EP2264675A1 - Measurement system for monitoring self-service devices - Google Patents

Abstract

The system (1) has a distance measuring unit (5) for measuring a passage length of a passage (7) to a region of a surface of a self-service device (3). An evaluation unit (15) transmits a signal to a remote signal processing system based on change of the passage length. A person notifying unit (19) detects person in the surrounding of the self-service device by the evaluation of the measured passage length. The person notifying unit exhibits an infrared module for detecting the person using infrared. The evaluation unit exhibits a storage for storing a passage length reference value. An independent claim is also included for a method for recognizing a manipulation at a self-service device.

Description

description Background of the invention

The present invention relates to a measuring system for monitoring self-service devices, comprising a distance measuring unit, the use of a distance measuring unit and a method for detecting tampering attempts on a self-service device.

State of the art

From the state of the art, for example, the international publication WO 2008057057 in which a cash dispenser with a sensor is disclosed, which can recognize, for example, a foreign reader mounted in front of the card feeder. The sensor is located at the ATM, for example near the card feeder, and is not visible from the outside. Sound or ultrasonic waves are sent to the outside of the ATM with respect to the instrument panel via a transmitting antenna. Reflected waves can be received via a receiving antenna. By a foreign, unauthorized attached device, such as a reader before the card feeder, the proportion of reflected waves changes, which is detected by a receiving circuit.

Next is from the US patent application US 20090057395 a system for detecting fraud attempts at self-service machines such as ATMs known. The card feeder of an ATM is provided with a proximity sensor, which can detect an additionally mounted reader by means of capacitive and inductive measurement. In addition, a video camera is attached to the ATM, which records the area of the card feeder as well as the area of the keyboard. The from the camera recorded images can be evaluated by an algorithm to detect manipulations such as additional devices can.

From the prior art is also the US patent US 7075429 discloses an alarm device is disclosed for an ATM, which is intended to prevent inter alia that parts of the device are covered or the additional devices are attached. For this purpose, tiny holes are placed in the device, are introduced into the provided with light sensors light guide. In addition, solar cells, for example, disguised as a sticker attached to the device. Now, if a hole or part of the sticker is obscured, the detected amount of light changes, and a manipulation attempt can be displayed. Furthermore, the use of wirelessly communicating additional devices is prevented by antennas.

Furthermore, devices are known from the prior art in which an unauthorized reading of map data is to be prevented by dithering. During dithering, the card is pulled in jerkily as long as it is visible. This results in a pre-built card reader a constantly interrupted record that does not appear to be usable. From the prior art devices are further known in which a capacitive measurement, the front of a card reader is monitored. Here, when approaching, the field changes in front of the readers.

The problem underlying the invention

The invention has for its object to provide an improved measuring system for monitoring self-service devices. In particular, the measuring system should be able to detect manipulation attempts, eg skimmer attachments. Next, the measuring system for each self-service device, so regardless of its design and without intervention in the self-service device to be retrofitted.

Inventive solution

The reference numbers in all claims have no limiting effect, but are only intended to improve their readability.

The solution of the object is achieved by a measuring system having the features of claim 1, the use of a distance measuring unit with the features of claim 10 and a method having the features of claim 11.

It can be achieved with the measuring system according to the invention that manipulation is detected on the basis of the monitoring of a self-service device. Such self-service devices are e.g. Cash dispensers, bank statement printers, foyer entry readers, information or transaction terminals. As a rule, self-service devices are provided with a card reader or card insertion slot. But other devices in which a user can take advantage of services can be understood as a self-service device. Such devices are particularly subject to manipulation since they are usually freely accessible and / or sensitive data, such as. Secret numbers and / or map data of the operator to be transferred to the self-service device. Of course, in addition to the spying of such data, other motivations for manipulation are conceivable.

Manipulation of self-service devices typically occurs on the surface of the self-service device, ie, the surface of the self-service device is manipulated, generally for fraudulent purposes. Under the surface of the self-service device is to be understood as the outer touchable surface of the self-service device, so the surface that is accessible to a user, and may be exposed to the manipulations of fraudsters. For example, the surface of the self-service device can be manipulated by a superstructure attached by a cheater. Such superstructures, often referred to as skimmer attachments, may be used, for example, as a card reader or keyboard for spying map data or secret codes. Furthermore, the manipulation of the surface can also be understood as the destruction of parts of the surface. A typical example of this is the wrapping of showcases by Vending machines to get to sell goods. A portion of the surface of the self-service device is understood to be part of the surface, but at least a point of the surface.

It is an achievable advantage of the measuring system according to the invention that a manipulation of the monitored self-service device can be detected by the measurement of a route length, which can also be referred to as the distance to the self-service device. In particular, this distance may be the route length of the distance from the distance measuring unit to the surface of the self-service device. In a manipulation, the surface, e.g. changed by a skimmer attachment, which changes the distance to the surface. Advantageously, the measuring system according to the invention monitors the unchanged distance to the self-service device and can thus check the integrity of the original self-service device. In the case of an attached attachment, the measured distance is shortened. Thus, if the distance to the area of the surface modified by a manipulation is measured, the manipulation can be detected by changing the route length. For this purpose, the distance from the distance measuring unit is advantageously determined and transmitted via a signal line to the evaluation unit for evaluation. In particular, it can be achieved that a manipulation with high security is detected by a distance measurement. In addition, a sabotageunanfälliger measuring system is achievable, since all changes in the measuring system in a change in the measured route length can result. Another achievable advantage of the measuring system according to the invention is that the measurement of a route length can be carried out with simple means. In particular, systems for measuring a route length can be purchased as standard components at low prices on the market, whereby the measurement system according to the invention can be produced simply and inexpensively.

By using the distance measuring unit according to the invention, it can be achieved that the measuring system can be arranged separately from the self-service device, since the measurement of the route length of a route to an area of the surface can be carried out from any location, eg from a location in the environment of the self-service device. In particular, the measured distance does not have to pass through the self-service device. It can therefore be sufficient that the measured distance touches the self-service device only from the outside. In this case, the measured route advantageously passes through the space from which manipulation could take place. The measuring system can thus be arranged in the environment of the self-service device or on the self-service device. Under the environment of the self-service device is here to understand the space in which the self-service device is arranged, and / or in which a person goes to operate the self-service device. This can for example be the case when withdrawing cash at a cash dispenser, when requesting a bank statement to a statement printer or when pressing a foyer input reader by inserting a card. Advantageously, a self-service device that is not equipped with a monitoring system can be retrofitted without intervention or modification with the measuring system according to the invention. In addition, it can be achieved that the measuring system is compatible with all self-service devices. Since a change in the self-service device is avoidable, retrofitting can be achieved without great expense and time.

It is another achievable advantage of the measuring system according to the invention that the area of the surface to be monitored can be selected. In particular, it can be achieved that different areas of the surface of the self-service device can be monitored, such as e.g. the area of the card feeder or the area of the keyboard. Advantageously, the area of the surface is obtained by simple means, e.g. selectable by adjusting the position of the measuring system.

Advantageously, the change of at least one route length can trigger the forwarding of a signal to a remote signal processing system in order to be able to display a manipulation of the self-service device. In other words, the change of at least one measured path length is a necessary condition for forwarding the signal. However, the change does not necessarily have to be a sufficient condition. In particular, the further developments of the solution according to the invention make it possible to provide further necessary conditions for forwarding the signal. Advantageously, the change of at least one route length and the forwarding of the signal in this case take place substantially simultaneously or with a time delay.

By means of the evaluation unit according to the invention, it is possible to achieve that a message and / or an alarm with arbitrary sequences can be triggered on detection of a manipulation of the self-service device via the remote signal processing system. In addition, it can be achieved that security forces and / or the police can be alerted and / or the state of the self-service device can be changed. Of course, all forms of signaling a manipulation are conceivable.

By using a distance measuring unit according to the invention for detecting a manipulation of a self-service device, the manipulation can be detectable by changing at least one measured route length. Advantageously, the distance measuring unit is connected to the evaluation unit via a signal line of any kind. In particular, the distance measuring unit is available as a standard component on the market at low cost. Furthermore, when a manipulation is detected, a signal can be forwarded to a remote signal processing system.

It is an achievable advantage of the method according to the invention that a manipulation of the self-service device can be detected by changing at least one measured route length. Advantageously, this allows a simple and thus easily feasible monitoring of a self-service device. Furthermore, upon detection of a manipulation, a signal can be forwarded to a remote signal processing system.

Structure and development of the solution according to the invention

Advantageous embodiments and developments, which can be used individually or in combination, are the subject of the dependent claims.

In a preferred embodiment of the invention, the measuring system has a personal alarm unit for the detection of persons in the environment of the self-service device, in order to forward the signal in case of falsification of the signal Distance measurement can be prevented by the presence of a person. Persons who are in the vicinity of the self-service device or who operate the self-service device may, due to their presence, change the measured route length. Particularly preferably, the person-reporting unit is in a first state when the person is detected, which is particularly preferably referred to as the "operator-recognized" state. If no person is detected by the personal alarm unit, it is particularly preferably in a second state, which is particularly preferably referred to as the status "no operator recognized". Particularly preferably, the personal alarm unit communicates with the evaluation unit via a signal line in order to delay and / or prevent the forwarding of the signal in the event of falsification of the distance measurement by a person. Of course, the evaluation unit can also be connected to the signal unit by another connection, eg via radio. Particularly preferably, a signal that is not being detected for more than a defined period of time can only be forwarded by the evaluation unit to the remote signal processing system. Particularly preferably, the forwarding of the signal by the evaluation unit due to a detected person can only be delayed by the personal message unit for a fixed time. Particularly preferably, in the case of a condition "operator recognized" that lasts for more than a defined period of time, a signal can be forwarded by the evaluation unit to a remote signal processing installation. Advantageously, a manipulation of the personal alarm unit can thereby be prevented.

Particularly preferably, persons can be detected via an evaluation of the measured route length. Particularly preferably, persons can be detected by an evaluation of the measured route length by the evaluation unit. Particularly preferably, upon detection of a person, the forwarding of the signal by the evaluation unit can be delayed and / or prevented. If a person influences the measurement of the route length, eg by entering a secret number, withdrawing money, inserting or removing a card, the measurement of the route length results in a change of the measured route length. However, this measured change in distance varies according to the person's movement, which is not completely unavoidable even in a non-moving person. Particularly preferably, a person is at least one by a persistent change measured route length detectable. Advantageously, it is thus possible to deduce a person as the cause of the route length without having to provide a special unit for this purpose. A person is advantageously detectable only by software of the evaluation. Particularly preferably, only after a fixed period of time without changing the measured track lengths, that is to say without detection of a person, can a signal be forwarded to the remote signal processing installation when the manipulation is detected by the evaluation unit. As a result, advantageously, an influence of the operator on the detection of a manipulation can be prevented. Particularly preferably, when a person is detected for longer than a defined period of time, a signal can be forwarded by the evaluation unit to a remote signal processing installation. Advantageously, a manipulation of the personal alarm unit can be prevented as a result, since persons usually only stay with a self-service device for a certain period of time.

Particularly preferably, persons can be detected by an evaluation of the measured route length by the evaluation unit. As a result, the person recognition can be achieved without additional units. Particularly preferably, persons can be detected via an evaluation of the measured route length by the personal alarm unit, wherein the measured distance from the evaluation unit to the personal alarm unit can be transmitted via a signal line. Embodiments of the invention are also conceivable in which persons can be detected via an evaluation of the measured route length by the evaluation unit and the personal message unit.

In a further preferred embodiment, the personal alarm unit has an infrared component for the detection of persons by means of infrared light. Particularly preferably, the infrared module has a receiver for receiving infrared light. Advantageously, a person can be detected by the infrared radiation emanating from it. Advantageously, the person is a transmitter of infrared rays received by the infrared device. Particularly preferably, the infrared module has a transmitter for transmitting infrared light and a receiver for receiving infrared light. As a result, it can be achieved that the infrared radiation emitted by a person still further, for example, by reflection of the transmitted by the transmitter Infrared radiation is amplified. Through the personal alarm unit with infrared module, the forwarding of the signal by the evaluation unit can advantageously be prevented in the presence of a person. Particularly preferably, the prevention of the forwarding of the signal upon detection of a person is limited in time, so that a manipulation of the personal alarm unit can be detected. Particularly preferably, the measuring operation of the distance measuring unit is interrupted during the presence of a person. This makes it achievable that the person is not irritated by the distance measurement. By detecting people by means of infrared light, the presence of persons in the environment of the self-service device can be carried out particularly easily. In particular, an object deposited by the user during the operation can be distinguished from a manipulation, since the user usually still lingers in the environment of the self-service device, and takes the object when leaving the self-service device. Further, the division of distance measurement and person detection on two units, the detection of manipulation of the self-service device can be performed even safer. In addition, infrared detectors for the detection of persons on the market can be obtained inexpensively, whereby a cost-effective measuring system can be achieved.

Particularly preferably, the evaluation unit can be connected to the remote signal processing installation in order to enable communication between the evaluation unit and the signal processing installation. Particularly preferably, the connection between the evaluation unit and the signal processing system can be realized by a radio link and / or via a cable. However, other realizations of this connection are conceivable. Through the connection, a signal can be passed from the evaluation unit to the signal processing system when manipulation is detected, in order, e.g. to trigger a message or an alarm. Furthermore, it can be achieved that the state of the measuring system can be determined by communication via the connection. In particular, manipulation, such as e.g. a severance of the connection or removal of the entire measuring system can be detected.

Further developing the invention, it is preferably provided that the evaluation unit has a memory for storing at least one track length reference value. Particularly preferably, the evaluation unit has a memory for storing at least one route length, which can also be referred to as a route length reference value, at least one route to the unmanipulated surface of the self-service device. Advantageously, a manipulation of the deviation of at least one route length from the stored route length reference value can be detected. Particularly preferably, the comparison between the measured route length, that is to say the measured value or measured value, and the route length reference value, that is to say the reference value, takes place by the evaluation unit. In case of manipulation, the measured value deviates from the reference value. Particularly preferably, in the case of a deviation of a route length from the corresponding route length reference value detected by the evaluation unit, a signal can be forwarded to a remote signal processing installation by the evaluation unit. Particularly preferably, the comparison of the measured route length with the corresponding route length reference value takes place only after the measured route length has remained constant for a fixed time. As a result, the presence of a person from a manipulation of the self-service device is distinguishable.

According to the invention, it is preferably provided that the distance measuring unit has a transmitting device for generating a measuring beam. This makes it possible to achieve that the measuring beam can be adjusted to a region of the surface. In particular, it can be achieved that when retrofitting a self-service device with the measuring system according to the invention, the measuring system can first be mounted, and then the measuring beam can be directed onto a selectable area of the surface. Particularly preferably, the measuring beam from the distance measuring unit leads directly to the surface of the self-service device. However, it is also conceivable that the measuring beam can be guided by the distance measuring unit via at least one deflection device to the surface of the self-service device in order to be able to achieve greater flexibility in the placement of the measuring system.

Particularly preferably, the measuring beam consists of electromagnetic or acoustic waves. As a result, the determination of the route length can be carried out via an electronic distance measurement, by which a particularly precise determination of the Track length can be made possible. In an electronic distance measurement, the measurement of a route length is usually carried out by means of transit time measurement of electromagnetic or acoustic waves. Depending on the frequency used, this method can be called sonar, radar or microwave distance measurement or optical distance measurement. In addition to the prevailing principle of transit time measurement, inter alia, the measurement of phase shifts to determine the route length is possible. Systems for determining the route length based on the electronic distance measurement can be purchased on the market, and are particularly favorable due to standard components used. This can be achieved that existing self-service devices are retrofitted cost-effectively, so as quickly as possible to protect all unprotected self-service devices from manipulation.

In a preferred embodiment, the measuring beam is a laser beam. Particularly preferably, the laser beam is generated by a laser device of class 1 or 2 according to EN 60825-1. By using a laser distance measurement, which can also be referred to as electronic distance measurement, a simple and high-precision measurement can be carried out using standard components. Further, a simple alignment to a precise point on the surface of the self-service device is possible. Since distance measuring systems based on a measurement by means of a laser beam can be purchased inexpensively on the market, the retrofitting of a self-service device by the measuring system according to the invention can be carried out inexpensively, with the further advantage that a high coverage of tamper-proof self-service devices can be achieved quickly. Particularly preferably, the distance measuring unit has at least one laser diode for generating the laser beam. Since laser diodes are available as a standard component cost, and also have a small size, a cost-effective measuring system of small size can be achieved. Such a measuring system may have the advantage that it is not recognized during manipulation attempts or due to the size of the fraudster is not achievable.

The invention further development is preferably provided that the distance measuring unit comprises a deflection device for deflecting the measuring beam. In this way, the measurement of the route length of at least two routes to the surface of the self-service device can be achieved with a distance measuring unit. Consequently, at least two critical areas of the surface of the self-service device can be monitored. In addition, the areas to be monitored can be selected, since the measuring beam can be deflected by the deflection device. Particularly preferably, the adjustment of the measuring beam to a region of the surface by the deflection device. Particularly preferably, a serial measurement can be carried out by the deflection device, in which the route lengths of all routes are measured one after the other. Particularly preferably, by the deflection device, a serial measurement can be carried out, in which the lengths of all routes within a measurement cycle can be measured successively, with a new measurement cycle starting after completion of a measurement cycle.

It is particularly preferable to carry out the measurement of a route length within a defined period of time which is below a detection threshold. The detection threshold is to be understood as the period of time from which the measurement is detected by a person. Advantageously, a residence time of the measuring beam, e.g. a laser beam can be reached on a region of the surface, which is below the detection threshold, and the measuring beam can thus no longer be detected by a person. In particular, the mark projected onto the surface by a laser beam can not be detected by a person.

According to the invention, it is preferably provided that the deflection of the measuring beam takes place optically or electromagnetically. As a result, it can be achieved that the measuring beam is deflected with high precision onto the areas of the surface of the self-service device to be monitored. Furthermore, the period between the individual measurements can be shortened in order to be able to achieve faster scanning of the areas. In addition, mechanical wear can be avoided, whereby a long service life can be achieved.

In a preferred embodiment of the invention, the measuring system is arranged in a sabotagegeschützten housing. Particularly preferably, the measuring system is in arranged around the environment of the self-service device. Particularly preferably, the measuring system is arranged above the self-service device. As a result, a manipulation of the measuring system can be avoided. Particularly preferably, the measuring system is arranged separately from the self-service device. However, embodiments of the invention are also conceivable in which the measuring system is connected to the self-service device or integrated therein.

In a preferred method for detecting a manipulation on a self-service device, the measurement of the route length of at least one of the routes is repeated in chronologically successive measuring cycles. In this way, the route length of a route with respect to a manipulation of the area where the route ends, be evaluated. Furthermore, continuous monitoring of the self-service device and thus higher detection reliability can be achieved.

In a further preferred method for detecting a manipulation on a self-service device, the route lengths of all routes within a measuring cycle are measured. This makes it possible to monitor different areas of the surface of the self-service device in order to be able to detect a manipulation of these areas.

In a further preferred method for detecting a manipulation on a self-service device, the presence of a person is detected in order to be able to distinguish a change in the measured route length caused by a person from a change in the route length caused by a manipulation. Advantageously, a change in the distance caused by the operation of the self-service device can hereby be distinguished from a change in the route caused by a manipulation.

Brief description of the figures

Further advantageous embodiments will be described in more detail below with reference to four embodiments shown in the drawings, to which the invention is not limited.

Fig. 1

ein Messsystem zur Überwachung eines Selbstbedienungsgeräts in einer perspektivischen Ansicht;

Fig. 2

ein Messsystem gemäß Fig. 1 in einer weiteren perspektivischen Ansicht;

Fig. 3

Ablaufdiagramm mit Personenerkennung durch Infrarotbaustein;

Fig. 4

Ablaufdiagramm mit Personenerkennung durch variierenden Messergebnisse; und

Fig. 5

ein an einem Selbstbedienungsgerät angeordnetes Messsystem zur Überwachung des Selbstbedienungsgeräts.

Show it:

Fig. 1

a measuring system for monitoring a self-service device in a perspective view;

Fig. 2

a measuring system according to Fig. 1 in a further perspective view;

Fig. 3

Flow chart with person recognition by infrared module;

Fig. 4

Flowchart with person recognition by varying measurement results; and

Fig. 5

a arranged on a self-service meter measuring system for monitoring the self-service device.

Detailed description based on embodiments

In the following description of four preferred embodiments of the present invention, like reference characters designate like or similar components.

The first embodiment will be described below with reference to FIG Fig. 1 to 3 explained. In Fig. 1 a measuring system 1 for monitoring a self-service device 3 is shown in a perspective view. Fig. 2 shows the measuring system 1 Fig. 1 from a different perspective. In Fig. 3 is a flow chart for triggering a message or an alarm when detection of tampering attempts shown. By the measuring system 1 manipulation, such as superstructures can be detected by a distance measurement. For this purpose, the measuring system 1 has a distance measuring unit 5, by means of which the route lengths of three lines 7 to three areas of the surface of the self-service device 3 are measured. Each of the measured distances ends at a point immediately adjacent to the card insertion slot 9, directly at the cash dispensing slot 11 and on the keyboard 13. These routes extend through the space exposed to the manipulations and touch the surface of the self-service device 3 from the outside. From each track 7, a track length reference value is measured with millimeter precision, and stored in a memory of an evaluation unit 15 of the measuring system 1, not shown for purposes of illustration. The measuring system 1 is mounted in a sabotagegeschützten housing 17 on the ceiling in front of the self-service device 3, and thus arranged separately from the self-service device 3 in the environment of the self-service device 3. The distance measuring unit 5 has a transmitting device not shown for reasons of representation for generating a laser beam as a measuring beam, which determines the route lengths of the routes 7 millimeter accurate. Through a deflection device, not shown for illustrative purposes, the laser beam is deflected to a point on the card insertion slot 9, to a point on the cash dispensing slot 11, and to a point on the keyboard 13. In this case, the laser beam runs successively along the routes 7 shown, wherein the time duration in which the laser beam is directed to the mentioned points is below the detection clamp. As a result, the mark projected onto the surface by the laser beam can not be recognized by a person.

The measuring system 1 has a personal alarm unit 19 for the detection of persons in the environment of the self-service device 3. The personal alarm unit 19 has an infrared component, not shown for reasons of illustration, in order to be able to detect a person in the environment of the self-service device 3 by means of infrared light. The infrared device has a receiver for receiving infrared light, which is not shown in the figures for purposes of illustration. The personal alarm unit 19 is connected to the evaluation unit 15 via a signal line 21.

To evaluate the measured by the distance measuring unit 5 track lengths, the measuring system, the evaluation unit 15. In this case, the evaluation unit 15 compares the measured route lengths that are from the distance measuring unit 5 via the signal line 22 at the evaluation unit 15 are transmitted, with the stored route length reference values. In the case of the deviation of at least one measured value from the corresponding reference value, and in the absence of a person reported by the personal message unit 19 via the signal line 21, a message or an alarm with arbitrary sequences is triggered by the evaluation unit 15. For this purpose, the evaluation unit 15 forwards a signal to a remote signal processing system via a signal line 23. This process is in Fig. 3 The values a, b and c correspond to the distance lengths to the card insertion slot 9, the cash dispensing slot 11 and the keyboard 13. The index "0" indicates the stored reference value, which is compared with the current measurement, which is indicated by the index "x". This comparison is represented by the arrow between the memory blocks and the blocks of the measurements. In the case of at least one deviation of a measured value from the corresponding reference value, wherein the measured value may be greater or smaller than the reference value, the next step is to check the result of the infrared measurement. If no person is detected by the infrared measurement, a message or an alarm is triggered. Thus, in the presence of a person, the forwarding of the signal by the evaluation unit 15 can be prevented by the personal alarm unit 19.

A second embodiment, which otherwise does not differ from the first embodiment, will be described below with reference to FIG Fig. 4 explained. In this exemplary embodiment, persons can be recognized via an evaluation of the measured track lengths. Thus, the detection of a person is done only by an evaluation by software. A personal alarm unit 19 is thus not required. The index "0" indicates the stored reference value, which is compared with the current measurement, which is indicated by the index "x". This comparison is represented by the arrow between the memory blocks and the blocks of the measurements. In the event of an interruption of the laser beam, for example by the input of the secret number, the withdrawal of money, the insertion or removal of a card, at least one measurement results in a lower value than the reference value. This lower value changes according to the person's movement. The evaluation unit 15, or the software running on the evaluation unit 15 interprets this state as a recognized person and prevents the forwarding of a signal by the evaluation unit 15 to the Signal processing system. Only when the laser measurement again gives a fixed value over a certain time, the evaluation unit 15 compares the measured values with the corresponding reference values. In the case of at least one deviation of a measured value from the corresponding reference value, wherein the measured value may be greater or smaller than the reference value, the evaluation unit 15 triggers a message or an alarm by forwarding a signal to the signal processing system.

In a third embodiment, which otherwise does not differ from the first or the second embodiment, the deflection of the laser beam by the deflection takes place optically or electromagnetically. For illustrative purposes, the deflection device is not shown, so that this embodiment is based on Fig. 1 and 2 is explained. Due to the optical or electromagnetic deflection, the laser beam can be deflected with high precision.

The fourth embodiment, which does not otherwise differ from the previous embodiments, will be described with reference to FIGS Fig. 5 explained. In this embodiment, the measuring system 1 is arranged on the self-service device 3, or integrated therein, and measures the route lengths of the routes 7 from the self-service device 3 out.

The distance measuring unit 5 included in the first to fourth embodiments becomes, as in FIG Fig. 2 and 5 shown, used to detect a manipulation of the self-service device 3. By the distance measuring unit 5, the route lengths of three paths 7 to three areas of the surface, the card insertion slot 9, the cash dispensing slot 11 and the keyboard 13 are measured.

The method for detecting a manipulation on the self-service device 3 is based on the Fig. 1 . 2 and 5 explained, and is feasible by the measuring system described in the embodiments. In this case, the route length of three routes 7 to the surface of the self-service device is measured, the routes ending at the card insertion slot 9, the cash dispensing slot 11 and the keyboard 13. About a change in the route length of at least one of these routes 7, a manipulation is detected. The route lengths of the three routes 7 are within one measurement cycle measured to monitor the card insertion slot 9, the cash dispensing slot 11 and the keyboard 13 at the same time. The measurements of the line lengths of the three lines 7 are repeated in time-sequential measuring cycles. As a result, the card insertion slot 9, the cash dispensing slot 11 and the keyboard 13 are constantly monitored. In order to be able to distinguish a change in the measured route length caused by a person from a change in the route length caused by a manipulation, the presence of a person is detected.

The features disclosed in the above description, the claims and the figures may be of significance both individually and in any concentration for the realization of the invention in its various embodiments.

Claims (14)

Measuring system (1) for monitoring self-service devices (3), which has a distance measuring unit (5), characterized in that the distance measuring unit (5) can measure the route length of at least one route (7) to a region of the surface of the self-service device (3) , and the measuring system (1) has an evaluation unit (15), by means of which a signal can be forwarded to a remote signal processing installation due to a change in at least one measured path length. Measuring system (1) according to claim 1, characterized in that the measuring system has a personal alarm unit (19) for detecting persons in the environment of the self-service device (3). Measuring system (1) according to claim 2, characterized in that the personal alarm unit (19) has an infrared component for the detection of persons by means of infrared light. Measuring system (1) according to one of the preceding claims, characterized in that the evaluation unit (15) has a memory for storing at least one track length reference value. Measuring system (1) according to one of the preceding claims, characterized in that the distance measuring unit (5) has a transmitting device for generating a measuring beam. Measuring system (1) according to claim 5, characterized in that the measuring beam is a laser beam. Measuring system (1) according to claim 5 or 6, characterized in that the distance measuring unit (5) has a deflection device for deflecting the measuring beam. Measuring system (1) according to claim 6, characterized in that the deflection of the measuring beam takes place optically or electromagnetically. Measuring system (1) according to one of the preceding claims, characterized in that the measuring system (1) in a sabotagegeschützten housing (17) is arranged. Use of a distance measuring unit (5), by means of which the route length of at least one route (7) to a region of the surface of a self-service device (3) can be measured to detect a manipulation on the self-service device (3). Method for detecting a manipulation on a self-service device (3), characterized in that the route length of at least one route (7) to the surface of the self-service device (3) is measured. A method according to claim 11, characterized in that the measurement of the route length of at least one of the distances (7) is repeated in temporally successive measuring cycles. A method according to claim 11 or 12, characterized in that the route lengths of all routes (7) are measured within a measuring cycle. Method according to one of claims 11 to 13, characterized in that the presence of a person is detected in order to distinguish a change in the measured route length caused by a person from a change in the route length caused by a manipulation.

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