The methods and apparatuses herein relate to inkjet printing a substrate at a desired print resolution. A substrate advances at a first speed under the first printhead and the second printhead such that a desired print resolution exceeds the maximum print resolutions of a first printhead and a second printhead. When the substrate is advancing at the first speed, the first printhead ejects ink onto the advancing substrate at a first firing frequency to create a first printed zone, and the second printhead ejects ink onto the advancing substrate at a second firing frequency to create a second printed zone. In turn, the first printed zone and the second zone together define a printed region having the desired print resolution.

The disclosed embodiments include a printer having a printing area configured to receive distinct mediums, and printer heads arranged relative to the printing area. The printer heads are collectively configured to print independent images onto the distinct mediums. The printer heads include at least one shared printer head configured to simultaneously print portions of the independent images onto each of two adjacent mediums.

A drawing apparatus including a drawing unit that detachably holds a drawing tool that performs a drawing on an object and a drawing tool standby unit for causing at least one spare drawing tool to stand by.

In a state where a first drawing tool is caused to be held in the drawing unit and a second drawing tool is caused to be held in the drawing tool standby unit, the drawing unit is controlled to perform a drawing within a first region of the object by using the first drawing tool and, when a first undrawn area occurred within the first region, the first undrawn area being an area where the first drawing tool was not performed correctly, the first drawing tool held is caused to be replaced with the second drawing tool; and the drawing unit is caused to perform a drawing in the undrawn area by using the second drawing tool.

According to one embodiment, a tablet printing apparatus includes: a conveyer configured to convey a tablet along a line; an applicator head including a plurality of nozzles arranged in a direction crossing the conveyance direction of the tablet conveyed by the conveyer, configured to perform printing on the tablet by ejecting a liquid from the nozzles; and a controller configured to control the ejection of the liquid from the nozzles of the applicator head. The length of an array of the nozzles in a direction perpendicular to the conveyance direction is equal to or longer than the length of the tablet in the direction perpendicular to the conveyance direction. The controller is further configured to control switching of a nozzle used for printing on the tablet among the nozzles by a plurality of sections determined in advance.

The invention relates to a method for digitally printing a profiled strip (1) having a plurality of digital print heads (2) which are aligned with respect to contour portions (4, 5, 6) of the profiled strip (1) and are moved in this aligned reference position (a, b, c, d) relative to the profiled strip (1) along the longitudinal strips of the profiled strip determined by the contour portions (4, 5, 6) at a predetermined distance, wherein the nozzles of the print heads (2) are controlled with respect to the ink delivery as a function of a print template. In order to ensure advantageous method conditions, it is proposed that individual contour portions (4, 5, 6) are assigned reference planes (7) by an evaluation program on the basis of data reproducing the contour (3) of the profiled strip (1) in the printing area, in that the print heads (2) are aligned with respect to these reference planes (7), and in that the nozzles of the aligned print heads (2) are controlled with respect to the ink delivery with a correction value which takes into account the deviation of the respective contour portion (4, 5, 6) from the reference plane (7).

A printing machine (10) for printing on a substrate having the form of a web (12) is described. It comprises a web entry unit (14) for receiving the web (12) on which a printing process is to be performed and a web exit unit (20) for dispensing the web (12) after the printing process. Furthermore, at least two printing units (26, 28, 30, 32, 34, 36, 38) are provided, wherein each of the printing units (26, 28, 30, 32, 34, 36, 38) is configured for applying an ink of a predetermined color on the web (12). Additionally at least two web paths (A, B) are provided between the web entry unit (14) and the web exit unit (20), each of the web paths (A, B) passing by all of the printing units (26, 28, 30, 32, 34, 36, 38). The web paths (A, B) pass the printing units (26, 28, 30, 32, 34, 36, 38) in a differing sequence. Moreover, a method for changing a color sequence within a printing process is presented. According to this method, the web (12) is arranged along an alternative web path (A, B) passing by the printing units (26, 28, 30, 32, 34, 36, 38) in a differing sequence, whereas a travelling direction of the web remains the same.

This invention relates to a print bar structure, a printing apparatus and a method for printing on an outer surface of an object comprising at least one cylindrical portion, particularly a cylindrical and/or conical container. The invention also relates to a manufacturing facility and method for manufacturing containers. The printing apparatus typically comprises a print bar structure, a plurality of print heads attachable to the print bar structure, a curing device, and a displacement assembly operatively attachable to the container. The print bar structure at least partly defines a print zone, wherein the print heads and the curing device is operatively disposed in the print zone. The displacement assembly is operable to rotate object about an axis substantially aligned with the central axis relative to the plurality of print heads in the print zone such that fluid is deposited onto the object during rotation of the object.

A system and method for coating a lens (10) using a plurality of inkjet print bars (46) arranged in-line, includes generating, using at least one processor (54, 110) in communication with the plurality of inkjet print bars (46), at least one graphical user interface configured to facilitate the automation of the creation or selection of an image to be printed on a lens (10); generating a plurality of image layers based on the lens (10) geometry, target product, and number of print bars (46); and controlling, using the at least one processor (54, 110), at least two of the plurality of inkjet print bars (46) to print the image on the lens (10), such that each of the at least two inkjet print bars (46) prints at least one image layer of the plurality of image layers.

The disclosed embodiments relate to a wide format single pass printing apparatus. The printing apparatus can include multiple print housings configured to receive print beams with print heads configured to print onto a substrate. The print housings can be horizontally adjacent to one another relative to a horizontal plane. The print housings can also be oriented opposite to one another. The print beams can be inserted and/or removed from each print housing from opposing ends, allowing for greater ease of access to the print beams.

On a carriage that is transported in a main scanning direction by a main scanning drive portion heads are disposed so as to be displaced from each other in a sub-scanning direction, and heads are disposed so as to be displaced from each other in the sub-scanning direction. Therefore, even when an ejection failure occurs in nozzles of one of the two heads and in nozzles of one of the two heads ink can be ejected from the other head that ejects the same type of ink in main scanning. Thus, even when the ejection failure occurs in the nozzles, a deterioration in print quality can be suppressed.