A coin processing apparatus configured to: cause a coin output conveying unit to collectively convey coins taken out for each denomination from a plurality of coin containers where the coins are housed in the respective coin containers for each denomination; and dispense the conveyed coins from a coin output port through a coin output shoot unit, the coin processing apparatus includes: a coin stay detecting sensor configured to detect a coin stay on a shoot face of the coin output shoot unit; a reporting unit configured to perform report output for abnormality; and a controller configured to cause the reporting unit to perform report output for coin stay abnormality in the coin output shoot unit when the coin stay detecting sensor detects the coin stay.

A sensing apparatus can be configured to detect an edge of a paper that is received by an automated transaction machine (ATM). The paper can move along a path located inside the ATM, the path having opposite first and second sides. The sensing apparatus can include a light emitter and a light detector on the first side of the path, with the light emitter positioned so that it can emit light across the path to the second side. The light detector can be configured to detect light from the light emitter and can emit a signal corresponding to an amount of detected light. The sensing apparatus can also include a control circuit that can control a flow of power to the light emitter, and the control circuit can also receive the signal emitted by the sensor.

A sensing apparatus can be configured to detect an edge of a paper that is received by an automated transaction machine (ATM). The paper can move along a path located inside the ATM, the path having opposite first and second sides. The sensing apparatus can include a light emitter and a light detector on the first side of the path, with the light emitter positioned so that it can emit light across the path to the second side. The light detector can be configured to detect light from the light emitter and can emit a signal corresponding to an amount of detected light. The sensing apparatus can also include a control circuit that can control a flow of power to the light emitter, and the control circuit can also receive the signal emitted by the sensor.

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.

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.

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 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 paper sheet processing device includes: an input unit into which paper sheets are input from the outside; an identification unit for identifying the paper sheets fed out from the input unit while allowing them to pass through in a first direction and identifying the paper sheets while allowing them to pass through in a second direction opposite to the first direction; a temporary storage unit for temporarily storing the paper sheets identified as being acceptable by the identification unit; a payout unit for accommodating the paper sheets identified as being unacceptable by the identification unit so as to be able to be taken out to the outside; and a storage unit for storing the paper sheets fed out from the temporary storage unit and identified by the identification unit while being allowed to pass through the identification unit in the second direction, wherein the paper sheets fed out from the temporary storage unit and identified by the identification unit while being allowed to pass through the identification unit in the second direction can be transferred to the input unit.

A banknote processing device comprises a banknote transport path defined at least in part by a transport plate on one side of the banknote transport path, the banknote transport plate being pivotally mounted about a first axis near an upstream end of the transport plate, the transport plate including a working position and an open position, a display assembly being pivotally mounted about a second axis spaced a defined distance apart from the first axis, the display assembly including an operational position and a non-operational position, and a linkage coupled to display assembly and to the transport plate near a downstream end of the transport plate, wherein, when the display assembly is rotated from the operational position to the non-operational position, the linkage causes the transport plate to move from the working position to the open position.

A banknote processing device comprises a banknote transport path defined at least in part by a transport plate on one side of the banknote transport path, the banknote transport plate being pivotally mounted about a first axis near an upstream end of the transport plate, the transport plate including a working position and an open position, a display assembly being pivotally mounted about a second axis spaced a defined distance apart from the first axis, the display assembly including an operational position and a non-operational position, and a linkage coupled to display assembly and to the transport plate near a downstream end of the transport plate, wherein, when the display assembly is rotated from the operational position to the non-operational position, the linkage causes the transport plate to move from the working position to the open position.