A tablet has a first layer printed using visible ink and a second layer printed using invisible ink. The first layer includes characters, a trademark, or the like printed using the visible ink, which can be visually confirmed by an administrator in charge or a tablet user. The second layer includes a barcode or the like printed using the invisible ink, which cannot be visually confirmed by the administrator or the tablet user. The second layer is visualized by black light or the like so as to be made readable. The tablet is subjected to print processing by a tablet printing device provided with conveying disks A to C conveying the tablet while sucking and supporting a side surface of the tablet. The first layer 51 and the second layer are printed by inkjet heads, respectively.

In one example, a media support includes a sheet of suction cups in which each suction cup has a port through which air may be evacuated from the cup. In another example, a detachable cover for a vacuum table includes: a sheet having a flat front surface, a flat back surface and multiple suction cups arranged across the front surface of the sheet. Each suction cup has a port to the back surface of the sheet to connect to a corresponding vacuum hole in the table when the cover is attached to the table.

A recording substrate treatment apparatus includes transporting mechanism for transporting a sheet of a recording substrate through a first chamber in the interior space of the recording substrate treatment apparatus; a first suction device arranged for removing a gaseous medium from the first chamber; and an impingement device, arranged for providing a first flow of the gaseous medium at the outer surface of the transporting mechanism. The first suction device is fluidly connected to the impingement device, such that in operation the impingement device receives a first flow of the gaseous medium from the first suction device. With this arrangement, the impingement flow is balanced with an air flow directly extracted from the first chamber of the recording substrate treatment apparatus. A printing system including such a recording substrate treatment apparatus and a method of drying a recording substrate using such a recording substrate recording apparatus are also disclosed.

An image forming system includes a transport section that includes a support surface supporting a sheet-like medium and transports the medium while supporting the medium on the support surface, a first pressure generating section that generates pressure used to suck the medium supported on the support surface, and an image forming section that forms an image on the medium transported by the transport section. First suction holes that communicate with the first pressure generating section, first protrusions, and sealed portions that are disposed at positions where end portions of the medium in the medium width direction are supported and restrict inflow of air to regions, in which the first suction holes are arranged, from the outside of the end portions of the medium in the medium width direction are arranged on the support surface in a medium support region where the medium can be supported.

A press assembly has a plurality of processing stations for the processing of sheets. These processing stations are arranged in sucession in a transport direction of the sheets for inline processing of the sheets. At least one of these processing stations is a non-impact printing unit and at least one processing station downstream of the non-impact printing unit is embodied as a dryer. At least one additional processing station is embodied as a coating unit. The coating unit is configured for applying a coating in a form of a varnish to each sheet. A plurality of individually controlled, non-impact printing units are arranged along the transport path of the sheets. Each of the plurality of non-impact printing units is configured as an ink jet printer.

In one example, a media support includes a sheet of suction cups in which each suction cup has a port through which air may be evacuated from the cup. In another example, a detachable cover for a vacuum table includes: a sheet having a flat front surface, a flat back surface and multiple suction cups arranged across the front surface of the sheet Each suction cup has a port to the back surface of the sheet to connect to a corresponding vacuum hole in the table when the cover is attached to the table.

Provided are an inkjet recording device and an inkjet recording method that enable more reliable recording of an image at a desired position of a recording medium. The inkjet recording device is provided with: a recording means that discharges ink onto a recording medium; a conveying means that performs a conveying operation in which the recording medium is placed at a predetermined placement position upon a conveying member and the conveying member is caused to move in a revolving manner; a recording control means that causes the recording means to perform a recording operation in which an image is recorded onto the recording medium, which moves as a result of the conveying operation, by discharging ink thereto in accordance with image data; and a position-correspondence-information acquiring means that acquires position correspondence information corresponding to the position of the conveying member. The recording control means causes the recording means to start the recording operation when the position of the conveying member corresponding to the position correspondence information acquired by the position-correspondence-information acquiring means matches a recording-operation start position set in advance.

A sheet handling apparatus for a printing system includes a rotary drum having an inner chamber circumferentially surrounded by an outer peripheral wall with perforations formed therein. By means of sucking an air flow through the perforations of the drum to a suction system, sheets are attracted to the peripheral wall of the drum. A stationary shutter member is positioned inside the inner chamber for blocking the flow of air through the perforations when they pass, with the rotation of the drum, through a first predetermined angular range. The shutter member includes protrusions while the rotary drum includes recesses for receiving the protrusions, such that a meandering air flow passage is formed between the shutter member and the rotary drum. As such, friction between the rotary drum and the stationary shutter member is reduced, thereby reducing the power consumption of the suction system.

A method and machine arrangement for sequential processing of sheet-like substrates are disclosed. At least one of a front side and a rear side of the substrates is processed in a production line one after another. A printing ink or another type of ink is applied in at least one non-impact printing device on the respective side of the substrates. The printing ink or the other type of ink is dried. A dispersion coating or a coating cured by UV radiation is then applied onto the respective side of the substrates. The dispersion coating or the coating cured by UV radiation is dried and the substrates are fed to a mechanical processing device for carrying out a further mechanical processing of the substrates. The further mechanical processing is performed by at least one of punching, inserting grooves, separating parts and by breaking out panels from their respective composite in the respective substrate.

A printer includes: an inkjet head configured to eject ink to a medium; a vacuum platen having a platen surface and suction holes, the platen surface extending along a transverse axis that intersects the conveyance direction and that spans across a first side and a second side of the printer, and the suction holes, the suction holes including a first suction hole; and a suction unit configured to produce a negative pressure within the suction holes; the first suction hole comprising a first opening and a second opening, the width of the second opening being less than the width of the first opening, and the first opening having a center along the transverse axis, the second opening having a center along the transverse axis, the center of the second opening being offset to the first side along the transverse axis from the center of the first opening.