A staged printing system includes: a printing station for printing an image upon an object; a curing station, operatively connected to the printing station, for curing the image printed upon the object; and a pretreatment station, operatively connected to the printing station, for pretreating the object before printing an image upon the object. The printing station includes a plurality of vertically mounted print heads for ejecting ink and a rotating platform for rotating the object as the plurality of vertically mounted print heads eject ink upon the object.

In an example of the disclosure, a web media is advanced through a printer during a printing operation, Tractor-feed holes in a tractor-feed lane of the web media are detected utilizing a sensor and counted as the web media advances. When the count of tractor-feed holes reaches a target tractor-feed hole n, a fiducial detection period is started wherein a sensor is utilized to detect a fiducial. A printing adjustment is determined based upon a time or time period that the fiducial is detected during the fiducial detection period.

Provided is an image forming method including: applying an ink to a print medium and heating the print medium to which the ink is applied at a heating temperature of 60 degrees C. or higher. The ink contains pigment-encapsulating resin particles comprising a pigment and a resin encapsulating the pigment. A proportion of the pigment alone exposed without being encapsulated with the resin is 10% by mass or less relative to solid components contained in the ink. Amass ratio of the pigment to the resin in the pigment-encapsulating resin particles is 0.25 or greater but 1.0 or less. A contact angle θm (°) of the ink when the ink is dropped by 5 microliters onto a print medium at 73 degrees C. is 25° or less.

A liquid discharge apparatus includes a platen to hold a medium; a liquid discharge head to discharge a liquid onto the medium on the platen according to discharge instruction information containing a type of the platen as a designated platen type; an operation panel to display a selection operation screen in which a type of the platen is selectable from the multiple platen types as a selected platen type; and circuitry to: control the operation panel to display the selection operation screen; determine whether the selected platen type matches a first specific platen type; determine whether the designated platen type matches a second specific platen type; control the operation panel to display warning in response to a determination; and control the liquid discharge head to continue to discharge the liquid in response to a determination.

The inkjet recording apparatus includes a conveyance belt, a conveyance plate, a suction unit, an inkjet head, and a cleaning unit. The conveyance belt has a plurality of through holes. The conveyance plate includes a plurality of through holes formed in bottom portions of the plurality of recessed portions. The suction unit is configured to suck the sheet to the conveyance belt. The inkjet head includes a head main body and a head end portion adjacent to the head main body, and faces an upper surface of the conveyance plate via the conveyance belt. The cleaning unit removes ink adhering to a lower surface of the head main body. A depth of the recessed portion in a facing region facing the head end portion of the conveyance plate is shallower than a depth of the recessed portion in a region other than the facing region.

A document carrier device is provided for supporting and transporting a document in a document processing system. The device includes a workpiece carrier having a support surface for receiving a document; a heating device having a heat conducting element for transferring heat generated; and an actuator for causing relative movement between the heat conducting element and the workpiece carrier to change between a first mode of operation and a second mode of operation. In the first mode of operation, the heat conducting element extends, without thereby being in mechanical contact with the workpiece carrier, through one or more recesses in the workpiece carrier in the region of the support surface to be able to transfer heat generated by the heating device, at least in part, to a document received. In the second mode of operation, the heat conducting element has a distance from the support surface which is increased.

A fixer includes a fixing roller around which a recording medium is directed such that the print image to be fixed faces toward the shell surface of the fixing roller. A fixing gap is generated with a gaseous fixing medium between the shell surface of the fixing roller and the recording medium. This advantageously produces an efficient and gentle fixing of the print image.

Provided is an ink including water, and an organic solvent, wherein a dried product of the ink has an endothermic peak temperature Tm of 22° C. or higher but 74° C. or lower as measured by differential scanning calorimetry, the differential scanning calorimetry includes first heating, cooling, and second heating, where the first heating is heating the dried product of the ink from −60° C. to 140° C. at a heating rate of 10° C./min, the cooling, which is performed after the first heating, is cooling a heated product obtained in the first heating from 140° C. to −60° C. at a cooling rate of −10° C./min, and the second heating, which is performed after the cooling, is heating a cooled product obtained in the cooling from −60° C. to 140° C. at a heating rate of 10° C./min, and the endothermic peak temperature Tm is an endothermic peak temperature in the second heating.

A printing apparatus includes: a printing unit which performs printing on a medium, a main body; a conveyer which conveys the medium; a post-processing unit which performs a post-processing for the medium on which the printing has been performed by the printing unit; a first cover rotatably supported by the main body and in which at least the post-processing part is installed; a second cover arranged to be adjacent to the first cover and supported by the main body such that the second cover is rotatable coaxially with the first cover; and an engaging mechanism which changes a state of the first cover and the second cover between an engaged state and a non-engaged state.

According to one embodiment, there is provided a printer including a print head, a platen roller, a sheet position sensor, an antenna, and a movable portion. The print head is configured to print on a strip-shaped sheet. The platen roller is configured to move the sheet pinched between the platen roller and the print head along a longitudinal direction of the sheet. The sheet position sensor is provided on a substrate disposed on an upstream side of the print head in a conveyance direction of the sheet, and is configured to detect a position of the sheet. The antenna is provided on the substrate and is configured to write information to a wireless tag provided on the sheet. The movable portion is configured to move the substrate along a width direction of the sheet.