An apparatus and a corresponding method involve storing value documents, in particular bank notes, to a storage device and to a value-document processing system. A stacker wheel is arranged to receive value documents and dispense them one after the other. A transport device is arranged to receive the value documents dispensed one after the other by the stacker wheel and to transport them in such a way that the value documents come to lie on top of each other in a shingled manner. A storage device for storing the value documents lying on top of each other in a shingled manner is provided.

A banknote processing device includes an output receptacle module, including side walls, each side wall including a flange, wherein each flange includes an aperture, a first transport plate, and a transport motor. The banknote processing device further includes a common input and discrimination module including a shaft releasably received in the aperture of each flange of the side walls of the output receptacle module, a drive shaft having one or more driven rollers coupled thereto, and a second transport plate which together with the first transport plate defines a transport path between the first and second transport plates, wherein the one or more driven rollers move banknotes along the transport path between the second and first transport plates.

A bill-loading machine for receptacles (e.g., cash cassettes or cash cartridges for cash cassettes) for cash-dispensing machines. The bill-loading machine has receptacle ports, currency bins, and bill dispensers. Each receptacle port receives a receptacle that (i) stores bills and (ii) is configurable to the cash-dispensing machines for dispensing the bills. Each currency bin stores a bills, and each bill dispenser loads a receptacle located at a corresponding receptacle port with bills from a corresponding currency bin. In some embodiments, the bill-loading machine includes a bill sorter that receives an input supply of bills of varied denominations, automatically sorts the bills into multiple flows of paper currency of specific denominations for storage in multiple currency bins, and automatically loads each currency bin with the bills of a corresponding denomination.

Provided is a bill handling device including: a deposit opening into which bills are put; a withdrawal opening from which the bills are withdrawn; a shutter that is opened or closed to block or release an opening space of the withdrawal opening; and movable plates which are located on a lower side of the shutter in a closed state in which the shutter is closed, and are opened and closed with holding points set as fulcrums in an opened state in which the shutter is opened. The fulcrums as the holding points are located on a shutter side in the opened state in which the shutter is opened.

The disclosure relates to a banknote handling machine comprising: a banknote transport arrangement configured to transport banknotes along transport paths within the machine, wherein the banknote transport arrangement comprises a diverter assembly comprising: a diverter rotatably attached to a structure of the machine, and an electric motor configured to transfer kinetic energy to the diverter so as to rotate the diverter between a first position and a second position, wherein the diverter, when in the first position, is configured to control banknotes to be transported along a first transport path, and wherein the diverter, when in the second position, is configured to control banknotes to be transported along a second transport path.

Described herein is a method comprising performing optical character recognition on at least one region of a display screen to determine at least one displayed character; identifying, from the determined at least one displayed character, a monetary value to be dispensed; and in response to identifying the monetary value to be dispensed, causing to be dispensed at least one money item corresponding to the identified monetary value. Further described is a method comprising determining, using at least one money item denominating apparatus, a monetary value of at least one received money item; in response to determining the monetary value, automatically providing at least one simulated user input to the interactive user interface indicative of the determined monetary value.

A speedy and efficient checkout process at a checkout counter in a store is realized by a deposit machine that receives deposited money from a customer and issues a pre-deposit receipt with which a pre-deposit amount is associated, and a POS register that scans a barcode of a commodity to calculate a checkout amount and reads a pre-deposit receipt to specify a pre-deposit amount. The POS register performs a checkout process for the checkout amount by using the pre-deposit amount, calculates, as change, a difference between the pre-deposit amount and the checkout amount, and causes a change machine to dispense money corresponding to the change.

A rotary solenoid includes: a fixed body portion having a casing in which a pair of bearing portions and positioned on front and rear sides are provided; and a movable body portion having a rotation shaft rotatably supported by the pair of bearing portions. The fixed body portion includes: the casing formed of a magnetic material; and an air-cored coil of which the surface orthogonal to an axial direction of the rotation shaft is fixed to an inner surface of the casing. The movable body portion includes: a rotor yoke having one end fixed to the rotation shaft; and a magnet portion having a pair of magnets and fixed to an opposing surface positioned on the other end side of the rotor yoke serving as a surface opposing the air-cored coil and disposed along a rotation direction of the opposing surface.

A modular ATM is disclosed herein and can include a safe with a first port, at least one currency cassette and dispenser both positioned in the safe, a currency conveyor, and a plurality of linking transport assemblies. The dispenser can move banknotes between the cassette and the first port. The currency conveyor can be positioned on the safe, have second and third ports, and move banknotes between the second and third ports. The currency conveyor can be positionable in a plurality of different orientations and offsets relative to the safe. The plurality of linking transport assemblies can each be individually engageable with the currency conveyor. Each of the linking transport assembly moves banknotes between the first port of the safe and the second port of the currency conveyor. Each linking transport assembly is individually positionable between the safe and the currency conveyor.

A modular ATM is disclosed herein and can include a safe with a first port, at least one currency cassette and dispenser both positioned in the safe, a recycler, and a plurality of linking transport assemblies. The dispenser can move banknotes between the cassette and the first port. The recycler can be positioned on the safe, have second and third ports, and move banknotes between the second and third ports. The recycler can be positionable in a plurality of different orientations and offsets relative to the safe. The plurality of linking transport assemblies can each be individually engageable with the recycler. Each of the linking transport assembly moves banknotes between the first port of the safe and the second port of the recycler. Each linking transport assembly is individually positionable between the safe and the recycler.