WO2017162321A1 - Automated teller machine - Google Patents

Abstract

The invention relates to an automated teller machine (1) comprising an operating unit (2) and a safe unit (3). The operating unit (2) comprises a bank note module (9) for paying out and/or receiving bank notes. The safe unit (3) comprises a plurality of depositing units (12) for depositing the bank notes and a number N, where N ≥ 1, of transport units (13) for transporting the bank notes between the bank note module (9) and the depositing units (12). The transport units (13) and the depositing units (12) are arranged in the safe unit (3) in such a way that the bank notes in the safe unit (3) intersect a plane of symmetry (8) which is parallel to two opposing side walls (10, 11) of the safe unit (3).

Description

 MONEY MACHINE

TECHNICAL FIELD The invention relates to an ATM for paying out cash to a customer and, in particular, for depositing cash by the customer.

[BACKGROUND ART] An ATM is a technical device for cash withdrawal in Selbstbedie ^¬ voltage at banks and financial institutions. By default, such ATMs with a safe unit, with a payout module or banknote module, in particular ^¬ special designed with a CastrSlot, and with a control unit, which is adapted to a requested by a customer amount of money in the form of banknotes to this through the cash slot.

GB 2 106 687 A shows an automatic bill transporting apparatus comprising a detachable first unit mounted in a housing and containing safes arranged on one side of the first unit. The banknote transport device comprises a second unit, which is seen in the housing before ^¬ and mounted on the first unit. In this case, the second unit is connected to a banknote dispensing slot of the housing. Since the first unit can be reversed, the most appropriate mode, a front mode or a rear mode, can be arbitrarily set with respect to the installation position of the bill transport unit. Although the first unit can be rotated by 180 ° with respect to the second unit, in GB 206 687 A two transition points between the first unit and the second unit are required for this purpose. These transitional locations are both arranged asymmetrically to the center of the ATM, both longitudinally as well as broadside. This requires the use of this principle, a complicated Geldtrans ^¬ porting mechanism in addition to two different safes or safes with asyn- built-in chronological openings (slots, transition points). Depending on the configuration, one of these two transition points will be used.

Can be the US 6,206,284 Bl discloses an automatic cash dispensing apparatus in which a configuration with a filling from the front or a configuration with egg ^¬ ner filling from behind selected. The cash dispenser includes a safety box module, a head module, and an interface module, which modules are identical for both configurations. The safe of the US

6,206,284 Bl is open at the front and at the back and thus includes two doors. The head module is together with the control unit for the customer of the Bankauto ^¬ maten by 180 ° rotatable relative to the safe or safety box module ordered ^¬ . Consequently, the total currency note transport in the safe is Runaway ^¬ leads here. Depending on configuration, a money ^¬ slot is installed to the cash dispenser in the safe-door or the safe cover. Therefore, a different assembly of the safe is necessary for each configuration or the interior of the safe must be assembled differently for each configuration. Furthermore, between the head module and the safety box module Un ^¬ defined transitions for the electrical connection must be present. So he ^¬ follows the supply of energy and electrical signals via cable, which are placed on undefined points in the safety box module to the head module. The safety box module has one door each at the front and at the back, with a slot for dispensing, depending on the configuration, at the front or rear of the door. The Geldausga ^¬ be asymmetric on the right side, which in a conversion from front to rear load configuration next to the door, the entire interior installation must be built twisted.

US 7,611,045 Bl shows an automatic cash dispenser in which a safe unit for front or back filling can be adjusted. The safe unit has a door in front and in the back. The entire interior space ^¬ bank machine of US 7,611,045 Bl is constructed so that it can be so ^¬ pulled well back as well as forward of relationships can be used as a front-load or rear-load configuration. The rest of the structure, such as the operating unit, can be opened from the front as well as from the back and the units can be pulled out, which enables front-load and rear-load operation. The complete interior structure is mounted on rails and can be pulled out both to the front and to the rear. The safe unit has a front and rear door, as well as the control unit front and rear can be opened. Thus, an AlMn-One device is implemented by the complicated structure and always built doors front and rear, which always has both configurations.

The document EP 0 965 956 B1 shows an ATM in which the entire currency note path takes place in the safe. Depending on the configuration, whether front load or rear load, another safe must be used. The top unit can be rotated by 180 ° with respect to the main unit, allowing it to be set up as a front-load configuration or as a rear-load configuration. The horizontal money transport can be compared to the main unit by 180 ° ge ^¬ turns. In order to center the horizontal money transport, centering elements are arranged symmetrically around the money-note transport path. Since the entire money transport path is in the safe, a separate safe is ^necessary for front-load configuration and rear-load configuration.

The document JP 5 342 448 A describes a modular concept for front-load and rear-load. Here, the customer takes the bank notes directly into the safe, which is not allowed for reasons of security in Europe. Further, the JP 5342448 A describes a Lower Upper unit and a unit which can be rotated by 180 ° to each other ^¬ to allow a modular structure Front7Rear-. The structure is very complicated and consists of three money transport paths in the lower unit and in the upper unit. These are arranged asymmetrically around the middle. This makes a complicated money tentransportystem necessary in the upper unit, with an unused depending on the configuration ^¬ money transport path.

DISCLOSURE OF THE INVENTION

It is an object of the present invention to provide an improved Geldautoma ^¬ th.

The object is achieved by an ATM with the features of claim 1.

Accordingly, an ATM is proposed which comprises a control unit and a safe unit. The operating unit comprises a banknote module for paying out and / or depositing banknotes. The safe unit comprises a plurality of storage units for depositing the banknotes and a number N, with N> 1, of transport units for transporting the banknotes between the banknote module and the storage units. In this case the transport units and the filing units such Safe in the unit are integrally ^¬ arranged that the bills in the safe-unit has a symmetry plane which is parallel to two mutually opposite side walls of the safe-cut unit.

Characterized in that the transport units and the filing units are arranged in the safe-unit, that the bills in the safe-unit cut the symmetry metrie- level, it is advantageously possible with only peo ^¬ gen Safe unit to represent a plurality of different ATM configurations. For example, lie the axes of the main transport unit and the depositing unit, in particular comprising tempo rary ^¬ and static banknote store in the plane of symmetry. The different ATM configurations or configurations include a front-load ATM (ATM with front-loading), a rear Load ATM (rear-loading machine) and a TTW (Through the Wall) ATM.

The safe unit can also be referred to as an all-in-one safe, since it can be used for the majority of different ATM configurations.

Due to the provision of this modular Rear7Front-load system of control unit and safe unit is advantageously created a maximum equal construction ^¬ share.

Due to the symmetrical design of the safe unit also different interior concepts of the safe unit with the same internal structure of the safe unit are possible, which also represent different security classes. This makes it possible, with only one safe unit a variety of different security masses, preferably the safe door except to offer. Preferably, the inner dimensions and the outer dimensions of the safe unit are always the same, regardless of the safety class.

In the TTW ATM, the control unit is moved forward relative to the safe unit by a predetermined amount. In order to be able to use the same safe unit, the top unit is extended by the predetermined dimension in the control unit.

The ATM can also be referred to as an ATM, cash dispenser or cash dispenser. The ATM is a technical Einrich ^¬ tion, which is suitable for cash withdrawal or in addition to the cash deposit with money and credit institutions, banks and savings banks. The money ^¬ automat can also be designed such that it allows the customer to withdraw or deposit even with foreign financial institutions in self-service cash from their own giro or credit card account. The operating unit may also be referred to as Kundenbedien- unit or customer panel, and include other modules or units ^¬ A next to the paper money module. Examples of other modules are a printer, or more ^¬ re screens and input devices such as a keyboard. Furthermore, the control unit may also include a module for depositing and / or withdrawing coins.

In particular, the control unit comprises a portrait camera or on-line camera, a customer display with a touch screen, function keys, a barcode reader, a hand-to-money camera, a customer keyboard, a stereo speaker, a CastrSlot, a status indicator , a safety mirror, egg ^¬ NEN Münzausgabeschacht, a document output means, in particular a Quittungsdru ^¬ sugar, a hybrid card reader, a headphone jack, a contactless card reader, and a pin pad (EPP).

In particular, the operating unit comprises a hollow housing, which is screwed to the Safe unit and in which the above-described compo nents ^¬ are receivable. The banknote module can also be referred to as a top unit. The top unit, which contains the CastrSlot, is in particular mounted on a rail system and thus movable relative to the safe unit.

The storage units include, in particular, temporary banknote storage and static banknote storage.

The side walls of the safe unit are in particular the same thickness. Thus, the plane of symmetry can relate both to the inner dimensions and to the outer dimensions of the ^¬ safe unit. The Safe unit designated as a safe-Unit, safe or depository safe ^¬ net are. The banknote module can also be referred to as a single-currency payment module or cash-slot module for depositing / paying out banknotes. According to one embodiment, the plane of symmetry is parallel and equidistant from the two side walls of the safe unit.

In other words, the transport units and the storage units are thus arranged in the safe unit such that they are equidistant from the two side walls of the safe unit.

According to a further embodiment, the transport units and the storage units are arranged in the safe unit such that the bank notes in the safe unit are symmetrical to the plane of symmetry.

Thus, the banknote transport or banknotes transport path is symmetrical to the plane of symmetry and thus equidistant from the two side walls of the safe unit. According to a further embodiment, the transport units and the storage units are arranged in the safe unit such that the central axes of the bank notes lie within the safe unit in the symmetry plane of the safe unit. In particular, the center axes of the banknotes of the safe unit lie on the heavy axis of the safe unit. The axis of gravity is the axis that passes through the center of gravity, here the safe unit.

According to a further embodiment, the transport units and the filing units are arranged in the safe-unit so that the focal axes of the transport units and the filing units in the symmetry plane of lie ^¬ gen. In particular, the transport units and the storage units are symmet ^¬ risch to the symmetry level.

According to a further embodiment, the Safe unit on a floor, a ceiling opposite the bottom, a front, a front ge ^¬ genüberliegende rear and two opposing side walls. The front or the back is designed as a safe door. The ceiling of the safe unit has a single slot for the transfer of banknotes between ^¬ rule the safe unit and the control unit. The slot is arranged in the ceiling such that it intersects the symmetry plane of the safe unit.

The ceiling can also be referred to as the top of the safe unit. The pre ^¬ the side can also serve as front wall and the back can also be called a rear wall.

For the front-load ATM configuration, the front is designed as a safe door. For the rear-load ATM configuration, the back is designed as a safe door.

Preferably, various lock concepts, such as keys, combination lock, RFID lock, can be installed in the safe door. In order to get the benefit of all-in-one-safe unit itself at different thicknesses of the safe door and provide the same internal dimensions of the safe unit, ^¬ the thinner doors a lower safety class doubled by Blechkonstruktio ^¬ nen, so that these same Proportions like the thickest safe doors have. This allows advantageously always the same cable lengths and locations for the sensors, such as door closing sensor, transducer body and the same ^¬ be used.

According to a further embodiment, the slot is such in the ceiling is ^¬ arranged that its main axis unit is located in the symmetry plane of the Safe. Characterized in that the gravity axis of the slot in the plane of symmetry of the Safe unit is located, the slot is centrally arranged ^¬ unit is in relation to the ceiling of the Safe. The slot is in particular the only interface for the banknote transport of the safe unit to the operating unit.

According to a further embodiment, the slot is such in the ceiling is ^¬ arranged that it cuts a further symmetry plane which is parallel and equidistant from the front and the rear of Safe unit.

The further plane of symmetry intersects in particular a center region of the safe unit.

According to a further embodiment, the slot is such arranged in the ceiling, that it is arranged at most in a certain distance from the further Sym ^¬ metry plane.

Due to the specific distance, which is particularly small compared to half the diameter of half the safe unit, the security of the ATM is guaranteed. Particularly preferably, the specific distance is less than a quarter of the diameter of the safe unit.

According to a further embodiment, the determined distance of the heavy axis of the slot from the further plane of symmetry corresponds to one sixth of the length of the ATM.

According to a further embodiment, the axis of gravity of the slot is so ^¬ well in the plane of symmetry and in the further plane of symmetry of the Sa ^¬ Fe unit. In other words, both the plane of symmetry and the further plane of symmetry intersect the axis of gravity of the safe unit. According to a further embodiment, the safe unit is constructed symmetrically to the plane of symmetry.

According to a further embodiment, the Safe unit and the operating unit can be mounted in a first configuration and a second configuration in Anei ^¬ Nander. The operating unit is rotated in the first configuration ge ^¬ genüber the operating unit in the second configuration by 180 °.

The two configurations form, in particular, an ATM with front loading and an ATM with rear loading.

In another embodiment, one corresponding to the slot of the safe-store unit for the transfer of banknotes between the safe-unit and the operating unit on a lower side of the operating unit is vorgese ^¬ hen. The opening of the operating unit is arranged ^¬ both in the first configuration and in the second configuration over the slot of the safe-unit. In particular, both a static transfer and a dynamic transfer between ^¬ the safe unit and the top unit is possible. As stated above, the top unit is located outside the safe unit. In particular regard ^¬ Lich the dynamic handover is disposed pulled out by means of a rail system from the operating unit, the top unit. For this purpose, a transition piece between the top unit and the safe unit is used. When Herauszie ^¬ hen of the top unit, the transition piece is lifted up. If the top unit is returned to its basic position, the transition piece falls into the slot of the safe unit. The transition piece is held in the correct position by an upper unit of the safe unit by means of centering elements. In particular, the centering elements are asymmetrically arranged ^¬ to the banknote path. Alternatively, the centering elements may also be arranged symmetrically around the banknote path. According to a further embodiment, the heavy axis of the banknote module is in the symmetry plane of the safe unit both in the first configuration and in the second configuration.

According to a further embodiment, the top unit is constructed asymmetrically to the plane of symmetry.

Although the banknote transport path is located symmetrically in the middle, the top unit is preferably constructed asymmetrically. In particular, the Ge ^¬ housing of the top unit on the left side opposite the banknote transport path and thus against the symmetry plane of the Safe unit. This makes it mög ^¬ Lich to install a printer for bills at a low maximum width of 78 cm to the left of the operating unit.

According to a further embodiment, the filing unit comprises a plurality of M adjacently arranged banknote cassette for storing M types of banknotes, a plurality of intermediate shelves and a plurality of at ^¬ waste bins. In this case, the transport units are adapted to the banknotes between the slot and the banknote cassettes on the

To transport intermediate files and a validation unit for validating the banknotes. In particular: M> 2. For example, M = 7.

According to a further embodiment, the banknote cassettes are arranged in a lower drawer which can be pulled out of the safe unit such that the heavy axes of all banknote cassettes lie in the symmetry plane of the safe unit.

According to a further embodiment, the intermediate shelves, the waste trays, the validation unit and the transport units are arranged in an upper drawer which can be pulled out of the safe unit in such a way that their

Heavy axes lie in the plane of symmetry. According to a further embodiment, the ATM is designed as a TTW ATM, wherein the control unit is moved by a predetermined Ab ^¬ measurement forward towards the front door.

According to a further embodiment, the banknote module of the operating unit is extended by the predetermined dimension. Apart from the extension of the top unit at the TTW ATM, the operating unit is preferably identical for all three variants of the ATM, namely front-load ATM, rear-load ATM and TTW ATM.

Preferably, the same banknote module is used for a front-loading ATM and for a rear-load ATM, and only another variant (with an extended horizontal banknote transport path) is needed for the through-the-wall configuration.

According to a further embodiment, the slot is one sixth of the length of the ATM. Thus, the horizontal banknote transport path in the banknote module of the trough-the-wall configuration is the same size or the same length as in the rearload configuration. In contrast, in the case of the banknote module of the front load configuration, the horizontal banknote transport ^{path is} shortened.

According to a further embodiment, the banknote module can be pulled out of the operating unit by means of a rail system.

According to a further embodiment of a valve provided between the Safe unit and the paper money module transition piece by pulling out the paper money module from the control unit from a base position up can be raised, wherein said transition piece according to one pushing back the banknote ^¬ th Module falls into the home position in the slot of the safe unit. According to a further embodiment, the safe door can be doubled to provide identical internal dimensions of the safe unit by means of a sheet metal construction. According to a further embodiment, the banknote module can be divided into a top module and a main module. The main module can be divided into an upper re ^¬ rum main module and a lower main module. Thus, the banknote module can comprise a top unit, an upper unit and a loan unit. The individual modules can each be moved independently of each other via a rail system. In the top module, the cash slot is (coin slot) through which the customer receives the money relationship ^¬, by which he pays the money. In this cash slot, the banknotes ordered by the customer, which are transported individually, are collected in a bundle. Conversely, a bundle of banknotes, which was paid in by the customer, can be isolated there and then forwarded via the cash ^¬ tentransport. The notes or banknotes store in cash boxes or boxes of the safe unit in the so-called lower main module. In the lower main module up to five cash cassettes can store, wel ^¬ che can record up to two different bank notes each. In the upper main module there may be various storage units, such as reject stack, tempory stack, validator and reject bins. In the reject bins those banknotes can be stored, which were recognized by the validator as counterfeit money ^¬ . In the reject stack or memory Zurückgabe- those banknote ^¬ th are cached only briefly, which were not recognized by the validator accurate. These are given to the validation of all bank notes back to the Be ^¬ users. In the tempory stack, the notes or banknotes are cached by the user after the deposit has been made, which could not be recognized as counterfeit money and not as real money on the first pass through the validator. These are subjected to further testing by the validator. Depending on the result, the banknotes in the cash box or in the reject bins are stored or returned to the user if meh ^¬ eral failures exist. The respective unit, for example the operating unit or the validation unit, can be implemented in terms of hardware and / or software technology or as a combination of the two. In a hardware engineering Inv, the respective unit can be designed as a device or as part of a Vor ^¬ direction, for example as a computer or as a microprocessor. In a software implementation, the respective unit or a part of the unit may be designed as a computer program product, as a function, as a routine, as a stand-alone process, as part of a program code and / or as an executable object. The respective units mentioned Kgs ^¬ nen in several independent processor cores within a common integrated circuit seed ^¬ be implemented or enter this for execution.

According to another aspect, a service machine for paying out banknotes to a customer is proposed. The service machine comprises a control unit and a safe unit. The operating unit comprises a banknote module for paying out and / or depositing banknotes. The safe unit comprises a plurality of storage units for depositing the banknotes and a number N, with N> 1, of transport units for trans ^¬ port of the banknotes between the banknote module and the storage units. The transport units and the storage units are arranged in the safe unit such that the banknotes in the safe unit intersect a plane of symmetry which is parallel to two mutually opposite side walls of the safe unit.

Under a service machine in particular sales and bank ^{¬ be} understood automata. For example, the service machine, an ATM, a ticket machine, a vending machine, a Kontoinfor- mationsterminal, a cash recycler machine, a lottery terminal, a package car ^¬ mat for sending or receiving (post) packages or check-in Be terminal. The features described herein for the ATM apply accordingly to the service machine.

Other possible implementations of the invention include non-expli ^¬ zit Combinations of above or below with respect to the exporting approximately ^¬ Examples features or embodiments described. The skilled person will also add individual aspects as improvements or additions to the respective basic form of the invention.

Further advantageous embodiments and aspects of the invention are counter ^¬ stand of the dependent claims and the embodiment described below ^¬ embodiments of the invention. Furthermore, the invention by way of Favor ^¬ th embodiments with reference will be explained in more detail to the accompanying figures.

Fig. 1 shows a schematic sectional view of a first embodiment of an ATM;

Fig. 2 shows a schematic section through a plane of symmetry of a second embodiment of an ATM in a first Konfi ^¬ guration!

Fig. 3 shows a schematic section through the plane of symmetry of the second embodiment of the ATM in a second Konfi ^¬ guration!

Fig. 4 shows a schematic plan view of the safe unit of FIG. 1!

Fig. 5 shows a schematic perspective view of a third exporting ^¬ approximate shape of the ATM in the first configuration! Fig. 6 shows a schematic sectional view of a fourth embodiment ^¬ form of an ATM; and

FIG. 7 shows a schematic view of a customer control panel of a banknote module.

In the figures, identical or like elements with the same function Be ^¬ reference numbers have been provided, except where otherwise indicated. 1 shows a schematic sectional view of a first embodiment of an ATM 1. In this case, the cutting plane parallel to a front plane of the ATM 1 and the section through a center of Geldau ^¬ tomatoes 1. The ATM 1 comprises a control unit 2 and a safe Unit 3, wherein the control unit 2 is disposed above the safe unit 3 and secured thereto, so that an opening 4, which is used to transfer Bankno ^¬ th between the safe unit 3 and the control unit 2 at a bottom a banknote module 9 of the operating unit 2 is provided, and a slot 5, which is provided in a cover 6 of the safe unit 3, are arranged directly above one another, so that the slot 5 and the corresponding opening 4 are a channel form. A bottom 7 of the safe unit 3 runs parallel to the ceiling 6. A symmetry plane 8 of the safe unit 3 runs through a center of the slot 5 and the opening 4, whereby the safety unit 3 and / or the control unit run Unit 2 and / or the ATM 1 divides into two equal halves. The operating unit 2 has a banknote module 9 with a cash slot 9a for paying out and / or depositing banknotes.

The safe unit 3 has a first and second side wall 10, 11 which extend parallel to the plane of symmetry 8, the plane of symmetry 8 extending equidistantly to the two side walls 10, 11 of the safe unit 3. In this case, between the two side walls 10, 11 of the safe unit 3 storage units 12 for depositing the banknotes and transport units 13 for transporting Bankno ^¬ th between the banknote module 9 and the storage units 12 are arranged. Preferably, the safe unit 3 is symmetrical to the plane of symmetry 8 of the safe unit 3. For reasons of illustration, the transport units 13 are shown in FIG. 1 only very schematically. The transport units 13 and the shelf units 12 are mounted in the safe unit 3 and configured such that the banknotes always intersect the Sym ^¬ metry plane 8 during transport banknotes between the module 9 and the filing units 12 , In other words, the banknotes have during transport, preferably at a distance from one of the side walls 10, 11, the maximum changes by an amount which corresponds to a length, width, or Diagona ^¬ len of the banknotes. Even during storage after depositing the banknotes in the storage units 12, these intersect the symmetry plane 8. Preferably, the transport units 13 and the storage units 12 are arranged in the safe unit 3 such that the banknotes in the Safe unit 3 to the symmetry plane 8 are symmetrical. Consequently, the central axes of the banknotes in the safe unit 3 are preferably in the plane of symmetry 8 of the Sa ^¬ Fe unit 3. The heavy axes of the transport units 13 and the storage units 12 are in the plane of symmetry 8. Furthermore the transport units 13 and the storage units 12 are preferably symmetrical to the plane of symmetry 8.

2 shows a schematic section through a plane of symmetry 8 of a second embodiment of an ATM 1 in a first configuration. A second configuration of this second embodiment is Darge provides ^¬ in FIG. 3 and will also be explained in detail below.

The Safe unit 3 and the operating unit 2 are in the first configuration shown in FIG. 2 and in the second configuration shown in FIG. 3 each mon ^¬ tierbar, wherein the operating unit 2 in the first configuration with respect to the operating unit 2 rotated in the second configuration by 180 °. In the first configuration of the ATM 1 is provided for a front loading see ^¬. The safe unit 3 in this case has a front side 14, which faces a user, and a rear side 15, which faces away from a user. The front side 14 of the safe-unit 3 is designed as a safe door forms ^¬ out 16, with the safe unit 3 can be opened and closed, so that the ATM 1 is to provide service from the front.

The control unit 2 includes a user interface 17 facing a user and having a computer unit. The storage units 12 are preferably a plurality M of juxtaposed banknote cassettes 18 for storing M types of banknotes, a number of Zwi ^¬ Schen stores 19 and a number of waste bins 20 are provided. Examples of intermediate shelves 19 are reject stacker and tempory stacker. Furthermore, the safe unit 3 has a validation unit 21 for validating the banknotes, the validation unit 21 being connected by means of the transport units 13 to the banknote module 9, the banknote cassettes 18, the intermediate bins 19 and the Waste trays 20 is coupled, so that the banknotes after the Va ^¬ sierung to the corresponding storage unit 18, 19, 20 can be conveyed ^¬ NEN. In other words, the transport units are set to 13, the banknotes between the slot 5 and the banknote cassette 18 via the intermediate trays 19 and to transport the validation unit 21 to validate the bank ^¬ sheet. As indicated above, FIG. 3 is a schematic section through the Sym ^¬ metry plane 8 of the second embodiment of the ATM 1 in the two ^¬ th configuration. In the second configuration, the ATM 1 is provided for a rear-serving. In contrast to FIG. 2, the operating unit 2 is rotated relative to the safe unit 3 by 180 °, so that the rear side 15 of the safe unit 3 is designed as a safe door 16 of the safe unit 3 and turned away from a user is. The ATM 1 is adapted to from a back 15 to be serviced. The operating unit 2 and a safe unit 3 are identical front ^¬ preferably in the first and the second configuration.

The opening 4 of the operating unit 2 is arranged above the slot 5 of the safe unit 3 in both the first configuration and in the second configuration when the banknotes are transferred. The heavy axes of the banknote module 9 preferably lie in the symmetry plane 8 of the safe unit 3 both in the first configuration and in the second configuration. The top unit 9 can be constructed asymmetrically or symmetrically to the plane of symmetry 8, the operating unit 2 is constructed symmetrically to the safe unit 3.

Fig. 4 shows a schematic plan view of the safe unit 3 according to FIG. 1, wherein the operating unit 2 is removed, so that the slot 5 is exposed. The slot 5 is arranged in the ceiling 6 such that it intersects the plane of symmetry 8 of the safe unit 3 and / or that its axis of gravity lies in the plane of symmetry 8 of the safe unit 3. Furthermore, the slot 5 is preferably ^rectangular and has an identical distance to the side walls 10, 11, so that the plane of symmetry 8 divides the slot 5 into two halves of equal size. Wei ^¬ ter preferably extends a further symmetry plane 22 parallel and equidistant from the front face 14 and the back 15 of the safe unit 3, so that the further plane of symmetry 22 intersects the slot 5, in particular in two equal halves divides, or is arranged at most at a certain distance from the wider ^¬ symmetry plane 22. The plane of symmetry 8 and the further plane of symmetry 22 are perpendicular to each other. Preferably, the axis of gravity of the slot 5 is located both in the plane of symmetry 8 and in the further plane of symmetry 22 of the safe unit 3.

Fig. 5 shows a schematic perspective view of a third exporting ^¬ approximate shape of the ATM 1. The ATM 1 of Fig. 5 is formed in the ERS th configuration. The save unit 3 comprises a pull-out lower tray 23 containing the banknote cassettes 18 (not shown), and a pull-out upper tray 24 holding the intermediate trays 19, the waste bin. Trays 20 containing validation unit 21 and transport units 13 (not shown). The store 23, 24 are in the first configuration example preferential ^¬ extractable with open safe door 16 to be the store 23, 24 to a ^¬ are directed, front side by an operator pulled manufacturer to the user forward.

Also in the second configuration, the trays 23, 24 preferably at geöff ^¬ neter safe door 16 can be pulled out, whereby the store 23, 24 are adapted to be pulled by an operator to the rear side of the operator to the rear. Preferably, the bill cassette 18 are disposed such that the main axes of all ^¬ banknote cassettes 18 8 of the safe unit 3 lie in the symmetry plane in the pull-out from the unit 3 Safe lower loading 23rd Preferably, the intermediate trays 19, the waste trays 20, the validation unit 21 and the transport units 13 are arranged in the withdrawable from the safe unit 3 upper tray 24 such that their

Heavy axes lie in the symmetry plane 8.

In Fig. 6 is a schematic sectional view of a fourth embodiment of an ATM 1 is shown. The fourth embodiment of the ATM 1 of FIG. 6 is based on the embodiment of FIG. 3, wherein the Geldau ^¬ tomat 1 of FIG. 6 is designed as a TTW ATM. In particular, illus trated ^¬ Fig. 6, that the top unit is shifted by a predetermined dimension after ne before ^¬ towards the front of the ATM 1 9 TTW-. This illustrates the wall 26 of a building sketched in the front area of the top unit 9. The top unit 9 of the TTW ATM 1 of FIG. 6 is compared to a rear-load ATM - according to, for example, the Fig. 3 - extended by a vorbe ^¬ true dimension. Furthermore 6 shows the FIG. A provided between the safe unit 3 and the Top Unit 9 transition piece 25. About ^¬ gangs-piece 25 is by pulling out of the top unit 9 from the operating unit 2 of a Basic position can be raised upwards. If the top unit slid to 9 ^¬ back to the home position, the transition piece 25 falls into the slot 5 of the safe unit. 3 In Fig. 7 is a schematic view of an embodiment of a Kun ^¬ denbedienfelds a banknote module 9 or a top unit 9 is shown. For this purpose, FIG. 7 shows that the customer control panel of the top unit 9 has a portrait camera 27, a customer display 28 with a touchscreen, function keys 29, a barcode reader 30, a hand-to-money camera 31, a customer keypad 32 comprise a stereo speaker 33, a cash slot 34, a status display 35, a safety mirror 36, a Münzausgabeschacht 37, a document output means 38, egg ^¬ NEN hybrid card reader 39, a headphone jack 40, a contactless card reader 41 and a pin Päd 42 can.

Although the present invention has been described in terms of embodiments, it is variously modifiable. In particular, features of the Implementing ^¬ approximately forms of FIGS. 1 to 7 combined to form come to a further exemplary embodiment.

LIST OF REFERENCE NUMBERS

1 ATM

 2 control unit

3 safe unit

 4 opening

 5 slot

 6 ceiling

 7 soil

 8 symmetry level

9 banknote module

9a cash slot

 10 sidewall

 11 sidewall

 12 storage units

13 transport units

14 front side

 15 back side

 16 safe door

 17 user interface

18 banknote boxes set

19 intermediate shelves

20 waste bins

 21 validation unit

22 symmetry level

23 Loading

 24 Loading

 25 transition pieces

26 wall

 27 portrait camera

28 customer display

29 function keys Barcode Reader

Hand-to-money camera customer keyboard

Stereo speaker cash slot

status display

Safety mirror Coin delivery slot Receipt issue

Hybrid card reader headphone jack contactless card reader pin pad

Claims

1. ATM (l), with

 an operating unit (2) which has a banknote module (9) for paying out and / or depositing banknotes, and

 a safe unit (3) having a plurality of storage units (12) for depositing the banknotes and a number N, with N> 1, of transport units (13) for transporting the banknotes between the banknote module (9 ) and the storage units (12), wherein the transport units (13) and the storage units (12) are arranged in the safe unit (3) such that the

Banknotes in the safe unit (3) a symmetry plane (8) which is parallel to two mutually opposite side walls (10, 11) of the safe unit (3) intersect.

2. ATM according to claim 1,

characterized,

that the symmetry plane (8) to the two Seitenwän ^¬ (10, 11) being parallel and equidistant to the safe unit (3).

3. ATM according to claim 1 or 2,

characterized,

in that the transport units (13) and the storage units (12) are arranged in the safe unit (3) such that the bank notes in the safe unit (3) are symmetrical to the plane of symmetry (8).

4. ATM according to one of claims 1 to 3,

characterized,

the transport units (13) and the storage units (12) are arranged in the safe unit (3) such that the central axes of the bank notes in the safe unit (3) in the plane of symmetry (8) of the Safe unit (3) are located.

5. ATM according to one of claims 1 to 4, characterized,

in that the transport units (13) and the storage units (12) are arranged in the safe unit (3) in such a way that the heavy axes of the transport units (13) and the storage units (12) are symmetrical. Level (8) lie.

6. ATM according to one of claims 1 to 5,

characterized,

in that the safe unit (3) has a base (7), a ceiling (6) opposite the floor (7), a front side (14), a rear side (15) opposite the front side (14) and the two opposite side walls (10 , 11), wherein at least the front side (14) or the back side (15) is formed as a safe door (16), the cover (6) having a single slot (5) for transferring banknotes between the safe unit (3) and the operating unit (2) has ^¬ , wherein the slot (5) is arranged in the ceiling (6), that it intersects the plane of symmetry (8) of the safe unit (3).

7. ATM according to claim 6,

characterized,

the slot (5) is arranged in the ceiling (6) in such a way that its center of gravity lies in the plane of symmetry (8) of the safe unit (3).

8. ATM according to one of claims 6 or 7,

characterized,

in that the slot (5) is arranged in the ceiling (6) such that it has a further plane of symmetry (22) which is parallel and equidistant from the front side (14) and the rear side (15) of the safe unit (3). is, cuts or at most at a certain distance from the further plane of symmetry (22) is arranged.

9. ATM according to claim 8,

characterized,

the axis of gravity of the slot (5) lies both in the plane of symmetry (8) and in the further plane of symmetry (22) of the safe unit (3).

10. ATM according to claim 8,

characterized,

that the determined distance of the gravity axis of the slot (5) from the other symmetry plane (22) one-sixth the length of ATM (l) speaks ^¬ ent.

11. ATM according to one of claims 1 to 10,

characterized,

in that the safe unit (3) is constructed symmetrically to the plane of symmetry (8).

12. ATM according to one of claims 1 to 11,

characterized,

Safe that the unit (3) and the operating unit (2) are mountable to each other in a first configuration and a second configuration, wherein the Be ^¬ diene unit (2) in the first configuration with respect to the operating unit (2 ) is rotated 180 ° in the second configuration.

13. ATM according to claims 6 and 12,

characterized,

in that an opening (4) corresponding to the slot (5) of the safe unit (3) is provided for the transfer of banknotes between the safe unit (3) and the operating unit (2) on an underside of the banknote module (9). is provided, wherein the opening (4) of the banknote module (9) in both the first configuration and in the second configuration on the slot (5) of the safe unit (3) is arranged on ^¬ .

14. ATM according to claim 12 or 13,

characterized,

that the main axis of the paper money module (9) lies both in the first configura ^¬ tion as well as in the second configuration in the symmetry plane (8) of the safe-unit (3).

15. ATM according to claim 14,

characterized,

in that the operating unit (2) is constructed asymmetrically with respect to the plane of symmetry (8).

16. ATM according to one of claims 6 to 15,

characterized,

that the filing units (12) a plurality M of adjacent angeordne- th banknote cassettes (18) for the storage of M types of banknotes, a plurality of intermediate shelves to ^¬ (19) and a number of waste bins (20 ), wherein the transport units (13) are adapted to the banknotes between the slot (5) and the banknote cassettes (18) via the intermediate shelves (19) and a validation unit (21) for Validate the banknotes to transport.

17. ATM according to claim 16,

characterized,

in that the banknote cassettes (18) are arranged in a lower drawer (23) which can be withdrawn from the safe unit (3) such that the heavy axes of all banknote cassettes (18) in the symmetry plane (8) of the safe unit (3) lie ^¬ gen, and

in that the intermediate bins (19), the waste bins (20), the validation unit (21) and the transport units (13) are mounted in an upper drawer (24) which can be pulled out of the safe unit (3). are arranged such that their heavy axes lie in the plane of symmetry (8).

18. ATM according to one of claims 1 to 17,

characterized,

that the ATM (l) is designed as a TTW ATM, wherein the

Operating unit (2) is shifted by a predetermined dimension forward in the direction of the front door.

19. ATM according to claim 18,

characterized,

the banknote module (9) of the operating unit (2) is extended by the predetermined dimension.

20. ATM according to one of claims 1 to 19,

characterized,

the banknote module (9) can be pulled out of the operating unit (2) by means of a rail system.

21. ATM according to claim 20,

characterized,

in that a transition piece (25) provided between the safe unit (3) and the banknote module (9) can be raised from a basic position by pulling out the banknote module (9) from the operating unit (2) is, wherein the transition piece (25) after pushing back the banknote module (9) in the basic position in the slot (5) of the safe unit (3) falls.

22. ATM according to one of claims 1 to 21,

characterized,

in that the safe door (16) can be duplicated by means of a sheet metal construction in order to provide identical inner dimensions of the safe unit (3).