Provided is a paper sheet loading device including a paper sheet loading unit having a bottom plate and a front wall, a feed roller that comes in contact with a bottom surface of a lowermost paper sheet of a batch of paper sheets and rotates to feed the lowermost paper sheet to outside of the paper sheet loading unit, and a load adjusting member arranged so as to protrude into the paper sheet loading unit and retreat to outside of the paper sheet loading unit. At a time of protrusion of the load adjusting member, the load adjusting member presses a front side face of the batch of paper sheets by a pressing surface to displace the front side face to an innermost part, and receives a load from the batch of paper sheets by the pressing surface, thereby reducing the load applied to the feed roller from the batch of paper sheets.

Provided is a paper sheet loading device including a paper sheet loading unit having a bottom plate and a front wall, a feed roller that comes in contact with a bottom surface of a lowermost paper sheet of a batch of paper sheets and rotates to feed the lowermost paper sheet to outside of the paper sheet loading unit, and a load adjusting member arranged so as to protrude into the paper sheet loading unit and retreat to outside of the paper sheet loading unit. At a time of protrusion of the load adjusting member, the load adjusting member presses a front side face of the batch of paper sheets by a pressing surface to displace the front side face to an innermost part, and receives a load from the batch of paper sheets by the pressing surface, thereby reducing the load applied to the feed roller from the batch of paper sheets.

A banknote feeder device (3) configured to interconnect and operate in conjunction with a banknote acceptor apparatus (2), the banknote feeder device (3) comprising a banknote transport mechanism operable, when the banknote feeder device (3) is connected to said banknote acceptor apparatus (2), to transport a banknote from a banknote input aperture to a banknote output aperture. The banknote transport mechanism comprises a linear succession of spaced-apart pairs of transport wheels (22) and each transport wheel extends at least partially through a banknote transport conduit surface into an interior cavity of the banknote transport conduit between the banknote input aperture and the banknote output aperture.

An example disclosed output hopper includes a cavity to receive media units from an output of a media processing device, the cavity to cause the media units to form a stack in a first direction; a first door pivotably movable between a closed position and an open position, the first door to retain the media units in the cavity when in the closed position, wherein the first door is configured to pivot on a first axis substantially parallel to the first direction; wherein: the first door includes a first cutout at a first top edge of the first door; and the first cutout allow the media units to spill over the first and second top edges when a capacity of the cavity is exceeded.

An example disclosed output hopper includes a cavity to receive media units from an output of a media processing device, the cavity to cause the media units to form a stack in a first direction; a first door pivotably movable between a closed position and an open position, the first door to retain the media units in the cavity when in the closed position, wherein the first door is configured to pivot on a first axis substantially parallel to the first direction; wherein: the first door includes a first cutout at a first top edge of the first door; and the first cutout allow the media units to spill over the first and second top edges when a capacity of the cavity is exceeded.

A card issuing device for using with a plurality of cards includes a card storage part which accommodates the plurality of cards, a card send-out mechanism which sends out a card among the plurality of cards from the card storage part, a card conveyance mechanism which conveys the card sent out by the card send-out mechanism toward a card discharge port along a card conveyance passage connected with the card discharge port, an optical sensor which is located on a lower side with respect to the card conveyance passage and reads a code indicated on a rear face of the card, and a dust adhesion prevention mechanism which prevents dust from adhering to a reading face of the optical sensor when the optical sensor is not used.

A card issuing device for using with a plurality of cards includes a card storage part which accommodates the plurality of cards, a card send-out mechanism which sends out a card among the plurality of cards from the card storage part, a card conveyance mechanism which conveys the card sent out by the card send-out mechanism toward a card discharge port along a card conveyance passage connected with the card discharge port, an optical sensor which is located on a lower side with respect to the card conveyance passage and reads a code indicated on a rear face of the card, and a dust adhesion prevention mechanism which prevents dust from adhering to a reading face of the optical sensor when the optical sensor is not used.

The present disclosure is generally related to an apparatus having cutter elements for destroying articles such as paper sheets and a mechanism for separating at least a sheet from a stack in a tray. The separation mechanism can be activated by rotation of the cutter elements. In one embodiment, the separation mechanism is provided in the form of a helical mechanism configured for insertion into the stack and to receive separated sheets from the stack in between its space(s) as it is rotated. The separated sheets can fall via gravity into the shredder mechanism. Optionally, a paper feed mechanism can feed separated paper to the cutter elements. The tray can include an edge to assist in directing separated paper towards the cutter elements. One or more staple picking support mechanisms can also be provided to assist in separating sheets from a stapled set of pages.

The present disclosure is generally related to an apparatus having cutter elements for destroying articles such as paper sheets and a mechanism for separating at least a sheet from a stack in a tray. The separation mechanism can be activated by rotation of the cutter elements. In one embodiment, the separation mechanism is provided in the form of a helical mechanism configured for insertion into the stack and to receive separated sheets from the stack in between its space(s) as it is rotated. The separated sheets can fall via gravity into the shredder mechanism. Optionally, a paper feed mechanism can feed separated paper to the cutter elements. The tray can include an edge to assist in directing separated paper towards the cutter elements. One or more staple picking support mechanisms can also be provided to assist in separating sheets from a stapled set of pages.

In a destacking device comprising a stacking magazine (2), the respective lowest sheet of a stack (1) of metal sheets is destacked by way of a suction element (5, 15). This element can be moved upward and downward by way of a drive (6). At the end of the upward movement, the respective lowest metal sheet (4) of the stack (1) is gripped by suction power and pulled from the stack. A second suction element (5, 15) is provided, which can be moved upward and downward by way of a drive (6) and by way of which the lowest sheet (4) of the stack (1) can be gripped at the end of the upward movement. The second suction element is driven so as to be leading with respect to the first suction element, so that the respective lowest sheet (4) of the stack (1) can first be pulled from the stack by the second suction element (5), and subsequently by the first suction element (5). In this way, it becomes possible to destack thin sheets having a thickness of only 0.12 mm and a square shape without disruption. The stack is held magnetically in the stacking magazine, which facilitates destacking.