removed from each other at a spacing a are transferred by means of a first embossing tool from the transfer film (1) onto at least one substrate (2), wherein first openings (10a) are produced at the spacing a in the transfer layer portion (1b) of the transfer film (1). After the first embossing operation the transfer film (1) is wound up after the first embossing operation and fed to at least a further embossing operation.

A device for processing substrates uses a separation system. Processed substrates can be separated into one or more waste parts and at least one blank. Improved flexibility for treating substrates is provided. The separation system comprises a transport cylinder and a stripping cylinder associated therewith. The transport cylinder has first openings and has a detachably secured packing having depressions in which perforations are formed, with at least one perforation covering at least one first opening. The stripping cylinder has a detachably secured packing having raised areas that correspond to the depressions.

According to one aspect of the present invention, when there is no leaf object striding over a boundary of two leaf rolls in a leaf image, a leaf image generating section performs processing for dividing first leaf image in first print data for leaves and a second leaf image of second print data for leaves at the boundary, replacing one of divided leaf images with one of other divided leaf images that hold the boundary between the first leaf image and the second leaf image to generate a first combined-leaves image and a second combined-leaves image, and rotating the second combined-leaves image at a predetermined angle.

A method for applying a transfer ply of a foil to a substrate, with the steps of: a) regionally applying a radically curable adhesive to the transfer ply and/or the substrate by means of an inkjet printhead; b) precuring the adhesive by UV irradiation; c) applying the transfer ply to the substrate by means of a stamping apparatus; d) fully curing the adhesive by UV irradiation; e) peeling a carrier ply of the foil, to leave at least one first subregion of the transfer ply on an application region of the substrate, and at least one second subregion of the transfer ply on the carrier ply; f) winding up or recoiling the carrier ply with the remaining second subregion of the transfer ply; g) applying at least one further subregion of the transfer ply remaining on the carrier ply to the substrate by at least once repeating steps a) to f).

The invention relates to an apparatus (10, 80) and method (160) for cutting, printing or embossing a continuous sheet (26) of material. The apparatus (10, 80) comprising a tool element (12), at least two anvils 14, 16 which are co-operable with the tool element (12), and a phase adjustment device (24). The tool element (12) is configured to have a constant surface speed during operation of the apparatus (10, 80). The apparatus (10, 80) is adapted to receive the continuous sheet (26) at a constant speed into the apparatus (10, 80), and being adapted to output the continuous sheet (26) at a constant speed from the apparatus (10, 80). The phase adjustment device (24) is operable to adjust a speed of the continuous sheet (26) within the apparatus (10, 80) in order to adjust a phase of alternate parts of the continuous sheet (26) to be cut, printed or embossed by each anvil (14, 16) as it co-operates with the tool element (12).

A process for providing indicia and an elastic-like behavior to a web substrate is disclosed. The process comprises the steps of: providing a web substrate; printing indicia on the web substrate; and, providing the web substrate with a plurality of first regions and a plurality of second regions comprising the same material composition. A portion of the first regions extend in a first direction while the remainder of the first regions extend in a second direction perpendicular to the first direction to intersect one another. The first regions form a boundary completely surrounding the second regions. The second regions comprise a plurality of raised rib-like elements. The first regions undergo a molecular level and geometric deformation and the second regions initially undergo a substantially geometric deformation when the web material is subjected to an applied elongation along at least one axis.

According to one aspect of the present invention, when there is no leaf object striding over a boundary of two leaf rolls in a leaf image, a leaf image generating section performs processing for dividing first leaf image in first print data for leaves and a second leaf image of second print data for leaves at the boundary, replacing one of divided leaf images with one of other divided leaf images that hold the boundary between the first leaf image and the second leaf image to generate a first combined-leaves image and a second combined-leaves image, and rotating the second combined-leaves image at a predetermined angle.

A foil stamping system includes a foil stamping apparatus capable of arranging and mounting a plurality of foil rolls about a direction orthogonal to a sheet feeding direction for forming a foil image by applying an adhesive on the sheet and stamping foil thereon, and a hardware processor, wherein the hardware processor includes: a foil roil information acquisitor that acquires foil roll information from the foil stamping apparatus; a job information acquisitor that receives and analyzes a job, and acquires job information; and an instructor that specifies a foil roll on the basis of the foil roll information and the job information transmits data for designating the region to be applied to the foil stamping apparatus, and instructs the foil stamping apparatus to perform foil stamping by the specified foil roll.

A hot-stamping device (1) is described, having a stamping device (2) for transferring a transfer layer (15u) disposed on a carrier layer (15t) of a hot-stamping foil (15) onto a substrate (14). The hot-stamping device comprises a heatable stamping roller (11) and a counter-pressure roller (12), between which a stamping gap (16) is realized, in which a stamped substrate (17) is realized, and comprising a separating device (3), disposed downstream, for separating the carrier layer (15t) from the stamped substrate (17). The separating device (3) has a separating element (20), which is realized as a bar-shaped hollow body, disposed on which there is a supply for a compressed gas (21). At least one longitudinal edge of the separating element (20) is realized as a perforated separating edge (20k) having outflow openings (20a) for the compressed gas (22), for the purpose of realizing a gas cushion between the carrier layer (15t) and the separating element (20). The separating edge (20k) is disposed transversely in relation to the running direction and parallelwise in relation to the top side of the coated substrate (17).