A sheet post-processing apparatus includes a control unit. When performing binding for binding a plurality of sheets a plurality of times continuously, the controller measures the processing time required for the binding during first binding and notifies an image forming apparatus of a post-processing time including the measured processing time.

An image forming apparatus and an image reading device. The image forming apparatus includes a feeder to feed a recording material, an image forming device to form an image on the recording material fed from the feeder, and an ejection unit to which the recording material on which an image is formed by the image forming device is ejected. In the image forming apparatus, the feeder and the ejection unit are made of a plurality of components, and at least one of the plurality of components of the feeder and the ejection unit disposed near the recording material is made of wood. The image reading device includes a to-be-scanned material feeder to feed a to-be-scanned material, and a reader to read an image on the to-be-scanned material fed from the to-be-scanned material feeder. In the image reading device, the to-be-scanned material feeder comprises a plurality of components.

An image reading apparatus includes a first stacking unit, a feeding unit, a reading unit, a second stacking unit onto which a document whose image is read by the reading unit is discharged, a rotating shaft, and protrusions. The first stacking unit includes a sheet stacking surface on which the document is stacked and includes an abutment portion on which one end portion of the document abuts. The feeding unit feeds the document stacked on the first stacking unit in a feed direction. The reading unit reads an image of the document conveyed by the feeding unit. The rotating shaft extends in the feed direction and supports the first stacking unit so as to be rotationally movable. The protrusions extends in a direction at a predetermined angle with respect to the feed direction, is arranged on the sheet stacking surface, and protrudes from the sheet stacking surface.

An image processing device reduces influence from delay due to one or more post processors and efficiently utilizes resources of an image former, to improve productivity. The image processing device includes: a job taker configured to take a print job; and a print data producer configured to output print data to an image former, configured to form an image on a sheet, and control a cutter configured to cut, inline, the sheet having the image formed and the image former. When the job taker takes a first print job to use the cutter and then takes a second print job not to use the cutter, the print data producer executes the first print job concurrently with the second print job.

An image reading apparatus includes an image reading portion; a main assembly; a rotatable member; a damper unit mounted to either one of the main assembly and the rotatable member and including a cylinder portion and a piston portion inserted into the cylinder portion, wherein the damper unit is expanded in an expansion direction and contracted in a contraction direction by sliding the cylinder portion and the piston portion relative to each other; and a contact portion provided on the other one of said main assembly and said rotatable member and configured to contact said damper unit, wherein the damper unit suppresses a speed of said rotatable member when said rotatable member lowers from an upper position toward a lower position in a state in which the contact portion contacts and presses the damper unit in the contraction direction.

Provided is an image forming apparatus, in which a recording material is conveyed by a reverse portion rotated in a first direction at a first velocity which is faster than a conveyance velocity of the recording material in a fixing portion after a rear end portion of the recording material passes through the fixing portion, and then, the recording material is conveyed to a conveying portion by the reverse portion rotated in a second direction opposite to the first direction through a conveyance path at a second velocity which is faster than the conveyance velocity of the recording material in the fixing portion, and a conveyance velocity of the recording material is set to a third velocity which is slower than the second velocity at a predetermined timing before the rear end portion of the recording material reaches a curved portion of the conveyance path.

An image reading apparatus includes a first stacking unit having a stacking surface, and an abutment portion that abuts a document stacked on the stacking surface, a feeding unit, a reading unit, a second stacking unit, a first detection unit, a rotating shaft, a drive unit, and a control unit. The second stacking unit receives the document fed by the feeding unit and read by the reading unit. The first detection unit detects presence or absence of the document stacked on the first stacking unit. The drive unit rotates the first stacking unit around the rotating shaft rotatably supporting the first stacking unit. At a predetermined timing after the first detection unit detects the absence of the document on the first stacking unit, the control unit controls the drive unit to rotate the first stacking unit in a direction with which the abutment portion is lowered.

An image reading apparatus includes a stacking unit having an abutment portion, a feeding unit, a conveyance unit, a reading unit, a rotating shaft, and a drive unit. The abutment portion abuts a document end in a widthwise direction of a document stacked on the stacking unit. The conveyance unit conveys the stacked document fed by the feeding unit in a feeding direction perpendicularly intersecting the document widthwise direction. The reading unit reads an image of the document. The drive unit rotates the stacking unit, rotatably supported by the rotating shaft, around the rotating shaft. The rotating shaft is disposed at a position where at least a part of the rotating shaft exists between one end and other end in the document widthwise direction of a document having a maximum width conveyable by the conveyance unit in a state where the maximum width document abuts on the abutment portion.

An image reading apparatus includes a first stacking unit having a stacking surface, and an abutment portion that abuts a document stacked on the stacking surface, a feeding unit, a reading unit, a second stacking unit, a detection unit, a rotating shaft, a drive unit, and a control unit. The second stacking unit receives the document fed by the feeding unit and read by the reading unit. The detection unit detects presence or absence of the document stacked on the second stacking unit. The drive unit rotates the first stacking unit around the rotating shaft rotatably supporting the first stacking unit. Based on the detection of the absence of the document on the second stacking unit by the detection unit, the control unit controls the drive unit to rotate the first stacking unit in a direction with which the abutment portion is lowered.

A sheet separation device separates a non-bonding portion of a two-ply sheet in which two sheets are overlapped and bonded together at a bonding portion of the two-ply sheet. The sheet separation device includes a separator, an abnormality detection device, and circuitry. The separator is configured to move to be inserted into a gap formed between the two sheets of the two-ply sheet. The abnormality detection device is configured to detect an abnormal state in which the gap larger than a predetermined size is not formed between the two sheets before the separator is inserted into the gap. The circuitry is configured to control movement of the separator based on a result detected by the abnormality detection device.