The present invention is to provide a configuration facilitating removal of a sheet stopped on a conveying belt. In a sheet conveying apparatus that conveys a sheet using a conveying belt and balls, a sheet may be jammed and stopped on the conveying belt. In this case, it is difficult for a user to take out the sheet through a take-out port if the sheet is nipped by conveying roller pairs disposed upstream and downstream relative to the conveying belt in a sheet conveying direction. Thus, conveying roller pairs and the conveying belt are operated such that the sheet, which is stopped on the conveying belt and hence should be taken out through the take-out port, is brought into a state of being nipped only by the conveying belt and balls.

In accordance with an embodiment, a sheet processing apparatus comprises a processing tray, a longitudinal alignment mechanism, a horizontal alignment mechanism and an interlocking mechanism. The processing tray can stack a sheet. The longitudinal alignment mechanism includes a rotatable paddle. The longitudinal alignment mechanism can align the sheets stacked on the processing tray in a sheet conveyance direction. The horizontal alignment mechanism includes a horizontal alignment plate movable in a sheet width direction orthogonal to the sheet conveyance direction. The horizontal alignment mechanism can align the sheets placed on the processing tray in the sheet width direction. The interlocking mechanism interlocks the paddle in the sheet width direction in synchronization with the movement of the horizontal alignment plate in the sheet width direction.

An infeed alignment device (10) for aligning a carton blank (14) such that a picking device can pick the carton blank. The infeed alignment device comprises an upper alignment member (11) for pushing on an upper part of the carton blank, a lower alignment member (12) for pushing on a lower part of the carton blank, and wherein the upper and/or lower alignment member is configured to push in a push direction on the top and/or the bottom of the carton blank such that the carton blank is in a picking position for the picking device.

An escrow unit has an escrow wheel and a movable-continuous belt. The escrow wheel rotates about an axis. The movable-continuous belt is wrapped partially around the escrow wheel forming an open gap between the belt and escrow wheel. The open gap allows the belt to transport a document through the open gap and to store the document by holding the document between the belt and the escrow wheel.

A method, non-transitory computer readable medium, and apparatus for automatically adjusting a feeder tray of a printing device are disclosed. For example, the method receives a signal to initiate a feeder tray adjustment routine, wherein the feeder tray adjustment routine determines an amount of lateral adjustment of the feeder tray to eliminate a lateral input error of a print media that is fed to a registration subsystem of the printing device, activates a mechanism to adjust a lateral position of the feeder tray by the amount that is determined, and feeds subsequent print media through the registration subsystem for printing an image on the subsequent print media.

A paper sheet handling apparatus includes an insertion slot to which a banknote is inserted, a conveyor mechanism that conveys the paper sheet inserted through an insertion slot, and a corrective member that has an elastic deformation portion designed to contact the paper sheet inserted to the insertion slot and corrects a direction of conveyance of the paper sheet inserted through the insertion slot using the elasticity of the elastic deformation portion. The corrective member is disposed at least on both ends in the width direction of the insertion slot, along a face of the banknote inserted to the insertion slot, or at positions, on a conveyor line for the paper sheet inserted through the insertion slot, facing the ends in the width direction of the insertion slot.

A detection system for detecting double sheets being supplied to a lateral positioning device (100) for a sheet element (20, 20) in a sheet element processing machine. The machine has a drive system including a cam disk (174) and a cam follower lever (172). The detection system includes a detector lever (130) mounted so as to be displaceable between a sheet receiving position and a detection position. The detector lever (130) has a sheet sensing end (132) for engagement with an upper face of the sheet element (20, 20) when being in the detection position, and a position detector end (133) for cooperating, when being in the detection position, with a position detector (140) adapted for generating a signal dependent on the thickness of the sheet element (20, 20), and further includes a raising lever (170) for raising the sheet sensing end (132) of the detector lever (130). The raising lever (170) is mounted on the cam follower lever (172) of the sheet element processing machine. Further disclosed is a sheet element processing machine including a detection system as outlined above, mounted in an introduction station (10) upstream of a processing station.

Disclosed is an example of a registration assembly for a media processing device, including a registration surface. The registration assembly including a bias member coupled to the registration surface to bias the registration surface toward the media processing path to apply a force to a media unit. The registration assembly including an activator coupled to a roller, the roller to be driven via contact with the media unit. The activator configured to move the registration surface toward the media processing path into the active position to engage the media unit responsive to rotation of the roller in the first rotational direction. The activator configured to move the registration surface away from the media processing path into an inactive position responsive to rotation of the roller in the second rotational direction.

A system includes a carrier frame having a void, a rigid substrate sized slightly smaller than the void, the rigid substrate is connected to the carrier frame within the void, and a tape connected to edges of the rigid substrate and the carrier frame along the edges of the rigid substrate. The system is for printing with a standard printer to provide a full bleed print on the rigid substrate.

In accordance with an embodiment, a sheet processing apparatus comprises a processing tray, a longitudinal alignment mechanism, a horizontal alignment mechanism and an interlocking mechanism. The processing tray can stack a sheet. The longitudinal alignment mechanism includes a rotatable paddle. The longitudinal alignment mechanism can align the sheets stacked on the processing tray in a sheet conveyance direction. The horizontal alignment mechanism includes a horizontal alignment plate movable in a sheet width direction orthogonal to the sheet conveyance direction. The horizontal alignment mechanism can align the sheets placed on the processing tray in the sheet width direction. The interlocking mechanism interlocks the paddle in the sheet width direction in synchronization with the movement of the horizontal alignment plate in the sheet width direction.