The present disclosure relates to a device for simultaneously performing printing of tablets and inspection on exteriors of the tablets, and provides a device for printing a tablet and inspecting an exterior of the tablet, comprising a transfer unit arranging and transferring tablets supplied from a tablet supplier in a line; a pre-printing image-capturing unit located on a transfer path on which the tablets are transferred to discriminate positions and orientations of the tablets, and disposed to capture images of exteriors of the tablets being transferred; a tablet printing unit located next to the pre-printing image-capturing unit on the transfer path on which the tablets are transferred, and printing the tablets being transferred, in consideration of discriminated results acquired from the images captured by the pre-printing image-capturing unit; and a post-printing image-capturing unit located next to the tablet printing unit on the transfer path on which the tablets are transferred, and capturing images of exteriors of the printed tablets being transferred, to inspect the images or printed results of the printed tablets. According to an embodiment of the present disclosure, a plurality of functions may be performed with a single device, to maximize work efficiency in time and space, and reduce costs.

The invention concerns a handheld, dynamically movable surface spattering device, comprising at least one nozzle means for an expelling of a spattering material onto a target surface and a nozzle control mechanism to control characteristics of the expelling of the nozzle means. Furthermore, it comprises a spattering material supply, a storage with desired spattering data, which is predefined and comprised in a digital image or CAD-model memorized on the storage, a spatial referencing unit, to reference the spattering device relative to the target surface and a computation means to automatically control the expelling by the nozzle control mechanism according to information gained by the spatial referencing unit and according to the desired spattering data is evaluated and adjusted by changing the characteristics of expelling of the nozzle means in such a way that the target surface is spattered according to the desired spattering data.

A component for a vehicle interior may be illuminated and may comprise a cover formed on a substrate. The substrate and/or cover may be at least partially light-transmissive. The cover may present a visual and/or surface effect on its exterior surface. The visual effect may comprise an illumination effect when illuminated. The cover may comprise a base layer formed on a cover layer. The cover may comprise a coating formed on the cover layer. The cover may present a texture visible through the coating. The cover may comprise a set of light-transmissive sections to provide illumination. The light-transmissive sections may comprise voids, holes or openings in the cover. The cover may comprise a deposited material formed on the substrate. The deposited material may comprise resin. The deposited material may comprise a form on the substrate. A method of forming the component is also disclosed.

Disclosed is a printing device including: a rest on which a finger corresponding to a nail to be printed is placed; and a holder which is movable to at least a first position and a second position. The first position is a position where a movement of the finger placed on the rest is restricted, and the second position is a position where a distance to the rest is larger than the first position and restriction on the finger is removed.

A coating of a coating medium, produced by means of a multichannel printhead (5) in a coating region (3) on a two- or three-dimensional surface (2) of an object (1), which is built up from coating points (8) along tracks (7) of one or more coating paths (6), characterized in that the starting coating point (HP) of at least one track (7) is aligned with a starting contour (AK) and an end coating point (EP) of the track (7) is aligned with an end contour (EK).

An automatic facial makeup method includes receiving a makeup template, wherein the makeup template comprises a plurality of defined areas and a plurality of makeup instructions relating to application of at least one makeup to the plurality of defined areas, and wherein each of the plurality of defined areas is defined by a plurality of first feature points. A facial image comprising a facial block is received, wherein the facial block corresponds to a facial region depicted in the facial image. Makeup areas in the facial block are defined by mapping, for each of the plurality of defined areas, first feature points to second feature points in the facial block, wherein each second feature point has a same relative position on the facial block as a corresponding first feature point. A makeup component performs a makeup operation according to each makeup instruction on the makeup area corresponding to each makeup instruction.

A method for printing on at least partially transparent containers, wherein, in a first printing step, a first printing image is printed onto the container by the application of at least one printing ink, and wherein, in a second printing step, a second printing image is printed onto the container by the application of at least one printing ink, wherein the printing images are printed at least partially covering one another, and specifically in such a way that ink layers are applied in a temporal offset sequence onto the container, wherein a first ink layer is allocated to the first printing image and a second ink layer is allocated to the second printing image, and that between the first and second printing image a reflection layer is at least partially provided, by means of which the printing images are at least partially optically separated from one another.

A liquid discharge apparatus includes a carriage (1), a liquid discharge head (300, 300C, 300K, 300M, 300Y, 300S, 300W) having a discharge port (P1, P2), a first driver (92), and a second driver (93). The carriage is movable along at least one of a first axis (X) and a second axis (Y) intersecting the first axis. The liquid discharge head is held by the carriage and discharges a liquid from the discharge port toward an object (100) in a direction along a third axis (Z) intersecting the first axis and the second axis. The first driver moves the carriage along the third axis. The second driver moves the liquid discharge head along the third axis relative to the carriage.

The invention relates to a device (10) for imprinting or labelling containers (12). The device (10) comprises a planar drive system (14) having a base element (16), a first movement device (18) and a second movement device (20). The first movement device (18) has a container holder (22) for holding a container (12). The second movement device (20) has a fitting device (24) for imprinting or labelling the container (12). The device (10) can improve a flexibility and a working quality during the imprinting and labelling of the containers (12).

A printing system for printing on a substantially planar surface of a 3D-object includes a printer for printing on the planar surface of the 3D-object and a controller configured to control printing of the printer. The printing system further includes a mask generation module configured to generate a mask having the shape of the planar surface from a 3D-model of the 3D-object and to provide the controller with the mask to prevent printing outside the planar surface according to the mask.