A method for manufacturing a printed can lid (1) of a can with a digital printing method; comprising at least the following steps: a) making available a shell (2) with an outer face (3) and an inner face (4); b) making available a control unit (9) and a printed image (8), wherein the printed image (8) can be processed in the control unit (9); c) making available at least a first digital printing unit (10) with at least one printing head (11); wherein the printed image (8) which is made available by the control unit (9) can be printed onto the outer face (3) with the printing head (11); and d) printing the printed image (8) which is made available by the control unit (9) onto the outer face (3) with the printing head (11).

An apparatus and methods of decorating a metallic container are provided. More specifically, the present invention relates to apparatus and methods used to provide a decoration on a predetermined surface of a metallic container body. The decoration may be registered with decorations previously applied to the container body. In one embodiment, the apparatus includes a screen print unit with a cylindrical body. The cylindrical body rotationally applies a predetermined type or color of ink or other coating, such as a varnish, to the cylindrical body. In one embodiment, the apparatus applies a varnish to a selected portion of the cylindrical body without applying the varnish to all of the cylindrical body. Additionally, the apparatus may also include a foiling unit that applies a label to the cylindrical body.

A method of manufacturing a heating device includes preparing a substrate having a curved surface; and forming a heating body on the substrate, the heating body generating heat with a supply of electric current. The forming of the heating body includes pressing a screen toward the substrate with an aid of a pressing member while rotating the substrate and moving the screen, and transferring application liquid that is to form the heating body to the substrate through the screen. In the forming of the heating body, the pressing member is in contact with the screen at a position on an upstream side with respect to a transfer position in a direction of movement of the screen.

A method of manufacturing a heating device includes preparing a substrate having a curved surface; and forming a heating body on the substrate, the heating body generating heat with a supply of electric current. The forming of the heating body includes pressing a screen toward the substrate with an aid of a pressing member while rotating the substrate and moving the screen, and transferring application liquid that is to form the heating body to the substrate through the screen. In the forming of the heating body, the pressing member is in contact with the screen at a position on an upstream side with respect to a transfer position in a direction of movement of the screen.

Color applications for aerodynamic microstructures are disclosed herein. One disclosed example apparatus includes an aerodynamic microstructure of a vehicle, sub-microstructures superimposed on the aerodynamic microstructure, and a color application defined on or within the microstructure.

A screen printing method and an apparatus are provided for printing on objects (12) which can be rolled against a printing screen (34). The method and apparatus provide the possibility of printing on the region (13) of the object to be printed upon over the entire periphery thereof, that is over 360, even when the length of the final overall print image in the peripheral direction of the object is longer than the spacings between the individual objects passing through the printing station. For that purpose, the peripheral surface to which the final overall print image is to be applied is subdivided into at least two portions (13a, b) which are displaced relative to each other in the peripheral direction of the object (12). Each of those portions is provided with at least one individual print (53), wherein a plurality of individual prints applied to the same portion (13a, b) can supplement each other to afford a colored partial print image.