The present application discloses a post-processing apparatus including a second tray which receives a sheet stack ejected from a first tray, a pushing mechanism including a pushing portion which pushes the sheet stack against the second tray, a motion detector which detects a motion of the pushing mechanism, and a controller including an ejection controller which controls an ejector. When the ejector ejects the sheet stack, the pushing mechanism moves the pushing portion in a first direction away from the second tray. When the ejector finishes ejection of the sheet stack, the pushing mechanism moves the pushing portion in a second direction which is opposite to the first direction. Unless the motion detector detects the motion of the pushing mechanism moving the pushing portion in the first direction when the ejector ejects the sheet stack, the ejection controller executes interruption control of stopping the ejection of the sheet stack.

An accumulator for an automatic sheet media punching and collating system includes a proximal end, having a shoulder, a distal end, and a moveable collating belt, disposed below the shoulder, extending from the proximal end to the distal end. The collating belt has an upwardly extending lower stop with an accumulating position opposite the shoulder, defining a drop region. The lower stop is configured to contact a lower edge of sheets of media sequentially received at the proximal end, whereby the sheets stop and accumulate in the drop region in a lift in a book order. The collating belt is selectively moveable to discharge the lift as a unit toward the distal end.

The invention provides a delivery system and layered stacking device for paper packages. The layered stacking device comprises a upper layer mechanism, a lower layer mechanism, and a pushing mechanism. The upper layer mechanism protrudes to an outlet of a delivery device to receive at least two paper packages. The paper packages will be stacked and neatly arranged on the upper layer mechanism. When the lower layer mechanism is raised to a first height and therefore close to the outlet, the upper layer mechanism will be withdrawn from the outlet of the delivery device, thereby the lower layer mechanism will receive the stacked paper packages that are dropped from the upper layer mechanism. Afterwards, when the lower layer mechanism is fallen to a second height, the pushing mechanism will push the stacked paper packages on the lower layer mechanism to a feeding device next the lower layer mechanism.

A feeder system for feeding a stack (101) of stackable flat, carton elements to a processing device: A delivery ramp (103) includes a receiving surface (104) on which an edge portion (111) and a center portion (116) of the stack (101) is arrangeable. A transport device (125) includes a supporting platform on which at least a further edge portion (115) of the stack (101) is supportable, wherein the supporting platform is arranged adjacent to the receiving surface (104) such that the further edge portion (115) of the stack (101) may be received. A downholder element (117), adjusts a size of a gap (705) between the downholder element and a supporting platform, such that the further edge portion (115) of the stack (101) is clampable between them. The transport device (125) is movable between the receiving position, at which the stack (101) may be received by the delivery ramp (103), and a hand over position at the processing device such that the stack (101) is movable from the receiving position to the hand over position.

An accumulator for an automatic sheet media punching and collating system includes a proximal end, having a shoulder, a distal end, and a moveable collating belt, disposed below the shoulder, extending from the proximal end to the distal end. The collating belt has an upwardly extending lower stop with an accumulating position opposite the shoulder, defining a drop region. The lower stop is configured to contact a lower edge of sheets of media sequentially received at the proximal end, whereby the sheets stop and accumulate in the drop region in a lift in a book order. The collating belt is selectively moveable to discharge the lift as a unit toward the distal end.

A transfer system for transferring a stack (101) of flat elements to a processing device includes a delivery ramp (103) with a receiving surface (104) for receiving the stack (101), a first comb structure (121) having at least one first supporting platform (123) on which at least an edge portion (115) of the stack (101) is supportable, wherein the first comb structure (121) is mounted to the delivery ramp (103), and a second comb structure (122) having at least two second supporting platforms (124) on which at least the edge portion (115) of the stack (101) is supportable, wherein the second comb structure (122) is configured for supplying the stack (101) to the processing device. The first supporting platform (123) and the second supporting platforms (124) are arranged along a first direction (109), one after another, in an interleaved manner such that the edge portion (115) is supportable on the first supporting platform (123) and the second supporting platforms (124). The first comb structure (121) and the second comb structure (122) are movable along a lifting direction (110) with respect to each other such that the edge portion (115) of the stack (101) is supportable selectively by the first supporting platform (123) or by the second supporting platforms (124), wherein the two second supporting platforms (124) are spaced along the first direction (109) such that the first supporting platform (123) is movable along the lifting direction (110) through a space between the two second supporting platforms (124).

The present application discloses a post-processing apparatus including a second tray which receives a sheet stack ejected from a first tray, a pushing mechanism including a pushing portion which pushes the sheet stack against the second tray, a motion detector which detects a motion of the pushing mechanism, and a controller including an ejection controller which controls an ejector. When the ejector ejects the sheet stack, the pushing mechanism moves the pushing portion in a first direction away from the second tray. When the ejector finishes ejection of the sheet stack, the pushing mechanism moves the pushing portion in a second direction which is opposite to the first direction. Unless the motion detector detects the motion of the pushing mechanism moving the pushing portion in the first direction when the ejector ejects the sheet stack, the ejection controller executes interruption control of stopping the ejection of the sheet stack.

A system that eliminates return and reset of a pusher in a media collation system includes the use of bidirectional bins that allow accumulated sets of media in the bins to be collated in first or second directions and pushed to either of two banders rather than being restricted to one bander.

A post-processing apparatus includes a storing unit in which plural recording media are stored for performing post-processing, and a pushing member that latches onto and pushes trailing ends of the recording media stored in the storing unit toward an ejection port. When the number of the recording media stacked on the storing unit is small, the pushing member latches onto and pushes the trailing ends of the recording media at a position different from a position at which the pushing member latches onto and pushes the trailing ends of the recording media when the number of the recording media stacked on the storing unit is large.

A system that eliminates return and reset of a pusher in a media collation system includes the use of bidirectional bins that allow accumulated sets of media in the bins to be collated in first or second directions and pushed to either of two banders rather than being restricted to one bander.