A label having a lens array, and methods and system for preparing such a label. The label includes at least one surface, a portion of which is embossed, and a lens array provided by the embossed portion of the at least one surface. The method includes applying a coating to a film, and embossing a portion of the coating to provide a lens array. And the system includes an embossing apparatus associated with a printing apparatus.

Apparatus for picking a garment having a front and a back and placing the garment over a pallet such that the front and the back of the garment are on the front and the back sides respectively of the pallet. The apparatus comprises a picking arm to approach the garment and then withdraw towards the pallet; and one or more adherence locations on the picking arm, the adherence location being smaller than the first side, the adherence location for contacting the garment and causing adherence of the garment at the contact location, thereby causing the picking arm to pull the front of the garment over the front of the pallet, the back of the garment sliding under the first side onto the back of the pallet. Adherence may involve freezing.

Apparatus for picking a garment having a front and a back and placing the garment over a pallet such that the front and the back of the garment are on the front and the back sides respectively of the pallet. The apparatus comprises a picking arm to approach the garment and then withdraw towards the pallet; and one or more adherence locations on the picking arm, the adherence location being smaller than the first side, the adherence location for contacting the garment using sticky material and causing adherence of the garment via the sticky material at the contact location, thereby causing the picking arm to pull the front of the garment over the front of the pallet, the back of the garment sliding under the first side onto the back of the pallet.

A method and equipment to form a digital print by applying dry colourants on a surface of a panel, bonding a part of the colourants with a binder and removing the non-bonded colourants from the surface. The method of forming a digital print on a surface of a panel includes displacing the panel under a digital drop application head, applying a liquid binder with the digital drop application head on the surface; applying colourants on the liquid binder and the surface; bonding a part of the colourants to the surface with the liquid binder; removing non-bonded colourants from the surface such that a digital print is formed by the bonded colourants; and applying heat and pressure on the panel, the surface and the bonded colorants such that the colourants are permanently bonded to the surface.

A machine arrangement sequentially processes sheet-like substrates with multiple different processing stations each having a substrate-guiding unit and a substrate-processing unit. At least one of the processing stations has, as a substrate-processing unit, at least one non-impact printing device which prints on the substrate. The processing station with the at least one non-impact printing device has a printing cylinder. Each non-impact printing device is arranged at the circumference of the printing cylinder. The printing cylinder is triple-sized or quadruple-sized. A double-sized or a triple-sized transfer drum, or a corresponding feed cylinder, is arranged directly upstream of this printing cylinder. Alternatively, a double-sized or a triple-sized transfer drum, or a corresponding transfer cylinder, is arranged directly downstream of this printing cylinder.

A self-propelled module for oversize loads includes two ground movement assemblies with oil-pressure controlled actuation; a transverse rocker arranged between the movement assemblies, which are coupled thereto independently; oil-pressure controlled suspension elements, arranged on corresponding oscillating supports coupled to the transverse rocker; and a load-bearing frame, supported by the oil-pressure controlled suspension elements. The load-bearing frame includes an oil-pressure controlled circuit adapted to serve the ground movement assemblies and the suspension means elements. The module further includes a rotary distribution unit, having a vertical axis, mounted on the load-bearing frame for supplying the ground movement assemblies and the oil-pressure controlled suspension elements, a first part of the rotary distribution unit being fixed to the load-bearing frame, and a second part being free to rotate about the vertical of the resting surface with respect to the load-bearing frame.

The present invention relates to [1] a process for producing a printed material, including step 1 of subjecting an image-bearing surface of a printed recording medium 1′ on which characters or images are formed by analog printing to discharge treatment under specific conditions to obtain a printed recording medium 1, and step 2 of further forming characters or images on the image-bearing surface of the printed recording medium 1 by ink-jet printing using a water-based ink to obtain the printed material, [2] an ink-jet printing method including the step of ejecting a water-based ink onto a printed recording medium 1 by an ink-jetting method to form characters or images thereon, in which the printed recording medium 1 has an image-bearing surface on which characters or images are formed by analog printing, and the image-bearing surface is subjected to discharge treatment under the specific conditions, [3] a recording medium for ink-jet printing, including an image-bearing surface on which characters or images are formed by analog printing and which is subjected to discharge treatment, in which a surface free energy of the image-bearing surface after being subjected to the discharge treatment is not less than 30 mN/m, and [4] a printed material including an image-bearing surface on which characters or images are formed by analog printing and then on at least a part of which characters or images are further formed by ink-jet printing using a water-based ink, in which the image-bearing surface after forming the characters or images thereon by the analog printing is subjected to discharge treatment, and a surface free energy of the image-bearing surface after being subjected to the discharge treatment is not less than 30 mN/m.

Systems and processes for producing a product having a carrier and a card secured thereto. Such a process includes providing a blank having a card panel and carrier panel that are contiguous with a fold line therebetween. The process further includes cutting the card panel to at least partially define a partial cutout card therein such that a remaining portion of the card panel surrounds the partial cutout card, folding the card panel over and onto the carrier panel such that the partial cutout card is secured to the carrier panel with an adhesive, and then removing the remaining portion so that the remaining portion is separated from the partial cutout card, and the partial cutout card remains secured to the carrier panel and defines at least a portion of the card of the product.

A flexographic printing unit is provided for a sheet along a printing line, including a plurality of printing assemblies, each including a printing roller apt to include a printing block, automatic and programmable movement apparatus for the printing rollers, apt to distance at least one of the printing rollers from the printing line during the printing procedure, so that the printing roller does not print the sheet, wherein each of the printing assemblies includes a structure fixed to the floor, at least one frame, which is movable with respect to the structure fixed to the floor, including at least one printing roller and apt to be moved by the displacement apparatus and damping apparatus arranged between the frame and a fixed point so as to damp the movement of the frame.

The invention relates to a method for separating and categorizing at least one substrate (02; 03) that originates from a sheet source (47) or is transported in the form of a material web (02) to a cross-cutting apparatus and is separated into a multiplicity of sheets (03) there, wherein the respective sheets (03) are inspected in respective inspection operations with regard to at least one property that the substrate (02; 03) already had before the particular separating operation or severing operation, and wherein the sheets (03) are each assigned to one of at least three categories in an assigning operation on the basis of the result of the inspection carried out in the particular inspection operation, and wherein each of the sheets (03) is deposited on a delivery pile (06; 07; 08) corresponding to its category, and to a substrate categorizing machine (01), which has a sheet source (47) or a material-web source (09) and a cross-cutting device (11), wherein the substrate categorizing machine (01) has, downstream of the sheet source (47) or downstream of the cross-cutting device (11), a sheet transport device (12) having a gripper system (13), and an inspection device (14; 16; 17; 18), and, downstream of the inspection device (14; 16; 17; 18), a delivery apparatus (19), which has at least three depositing stations (21; 22; 23).