A medium cutting device according to an embodiment may include: a fixed blade provided on one side with respect to a conveyance path in which a medium is conveyed in a thickness direction of the medium orthogonal to a surface of the medium and including a cutting edge thereof; a rotary blade provided on the other side with respect to the conveyance path in the thickness direction, and including a cutting edge thereof, wherein the rotary blade is rotatable and configured to be rotated in a rotation direction so that the cutting edge of the rotary blade passes through the cutting edge of the fixed blade to cut the medium being conveyed. The rotary blade includes, on an outer circumferential surface, a recessed portion provided on a side of the cutting edge of the rotary blade in a reverse direction opposite to the rotation direction of the rotary blade.

A system and method for stabilizing a substrate during printing of images and subsequent cutting of the printing images with the system. The system comprises a printer assembly and a cutting assembly for printing images on a print media and then cutting the images from the print media. The printer assembly and cutting assembly are positioned in the system such that the media is printed and cut before advancing further through the system. The system has a web feeding system having a plurality of pairs of levers for providing different amounts of pinch force to the web during the printing and cutting processes so as to retain the media in a substantially flat and stationary position for printing as well as cutting.

The present disclosure discloses a moveable feeder assembly/unit for multi-function devices and corresponding retrieval and printing methods. Here, a multi-function device is disclosed. The multi-function device includes multiple trays. Each tray is configured to receive or store one or more media sheets, and further is positioned at a respective vertical height. The multi-function device further includes a single moveable feeder unit for all trays at the multi-function device. The single moveable feeder unit is configured to move across a plurality of positions to reposition itself proximate to a target tray of multiple trays, selected for printing operation.

The present disclosure discloses a moveable feeder assembly/unit for multi-function devices and corresponding retrieval and printing methods. Here, a multi-function device is disclosed. The multi-function device includes multiple trays. Each tray is configured to receive or store one or more media sheets, and further is positioned at a respective vertical height. The multi-function device further includes a single moveable feeder unit for all trays at the multi-function device. The single moveable feeder unit is configured to move across a plurality of positions to reposition itself proximate to a target tray of multiple trays, selected for printing operation.

An image recording apparatus includes a conveyer configured to convey a sheet-like medium along a conveying path in a conveying direction, a recorder configured to record an image on the sheet-like medium conveyed by the conveyer, a cutter unit including one or more cutters and configured to cut the sheet-like medium in the conveying path, and a scanning mechanism configured to move at least one of the one or more cutters included in the cutter unit in a scanning direction parallel to the sheet-like medium lying along the conveying path and intersecting with the conveying direction. The scanning mechanism includes a support member extending in the scanning direction and configured to support the cutter unit. The conveyer includes a path member fixed to the support member and defining a portion of the conveying path upstream of the cutter unit in the conveying direction.

An image recording apparatus includes a conveyer configured to convey a sheet-like medium along a conveying path in a conveying direction, a recorder configured to record an image on the sheet-like medium conveyed by the conveyer, a cutter unit including one or more cutters and configured to cut the sheet-like medium in the conveying path, and a scanning mechanism configured to move at least one of the one or more cutters included in the cutter unit in a scanning direction parallel to the sheet-like medium lying along the conveying path and intersecting with the conveying direction. The scanning mechanism includes a support member extending in the scanning direction and configured to support the cutter unit. The conveyer includes a path member fixed to the support member and defining a portion of the conveying path upstream of the cutter unit in the conveying direction.

A finishing system includes a piercing unit, an image reader, and a controller. The piercing unit includes a piercing member that performs piercing processing on a sheet. The image reader reads the sheet on which the piercing processing is performed to acquire a read image. The controller determines abnormality of the piercing member based on the read image.

A finishing system includes a piercing unit, an image reader, and a controller. The piercing unit includes a piercing member that performs piercing processing on a sheet. The image reader reads the sheet on which the piercing processing is performed to acquire a read image. The controller determines abnormality of the piercing member based on the read image.

A housing is provided with a sheet ejection port for discharging sheet that passed through a printing unit upward. A cutting unit is arranged between the printing unit and the sheet ejection port and cuts the sheet by either a method of cutting the sheet in the entire width direction or a method of leaving the central portion of the sheet in the width direction. First protrusions and second protrusions protruding from the inner periphery of the sheet ejection port are provided at a plurality of locations along the width direction of the sheet. The first protrusion faces a first surface of the sheet and the second protrusion faces a second surface, which is the back surface of the first surface of the sheet. The first protrusion and the second protrusion are provided at positions deviated from each other in the sheet width direction and bend the sheet in an undulating shape in the width direction therebetween. Further, protrusion height of at least one of the first protrusions and the second protrusions in the central portion in the width direction of the sheet is lower than protrusion heights of the first protrusions and the second protrusions in other regions.

A housing is provided with a sheet ejection port for discharging sheet that passed through a printing unit upward. A cutting unit is arranged between the printing unit and the sheet ejection port and cuts the sheet by either a method of cutting the sheet in the entire width direction or a method of leaving the central portion of the sheet in the width direction. First protrusions and second protrusions protruding from the inner periphery of the sheet ejection port are provided at a plurality of locations along the width direction of the sheet. The first protrusion faces a first surface of the sheet and the second protrusion faces a second surface, which is the back surface of the first surface of the sheet. The first protrusion and the second protrusion are provided at positions deviated from each other in the sheet width direction and bend the sheet in an undulating shape in the width direction therebetween. Further, protrusion height of at least one of the first protrusions and the second protrusions in the central portion in the width direction of the sheet is lower than protrusion heights of the first protrusions and the second protrusions in other regions.