A controller can acquire, as information of a recording device, first information that can determine that a recording type of the recording device is an ink-jet type, and second information that can determine the recording type of the recording device is a laser type. The controller acquires the information of the recording device, performs the post-processing based on a first setting when the information of the recording device includes the first information capable of determining that the recording type is the ink-jet type, and performs the control of the post-processing based on a second setting different from the first setting when the information of the recording device includes the second information capable of determining that the recording type is the laser type.

Techniques for operating a printer are provided. In an example, the printer can include a print head a cure light and a controller. The controller can be configured to move the print head relative to a print media to print a given image, to move the cure light relative to the print media at a cure speed in response to the cure light passing over a printed portion of the given image to cure the ink of the given image, and to move the cure light at an index speed in response to the cure light passing over a non-printed portion of the given image, wherein the index speed is greater than the cure speed.

Inkjet printing apparatus including: ink accommodating unit storing ink; ejection head configured to eject the ink to form print layer; and heating unit configured to heat print target, wherein the ink is clear ink including resin and water, dry film of the clear ink has glass transition temperature of 50° C. or more, the inkjet printing apparatus has first printing mode and second printing mode, and the heating unit is configured to heat the print target so that expression: T.sub.matte>T.sub.gloss is satisfied, where the T.sub.matte is temperature (° C.) of the print target in printing region printed in the first printing mode obtained when the clear ink is deposited on the print target, and the T.sub.gloss is temperature (° C.) of the print target in printing region printed in the second printing mode obtained when the clear ink is deposited on the print target.

A liquid discharge apparatus includes: a head, a radiation unit, a movement mechanism, and a controller. The controller is configured to: acquire a radiation distance for each of a plurality of areas defined on a surface of a recording medium; control the movement mechanism and the head to discharge the liquid to the surface of the recording medium; and control the radiation unit to radiate the light onto the plurality of the areas of the recording medium so that the longer the radiation distance for each of the plurality of areas, the stronger a light emission intensity of each of the plurality of light sources which faces each of the plurality of areas in the first direction.

A sheet conveyor includes an endless conveyance belt configured to rotate to convey a sheet, a belt heater configured to heat the conveyance belt; and circuitry configured to control the conveyance belt to rotate. The conveyance belt has a belt joint joining both ends of a sheet member to form the conveyance belt, and the circuitry controls the conveyance belt to rotate to receive the sheet in an area of the conveyance belt other than the belt joint of the conveyance belt.

A three-dimensional object printing apparatus includes a first head, an energy emitter, and a moving mechanism. The first head has a first nozzle face in which a nozzle for ejecting liquid is provided. The energy emitter has an emission face from which energy for curing the liquid ejected from the first head is emitted. The moving mechanism changes relative position of the first head and the energy emitter in relation to a three-dimensional workpiece. The moving mechanism includes a linear motion mechanism that changes the relative position of the first head and the energy emitter in relation to the workpiece along a first axis, a first up-and-down mechanism that moves the first nozzle face along a second axis intersecting with the first axis, and a second up-and-down mechanism that moves the emission face along the second axis.

A recording device, when recording is performed on a predetermined type target recording medium stored in a storage unit, drives a surface potential adjustment unit so that a surface potential is a positive potential within a predetermined range. By configuring such a recording device, it is possible to suppress adhesion of ink to an ejecting unit, and occurrence of an ink ejection failure can be suppressed.

A recording device including a feeding unit configured to feed out a target recording medium while supporting the target recording medium in a roll form, a head that ejects ink to a surface of the target recording medium fed from the feeding unit thereby forming an image on the surface, a corona irradiation unit that is arranged between the feeding unit and the head in a transport path of the target recording medium and modifies the surface by performing corona irradiation, and a transport path length changing unit that is arranged between the corona irradiation unit and the head and changes a length of the transport path.

The present disclosure relates to the technical field of printing, and provides a digital printing press. The digital printing press includes a frame, and an unwinder, a driver, an inkjet printer, a curer and a winder that are arranged on the frame, where the driver drives a substrate to move from the unwinder to the winder along a substrate path, the inkjet printer and the curer are arranged above a printing segment of the substrate path, the printing segment of the substrate path is in the shape of an arch, and the arch bends toward the inkjet printer and the curer. The UV light from the curer can be reflected by the substrate to a position other than the inkjet printer as a result of the arched printing segment. UV light is prevented from entering the inkjet printer's nozzle, extending the inkjet printer's service life.

A printing system comprises a transport apparatus adapted to transport a flexible web (24) along a process direction and first and second individually controllable inkjet imager units (44, 60, 70, 82) offset from one another along the process direction. Each of the first imager unit and the second imager unit includes a first portion (226) operable to print on a first portion of the web and a second portion (228) operable to print on the second portion of the web wherein each of the first portion and second portion of the first and second imager units is stationary along the process direction and the lateral direction.