An example stacking system comprises a stacking member movable between a first position in which the stacking member is configured to partially support a first stack of printed substrates, and a second position in which the stacking member is disengaged from the first stack. A receptacle positioned below the stacking member is configured to hold a second stack of printed substrates. A controller is configured to cause the stacking member to move between the first position and the second position when the first stack satisfies a criterion, thereby depositing the first stack into the receptacle on top of the second stack.

A discharging device includes: a pair of medium supporting portions that are provided so as to face each other in a width direction intersecting a transporting direction in which a medium is transported and that support the medium that is transported; and a stacking portion that is provided vertically below the pair of medium supporting portions and on which the medium that drops from the pair of medium supporting portions is stacked, each of the pair of medium supporting portions is configured to move in the width direction, the pair of medium supporting portions are configured to be arranged, after the medium is dropped onto the stacking portion, at positions at which a distance in the width direction becomes a predetermined distance, and the predetermined distance varies in accordance with a width of the medium stacked on the stacking portion.

A discharging device includes: a pair of medium supporting portions that are provided so as to face each other in a width direction intersecting a transporting direction in which a medium is transported and that support the medium that is transported; and a stacking portion that is provided vertically below the pair of medium supporting portions and on which the medium that drops from the pair of medium supporting portions is stacked, each of the pair of medium supporting portions is configured to move in the width direction, the pair of medium supporting portions are configured to be arranged, after the medium is dropped onto the stacking portion, at positions at which a distance in the width direction becomes a predetermined distance, and the predetermined distance varies in accordance with a width of the medium stacked on the stacking portion.

An example system includes an advancement mechanism to drive print media into a stacking region, a movable media guide arrangement and a controller. The movable media guide arrangement includes a pair of opposing media guides to receive opposing edges of a print medium therein and a translation mechanism to move the opposing media guides between at least two positions, the at least two positions including a deployed position and a retracted position. The controller is to actuate the translation mechanism to move the opposing media guides into the deployed position when the advancement mechanism transports a print medium into the stacking region and to actuate the translation mechanism to move the opposing media guides to the retracted position to release the print medium.

An example system includes an advancement mechanism to drive print media into a stacking region, a movable media guide arrangement and a controller. The movable media guide arrangement includes a pair of opposing media guides to receive opposing edges of a print medium therein and a translation mechanism to move the opposing media guides between at least two positions, the at least two positions including a deployed position and a retracted position. The controller is to actuate the translation mechanism to move the opposing media guides into the deployed position when the advancement mechanism transports a print medium into the stacking region and to actuate the translation mechanism to move the opposing media guides to the retracted position to release the print medium.

A generally vertical banknote recycling bay arrangement comprising a generally vertically oriented banknote recycling bay for receiving banknotes therein, the recycling bay having an upper end and a lower end. The arrangement further comprising a banknote feeding assembly for feeding banknotes, one at a time, into the recycling bay, the feeding assembly being positioned near the upper end of the recycling bay. The arrangement further comprising a banknote dispensing assembly for feeding banknotes, one at a time, out of the recycling bay, the dispensing assembly being positioned near the upper end of the recycling bay. The arrangement further comprising a pair of stacker wheels supported for rotational movement about a driven stacker wheel shaft, each stacker wheel being laterally moveable along the driven stacker wheel shaft and a stacker wheel positioning mechanism configured to adjust the lateral positions of the pair of stacker wheels along the stripper wheel shaft. During operation in which banknotes are to be fed into the recycling bay, the lateral position of the stacker wheels is adjusted by the stacker wheel positioning mechanism to an inward position such that banknotes to be fed into the recycling bay are received by the stacker wheels and stacked in the recycling bay. During operation in which banknotes are to be fed out of the recycling bay, the lateral position of the stacker wheels is adjusted by the stacker wheel positioning mechanism to an outward position such that banknotes to be fed out the recycling bay are not engaged by the stacker wheels but instead are engaged by the banknote dispensing assembly which sequentially engages the topmost banknote stacked in the recycling bay and feeds banknotes out of the recycling bay, one bill at a time.

A sheet processing apparatus includes a processing tray, a pushing member, and a movable guide. One or more sheets to be processed are placeable on the processing tray for sheet processing. The pushing member is configured to push an edge of the one or more sheets on the processing tray on an upstream side in a sheet conveying direction, by moving along a surface of the processing tray in the sheet conveying direction. The movable guide is movable to a sheet pressing position at which a distance between the surface of the processing tray and the movable guide is equal to or less than a height of the pushing member above the surface of the processing tray. The movable guide is at the sheet processing position when the pushing member moves along the surface of the processing tray in the sheet conveying direction.

A load former includes a loading zone, a stacking zone adjacent to the loading zone, a platform in the stacking zone, a first drive configured to raise and to lower the platform, and a cookie sheet having a first portion and a second portion adjacent to the first portion. The cookie sheet is shiftable from a first position in which the first portion of the cookie sheet forms a floor of the loading zone and the second portion of the cookie sheet is not located in the loading zone or in the stacking zone and a second position in which the first portion of the cookie sheet extends directly above the platform in the stacking zone and the second portion of the cookie sheet forms the floor of the loading zone. A second drive shifts the cookie sheet between the first position and the second position.

A load former includes a loading zone, a stacking zone adjacent to the loading zone, a platform in the stacking zone, a first drive configured to raise and to lower the platform, and a cookie sheet having a first portion and a second portion adjacent to the first portion. The cookie sheet is shiftable from a first position in which the first portion of the cookie sheet forms a floor of the loading zone and the second portion of the cookie sheet is not located in the loading zone or in the stacking zone and a second position in which the first portion of the cookie sheet extends directly above the platform in the stacking zone and the second portion of the cookie sheet forms the floor of the loading zone. A second drive shifts the cookie sheet between the first position and the second position.

Certain examples described herein relate to transporting sheets of print media. In one example, a media transport apparatus has a plurality of media transport sections including a first media transport section and a second media transport section offset from the first media transport section in a media transport direction. The media transport apparatus has a holding section arranged to receive a sheet of print media from the first media transport section. The holding section is moveable to deposit the sheet of print media upon the second media transport section.