A sheet stacking apparatus includes a frame, a round member directly or indirectly connected to the frame, and an arm directly or indirectly connected to the frame. The arm is rotatable to rotate between a first position and a second position. The arm is positioned to bias sheets toward the round member when in the first position, and the arm is positioned to bias the sheets away from the round member when in the second position.

A sheet stacking apparatus includes a frame, a round member directly or indirectly connected to the frame, and an arm directly or indirectly connected to the frame. The arm is rotatable to rotate between a first position and a second position. The arm is positioned to bias sheets toward the round member when in the first position, and the arm is positioned to bias the sheets away from the round member when in the second position.

To prevent erroneous transfer onto a paper sheet loading platform and improve the operation stability over the entire length of a long-edge direction of a pressing member by ensuring a long time during which the pressing member continues to push in a paper sheet alone. To include two rotating bodies 120 and 130 that have recesses 120a and 130a and are rotatable in opposite directions to each other in synchronization with each other, a pressing member 140 that is movable and presses an intermediate portion of a back of a paper sheet forward, a drive mechanism 180, and a paper sheet loading platform 200. The drive mechanism rotates each rotating body by an angle from 195 degrees to 270 degrees in a time period after the pressing member starts to bring a center of the paper sheet into contact with the paper sheet loading platform from an initial state until the pressing member leaves the center of the paper sheet.

Provided is a paper sheet processing device in which a plurality of paper sheets stacked after processing can be easily taken out in a state where ends thereof are aligned, without binding the paper sheets. The paper sheet processing device includes a stacking unit 6 that stacks therein the paper sheets after being processed by a processing unit 4. The stacking unit 6 includes a stacking unit main body 7, and a storage box 9 that can be taken in and out of a box storage space 7a of the stacking unit main body 7.

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.

An apparatus is disclosed. For example, the apparatus includes a paper feed to feed print media a single sheet at a time, a plurality of rotating discs, wherein each one of the plurality of rotating discs comprises an elastomer ring to secure a leading edge of the single sheet against a registration wall and initiate a flipping process, a curved baffle positioned above the plurality of rotating discs and the single sheet, an air duct located above the plurality of rotating discs and the single sheet to force an air flow towards the curved baffle, wherein the air flow follows a shape of the curved baffle to create a low pressure zone above the single sheet to keep a trailing edge of the single sheet levitated during completion of the flipping process, and a movable platform to hold a stack of the print media.

A sheet loading device includes a discharge roller pair, a loading tray, a paddle member, a sheet holding member, a tray lifting-lowering drive portion, a top surface detection sensor, and a control portion. The control portion is capable of performing a lifting-lowering operation to arrange the loading tray at a reference position by lowering the loading tray with the sheet holding member arranged at the holding position to turn the top surface detection sensor into an off state, then lifting the loading tray to turn the top surface detection sensor into an on state, and then lowering the loading tray again to turn the top surface detection sensor into the off state and stopping the loading tray. With the loading tray at the reference position, a predetermined clearance is provided between a top surface of a sheet loaded on the loading tray and a rotational orbit of the paddle member.

A sheet loading device includes a discharge roller pair, a loading tray, a paddle member, a sheet holding member, a tray lifting-lowering drive portion, a top surface detection sensor, and a control portion. The control portion is capable of performing a lifting-lowering operation to arrange the loading tray at a reference position by lowering the loading tray with the sheet holding member arranged at the holding position to turn the top surface detection sensor into an off state, then lifting the loading tray to turn the top surface detection sensor into an on state, and then lowering the loading tray again to turn the top surface detection sensor into the off state and stopping the loading tray. With the loading tray at the reference position, a predetermined clearance is provided between a top surface of a sheet loaded on the loading tray and a rotational orbit of the paddle member.

A paper sheet accumulating device includes an accumulating part in which paper sheets are accumulated, an impeller that sends the paper sheets to the accumulating part, and a support mechanism that supports the impeller. The support mechanism includes a first rotation shaft that supports the impeller rotatable, a support member provided with the first rotation shaft, a second rotation shaft that supports the support member rotatable in a direction of the support member moving toward and away from the accumulating part, and a biasing member that biases the support member in a direction of the impeller moving toward the paper sheets accumulated in the accumulating part.

A paper sheet accumulating device includes an accumulating part in which paper sheets are accumulated, an impeller that sends the paper sheets to the accumulating part, and a support mechanism that supports the impeller. The support mechanism includes a first rotation shaft that supports the impeller rotatable, a support member provided with the first rotation shaft, a second rotation shaft that supports the support member rotatable in a direction of the support member moving toward and away from the accumulating part, and a biasing member that biases the support member in a direction of the impeller moving toward the paper sheets accumulated in the accumulating part.