Presently disclosed embodiments are directed to a system and method for loading mail trays in a sorter without human intervention. Specifically, the disclosed embodiments utilize an automated mail tray having a bottom plate that is selectively moveable between an elevated position and a lowered position. The automated mail tray may be positioned on a shelf under a corresponding output pocket of a mail stacker, and the bottom plate may be elevated to receive mail product transferred from the output pocket to the automated mail tray. After receiving the mail product on the elevated bottom plate, the bottom plate of the mail tray may be lowered so that the mail product is transferred from the output pocket to a position fully situated in the automated mail tray. The mail tray filled with mail product may then be removed from the shelf and replaced with an empty automated mail tray.

A banknote-passing type banknote conveying device, used at a banknote inlet-outlet of an automatic teller machine, includes a mounting lateral plate, a banknote stacking mechanism, a banknote clamping and conveying mechanism, a pressing mechanism, a jacking mechanism, and a central control unit for controlling the operation of the above mechanisms. The banknote-passing type banknote conveying device uses a lifting motor and a connection rod to drive a lifting plate to move the banknotes up and down, and uses a pressing plate to move the banknotes back and forth. The functions of stacking and passing banknotes are achieved in an effective space. Moreover, a pull type electromagnet and a spring are used to control the opening and closing of the banknote clamping and conveying mechanism, thus a traditional motor control method and the like can be omitted, such that the cost is low, and the reliability is high.

A medium processing device includes: a first unit; and a plurality of second units connected to the first unit. Each of the plurality of second units includes: a conveying mechanism that conveys a medium; and a medium detection portion that detects the medium being conveyed by the conveying mechanism and transmits a signal indicating detection of the medium to the first unit. The first unit determines connection order of the plurality of second units with respect to the first unit, based on the signal transmitted from each medium detection portion of the plurality of second units.

A medium processing device includes: a first unit; and a plurality of second units connected to the first unit. Each of the plurality of second units includes: a conveying mechanism that conveys a medium; and a medium detection portion that detects the medium being conveyed by the conveying mechanism and transmits a signal indicating detection of the medium to the first unit. The first unit determines connection order of the plurality of second units with respect to the first unit, based on the signal transmitted from each medium detection portion of the plurality of second units.

A stacking wheel mechanism (30) includes a stacking wheel (32) that is arranged near a stacking unit (26) and having a plurality of elastic blades (32a) on an outer circumferential surface thereof, and a blade guiding member (38) that is arranged near the stacking wheel (32) to guide the blades (32a) of the stacking wheel (32). The blade guiding member (38) guides the blades (32a) of the stacking wheel (32) such that the blades (32a) of the stacking wheel (32) enter into a transport path (for example, an internal transport path (36)) when the stacking wheel (32) rotates in a feeding-in direction of a paper sheet toward the stacking unit (26) and the blades (32a) of the stacking wheel (32) retreat from the transport path when the stacking wheel (32) rotates in a feeding-out direction of the paper sheet from the stacking unit (26).

A stacking wheel mechanism (30) includes a stacking wheel (32) that is arranged near a stacking unit (26) and having a plurality of elastic blades (32a) on an outer circumferential surface thereof, and a blade guiding member (38) that is arranged near the stacking wheel (32) to guide the blades (32a) of the stacking wheel (32). The blade guiding member (38) guides the blades (32a) of the stacking wheel (32) such that the blades (32a) of the stacking wheel (32) enter into a transport path (for example, an internal transport path (36)) when the stacking wheel (32) rotates in a feeding-in direction of a paper sheet toward the stacking unit (26) and the blades (32a) of the stacking wheel (32) retreat from the transport path when the stacking wheel (32) rotates in a feeding-out direction of the paper sheet from the stacking unit (26).

The stacker comprises a pair of protrusions 6 prominent from side walls 5 in a spaced relation to each other to form a second opening 7 between protrusions 6, an interim chamber 13 defined by partitions 3 and protrusions 6, and a pair of inner surfaces 8 formed on protrusions 6 prominent into interim chamber 13 from side walls 5 more inward than side surfaces of a holding chamber 12. Largely deviated one of side edges of document D comes into contact to inner surface 8 in interim chamber 13 to push document D inward by projection of inner surface 8 to store document D in a vault 30 with the tolerable deviation upon stowage of a subsequent document D.

The stacker comprises a pair of protrusions 6 prominent from side walls 5 in a spaced relation to each other to form a second opening 7 between protrusions 6, an interim chamber 13 defined by partitions 3 and protrusions 6, and a pair of inner surfaces 8 formed on protrusions 6 prominent into interim chamber 13 from side walls 5 more inward than side surfaces of a holding chamber 12. Largely deviated one of side edges of document D comes into contact to inner surface 8 in interim chamber 13 to push document D inward by projection of inner surface 8 to store document D in a vault 30 with the tolerable deviation upon stowage of a subsequent document D.

A cash automatic transaction device capable of, upon storage of a banknote sent from a depositing/dispensing port in a banknote storage box, or upon accumulation of a banknote sent from the banknote storage box in the depositing/dispensing port, preventing the occurrence of trouble such as paper jam or poor posture. The cash automatic transaction device has a depositing/dispensing port used for depositing/dispensing of banknotes, and a banknote storage box for storage of deposited/dispensed banknotes. The depositing/dispensing port has depositing/dispensing space to store the deposited/dispensed banknotes, and accumulation space in which the banknote is accumulated upon dispensing. The width of the depositing/dispensing space is smaller than the exit and entrance width of the storage box, while the width of the accumulation space is greater than the exit and entrance width of the storage box.

A storage module (1) comprises a storage zone (3) for storing flat articles (2) by accumulation in a stack and on edge, a main conveyor (9) that extends transversely to the storage zone, a stacking function for transferring an article from the main conveyor to the storage zone and for stacking it at the back of the stack of articles in the storage zone, and an unstacking function for extracting an article from the stack of articles and for transferring it to the main conveyor. The unstacking function comprises an unstacking plate (7) having a perforated belt and controlled suction and disposed between the main conveyor and the storage zone, said unstacking plate having a first segment parallel to the stack of articles and a second segment that is adjacent to the first segment and that extends slantwise relative to the first segment, said controlled suction being disposed in the slantwise second segment of the unstacking plate.