When sheet products 1 are discharged, the sheet products are collided against shutter bars 5 so as to fall and stack on a feed conveyor 4. Then, each of protrusion bodies 7 and 8 are lowered by a first drive 9 so as to nip the sheet products between the protrusion bodies and the feed conveyor. Then, coming products are successively discharged and stacked on the protrusion bodies. And then, a second drive 12 is operated in conjunction with the feed conveyor so as to feed the sheet products nipped between the protrusion bodies and the feed conveyor 4. The shutter bars 5 are elevated and lowered by a third drive for adjusting the height position thereof.

When sheet products 1 are discharged, the sheet products are collided against shutter bars 5 so as to fall and stack on a feed conveyor 4. Then, each of protrusion bodies 7 and 8 are lowered by a first drive 9 so as to nip the sheet products between the protrusion bodies and the feed conveyor. Then, coming products are successively discharged and stacked on the protrusion bodies. And then, a second drive 12 is operated in conjunction with the feed conveyor so as to feed the sheet products nipped between the protrusion bodies and the feed conveyor 4. The shutter bars 5 are elevated and lowered by a third drive for adjusting the height position thereof.

A control device includes a storage and a controller and controls a system having an image forming apparatus to form an image onto a sheet based on an image forming job, and a sheet stacking apparatus having a stacking tray. The storage stores stacking state information indicating a state of sheets stacked and/or to be stacked on the stacking tray. The controller controls to generate a system configuration image that visualizes a configuration of the system, to generate a sheet bundle image that visualizes a sheet bundle stacked on the tray, and to display a screen in which the sheet bundle image is combined at a position of the stacking tray in the system configuration image. The controller controls to display the sheet bundle image such that sheets of a processed job, sheets of a job being processed, and sheets of a processing waiting job are distinguished from each other.

A control device includes a storage and a controller and controls a system having an image forming apparatus to form an image onto a sheet based on an image forming job, and a sheet stacking apparatus having a stacking tray. The storage stores stacking state information indicating a state of sheets stacked and/or to be stacked on the stacking tray. The controller controls to generate a system configuration image that visualizes a configuration of the system, to generate a sheet bundle image that visualizes a sheet bundle stacked on the tray, and to display a screen in which the sheet bundle image is combined at a position of the stacking tray in the system configuration image. The controller controls to display the sheet bundle image such that sheets of a processed job, sheets of a job being processed, and sheets of a processing waiting job are distinguished from each other.

The invention relates to a station for receiving sheet-form elements and discharging bundles of sheet-form elements for a packaging manufacturing machine, comprising: an arrangement for feeding sheet-form elements successively one after the other (8), a lift table (16), mobile in a vertical direction, comprising several continuous conveyor belts (17) extending in a longitudinal horizontal direction, for receiving the sheet-form elements in bundle form, an output conveyor (14), for discharging the sheet-form elements in bundle form, and a separator (21), mobile in the vertical direction, comprising several reception arms (22) being deployed in the longitudinal horizontal direction, for transiently receiving the sheet-form elements in bundle form, the arms (22) being disposed so as to be able to cross in the vertical direction without interacting with the belts (17) of the table (16).

The invention relates to a station for receiving sheet-form elements and discharging bundles of sheet-form elements for a packaging manufacturing machine, comprising: an arrangement for feeding sheet-form elements successively one after the other (8), a lift table (16), mobile in a vertical direction, comprising several continuous conveyor belts (17) extending in a longitudinal horizontal direction, for receiving the sheet-form elements in bundle form, an output conveyor (14), for discharging the sheet-form elements in bundle form, and a separator (21), mobile in the vertical direction, comprising several reception arms (22) being deployed in the longitudinal horizontal direction, for transiently receiving the sheet-form elements in bundle form, the arms (22) being disposed so as to be able to cross in the vertical direction without interacting with the belts (17) of the table (16).

The present invention provides a sheet stacking device, a counter-ejector, and a carton former and is provided with: a hopper unit that stacks cardboard boxes; feed rollers that feed a cardboard box to the hopper unit; a first blower device that blows air from above the hopper unit toward the cardboard box fed by the feed rollers; and a second blower device that blows air between the cardboard box stacked in the hopper unit and the cardboard box fed by the feed roller.

A separator (1) for temporarily receiving sheet elements (9) that are to be transferred from a stacking table (2) to an output conveyor (3) of bundles of sheet elements comprises: a support (10) mounted with the ability to slide in a vertical direction; a drive device (11) for driving the support in the vertical direction; several arms (13) extending in a longitudinal horizontal direction, spaced apart in a transverse direction, at least one arm (13) being mounted with the ability to move in the longitudinal horizontal direction with respect to the support, the movement of the arm modifying its overhanging length with respect to the support (10) on a first side in the longitudinal horizontal direction; a drive system (12) configured to simultaneously move the arm in the longitudinal horizontal direction and to keep another of the arms in its longitudinal position.

A separator (1) for temporarily receiving sheet elements (9) that are to be transferred from a stacking table (2) to an output conveyor (3) of bundles of sheet elements comprises: a support (10) mounted with the ability to slide in a vertical direction; a drive device (11) for driving the support in the vertical direction; several arms (13) extending in a longitudinal horizontal direction, spaced apart in a transverse direction, at least one arm (13) being mounted with the ability to move in the longitudinal horizontal direction with respect to the support, the movement of the arm modifying its overhanging length with respect to the support (10) on a first side in the longitudinal horizontal direction; a drive system (12) configured to simultaneously move the arm in the longitudinal horizontal direction and to keep another of the arms in its longitudinal position.

An example finisher includes a first portion extending in a vertical direction, a second portion including an entrance to receive paper as a finishing process target, and a finishing unit to perform a finishing process, the second portion extending from the first portion in a lateral direction, a stacker to receive paper discharged from the finishing unit and which extends in an opposite direction to the second portion based on the first portion, and an elevation driving unit provided on the first portion to elevate the stacker in a vertical direction.