A printing apparatus comprises a conveyance unit configured to convey a sheet to a printing unit configured to perform printing; a control unit configured to cause the conveyance unit to hold the sheet onto which printing was performed by the printing unit; and a receiving unit configured to receive an ejection instruction for instructing to eject the sheet. The control unit, in a case where the receiving unit receives the ejection instruction, controls the conveyance unit to eject the sheet to outside of the apparatus after a predetermined time has elapsed.

A sheet conveying apparatus includes a conveying roller, a pinch roller, a holding member, and a pressing device. The pinch roller includes a roller shaft and a roller body rotatable relative to the roller shaft. The roller shaft includes a first end portion and a second end portion. The holding member holds the roller shaft movably in a first direction. The pressing device presses the roller shaft in a pressing direction such that the roller body is pressed against a peripheral surface of the conveying roller. The first end portion of the roller shaft has a first contact surface being a planar surface. The second end portion of the roller shaft has a second contact surface being a planar surface. The roller shaft is disposed such that the first contact surface and the second contact surface are oriented in the pressing direction.

A transport apparatus includes an idler roller and a drive roller that transport a medium by rotating with the medium being nipped therebetween, a first frame that includes a first position and a second position that is different from the first position, a main guide shaft that extends in a transverse direction that intersects a transport direction of the medium and is joined to the first frame at the first position, a second frame that is joined to the first frame at the second position, and an urging member that exerts a force on the second frame by urging the idler roller toward the drive roller. In the transport apparatus, the first position is located in an overlapping region between the first frame and the second frame in a height direction that orthogonally intersects the transport direction and the transverse direction.

Systems, methods, and devices for mitigating print head dry out. In an example embodiment, a system can be implemented, which includes an arrangement of cross rollers and a registration transport for transporting one or more sheets for printing, and a steering mechanism that drives the sheet(s) into the opposing registration print edges of print heads on the registration transportation, wherein the cross rollers only engage when the sheet is being registered to the appropriate edge of the print heads, thereby allowing the print heads to be exercised prior to drying out. When one or more of the sheets are out of the nip, the nip disengages, thereby allowing the next sheet to be stirred on the opposing edge of the registration print heads. The opposing registration print heads comprise an inboard registration edge and an outboard registration edge.

A medium processing apparatus includes a feeding portion configured to transport a medium, a processing tray on which the medium transported by the feeding portion is placeable, a processing portion configured to process the medium on the processing tray, and a discharging portion configured to discharge the medium placed on the processing tray, wherein a first mode in which the medium transported by the feeding portion is placed on the processing tray and then discharged by the discharging portion, and a second mode in which the medium transported by the feeding portion is discharged by the discharging portion without being placed on the processing tray are switchable.

A printing apparatus includes a print section, a supply path, a correction roller pair, an adjusting mechanism and a controller. The print section is configured to perform printing on a medium. The supply path is configured to supply the medium to the print section. The correction roller pair is configured to enable the medium transported on the supply path to strike the correction roller pair to correct skewing of the medium. The adjusting mechanism adjusts a nip load applied to the correction roller pair. The controller is configured to control the adjusting mechanism based on print job information. The correction roller pair includes a driving roller that has a plurality of convex portions disposed on a peripheral surface along a circumferential direction of the driving roller and a driven roller that is disposed to face the driving roller to be driven by the driving roller.

A print media feeding apparatus includes: a stacking part configured to stack the print media; a feeding roller which is movable to an abutting position at which the feeding roller contacts the print media stacked on the stacking part and to a separated position separated from the print media stacked on the stacking part and configured to feed a print medium by rotating at the abutting position; a separation member configured to separate the print media; and a return unit configured to perform a return operation of returning the print medium other than a top print medium which the feeding roller abuts. The feeding roller moves to the separated position, after feeding the print medium from the stacking part. The return unit performs the return operation upon the feeding roller moving to the separated position. After the return operation, the feeding roller stops at the abutting position.

A printing apparatus includes a first feeding part configured to feed print media from a first support part supporting the print media, a second feeding part configured to feed print media from a second support part supporting the print media, and a print head configured to print the print media fed by the first feeding part or the second feeding part. Further, the printing apparatus includes a first conveying path where the print media fed by the first feeding part are conveyed to the print head, and a second conveying path where the print media fed by the second feeding part are conveyed to the print head. At least a part of the second feeding part protrudes in a predetermined spatial area within the first conveying path during a feed operation of feeding print media from the second support part.

A method for forming a print obtained by transferring a transfer layer from which a removal region has been accurately removed onto a transfer receiving article and a method for peeling off a transfer layer by which a removal region of the transfer layer can be accurately removed. The method for forming a print comprises, by using a transfer film in which a transfer layer is provided on one surface of a support, a thermal transfer sheet in which a peel-off layer is provided on one surface of a substrate, and a transfer receiving article, a step of removing a removal region of the transfer layer of the transfer film by means of the peel-off layer of the thermal transfer sheet and a step of transferring the transfer layer from which the removal region has been removed onto the transfer receiving article.

A printing device includes a printing apparatus that includes a transport unit including a roller pair that nips and transports a medium, a printing unit that prints on the medium and a first sensor that detects the medium or a mark at a position downstream of the roller pair. The printing device also includes a first motor capable of driving the roller pair to a non-nipping state and to a nipping state, and a controller that controls the transport unit and the first motor so as to perform an assistance operation to assist setting of the medium. The assistance operation performed by the controller. When the first sensor detects the medium or the mark, the controller causes the medium to be nipped by the roller pair, and a skew correction operation in which the medium is transported and reverse transported is performed.