In some examples, a controller receives an indication from the printing system to initiate a calibration. In response to the indication, the controller activates a sensor assembly as part of a calibration operation that comprises emitting a signal toward a calibration surface of the media output accumulator, and detecting a reflected signal responsive to the emitted signal. The controller calibrates the sensor assembly based on the reflected signal, the sensor assembly to detect a level of media sheets, ejected by the printing system, into the media output accumulator.

A recording material processing apparatus includes: a first stacking unit configured to stack a recording material; a second stacking unit provided on a downstream side of the first stacking unit in a conveyance direction of the recording material; an alignment unit configured to align the recording material stacked in the first stacking unit before the recording material is discharged to the second stacking unit; and a control unit configured to perform control of discharging the recording material to the second stacking unit by switching between first control not to align the recording material by the alignment unit and second control to align the recording material by the alignment unit.

A sheet storing apparatus, includes: an inlet section configured to take in sheets from outside of the apparatus into the apparatus; a storing unit configured to mount a storage bag in a storing area of the storage unit; and a recognition unit configured to count the number of sheets to be stored in the storage bag mounted in the storing area of the storing unit, in which the storing unit includes: a holding section configured to hold the storage bag mounted in the storing area of the storing unit; a support section configured to support the sheets stored in the storage bag from below via the storage bag; a drive section configured to move up and down the support section between an initial position and a final position; and a control section configured to control the drive section, based on the number of sheets counted by the recognition unit.

A sheet processing apparatus includes a conveyance member configured to convey a sheet, and an alignment portion having a first alignment member and a second alignment member and configured to move relative positions of the first and second alignment members in a width direction orthogonal to a conveyance direction of the sheet by the conveyance member. Each alignment member includes a contact surface coming in contact with one end of the sheet in the width direction, a lower surface facing a lower surface of the sheet that is in contact with the contact surface, a lower portion supporting the lower surface of the sheet that is in contact with the contact surface, and an upper portion facing an upper surface of the sheet that is in contact with the contact surface.

A sheet storing apparatus includes: a compression section that performs first compression and second compression by applying a pressing force to sheets stored in a bag; and a control section that controls the pressing force.

To effectively correct a sheet that is transported while being skewed, a post-processing apparatus B provided with a processing tray 25 that temporarily stores a sheet to perform post-processing and a stack tray 30 that loads sheets subjected to the post-processing performs preliminary alignment with one of an alignment mechanism 35 on the processing tray 25 side and an alignment mechanism 38 on the stack tray 30 side corresponding to size information of a sheet in transporting the sheet from the stack tray 30 side toward the processing tray 25 for post-processing in a post-processing device 31, and takes in the sheet toward a regulation stopper 29 with a take-in roller 33. Then, after aligning the sheet with the alignment mechanism 35, the apparatus performs the post-processing on the sheet with the sheet post-processing device 31 to transport to the stack tray 30.

A sheet discharging apparatus includes a discharging portion, a first supporting portion configured to support the sheet in a state where at least a part of the sheet is exposed to an outside, a second supporting portion configured to support the sheet discharged by the discharging portion, and a control portion configured to execute a first mode and a second mode, the first mode being a mode where the first supporting portion is selected as a destination of the discharged sheet and where the first supporting portion supports the sheet, the second mode being a mode where the second supporting portion is selected as the destination of the discharged sheet and where the second supporting portion supports the sheet by discharging the sheet supported on the first supporting portion to the second supporting portion in a state where the sheet is not supported on the first supporting portion.

According to an embodiment, a sheet processing apparatus includes a first tray, a second tray, and a pressing member. The pressing member includes a turning shaft, the turning shaft being located on the downstream side of a transport direction of the sheet to the first tray, relative to an end of the upstream side of the sheet supported in the first tray, and when the sheet is moved from the first tray toward the second tray, rotates about the turning shaft. The pressing member rotates about the turning shaft, to press the sheet toward the second tray at a position on the upstream side relative to the turning shaft.

A medium discharging device includes a discharge roller pair that discharges a medium, a discharge tray disposed below the discharge roller pair in a vertical direction and having a placement surface on which the discharged medium is placed, and a guide member that is advanced and retracted between an advanced position where the guide member is advanced inward in a width direction from opposite sides in the width direction intersecting a discharge direction of the medium and a retracted position where the guide member is retracted to an end portion position side in the width direction. When the guide member is disposed at the advanced position, an upstream side end portion of the guide member in the discharge direction is disposed between a discharge position by the discharge roller pair and a position of the placement surface of the discharge tray, in the vertical direction.

Aspects of automated fabric picking are described. In one embodiment, a system includes a textile cutter including a tabletop upon which textile panels can be cut out from a textile sheet, a textile panel picker, and a computing device. The textile panel picker includes a flexible transport tube, a transport tube transfer arm to position the flexible transport tube over the tabletop and the textile panels, a textile hopper to collect the textile panels, and a pneumatic pump assembly to evacuate air from the textile hopper and through the flexible transport tube. The computing device identifies and tracks the textile panels on the tabletop, directs the transport tube transfer arm to position the flexible transport tube over the textile panels, and directs the pneumatic pump assembly to generate suction to pull the textile panels through the flexible transport tube and into the textile hopper.