The object of the present invention is to fix the thermoplastic ink in powder state used to print digital images by means of an electrographic laser motor on self-adhesive web media such as self-adhesive paper webs, self-adhesive film webs such as polypropylenes, polyethylenes, polyesters, and vinyls, with different thicknesses and finishes, allowing work to be stopped between one production batch and another and/or stops for self-calibration of the print motor without changing the self-adhesive media, preventing problems due to overheating of the printout. The apparatus according to the present invention makes it possible to enhance the fixed prints with a glossy, matt, or holographed finish, without the need for subsequent treatment and/or the use of chemical materials afterwards, offering greater flexibility and economy at work.

Examples disclosed herein relate to application of a coating fluid. Examples include an apparatus including a first coating applicator to apply a coating fluid to a plurality of first rollers; a first transfer roller in contact with the plurality of first rollers to receive coating fluid; and a media path to apply coating fluid from the first transfer roller to a first side of a media, wherein the plurality of first rollers are shorter than the first transfer roller and are individually movable along its longitudinal axes such that they may positioned to apply a variable width of coating fluid onto the first transfer roller.

A printing press for printing a heat seal film for packaging comprises at least two receivers, a first printer and a laminator, wherein, in use, a first receiver is capable of receiving a sealing layer and a second receiver is capable of receiving a printing layer, wherein the printer prints onto the sealing layer to provide a printed sealing layer and simultaneously the laminator laminates the printed sealing layer together with the printing layer.

A printing press for printing a heat seal film for packaging comprises at least two receivers, a first printer and a laminator, wherein, in use, a first receiver is capable of receiving a sealing layer and a second receiver is capable of receiving a printing layer, wherein the printer prints onto the sealing layer to provide a printed sealing layer and simultaneously the laminator laminates the printed sealing layer together with the printing layer.

The apparatus and methods of the present disclosure relate to devices comprising spinning magnets driven by electric motors for use with printing or coating equipment. These devices and methods are for orienting magnetic or magnetisable pigment particles in an unhardened coating composition on a substrate. Specifically, these devices and methods are for producing optical effect layers. The apparatus comprises a holder, onto which is mounted a motor and a permanent magnet assembly. The motor is configured to spin the permanent magnet assembly. The holder is configured to be removably fixed to a base of a rotating magnetic cylinder (RMC) or a flatbed printing unit.

A device and a method for the decoration of objects to be decorated, wherein the object is held by a holding device. In a first step decorative material is applied to a transfer medium by a printing device. In a second step adhesive is applied to the transfer medium provided with the decorative material or to the object, and in a third step the transfer medium is pressed onto the object by a pressing device and at the same time the adhesive is cured by a curing device.

Apparatus to apply a fluid to a substrate, the apparatus includes a first roller to rotate about an axis and apply a fluid to a first side of the substrate. The first roller includes an outlet to provide gas to the substrate to guide the movement of the substrate subsequent to the application of fluid to the substrate.

The invention relates to a method of producing three-dimensional structural surfaces based on synthetic resin-impregnated materials applied to the surface, in particular of wood-based panels. The method is characterized in that before the impregnation, at the stage of pattern printing, a mixture is applied to the decor paper, consisting of printing ink, whether with pigment or not, and a swelling agent in the form of microspheres, being encapsulated gas bubbles of sizes ranging from 2 pm to 180 pm, increasing its volume under the influence of rising temperature, wherein the mixture of the ink and the swelling agent contains from 0.3% to 45% by weight of the swelling agent, and after exiting the printing press and after the impregnation, the decor paper with the formed final pattern with a coded three-dimensional structure is pressed onto the surface, in particular of a wood-based panel, using a heated press plate with any working surface.

A printing technique is presented for efficiently printing (i.e. with production lines rates at high resolution and high accuracy) on outer surfaces of a plurality of objects passing in an optimized stream through a printing route/zone. According to this technique, at least one array of printing head units is provided being configured to define at least one printing route along a printing axis, where the at least one printing route is a substantially linear segment of a closed loop lane along which the objects are progressing.

The invention discloses circulating feeding printer combining screen printing and digital ink jetting, comprising: a rack, the rack includes an upper rack layer and a lower rack layer, the two layers are respectively provided with a transmission platen capable of moving relative to the rack, each transmission platen is provided with a movable printing platen bearing a print medium capable of sliding relative to the transmission platen, a locking device locking the movable printing platen and the transmission platen is arranged between them, platen transfer devices capable of transferring the movable printing platen onto the transmission platen at the different layer are disposed on the rack, separately located at two sides of the transmission platens, the rack is further provided with a screen printer and an inkjet printer used for printing separately. The present invention prints high quality products, occupies small area, has high production efficiency and automation grade.