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.

Disclosed is a banknote processing device and a banknote processing method. The banknote processing device includes an identification mechanism, an in-out mechanism, a loading box, a circulating box, a main passage, an auxiliary passage, an in-out passage, a loading passage, and a circulating passage. The auxiliary passage is of annular shape, and both ends of the main passage are each connected to the auxiliary passage. A banknote is allowed to move in a one-way direction along a preset direction in the auxiliary passage. The identification mechanism is disposed in the main passage. The in-out passage is connected between the main passage and the in-out mechanism. A first end of the circulating passage is connected to the main passage. A second end of the circulating passage is connected to the circulating box. A first end of the loading passage is connected to the auxiliary passage, and a second end of the loading passage is connected to the loading passage.

Disclosed is a banknote processing device and a banknote processing method. The banknote processing device includes an identification mechanism, an in-out mechanism, a loading box, a circulating box, a main passage, an auxiliary passage, an in-out passage, a loading passage, and a circulating passage. The auxiliary passage is of annular shape, and both ends of the main passage are each connected to the auxiliary passage. A banknote is allowed to move in a one-way direction along a preset direction in the auxiliary passage. The identification mechanism is disposed in the main passage. The in-out passage is connected between the main passage and the in-out mechanism. A first end of the circulating passage is connected to the main passage. A second end of the circulating passage is connected to the circulating box. A first end of the loading passage is connected to the auxiliary passage, and a second end of the loading passage is connected to the loading passage.

The invention relates to a switch assembly for a device for handling value documents, comprising a shaft (110) which is rotationally fixed to a switch body (120), said switch body (120) being rotatable about the longitudinal axis of the shaft (110) between a first switch body position (PI) and a second switch body position (P2). The switch assembly additionally comprises a switch lever (130, 131), said shaft (110) being rotatable about its longitudinal axis by means of the switch lever (130, 131), and a solenoid (200) which comprises an armature (210). The solenoid (200) can be actuated such that the armature (210) can be moved between a first armature position (AI) and a second armature position (A2). The switch lever (130, 131) is in engagement with the armature (210) such that the switch lever (130, 131) rotates about the longitudinal axis of the shaft (110) by means of the movement of the armature.

The invention relates to a switch assembly for a device for handling value documents, comprising a shaft (110) which is rotationally fixed to a switch body (120), said switch body (120) being rotatable about the longitudinal axis of the shaft (110) between a first switch body position (PI) and a second switch body position (P2). The switch assembly additionally comprises a switch lever (130, 131), said shaft (110) being rotatable about its longitudinal axis by means of the switch lever (130, 131), and a solenoid (200) which comprises an armature (210). The solenoid (200) can be actuated such that the armature (210) can be moved between a first armature position (AI) and a second armature position (A2). The switch lever (130, 131) is in engagement with the armature (210) such that the switch lever (130, 131) rotates about the longitudinal axis of the shaft (110) by means of the movement of the armature.

An automated transaction machine (ATM) can include a housing, a display, a cash recycler, and a check receiver. The display can be mounted to the housing and directed toward an exterior of the housing. The cash recycler can be configured to receive a first note of currency from a first user of the ATM and dispense the first note of currency to a subsequent, second user of the ATM. The check receiver can be positioned in the housing, an intake portion with an inlet communicating with the exterior of the housing, and a check reader portion configured to receive a check from the intake portion, scan data displayed on the check, and store the check. The intake portion can be positioned below the display and the check reader portion is positioned behind the display.

A valuable medium handling system 1 includes a communication device 3001 disposed at a storage cassette 31 that is detachably attached to a medium handling device 2 and that stores banknotes, and a controller 513 and a computer 5 that communicate with the communication device 3001 via a communication line 9. The controller 513 and the computer 5 each perform a predetermined process by communicating with the communication device 3001 via the communication line 9.

A valuable medium handling system 1 includes a communication device 3001 disposed at a storage cassette 31 that is detachably attached to a medium handling device 2 and that stores banknotes, and a controller 513 and a computer 5 that communicate with the communication device 3001 via a communication line 9. The controller 513 and the computer 5 each perform a predetermined process by communicating with the communication device 3001 via the communication line 9.

A bin for storing rejected media items at a self-service terminal such as an automated teller machine has an input channel for receiving a sequential series of media items such as checks or bank notes. Opposing driven rollers receive the sequential series of media items via the input channel and push out each of the sequential series of media items into an output channel. A storage receptacle receives each of the sequential series of media items pushed out by the opposing driven rollers via the output channel. The storage receptacle has an annular-shaped storage cavity formed by an inner cylindrical wall and an outer wall. The outer wall is at least partially cylindrical and optionally includes a plurality of ramp-like protrusions on an inner surface thereof which aid in preventing input jams at the storage receptacle.

A bin for storing rejected media items at a self-service terminal such as an automated teller machine has an input channel for receiving a sequential series of media items such as checks or bank notes. Opposing driven rollers receive the sequential series of media items via the input channel and push out each of the sequential series of media items into an output channel. A storage receptacle receives each of the sequential series of media items pushed out by the opposing driven rollers via the output channel. The storage receptacle has an annular-shaped storage cavity formed by an inner cylindrical wall and an outer wall. The outer wall is at least partially cylindrical and optionally includes a plurality of ramp-like protrusions on an inner surface thereof which aid in preventing input jams at the storage receptacle.