WO2021121665A1 - Banknote-processing device and method for maintaining a banknote-processing device - Google Patents

Abstract

The invention relates to a banknote-processing device (1), comprising a first sensor assembly (2) and a second sensor assembly (3), which lies opposite the first sensor assembly (2), wherein a banknote transport path (8) for banknotes is formed between the first sensor assembly (2) and the second sensor assembly (3), by means of which transport path the banknotes are transported for sensing by means of the sensor assemblies (2, 3); wherein the second sensor assembly (3) is arranged on a holding unit (10) of the banknote-processing device (1), which holding unit can be moved for maintenance work; wherein the holding unit (10) is arranged in an operating position (11) during operation and in a maintenance position (12) during maintenance; and wherein the banknote-processing device (1) has at least one guide element (14) and the holding unit (10) is designed to be slid from the operating position (11) into the maintenance position (12) along a guide path (13) by means of guidance by the at least one guide element (14).

Description

Banknote tenbearbeitungs _V orrichtung and method of maintaining a bank note processing apparatus The invention relates to a bank note processing apparatus. The bank note processing device has a first sensor arrangement and a second sensor arrangement which is opposite to the first sensor arrangement. A bank note transport path for bank notes is formed between the first sensor arrangement and the second sensor arrangement. The bank notes are transported through the bank note transport path for detection by the sensor arrangements. The second sensor arrangement is arranged on a receiving unit of the bank note processing device that is movable for maintenance work. The receiving unit is arranged in an operating position in the case of operation and in a maintenance position in the case of maintenance. The invention also relates to a corresponding method.

Bank note processing devices are known. Banknote processing devices are designed, for example, to count, check, sort or classify banknotes that are used. Usually, the processing of the banknotes by the banknote processing device is accompanied by various sensors which, for example, are integrated in the banknote processing device . Used banknotes or external influences, for example, introduce protective particles into the banknote processing device, which contaminate the sensors. For this reason, the sensors are cleaned regularly. Often, however, the sensors are difficult to access for cleaning when they are ready for operation. A known solution for this is the temporary pivoting or folding away of a sensor or several sensors. This means that the sensors are during the cleaning process better to achieve. The disadvantage of the known solution, however, is the need for storage space to be kept ready for the pivoted sensor. Furthermore, the pivoting mechanism or folding mechanism is often provided with play due to the hinge used, so that the sensor is arranged in a different position than before pivoting away after the cleaning process has ended and the pivoting back has taken place. This usually results in a renewed calibration effort for the sensor.

The object is a bank note processing device and a method for maintaining a bank note processing device in which or with which a bank note processing device can be maintained with less effort.

The object is achieved by a bank note processing device and a method for maintaining a bank note processing device according to the independent claims.

A bank note processing device according to the invention has a first sensor arrangement and a second sensor arrangement opposite the first sensor arrangement. A bank note transport path for bank notes is formed between the first sensor arrangement and the second sensor arrangement. In order to detect the bank notes by the sensor arrangements, in particular the first sensor arrangement and the second sensor arrangement, they are transported through the bank note transport path. In particular, only the second sensor arrangement is arranged on a receiving unit of the bank note processing device that is movable for maintenance work. The receiving unit is arranged in an operating position in the case of operation and in a maintenance position in the case of maintenance. An important idea of the invention is that the bank note processing device has at least one guide element and the receiving unit is set up to be moved from the operating position to the maintenance position along a guide track by guiding the at least one guide element, in particular linearly the.

The invention is based on the knowledge that the receiving unit can be moved precisely and in a space-saving manner by the guide element. Furthermore, the receiving unit together with the sensor can be pushed back into the operating position, preferably after the maintenance work has been carried out. Due to the precise pushing back, the sensor arrangements can be put back into operation without recalibration. The position or the location of the recording unit is thus changed by sliding it. In particular, the receiving unit is not folded, but only moved and optionally raised before moving.

The receiving unit is preferably designed as a separate, for example one-piece, component.

The first sensor arrangement has at least one sensor. In particular, the first sensor arrangement has several, for example eight, sensors. The second sensor arrangement also has at least one sensor. In particular, the second sensor arrangement also has several, for example eight, sensors. The sensors are preferably designed as different types of sensors. The sensors can be designed, for example, as an optical (multi-spectral) sensor, in particular a camera, magnetic sensor, ultrasonic sensor or transmission sensor. The opposite arrangement of the sensor arrangements is to be understood in particular that the first sensor arrangement detects a front side of the banknote and the second sensor arrangement, preferably at the same time, detects a rear side of the banknote during transport on the transport path.

The first sensor unit is preferably formed externally to the receiving unit and, in contrast to the second sensor unit, is not permanently connected to or attached to the receiving unit. If the recording unit is moved, in particular only the second sensor arrangement moves, while the first sensor arrangement is static. Therefore, the banknote tentransportpfad or the space between the sensor arrangements, in particular the first sensor arrangement and the second sensor arrangement, is larger than it is in the operating position due to the movement of the receiving unit into the maintenance position. As a result, access to the sensor arrangements with cleaning agents is facilitated and can consequently be carried out more quickly and with less effort.

It is preferably provided that the receiving unit is set up for lateral displacement relative to the banknote transport path. As a result of the lateral displacement, the receiving unit is displaced essentially perpendicular to the longitudinal axis or main direction of extent of the banknote transport path. As a result, the receiving unit with the first sensor arrangement can be pushed further away from the second sensor arrangement over a large area and the maintenance activity, for example maintenance or cleaning, can be carried out more quickly and with less effort.

Furthermore, it is preferably provided that the receiving unit has, on the side facing away from the banknote transport path, a tab designed as the guide element which, in particular, substantially only, in the maintenance position position with a basic fastening unit of the bank note processing device, in particular, is arranged in an essentially completely overlapping manner. The tab preferably has a thinner material thickness than the rest of the receiving unit. In particular, the tab is arranged in the maintenance position in a recess of a basic fastening unit of the banknote processing device. The material thickness of the tab plus the material thickness of the basic fastening unit at the location of the recess is preferably equal to the material thickness of the receiving unit outside the tab and / or the basic fastening unit outside the recess. Through the tab, the receiving unit can be guided more reliably and precisely through the basic fastening unit. Furthermore, the banknote processing device is formed without a gap between the receiving unit and the basic fastening unit by the tab in the operating state. This can prevent a banknote from getting from the front of the banknote processing device to the rear, for example by an operator deliberately inserting the banknote through it in order to be able to take possession of it without authorization at a later, unobserved moment.

Furthermore, it is preferably provided that the receiving unit is designed with a lever construction, in particular a toggle lever construction, for sliding. It is implemented in particular in accordance with the Hebelge law, a large stroke with low tensile or compressive force in a small stroke with great force or vice versa. Due to the force multiplier effect of the lever construction, the receiving unit can be moved more quickly and with less effort. The toggle construction consists of at least two jointly connected lever elements and enables the force multiplier effect with only little construction effort. Additionally or alternatively, the receiving unit can be displaced by at least one, in particular electrical, actuator. Furthermore, it is preferably provided that the operating position of the receiving unit is predetermined by an adjustable prism element. The prism element is preferably formed from a metal. The prism element preferably also has a receiving recess. The receiving recess is set up to receive an element, in particular a pin, of the receiving unit in a form-fitting manner. With the prism element, the receiving unit can (again) be brought into the operating position precisely and quickly. A possibly necessary calibration of the at least one sensor of the sensor arrangement can be saved.

Furthermore, it is preferably provided that the prism element has an eccentric which is set up to set a position of the prism element relative to a basic fastening unit of the bank note processing device. Thanks to the eccentric, the prism element can also be aligned quickly and precisely afterwards and the operating position of the receiving unit can be adjusted.

Furthermore, it is preferably provided that a recess is formed as the guide element in a basic fastening unit of the banknote processing device and the receiving unit is at least partially arranged within the recess at least during the shift between operating position and maintenance position. The recess is preferably designed as a removed, in particular milled, area. Preferably, the entire receiving unit of the recess can be added. The receiving unit is guided in particular by at least one side wall of the recess. The recess can also provide storage space for the receiving unit in the maintenance position. The receiving unit can therefore be shifted more precisely and in a space-saving manner overall through the recess.

Furthermore, it is preferably provided that the basic fastening unit and the receiving unit each have at least one corresponding, hardened support element and in the operating position, in particular only, the respective corresponding support elements are arranged or contacted on top of one another and in particular not that encompassing the respective support element Body of the basic fastening unit and the receiving unit. Corresponding means that one of the support elements of the receiving unit and one of the support elements of the basic fastening unit are designed to lie on top of one another or to be in contact in the operating position. The respective hardened support element is preferably made of hardened steel. The bodies comprising the respective support element are preferably made of aluminum. Aluminum can wear out over time, for example after being moved several times. The hardened support elements can reduce any material removal during a large number of shifting processes. This is advantageous because it allows the receiving unit to be pushed back precisely into the operating position for a longer period of time, i.e. after being moved several times.

Furthermore, it is preferably provided that the bank note processing device comprises a rotatable operating element, in particular a rotary lever element, which is set up to allow the movement of the receiving device. to carry out. The rotary lever element is preferably rotated by a maximum of 90 ° in order to move the receiving unit. The control element can be made available in a more space-saving and reliable manner by means of the rotary lever element.

Furthermore, it is preferably provided that the guide element is designed as a spring-loaded push rod. By means of the push rod, the receiving unit can be guided precisely and reliably from the maintenance position to the operating position and vice versa.

Furthermore, it is preferably provided that the direction of action of the spring force of the push rod from the maintenance position to the operating position is specified. The spring force can be used to support the movement of the receiving unit to the operating position, which means that less effort is required.

Furthermore, it is preferably provided that a spring element of the push rod is pretensioned in the operating position and the receiving unit is pressed even further in the direction of the banknote transport path by the pretensioned spring element in the operating position. The pretensioned spring element in the operating position continuously exerts a force on the receiving unit in the operating position, whereby the receiving unit and thus the at least one sensor of the sensor arrangement is precisely and reliably arranged in the operating position. As a result of the spring force, the receiving unit can, for example, be held more reliably without wobbling, for example in the operating position.

Furthermore, it is preferably provided that the receiving unit is connected to the bank note processing device by a damping element. the is, wherein the direction of action of the damping element from the in maintenance position to the operating position is specified. The damping element is preferably designed as a gas pressure spring. Due to the damping element, the receiving unit can be moved from the maintenance position to the operating position with less jerk, preferably without jerks. In particular, the damping force of the damping element counteracts the spring force of the spring element of the push rod, so that the receiving unit can be moved gently in the direction of the operating position.

Furthermore, it is preferably provided that the operating position and the maintenance position are arranged at a distance of at least 20 mm, and in particular at most 200 mm, from one another. As a result of the distance, the second sensor arrangement can be removed far enough from the first sensor arrangement in order to be able to carry out the maintenance measures more quickly and reliably. However, the sensor arrangements are also not too far apart, so that an unnecessarily large amount of storage space has to be reserved for the accommodation of the receiving unit in the maintenance position.

Furthermore, it is preferably provided that the guide element is designed as at least one roller. The roller is preferably designed as a ball bearing, in particular as a spring-loaded ball bearing. As a result of the fringing, the roller, in particular arranged on the receiving unit, contacts the basic fastening unit even when the receiving unit is raised by a lifting height, in particular before it is moved from the operating position to the maintenance position. The recording unit can thus be moved more precisely and reliably guided. The invention also relates to a method. In the method according to the invention, a bank note processing device with a first sensor arrangement and a second sensor arrangement opposite the first sensor arrangement is maintained. A bank note transport path runs between the sensor arrangements and the following steps are carried out: a) actuation of an operating element of the bank note processing device to trigger a slide-on operation of a receiving unit with the second sensor arrangement; b) moving the receiving unit from an operating position to a maintenance position as the slide-on process; c) carrying out the maintenance of the bank note processing device in the maintenance position; d) actuation of an operating element of the bank note processing device to trigger a pushing operation of the receiving unit; and e) moving the receiving unit from the maintenance position to the operating position as the pushing-on process.

The receiving unit is preferably raised by a lifting height at the beginning of the pushing-on process in step b). The lifting height can be up to 2 mm, for example. In particular, the receiving unit is raised by the lifting height of up to 0.8 mm, preferably 0.2 mm to 0.6 mm, in particular 0.5 mm. Due to the lifting height, the receiving unit can be moved with less resistance or friction, since less surface of the receiving unit is in contact with the basic fastening unit after lifting than is the case before lifting. The preferred embodiments presented with reference to the method according to the invention and their advantages apply accordingly to the bank note processing device according to the invention. The subject components of the bank note processing device according to the invention are designed to carry out the respective steps of the method according to the invention.

Further features of the invention emerge from the claims, the fi gures and the description of the figures.

Embodiments of the invention are explained in more detail with reference to schemati cal drawings.

Show:

1 shows a schematic representation of an exemplary embodiment of a bank note processing device according to the invention in a front view with a basic fastening unit, a receiving unit, the receiving unit being arranged in an operating position;

2 shows a further schematic representation of the banknote processing device in a front view, the receiving unit being arranged in a maintenance position;

3 shows a further schematic representation of the banknote processing device in a rear view, the receiving unit being arranged in the operating position; 4 shows a schematic representation of a recess in the basic fastening unit;

5 shows a schematic representation of a spring-loaded push rod, by means of which the basic fastening unit and the receiving unit are connected;

6 shows a schematic representation of at least one role designed as a guide element; and

Fig. 7 is a schematic representation of a unit arranged on the base and adjustable by an eccentric prism element. Identical or functionally identical elements are provided with the same reference symbols in the figure.

1 shows a front view of a bank note processing device 1 with a first sensor arrangement 2 and a second sensor arrangement 3. The first sensor arrangement 2 has at least a first sensor 4 and a second sensor 5. The second sensor arrangement 3 has at least a third sensor 6 and a fourth sensor 7. The respective sensor can be designed, for example, as an optical sensor, for example a camera, transmission sensor, magnetic sensor or ultrasonic sensor.

For the sake of clarity, the sensors in the fi gures are only shown as angular cover plates. Instead of the cover plates, sensors in particular are arranged or installed, for example in a square housing. In the figures are the cover plates are therefore referred to as sensors, although the shape shown may differ.

The first sensor arrangement 2 and the second sensor arrangement 3 are arranged opposite one another. A bank note transport path 8 runs between the first sensor arrangement 2 and the second sensor arrangement 3. Bank notes are transported through the bank note transport path 8 in order to be detected by the sensors 4, 5, 6, 7 of the sensor arrangements 2, 3. The banknotes are preferably transported through the banknote transport path 8 with transport belts or conveyor belts or transport rollers. The banknote transport path 8 and in particular the transport mechanism are designed in particular such that the sensors 4, 5, 6, 7 can detect the banknotes located in the banknote transport path 8, preferably essentially with little or no concealment.

According to the exemplary embodiment, the first sensor arrangement 2 is arranged on a basic fastening unit 9 of the bank note processing device 1. The basic fastening unit 9 can be designed, for example, as a plate or frame on which other components of the bank note processing device 1 are also arranged.

The basic fastening unit 9 is preferably configured statically relative to the bank note processing device 1 or is connected to the bank note processing device 1 in a fixed and immovable manner.

The basic fastening unit 9 is set up to accommodate sensors and thereby to arrange them on one side of the banknote transport path 8. The sensors 4, 5 can, for example, be fixed to the basic fastening unit 9 using a variety of means such as screws, rivets, straps or connectors. The second sensor arrangement 3 is arranged on a receiving unit 10. The receiving unit 10 is designed in the form of a plate according to the exemplary embodiment.

Furthermore, the receiving unit 10 is designed to be movable relative to the basic fastening unit 9 or to the rest of the bank note processing device 1. The receiving unit 10 is arranged in an operating position 11 at least during the operation of the bank note processing device 1.

Furthermore, while a maintenance work is being carried out, such as cleaning or a repair, the receiving unit 10 is arranged in a maintenance position 12 - as shown in FIG. 2.

According to the exemplary embodiment, it is provided that the receiving unit 10 is moved from the operating position 11 into the maintenance position 12 and also back.

In particular, the receiving unit 10 is displaced along a guide track 13. The path on wel chem the receiving unit 10 is pushed along by the guide track 13. In particular, the guide track 13 is essentially unchanged when there are several successive displacement processes.

Furthermore, the bank note processing device 1 has at least one guide element 14. By means of the guide element 14, the receiving unit 10 can be moved precisely along the guide track 13. According to the exemplary embodiment, the receiving unit 10 is moved from the operating position 11 into the maintenance position 12 or from the maintenance position 12 into the operating position 11 essentially along a displacement direction 35.

In Fig. 1, for example, a recess 15 of the Grundbefestigungsein unit 9 is formed as the guide element 14.

The receiving unit 10, in particular at least one tab 16 of the receiving unit 10, is at least partially received or surrounded by the recess 15. The tab 16 and thus also the receiving unit 10 are in particular guided through the recess 15.

According to the exemplary embodiment, an in particular one-piece main body of the receiving unit 10 and a main body of the basic fastening unit 9 are preferably not directly on top of one another in the operating position. The receiving unit 10 and the basic fastening unit 9 each have at least one hardened support element 17. The support elements 17 are designed correspondingly, so that one of the support elements 17 of the receiving unit 10 is arranged in the operating position 11 opposite one of the support elements 17 of the basic fastening unit 9. In particular, there are several, for example five, corresponding pairs of support elements 17. In particular, the receiving unit 10 and the basic fastening unit 9 contact each other in the operating position 11 only through the corresponding support elements 17.

The support elements 17 are in particular made of a harder material than the main body of the basic fastening unit 9 and / or the main body of the receiving unit 10. This can result in wear of the respective main body during regular changes between operating positions 11 and maintenance item 12 are reduced. The operating position 11 can thus be precisely assumed by the receiving unit 10 even after a large number of position changes.

The support element 17 is made, for example, of hardened steel, while the main body of the receiving unit 10 and / or the main body of the basic fastening unit 9 is, for example, made of aluminum.

Furthermore, FIG. 1 shows a first roller 18, which is designed as the guide element 14. In particular, the first roller 18 is arranged or fastened to the basic fastening unit 9. The receiving unit 10 lies in particular, preferably at least partially due to the force of gravity, on at least the first roller 18. The first roller 18 can, for example, comprise a bearing, in particular a ball bearing.

According to the exemplary embodiment, the axis of the first roller 18 is essentially perpendicular to the main plate of the basic fastening unit 9.

FIG. 2 shows the bank note processing device 1 analogous to FIG. 1 in a front view or front view. However, the receiving unit 10 is positioned in the maintenance position 12. A distance 19 is then present between the receiving unit 10 and the basic fastening unit 9. The distance 19 is preferably between 20 mm and 200 mm, in particular between 40 mm and 80 mm.

Due to the distance 19, the bank note processing device 1, in particular the special side facing the bank note transport path 8 of the respective Sensor arrangement 2, 3, are subject to maintenance. The respective sensor arrangement 2, 3 is now more easily accessible. In the case of maintenance, in particular a maintenance and / or an inspection and / or a repair and / or an improvement is carried out.

According to the exemplary embodiment, the receiving unit 10 is raised by a lifting height 20 of up to 2 mm, in particular up to 0.6 mm, before the slide-on process, i.e. before moving the receiving unit 10 from the operating position 11 to the maintenance position 12. And then moved in particular to the height of the lifting height 20.

The lifting of the receiving unit 10 by the lifting height 20 is carried out in particular perpendicular to the displacement direction 35.

3 shows the bank note processing device 1 in a rear view, that is to say in particular the rear side of the receiving unit 10 shown in FIGS. 1 and 2. The receiving unit 10 is positioned in the operating position 11.

A second roller 21 and a third roller 22 are each shown as the guide element 14. The second roller 21 and the third roller 22 are in particular arranged or fixed on the basic fastening unit 9. The second roller 21 and / or the third roller 22 are preferably connected to the base fastening unit 9 in such a way that they cannot be displaced. The second roller 21 and / or the third roller 22 are preferably designed as bearings, in particular as ball bearings.

If the receiving unit 10 is arranged in the operating position 11, the second roller 21 and / or the third roller 22 are arranged in a recess 23 of the receiving unit 10. The recess 23 is preferably formed with a depth like the lifting height 20. If the receiving unit 10 shifted, at least the second roller 21 and / or the third roller 22 is pushed out of the recess 23. By pushing the third roller 22 out onto the rest of the receiving unit 10, in particular the underside of the tab 16, the receiving unit 10 is raised by the lifting height 20. In particular, the second roller 21 and / or the third roller 22 are not designed to be sprung.

Also shown is a fourth roller 24 and a fifth roller 25 each as the guide element 14. The fourth roller 24 and / or the fifth roller 25 is designed as a bearing, in particular as a ball bearing. In particular, the fourth roller 24 and / or the fifth roller 25 is arranged or fastened on the receiving unit 10.

Furthermore, in particular, the fourth roller 24 and / or the fifth roller 25 is spring-loaded, which means that the respective roller exerts a spring force on the basic fastening unit 9 in the assembled state. As a result, the second roller 21 and / or the third roller 22 is pressed into the recess 23 in the operating position 11. When the receiving unit 10 is raised to the lifting height, the spring force of the fourth roller 24 and / or the fifth roller 25 acts against it. By the spring-loaded fourth roller 24 and / or the spring-loaded fifth roller 25, the receiving unit 10 can be raised precisely to the lifting height 20 and also precisely held in the operating position 11. Furthermore, a spring-loaded push rod 26 is shown as the guide element 14. The push rod 26 is attached with one side to the receiving unit 10 and the other side on the Grundbefestigungsein unit 9. The push rod 26 has a spring element 27 on. The spring force of the spring element 27 acts in the direction of the bank note transport path 8, ie the The receiving unit 10 is thus pressed from the maintenance position 12 into the operating position 11 by the spring force of the push rod 26.

According to the exemplary embodiment, the receiving unit 10 is also pushed further in the operating position 11 in the direction of the banknote transport path 8 in order to position the receiving unit 10 on the banknote transport path 8 with little wobble, in particular essentially without wobbling.

A damping element 28 is also shown as the guide element 14. The damping element 28 is designed, for example, as a gas pressure spring. The damping effect of the damping element 28 preferably acts essentially against the force effect of the spring element 27. The receiving unit 10 can therefore be moved reliably from the maintenance position 12 to the operating position 11 by the damping element 28. A jerky movement of the receiving unit 10 when it is pushed closed with the full force of the spring force of the spring element 27 against the basic fastening unit 9 in the area of the banknote transport path 8 is thereby reduced.

4 shows a schematic detailed illustration of the tab 16 of the receiving unit 10 in a front view and in the operating position 11.

Also shown is a sixth roller 29 as the guide element 14, which is preferably designed to be functionally identical to the first roller 18, the receiving unit 10 according to the exemplary embodiment preferably not being pressed against the sixth roller 29 by gravity.

FIG. 5 shows a further schematic detailed illustration of the receiving unit 10 in a rear view and in the operating position 11. 6 shows a further schematic detailed illustration of the third roller 22 and the fifth roller 25. The receiving unit 10 is shown in a rear view and in the operating position 11. 7 shows an adjustable prism element 30 in a schematic representation. According to the exemplary embodiment, the prism element 30 is arranged on the rear side of the bank note processing device 1, in particular essentially in the area of the rear side of the bank note transport path 8. In particular, the prism element 30 is attached to the basic attachment unit 9.

The prism element 30 has an opening 31, in particular a V-shaped opening. The opening 31 is open in the direction of the receiving unit. Furthermore, the opening 31 is set up to receive a stop element 32 of the receiving unit 10 and to fix it in a form-fitting manner in the operating position 11 at least in the direction of the stop element 32 and transversely thereto. This means that the receiving unit 10 cannot be pushed further in the direction of the banknote transport path 8 due to the positive fixing in the operating position 11 and preferably also cannot be moved along a longitudinal axis 33 of the banknote transport path 8 that is transverse to the direction of displacement. The longitudinal axis 33 is shown in FIG. 7 on the rear side of the bank note processing device 1, offset in parallel towards the stop element 32. The true longitudinal axis of the banknote transport path 8 in the image plane of FIG. 7 actually runs further to the left of the drawn-in longitudinal axis 33 (dashed line), since the banknote transport path 8 according to the exemplary embodiment runs in particular over the basic fastening unit 9. In the embodiment with the longitudinal axis 33, the bank note transport path 8 is preferably not curved, that is, straight. According to the exemplary embodiment, the prism element 30 also has an eccentric 34. The position of the prism element 30 in the degree of freedom in the main plane of extent of the receiving unit 10 can be adapted by the eccentric 34, ie the directional adjustment of the prism element 30 is carried out in particular in the direction of the banknote transport direction along the banknote transport path 8.

Through the V-shaped opening 31, the stop element 32, in particular in the direction of the two cheeks of the opening 31, can be positively fixed in the operating position 11 without play, since the stop element 32 is virtually wedged into the cheeks of the opening 31.

Claims

P a te nt a n s p r ü c h e 1. Bank note processing device (1) with a first sensor arrangement

(2) and a second sensor arrangement (3) opposite the first sensor arrangement (2), with a banknote transport path (8) for banknotes being formed between the first sensor arrangement (2) and the second sensor arrangement (3), through which the banknotes for detection are transported through the sensor arrangements (2, 3), the second sensor arrangement (3) being arranged on a receiving unit (10) of the bank note processing device (1) which is movable for maintenance work, the receiving unit (10) in an operating position (11 ) is arranged and is arranged in a maintenance position (12) in the case of maintenance, characterized in that the bank note processing device (1) has at least one guide element (14) and the receiving unit (10) is set up from the operating position (11) in the maintenance position (12) along a guide track (13) by guiding the at least one guide element (1 4) to be postponed.

2. Bank note processing device (1) according to claim 1, wherein the receiving unit (10) is set up for lateral displacement relative to the bank note transport path (8).

3. Bank note processing device (1) according to claim 1 or 2, wherein the receiving unit (10) on the side facing away from the bank note transport path (8) has a tab (16) designed as the guide element (14), which in the maintenance position position (12) with a Grundbefesti supply unit (9) of the bank note processing device (1) is arranged to overlap.

4. Bank note processing device (1) according to one of the preceding claims, wherein the operating position (11) of the receiving unit (10) is predetermined by an adjustable prism element (30).

5. Bank note processing device (1) according to claim 4, wherein the prism element (30) has an eccentric (34) which is configured to set a position of the prism element (30) relative to a basic fastening unit (9) of the bank note processing device (1).

6. Banknote processing device (1) according to one of the preceding claims, wherein in a basic fastening unit (9) of the banknote processing device (1) a recess (15) is formed as the guide element (14) and the receiving unit (10) at least during the push between Operating position (11) and maintenance position (12) is at least partially arranged within the recess (15).

7. Banknote processing device (1) according to one of the preceding claims, wherein the basic fastening unit (9) and the receiving unit (10) each have at least one corresponding, hardened support element (17) and in the operating position (11) the respective corresponding support elements ( 17) are arranged on top of one another.

8. Bank note processing device (1) according to one of the preceding claims, wherein the guide element (14) is designed as a spring-loaded push rod (26).

9. Bank note processing device (1) according to claim 8, wherein the direction of action of the spring force of the push rod (26) from the maintenance position to the operating position is predetermined.

10. Bank note processing device (1) according to claim 8 or 9, wherein a spring element (27) of the push rod (26) in the operating position (11) is biased and the receiving unit (10) by the biased Fe derelement (27) also in the operating position (11) is pushed still further in the direction of the banknote transport path (8).

11. Bank note processing device (1) according to one of the preceding claims, wherein the receiving unit (10) with the bank note processing device (1) is connected by a damping element (28), the direction of action of the damping element (28) from the maintenance position (12) to Operating position (11) is specified.

12. Bank note processing device (1) according to one of the preceding claims, wherein the operating position (11) and the maintenance position (12) are arranged at a distance (19) of at least 20 mm from each other.

13. Bank note processing device (1) according to one of the preceding claims, wherein the guide element (14) is designed as at least one roller (18, 21, 22, 24, 25, 29).

14. A method for maintaining a bank note processing device (1) with a first sensor arrangement (2) and a second sensor arrangement (3) opposite the first sensor arrangement (2), a bank note transport path (8) running between the sensor arrangements (2, 3) and the following Steps to be carried out: a) actuation of an operating element of the bank note processing device (1) to trigger a slide-on operation of a receiving unit (10) with the second sensor arrangement (3); b) moving the receiving unit (10) from an operating position (11) to a maintenance position (12) as the pushing-on process; c) performing the maintenance of the bank note processing device (1) in the maintenance position (12); d) actuation of an operating element of the bank note processing device (1) to trigger a pushing operation of the receiving unit (10); and e) moving the receiving unit (10) from the maintenance position (12) into the operating position (11) as the pushing-on process.

15. The method according to claim 14, wherein the receiving unit (10) is raised by a lifting height (20) at the beginning of the pushing-on process in step b).