A conveyor includes a frame, a carriage supported by the frame for sliding movement in a longitudinal direction, a lower conveyor deck supported by the frame and an upper deck. The lower deck has a plurality of contact elements, which may be wheels, for supporting sheets of material moving through the conveyor. The upper deck includes a rear portion having a plurality of longitudinally extending transversely spaced first belts each supported by a plurality of first pulleys and a front portion including a plurality of longitudinally extending transversely spaced second belts each supported a plurality of second pulleys. The plurality of second pulleys includes a first second pulley and a second second pulley that are supported by the carriage for movement with the carriage relative to the frame.

To provide a sheet processing system which can properly perform sorting processing of a plurality of kinds of sheets, while making each of a plurality of sheet processing apparatuses effectively operate.

A sheet processing system of an embodiment has a plurality of sheet processing apparatuses, a sorting apparatus, a storage unit, an information acquisition unit, and a controller. The plurality of sheet processing apparatuses each has a plurality of stackers for stacking sheets. The plurality of sheet processing apparatuses each sorts and stacks the sheets in the plurality of stackers. The plurality of sheet processing apparatuses each outputs information of a stacking status of the sheets in each of the plurality of stackers. The sorting apparatus sorts and feeds a sheet group formed of a plurality of the sheets to any of the plurality of sheet processing apparatuses. The storage unit stores the information of the stacking status of the sheets in each of the plurality of sheet processing apparatuses. The controller controls sorting of the sheet group by the sorting apparatus, based on the information of the sheet group which the information acquisition unit acquires, and the information of the stacking status of the sheets in the storage unit.

A bundle conveyance unit conveys a medium bundle created by a storage unit in a conveyance direction along a bundle conveyance path. Either the storage unit or the bundle conveyance unit includes a conveyance guide that is disposed at a connection location between the storage unit and the bundle conveyance unit, that forms a portion of the bundle conveyance path, and that transitions between a state communicating the bundle conveyance path with the inside of a reject storage box, and a state communicating the bundle conveyance path with the inside of a stacking section.

A sheet conveying apparatus including: a pair of inlet rollers; a pair of outlet rollers; a pair of movable rollers disposed between the inlet rollers and the outlet rollers; a moving unit configured to move the movable rollers; a pair of upstream rollers disposed between the inlet rollers and the movable rollers; a pair of downstream rollers disposed between the movable rollers and the outlet rollers; a first conveyance belt passed over a first inlet roller, a first outlet roller, a first movable roller, a first upstream roller, and a first downstream roller; and a second conveyance belt passed over a second inlet roller, a second outlet roller, a second movable roller, a second upstream roller, and a second downstream roller. A diameter of the pair of upstream rollers and a diameter of the pair of downstream rollers are smaller than a diameter of the pair of movable rollers.

A mail processing system utilizes a conveyor to shingle or de-shingle mailpieces as they move through the processing system and utilizes belts to move the mailpieces. A first shingling conveyor moves a first mailpiece to overlap with a second mailpiece to create shingled mailpieces. A second shingling conveyor moves a first mailpiece away from a second mailpiece to de-shingle them to create singulated mailpieces. A camera takes images of the mailpieces in the conveyor and image analysis software is used to determine dimensional aspects of the mailpieces that are used to control the belt speeds to move mailpieces with respect to each other. A mail processing system may include a mail processing station that scans addresses, applies postage and/or weighs the mailpieces. Mail may be de-shingled prior to being weighed and then re-shingled for subsequent processing, or mail may be shingled prior to passing through a scale if weighing is not necessary.

A multi-currency allocation assembly line includes a machine core module, a plastic packaging module, a sorting assembly line, and a manipulator. The machine core module is used for storing banknotes, and outputting banknotes into a banknote receiving funnel according to a system instruction. Among the machine cores in an array, the machine cores respectively store different banknotes, and the banknotes output by the different machine cores are then respectively conveyed, by means of the manipulator, to the plastic packaging module for plastic packaging and are then conveyed to the sorting assembly line, so as to complete banknote allocation, packaging and sorting in one step, thereby greatly increasing the banknote allocation efficiency and minimizing manual errors during manual operation.

An apparatus for aligning at least one note of value along a transport path including at least one transport element, at least one first drive unit, first and second rotatably mounted deflecting elements, and a second drive unit. The transport element includes an endless drive belt. The first drive unit drives the transport element in a first direction of rotation which moves the note of value along the transport path in a transport direction. The transport element is deflected over the deflecting elements. The second drive unit displaces at least one of the first and second deflecting elements along its axis of rotation so that by displacing the one of the first and second deflecting elements the note of value contacting the at least one transport element is moved obliquely to the transport direction.

A layboy includes an upper belt section with a plurality of transversely spaced upper belts that extend in a longitudinal direction such that bottom portions of the upper belts lie in a first plane that defines an upper boundary of a transport path through the layboy and a lower belt section having a plurality of transversely spaced lower belts that extend in the longitudinal direction such that top portions of the lower belts lie in a second plane that defines an upper boundary of the transport path. The bottom portion of one of the top belts and/or the top portion of one of the bottom belts extends away from the transport path to define a gap in the transport path at which scrap moving through the layboy can fall out of the transport path.

A sheet processing apparatus includes a pair of belts, a water supplying unit, a curving unit and a controller. The pair of belts defines a conveying path for holding and conveying a paper sheet. The water supplying unit supplies water to outer surfaces of the belts. The curving unit curves the conveying path defined by the belts. The controller makes the water supplying unit supply water to the outer surfaces of the belts, and makes the belts convey the sheet between the belts in a state where the conveying path is curved by the curving unit to correct the curling of the sheet.

A sheet aligning mechanism includes first and second conveyance mechanisms disposed on first and second sides of a sheet conveyance path, respectively. A nip is formed between the first and second conveyance mechanisms. The first conveyance mechanism includes a first roller, a second roller, and a first conveyance belt wound around the first and second rollers. The first and second rollers are configured to rotate in a first direction along a sheet conveying direction for sheet conveyance, and stop rotation or rotate in a second direction opposite to the first direction for sheet alignment. The first conveyance belt includes an extended region between the first and second rollers in an extending direction inclined with respect to the sheet conveying direction, such that a width of the sheet conveyance path becomes narrower towards the nip in the sheet conveying direction.