An apparatus for forming and sorting informational items comprises a folding unit, a conveyor belt, a camera, a controller, and a diverter assembly. The folding unit forms a folded article from a sheet of paper. The conveyor belt transports the folded article. The camera captures an image of the folded article as it passes by the camera. The controller receives and processes the image, and the diverter assembly causes the folded article to move off of the conveyor belt when the controller determines that the folded article fails to satisfy at least one predetermined criteria.

An apparatus for forming and sorting informational items comprises a folding unit, a conveyor belt, a camera, a controller, and a diverter assembly. The folding unit forms a folded article from a sheet of paper. The conveyor belt transports the folded article. The camera captures an image of the folded article as it passes by the camera. The controller receives and processes the image, and the diverter assembly causes the folded article to move off of the conveyor belt when the controller determines that the folded article fails to satisfy at least one predetermined criteria.

An infeed module of a valuable media depository is configured to track media edge detection during ejection processing. When sensors of the infeed module report conditions that would otherwise indicate that media has exited or been retracted back into the infeed module during ejection processing, reporting of the conditions are delayed or modified based on a tracked edge detection status. Thereby permitting the infeed module to perform proper ejection processing on both windowed and non-windowed media regardless of the dimensions present for any windowed portions of the media.

An infeed module of a valuable media depository is configured to track media edge detection during ejection processing. When sensors of the infeed module report conditions that would otherwise indicate that media has exited or been retracted back into the infeed module during ejection processing, reporting of the conditions are delayed or modified based on a tracked edge detection status. Thereby permitting the infeed module to perform proper ejection processing on both windowed and non-windowed media regardless of the dimensions present for any windowed portions of the media.

The present invention is directed to providing a bill-separating-and-stacking unit with a simplified power-transmission structure by integrating driving units of a push plate and a shutter into a single unit. The bill-separating-and-stacking unit includes a sheet roller configured hit bills entering a bill-stacking space with a sheet, which is rotated, and configured to guide the bills to be stacked, a push plate configured to perform reciprocation and support the bills which are stacked in the bill-stacking space, a shutter which is rotated in one direction to be located in a stacking position so that the sheet of the sheet roller is rotatable to an upper side of the bill-stacking space when the bills are stacked, and is rotated in a direction opposite the one direction to be located in a separating position so that the sheet is prevented from protruding to the upper side of the bill-stacking space when the bills are separated, and a push-plate-and-shutter driving unit having a single driving source so that the push plate and the shutter are worked in conjunction with each other.

The present invention is directed to providing a bill-separating-and-stacking unit with a simplified power-transmission structure by integrating driving units of a push plate and a shutter into a single unit. The bill-separating-and-stacking unit includes a sheet roller configured hit bills entering a bill-stacking space with a sheet, which is rotated, and configured to guide the bills to be stacked, a push plate configured to perform reciprocation and support the bills which are stacked in the bill-stacking space, a shutter which is rotated in one direction to be located in a stacking position so that the sheet of the sheet roller is rotatable to an upper side of the bill-stacking space when the bills are stacked, and is rotated in a direction opposite the one direction to be located in a separating position so that the sheet is prevented from protruding to the upper side of the bill-stacking space when the bills are separated, and a push-plate-and-shutter driving unit having a single driving source so that the push plate and the shutter are worked in conjunction with each other.

A paper sheet feeding apparatus includes an inserting unit in which a paper sheet is inserted, a pick-up roller for picking up a paper sheet inserted in the inserting unit, a rotating shaft for rotating the pick-up roller, a detecting member that is supported by the rotating shaft so as to be able to rotate around the rotating shaft and is rotated by a bundling member that bundles paper sheets together, and a first detecting unit that detects rotation of the detecting member.

An endless conveyer belt is stretched between drive and idle rollers. A carriage is arranged so as to reciprocate along the endless conveyer belt. A suction box is arranged between upper and lower belt portions of the endless conveyer belt and fixed to the carriage. A stopper plate is fixed to the carriage and extends across a conveyer surface and upward from the conveyer surface. A conveyance roller pair is arranged at the upstream end of the conveyer surface. A region of the conveyer surface from a stopper plate to the upstream end u forms a sheet accumulation area. A cover sheet covers a region upstream of the suction box in the sheet accumulation area. The cover sheet is subjected to tension in the longitudinal direction by a winding-type constant force plate spring and continually tensed spaced apart from the endless conveyer belt.

A single sheet handling device (14a to 14d, 30, 200, 252, 270, 350) for the input and the output of rectangular single sheets (38) respectively into and out of a container (12a to 12d). These rectangular single sheets can in particular be banknotes (38). The single sheet handling device (14a to 14d, 30, 200, 252, 270, 350) has a feeding device with feeding elements for the sheet-by-sheet feeding of single sheets (38) and for storing these single sheets (38) in a stack (36) of single sheets in the container (12a to 12d). Further, the single sheet handling device has a separating device with separating elements for the sheet-by-sheet removal of single sheets (38) of the stack (36) from the container (12a to 12d). The feeding elements and the separating elements are arranged separately from the container (12a to 12d).

A paper sheet insertion apparatus (for example, depositing and dispensing unit 20) includes an imaging unit (for example, camera 60) that takes an image of an interior of the paper sheet handling machine 10 to obtain image data and a control unit (for example, depositing and dispensing unit control unit 72) that is provided inside the machine body of the paper sheet handling machine 10 and outputs information on foreign material other than the paper sheet and information on a constituent member of the paper sheet insertion apparatus, based on the image data obtained by the imaging unit.