Protection device

FIELD: transport.

SUBSTANCE: invention relates to valuables transportation means. Device for storage or transportation of valuables includes internal magazine (30) for accommodation of valuables and external casing (10) where internal magazine can be fitted (30). In this structure, the internal magazine (30) contains mean (102) for communication with external casing (10), mean (100) for detecting impact on the internal magazine (30) and valuables damage device (50), and the external casing (10) contains mean (82) for communication with internal magazine (30) and mean (80) for detecting impact on the external casing (10). In this system, valuables damage device (50) is made capable to be actuated in case when mean (100) for detecting impact on the internal magazine detects impact on the internal magazine (30) or in case when mean (80) for detecting impact on the external casing detects impact on the external casing (10).

EFFECT: higher safety of transportation.

12 cl, 6 dwg

 

The technical field to which the invention relates.

The present invention relates to a device for transportation or storage of valuables, such as banknotes, to the outer casing for the device and to the internal cartridge for such a device.

The level of technology

An accepted way to deter potential thieves transported banknotes steel storage and transportation of banknotes in protective containers that emit indelible paint or ink, falling on the banknote, in the event of theft or other act on the protective container to mark and paint banknotes, thereby making them useless and unusable. Clean banknotes that have been marked in this way is practically impossible, so they are difficult to use in normal operations, including transactions with the cashier.

One of the main reasons for the transfer of banknotes is the need to replenish ATMs. Inside ATMs, banknote, as a rule, are stored in the refill cartridge for banknotes that can be installed in ATMs, enabling the latter to access stored on tapes and to provide cash to the user of the ATM / cash machine on request. To avoid the necessity of applying lengthy procedures for refilling when you need to replenish stocks the bills in the ATM, this stock usually fill up a simple extraction of each cartridge, in the ATM, and its replacement pre-filled cartridges for cash.

ATMs typically include device damage banknotes, which are activated automatically in the event of unauthorized attempts to gain access to the banknotes stored in the cassettes for money installed in the ATM. But the tapes for cash does not have this mechanism of damage and therefore vulnerable in situations where the thief is able to steal the tape for cash when it is moving between two safe places. This situation may arise, for example, when one collector was instructed to replace the cartridge in outside premises ATM by moving a full cassette of an armoured car to a reloadable ATM.

Therefore, there is a need for a system that can protect the cassette for cash in these and other circumstances.

Disclosure of inventions

According to the first aspect of the invention proposes a device for storage or transportation of valuables, containing an internal cassette for receiving values and the outer body, which can fit the inner cassette, with the inner cassette includes means for connection with an outer housing, means DL is the detection of the impact on the inner tape and the unit damage values, and the outer body includes a tool for communication with the inner cartridge and the means for detecting impacts on the outer body, the device damage values is arranged to actuate when the means for detecting impact on the internal cassette detects the impact on the internal cassette, or when the means for detecting impacts on the outer body detects an impact on the outer body.

The device according to the invention is a security system that protects the cassette, such as cassette for ATMs, in circumstances where they may be vulnerable to theft, for example, when moving between the collector car and place of delivery, such as ATM, providing an outer casing in which is placed the cassette and which hides the cartridge, thereby not allowing for potential thieves to identify the cartridge as a potential object of theft. The outer body provided with a means for detecting impacts on the outer body, which provides the actuation device of damage to the internal values of the cassette in the event of theft or other unauthorized modification to the outer body, making the contents of the internal cassette no value. Itself internally is Yaya cassette is also provided with means for detecting impact, so that in the case of destructive actions or stolen tapes in the period of time between removing it from the outer casing and the delivery to the destination device damage values given in the action, making the contents of the cassette of no value. Thus, the device according to the present invention performs as a function of the shelter, and the function of scaring, thereby providing effective protection for the contents of the internal cassette.

The unit damage values can be mounted in the lid of the inner cartridge. Thus the space available for the storage of banknotes or other valuables in the inner cassette, remains untouched.

Internal cartridge may be a cartridge for cash.

Internal cassette may also contain a timer, configured to actuate the device damage values after a predetermined period of time.

The timer can operate when removing the inner cartridge of the outer casing with the aim countdown specified time of delivery so that if the internal cartridge is delivered to its destination or returned to the outer body within the expected delivery time, the unit damage values will be powered to spoil the contents of the internal CA is sets.

Means for connection with an outer housing and a means for connection with the inner cassette may contain paired optical transmitters and receivers.

For example, the paired optical transmitters and receivers can be paired infrared transmitters and receivers.

Means for detecting impact on the internal cartridge may contain one or more sensors selected from among the following devices: detector penetration; detector presence of fluid; a detector opening cover; detector effects on the loading door; a detector angle, the acceleration sensor and metal detector.

Means for detecting impacts on the outer body may include one or more sensors selected from among the following devices: detector penetration; detector presence of fluid; a detector for lid opening; a temperature sensor; a detector effects on the hinge and the acceleration sensor.

The device may also include an optical system that determines when the tape was illegally removed from the outer casing.

For example, the optical system may include a photodetector located on the outer casing or the inner cassette, and photoperiodic, located respectively on the other of these devices, when this optical system is designed with the capability, the capacity of the delivery of the output signal when the violation optic line between photoproduction and the photodetector.

According to the second aspect of the present invention is proposed outer casing for the device in accordance with the first aspect.

According to a third aspect of the present invention is proposed internal tape device in accordance with the first aspect.

Brief description of drawings

Embodiments of the present invention will now be described solely as an example with reference to the accompanying drawings.

Figure 1 shows a schematic top view representing the outer body of the protective container.

Figure 2 shows a schematic side view of the outer casing shown in figure 1.

Figure 3 shows a schematic side view of the inner cassette for use in conjunction with the outer casing shown in figures 1 and 2.

Figure 4 shows a schematic view of the example device damage values (banknotes), suitable for use in an internal tape 3.

Figure 5 shows a schematic representation of sensors and communication systems used in the protective device.

Figure 6 shows a block diagram illustrating the steps performed by the outer casing and the inner cassette during the delivery process.

The implementation of the invention

Refer first to FIG. 1, in which the outer body of the protective device indicated in General position 10. External to the STS comprises a base 12 and the cover 14, attached to the base by hinge 16 located at one end of the outer casing 10. At the opposite end of the outer casing 10 has a handle 18 that facilitates carrying and manipulation of the outer casing 10. The outer body 10 is locked by means of lock which can be actuated to lock the cover 14 in the closed position. The castle can be an electronic lock for unlocking the outer casing 10 will require an electronic key, such as iButton®. Alternatively, as the castle can be used lock with RFID tags, lock with smart card, a mechanical lock and an electronic lock that requires input of a password that consists of alphanumeric characters, to unlock the cassette. It should be understood that the types of locks mentioned above are simply examples of a suitable lock and that for use in the protective device of the present invention are suitable for many different types of locks. Thus, the present invention is not limited to a specific type of lock.

In the inner part of the outer casing 10 has a recess or cavity, shown by the dashed line and indicated by the position 20 in figure 1 and 2, which is made with the possibility of introducing or placing an internal cassettes of different sizes, in which amauta values, such as banknotes, when storing or moving between different points, for example, between an armoured car and a cash machine.

The internal cassette is indicated in General by the position 30 in FIG. 3. In this example, the internal cassette 30 is a cartridge for ATM / cash machine of the type indicated above, in other words, the cartridge, which can be used to store notes and to set the ATM is able to issue banknotes stored in the cassette when the cassette is installed in the ATM. It should be understood that the inner cassette 30 does not have to be a cassette for cash, but may be any suitable container for valuables, such as banknotes and more.

The inner cassette 30 is arranged to be placed in the recess or cavity 20 of the outer casing 10 so that the inner cassette 30 can be safely transported to the place of delivery, such as reloadable ATM. The outer body 10 and the inner cassette 30 is equipped with a set of security features for protection of the inner cassette 30 that is moved between two safe seats, as will be described in more detail below.

The inner cassette 30 has a base 32 and the cover 34, pivotally attached to the base 32 by means of a hinge 36 located at one end of the cover 34 so that the inside of the inner cassette 30 can be opened, allowing you to remove the cover 34 to the base 32. The inner cassette 30 is locked by means of lock which can be actuated to lock the lid 34 in the closed position. This castle may represent, for example, a mechanical lock or an electronic lock that requires to unlock the cassette input password that consists of alphanumeric characters. Alternatively, for controlling the lock may require an electronic key, such as an iButton® or RFID tags, allowing you to unlock the inner cassette 30.

At one end of the base 32 of the inner cassette 30 provides the boot the door in the form of a valve 38, which may open a cash machine when installing the inner cassette 30 in cash, allowing it to issue banknotes stored in the internal cassette 30, in response to a legitimate request from a user of the ATM.

On the underside of the cover 34 of the inner cassette 30 is provided by the device damage banknotes made with the possibility of bringing it in action to spoil the contents of the internal cassette 30, in the event of unauthorized impacts on the internal cassette 30 or the outer casing 10 in which is placed the inner cassette 30. Device damage banknotes preferably mounted on the underside of the cover 34, as it does not reduce the space is about, available in the inner part of the inner cassette for storing banknotes, or other valuables. However, it should be understood that the device is damaged banknotes can be placed elsewhere in the inner cassette 30, and thus the invention is not limited to device damage banknotes, mounted on the cover. For example, device damage banknotes can be provided in the base 32 of the inner cassette 30.

An example of device damage values (banknotes) is schematically indicated by the position 50 in FIG. 4, and includes two reservoir or tank 52 for storing spoiling banknotes substances, such as ink, adhesive or corrosive liquid, such as acid, which, if you apply it on bills or other values stored in the internal cassette 30, degrades the quality of these values, devaluing them. In the prior art there are many known suitable damaging substances, therefore, the invention is not limited to a particular damaging substance.

For filing damaging substances in the inner part of the inner cassette 30 and, consequently, its application on the contents of the internal cassette 30 when the alarm device damage banknotes 50 provides dosing machine 54. In the example shown in FIGURE 4, the metering machine 54 contains two channels 56 that communicate with the tanks 52 and supplied to the nozzles 58, stretching what about the entire length of the bottom side of the cover 34 of the inner cassette 30. The sprayer comes with a set of dispensing nozzles 60 which, when the cover 34 of the inner cassette 30 is closed, is directed into the inner part of the inner cassette 30 so that when the actuation device damage banknotes 50 spoiling the substance is fed into the inner part of the inner cassette 30. Dosing nozzle 60 have a very small diameter, so that when the actuation device damage banknotes spoiling the substance is supplied in the form of a fine spray or mist into the inner part of the inner cassette 30, increasing the likelihood that all the contents of the internal cassette 30 will be affected adversely affecting substance.

It should be understood that the above-described dosing machine 54 is just one example of batching machine, suitable for use in the protective device of the present invention, and that many other dosing machines are equally suitable. For example, you can use the metering machine having one or more injectors, driven by pressure, to penetrate inside the bag that stores banknotes or valuables, disclosed in European patent EP 1499787 of the applicant. Thus, it should be understood that the present invention is not limited to concrete dosing machine.

Device damage banknotes 50 also contains spolniteljnyj mechanism 62 to actuate the device damage banknotes 50 in response to the command for actuation, coming from a means for detecting the exposure of the inner cassette 30 or the outer casing 10. In this example, the actuator 62 includes a 64 cans of compressed gas, such as carbon dioxide, which is hermetically closed by the seal 66 is placed between the outputs of the 64 cans and containers 52. A small electrically driven pyrotechnic device 68 (known as "explosive restival") are provided for each seal 66 or in the immediate vicinity and electrically connected to the start circuit (described in more detail below) of the internal cassette 30. In the event of unauthorized impacts on the internal cassette 30 or the outer body 10, the start circuit transmits an electrical signal to the explosive estagiario 68 and leads them into action, causing rupture of the seal 66 between the cylinders 64 and containers 52. Quick release gas contained in cylinders 64, compresses spoiling the substance in the containers 52, causing rupture of the valve 70 located between the outlets of the containers 52 and the channels 52 of the metering mechanism 54, thereby allowing the compressed spoiling the substance out through the channels 56 and nozzles 58 and flow through the metering nozzle 60 in the inner part of the inner cassette 30.

The above-described actuator 62 represents just one of the examples is s actuator, suitable for use in the protective device of the present invention, however, many other known actuators suitable for use in this device. For example, you could use an actuator containing a motor driven piston, which compresses spoiling the substance stored in tanks 52, causing it to flow and dispersion through the metering mechanism 54. Thus, it should be understood that the present invention is not limited to a specific actuating mechanism.

The outer body 10 and the inner cassette 30 has a set of systems of sensors for detecting various types of destructive actions, usually used by thieves attempting to gain access to the contents of the housing 10 or the cassette 30. The outer body 10 and the inner cassette 30 is also equipped with communication systems that provide two-way communication between the outer casing 10 and the inner cassette 30. The device of damage to the cassette 50 includes a control system that receives input signals from sensors and communication systems of the inner cassette 30 and controls the operation of the circuits of the device of damage banknotes in accordance with the received input signals. These systems sensors and communication systems will be described below with reference to the schematic representation shown in FIGURE 5.

Sist is we the sensors of the outer casing 10 is indicated in General position 80 figure 5 and can be referred to as "detection system" of the outer casing 10. The outer body 10 is equipped with an optical communication system, which in this example is a system of infrared 82, consisting of an infrared transmitter and receiver, which allow two-way communication between the outer housing 10 and the inner cassette 30. The infrared communication system 82 may represent, for example, infrared photoperiodic and an infrared photodetector operating at a frequency of 900 nm in standard IRDA® (InfraRed Data Association, Association infrared data transmission), or any other suitable infrared communication system.

It should be understood that in order to ensure two-way communication between the outer housing 10 and the inner cassette 30 may provide alternative or additional communication system. For example, the outer body 10 and the inner cassette 30 can be provided with paired transceivers of the radio system in the middle of the action for the implementation of the short-range radio communication using Bluetooth®, wifi®, or any other suitable communication systems.

The outer body 10 also has optical lighthouse system 84, which may represent, for example, an infrared system that includes a source of infrared radiation such as an infrared LED, and a photodetector such as a photodiode, is inserted into the inner cassette 30. Optical whom I lighthouse system 84 starts the device damage banknotes 50 of the inner cassette 30, if the control unit 118 detects the loss of an infrared signal within a predetermined period of time.

Detection system 80 of the outer casing 10 includes a set of sensors, including intrusion detector 86 which has a capability of detecting hacking attempts of the outer casing 10 by penetration through the exterior wall using, for example, a drill or similar tool. Suitable detectors penetration is well known and therefore will not be described in detail here.

In the outer casing 10 is also provided a sensor for the presence of fluid 88, configured to detect receipt of conductive or non-conductive liquids inside the outer casing 10. Such fluids are typically used by kidnappers to reduce the efficiency of dye ink used in systems damaged banknotes.

Detection system 80 of the outer casing 10 also has an opening sensor cover 90, which may represent, for example, a microswitch or an optical sensor that determines when the cover 14 of the outer casing 10 is open.

There is also a temperature sensor 92 for detecting the destructive effect on the outer body 10 where it is exposed to extremely high or low temperatures.

The sensor 94 is provided to determine, is he trying to open the Nar is iny housing 10 by malicious influence on the hinge 16, while the acceleration sensor 96 or similar device configured to detect movement, indicating that the outer body 10 is dropped from some height, trying to open it by force.

Sensors 86, 88, 90, 92, 94, 96 the detection system 80 of the outer casing 10 is connected to the infrared communication system 82 so that upon detection of the destructive actions or other unauthorized modification to the outer body 10 of the inner cassette 30 can be transmitted to the signal, causing the inner cassette 30 powering system damage banknotes 50, as described in detail below.

The sensors of the inner cassette 30 is designated in General position 100 figure 5 and can be referred to as "detection system" of the inner cassette 30. The inner cassette 30 is equipped with an optical communication system, in this example representing the infrared communication system 102 consisting of an infrared transmitter and receiver, which is associated with the infrared communication system 82 of the outer casing 10 and, thus, may represent, for example, infrared photoperiodic and an infrared photodetector operating at a frequency of 900 nm in standard IRDA® (InfraRed Data Association, Association infrared data transmission), or any other suitable infrared communication system that allows you carried the ü two-way communication between the inner cassette 30 and the outer casing 10.

The inner cassette 30 includes an optical system 104, which is associated with an optical system 84 of the outer casing 10. Optical system 84 of the outer casing 10 is used in conjunction with the related optical system 104 of the inner cassette 30, allowing the inner cassette 30 to determine when it is removed from the outer casing 10. In this regard, the photodetector of the optical system 104 of the inner cartridge can be positioned on the outer surface of the base 32 of the inner cassette 30 so that he was facing the inside of the recess or cavity 20 of the outer casing 10, when the inner cassette 30 is installed in the outer casing 10. LED optical system 84 of the outer casing 10 can be positioned on the outer surface of the cavity 20 so that, when the inner cassette 30 is placed in the cavity 20, the photodetector receives the radiation of the LED, thereby forming an optical path between the optical system 84 of the outer casing and related optical system 104 of the inner cassette 30. When the internal cassette 30 is removed from the outer casing 10, this optical communication line is broken, when this optical system 104 of the inner cassette 30 can transmit the control system 118 signal to spoil the contents of the internal cartridge using device damage banknotes 50, if the optical connection is not possible is camping within a specified period of time.

Detection system 100 of the inner cassette 30 includes an intrusion detector 106, configured to detect hacking attempts outer casing 30 by penetration through the exterior wall using, for example, a drill or similar tool. Suitable detectors penetration is well known and therefore will not be described in detail here.

In the detection system 100 of the inner cassette 30 is also provided a sensor for the presence of fluid 108, configured to detect receipt of conductive or non-conductive fluids in the inner cassette 30. As described above, such fluids are typically used by kidnappers to reduce the efficiency of dye ink used in systems damaged banknotes.

Detection system 100 of the inner cassette 30 is also opening sensor cover 110, which may represent, for example, a microswitch or an optical sensor that determines when the cover 34 of the inner cassette 30 is open.

One or more sensors 112, which may represent, for example, mechanical sensors, such as microswitches or optical sensors associated with the boot door 38 of the inner cassette 30 to detect attempts to gain access to the notes or other values stored in the internal cassette 30 through the loading door 38. the moreover, a sensor of the angle 114 to detect tilt of the machine running the internal cassette 30, while one or more specified radio-metal locator 116 contribute to the recognition of the inner cassette 30 state when it is installed in the ATM. The acceleration sensor 117 or similar device is provided for detecting displacement, indicating that the internal cassette 30 dropped from some height, trying to open it by force.

The infrared communication system 102, the optical communication system 104 and the sensors 106, 108, 110, 112, 114 and 117 are connected to the control system 118 of device damage banknotes 50; control system 118 receives signals of aldatzeko 106, 108, 110, 112, 114, 117 and determines whether to actuate the actuator device 62 damage banknotes 50 in response to signals received from sensors 106, 108, 110, 112, 114, 116, 117, the infrared communication system 102 or the optical communication system 104.

The inner cassette 30 also includes a countdown timer 120, which can operate when removing the inner cassette 30 of the outer casing 10 or from an ATM, in which it is installed. The countdown timer 120 is connected to the control system 118 of device damage banknotes 50 so that when removing the inner cassette 30 of the outer casing 10, or from the ATM which he begins the countdown. If the countdown reaches zero before the inner cassette 30 is installed in the ATM or the outer body 10, the device damage banknotes 50 is actuated and spoil the contents of the internal cassette 30.

Sensors 86, 88, 90, 92, 94, 96 the detection system 80 of the outer casing 10 is placed in a suitable position inside the outer casing 10 or on it. For example, one or more penetrating sensors 86 may be placed inside or on the outer walls of the outer casing 10, while one or more sensors of the presence of liquid 88 may be located on the inner surfaces of the outer walls of the outer casing 10. It should be understood that the sensors and communications systems 80 of the outer casing 10 can be placed in different positions, obvious to a person skilled in this technical field.

Similarly sensors 106, 108, 110, 112, 114, 116, 117 the detection system 100 internal cassettes are placed in suitable positions in the inner cassette 30 or on it. In this case, one or more penetrating sensors 106 may be located inside or on the outer walls of the inner cassette 30, while one or more sensors of fluid 108 may be located on the inner surface of the cover 34 of the cassette or on the inner surfaces of the outer walls of the inner cassette 30. It should be understood that the sensors of the communication system 100 of the inner cassette 30 can be placed in different positions, obvious to a person skilled in this technical field.

The above-described protective device, usually used in situations related to the delivery, when the tape cartridge, such as cartridge ATM may be vulnerable to attack or theft when moving between the collector car and the ultimate place of delivery, for example, when the full tape for cash delivered by the collector to the ATM in order to replenish it. The delivery method with the use of this device will now be described with reference to the block diagram shown in FIG.6.

As a first step 120 in the delivery process, the collector, which basically will be inside of an armoured car, opens the outer body 10 by means of an electronic key or similar device to access the internal parts. Then the collector retrieves the internal cassette 30, which may represent, for example, the full tape for cash, from the rack in the cash the car and puts it in the hole or cavity 20 of the outer casing 10 (step 122). The collector closes and locks the outer body 10 (step 124), and at this moment (step 126) the outer body 10 transmits the internal cassette 30 team entry in the transport mode. This command can be issued by the outer casing 10 by means of infrared pen the sensor system infrared 82 and adopted the internal cassette 30 with the infrared receiver of its infrared communication system 102. In transport mode, the internal cassette 30 sensor systems that are redundant, as are duplicated in the outer housing 10 may be disabled. These redundant sensors may include, for example, the intrusion detector 106 and the sensor of the presence of liquid 108.

The outer body 10 is also transferred to the transport mode at step 126, in which all system sensors and the collector leaves the collector car to deliver the internal cassette 30 to the destination (step 128). It should be understood that the inner cartridge is installed in the outer case 10, is hidden from observers who, consequently, is not able to determine that it is transferred into the outer casing 10.

During transportation of the inner cassette 30 inside the outer casing 10 sensors 84, 86, 88, 90, 92, 94, 96 the outer casing 10 are constantly checking the presence of unauthorized interventions in the outer body 10 (step 130). If one or more sensors 84, 86, 88, 90, 92, 94, 96 find the effect on the outer body 10, the device damage banknotes 50 using infrared 82, 102 transmitted signal, resulting in a system of corruption in step 132, as described above.

Upon arrival to the destination collector by means of an electronic key or similar device delivers the Coman is the opening on the outer body 10 at step 134. In the result, the outer body 10 displays on the inner cassette 30 team entry in the mode of delivery (step 136), in which the inner cassette 30 can be delivered and installed in the ATM machine or similar device. In the delivery mode, all system sensors internal cassette 30 is enabled. The inner cassette 30 sends a confirmation message to the outer body 10, indicating that it was included in the delivery mode (step 138), while the outer body 10 is unlocked, allowing the collector to open the cover 14 and removing the inner cassette 30 (step 140). When the internal cassette 30 detects that extracted from the outer casing 10, for example, detecting loss of optical signal emitted by the optical emitter 84 of the outer casing 10, it starts a countdown timer 120 (step 142), which performs the countdown expected delivery time. During delivery of the inner cassette 30, the sensors 106, 108, 110, 112, 114 of the inner cassette 30 is enabled to detect tampering on the inner cassette (step 144), and the timer 120 performs a countdown of the specified delivery time. If the impact is detected by one or more sensors 106, 108, 110, 112, or if the internal cassette 30 has not been delivered to the destination (for example, when installed in the ATM) or returned to the outer body 10 within this time, the mouth is eusto damage banknotes 50 is driven at step 132, devaluing the contents of the internal cassette 30. The timer count to 120, you can disable or reset (step 146), only returning the inner cassette 30 in the outer body 10 or successfully bringing the inner cassette 30 by appointment.

It should be understood that the above-described protective device can be used in a wide range of situations in which the internal cassette 30 may be vulnerable to attack. For example, the protective device can be used for the transportation of the inner cassette 30 containing cash or other valuables, cash car to (from) the rack for storage, cash centre and the like, or by an automatic device, such as an automatic cash machine, ATM / cash machine, or rack system on the premises for retail.

1. Device for storage and transportation of values containing the internal cassette for receiving values and the outer case for accommodating the inner cassette, with the inner cassette includes means for connection with an outer housing, a means for detecting impact on the inner tape and the unit damage values, and the outer body includes a tool for communication with the inner cartridge and the means for detecting impacts on the outer body, the device damage values made with the possibility of bringing the action in the case, when the means for detecting impact on the internal cassette detects the impact on the internal cassette, or when the means for detecting impacts on the outer body detects an impact on the outer body.

2. The device according to claim 1, characterized in that the unit damage values is mounted in the lid of the inner cassette.

3. The device according to claim 2, characterized in that the internal cassette is a cassette for cash.

4. The device according to claim 1, characterized in that the inner cassette contains a timer, configured to actuate the device damage values after a predetermined period of time.

5. The device according to claim 1, characterized in that the means for communication with an external enclosure and a means for connection with the inner cassette containing conjugate optical transmitters and receivers.

6. The device according to claim 5, characterized in that the paired optical transmitters and receivers are paired infrared transmitters and receivers.

7. The device according to claim 1, characterized in that the means for detecting impacts on internal cartridge contains one or more sensors selected from among the following devices: detector penetration; detector presence of fluid; a detector opening cover; detector effects on the loading door; detec the PR angle, the acceleration sensor and metal detector.

8. The device according to claim 1, characterized in that the means for detecting impacts on the outer body contains one or more sensors selected from among the following devices: detector penetration; detector presence of fluid; a detector for lid opening; a temperature sensor; a detector effects on the hinge and the acceleration sensor.

9. Device according to any one of the preceding paragraphs, characterized in that it includes an optical system for determining when extracting the inner cartridge of the outer casing.

10. The device according to claim 8, characterized in that the optical system includes a photodetector located on the outer casing or the inner cassette, and photoperiodic, located respectively on the other of these devices, when this optical system is arranged to issue an output signal when the violation optic line between photoproduction and the photodetector.

11. The outer casing for the device, described in any one of claims 1 to 10.

12. Internal tape device described in any one of claims 1 to 10.



 

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FIELD: information technologies.

SUBSTANCE: device comprises a charging unit for valuable documens, a unit of dispensing and/or an accumulator for processed valuable documents, a transportation device for piece-by-piece transportation of valuable documents from the charging unit along the transportation unit to the dispensing unit, or the accumulator, an inspection device for inspection of valuable documents transported piece-by-piece bypassing it, and a system of suction pipelines for suction air, having a connection for a suction unit designed for suction of air with dust from the system of suction pipelines, and at least one section of manual treatment, connected to the connection, with the suction hole movable in the area of the inspection device in respect to it, and/or at least two pipeline sections connected with the connection, with suction holes, arranged on different sections of the transportation path and directed to this path with the possibility of moving dust through it from valuable documents that are transported along the transportation path.

EFFECT: provision of device reliability due to reduction of contamination with dust.

18 cl, 17 dwg

FIELD: information technology.

SUBSTANCE: banknote storage unit comprises a banknote storage roller (17), two banknote conveyor belts (26, 27) and two collection sprockets (18, 19) of said belts, each belt (26, 27) being wound on one side to the storage roller (17) and on the other to one of the collection sprockets (18, 19), the two belts being arranged to come into contact with the banknotes respectively on opposite faces, a handling means being present to move the roller, the sprockets and the belts so as to alternatively realise the storage of the banknotes on the roller or their release from the storage unit. The said collection sprockets (18, 19) are installed at the same shaft (20).

EFFECT: maintaining the correct tension in a belt used to issue banknotes.

11 cl, 5 dwg

FIELD: information technology.

SUBSTANCE: paper sheet processing device includes a feeder device (11), which includes a support surface (11a) which varies inclination from the vertical direction, and a seating surface (11b) which is essentially perpendicular to the support surface and is configured to receive a plurality of paper sheets which vary inclination along the support surface and are stacked into a pile on the seating surface, a clamping mechanism (14) which clamps paper sheets on the side of the seating surface of the feeder device, a transportation channel (16) for transporting the clamped paper sheet, a control device (18) for checking the transported paper sheet and a storage device for storing checked paper sheets.

EFFECT: high reliability of the device.

14 cl, 31 dwg

FIELD: transport.

SUBSTANCE: bank note processing device 1 comprises service mechanism assembly 40 to output paper sheet or sheets, assembly 10 to count paper sheets, sheet or sheets store 20, sheet or sheets transfer paths 10a-10e, 40a, 40b to move sheets to service mechanism assembly 40, sheet or sheets counter 10 and store 20. Besides, this device comprises connection guides 51 arranged between transfer paths 10a-10e and stores 20 to feed paper sheet or sheets, motor 62, cam 59 and solenoid S to switch connection guides 51 in the state of connection with transfer paths 10a-10e and stores 20 to feed paper sheets, and in the state of disconnection to break the above said connection.

EFFECT: ease of use.

4 cl, 12 dwg

FIELD: information technologies.

SUBSTANCE: device for reception, dispensing, accordingly, return of banknotes has a pocket, which is arranged as separated by a separating element into two compartments, the separating element comprises at least two parts not connected with each other, arranged as jointly moved inside the pocket for formation of two compartments in it, and every of which is installed as movable on one of the side walls of the pocket arranged oppositely to each other. At the same time there is at least one clamping element, which is arranged between parts of the separating element and is arranged as capable of movement that does not depend on the separating element inside the pocket for clamping of banknotes available in the pocket.

EFFECT: simplified design and convenience of operation.

9 cl, 12 dwg

FIELD: transport.

SUBSTANCE: proposed device has hopper divided by separation element into two compartments. For this, said separation element may displace inside said hopper. Besides, it has transfer-clamping unit that may displace irrespective of aforesaid separation element to lock bank notes there inside. Note here that said transfer-clamping element displaces in first direction inside said hopper to get in contact with bank notes and to displace bank notes to be issued or returned from, mainly, the area of separation element. Thereafter, said separation element displaces inside the hopper in second direction, opposite the first one, by said transfer-clamping element.

EFFECT: ease of use, simplified design.

7 cl, 12 dwg

FIELD: information technology.

SUBSTANCE: terminal device includes a testing module (100), a module for temporary storage and subsequent issuing of received banknotes (200) and a banknote storage module (300). The testing module determined whether banknotes have been received or not. Received banknotes are stored in the storage module. The module for temporary storage and subsequent issuing of received banknotes serves to move the temporarily stored banknotes into the testing module for issuing as change or moving the temporarily stored banknotes into the storage module.

EFFECT: possibility of issuing change using cash received by a terminal.

15 cl, 13 dwg

FIELD: engineering of devices for processing banknotes.

SUBSTANCE: device and method for processing banknotes, mainly used for one at a time dispensing of banknotes for processing, counting them, sorting and checking authenticity, have capability of such processing in several working modes, while for selecting and displaying working modes, display is provided with sensor screen.

EFFECT: higher comfort of operation due to visualization of functions, performed by device, and possible change of configuration of working modes, appropriate for different functions of device.

2 cl, 5 dwg

FIELD: engineering of devices for storing and transporting banknotes.

SUBSTANCE: banknotes, positioned in pallet, are moved on pallet inside banknote receiver, wherein lever, affecting plunger, opens gate in lower portion of pallet for moving banknotes into container, positioned in lower portion of receiver. Receiver has frame inserted with tightness into its upper portion, which is also provided with gate, bent downwards during movement of money to inside of receiving sack, made of elastic material, enveloping the frame. After that closing plate seals the frame, which may then be extracted from container for following transportation, to bank, for example.

EFFECT: greater protection of container from unsanctioned access, simplified process of container use and decreased possibility of receiving traumas during use of container.

2 cl, 30 dwg

FIELD: engineering devices for feeding stacks of elements like banknotes, checks, blanks and the like to machine for further handling of aforementioned elements.

SUBSTANCE: device includes loading aperture 10, through which stacks of elements are fed into machine from the outside; tool 11-12 for feeding one element at a time onto transportation route 11-13-14 inside the machine, and means 20 to provide customers with instructions and information concerning correct handling of machine. Between unloading aperture 10 and means 11-12 for transfer an auxiliary tool 16-17 is positioned, which is provided for transportation of elements to device 11-12 for feeding one element at a time. Device also includes tool 11-12-17-10 for possible return of a stack of elements back to loading aperture 10 at the same time when tool 20 for dispensing instructions provides instructions to customers to properly arrange the returned stack of elements.

EFFECT: possible automatic feeding of squeezed banknote to prevent jamming of machine, no need for presence of personnel for cleaning the machine from damaged elements.

2 cl, 3 dwg

FIELD: automatic teller machines, in particular, banknote cartridges.

SUBSTANCE: cartridge contains a set of moveable buttons - indicators of cartridge information, each button may be turned around its axis for changing its position. Buttons may be moved along axis in outward or inward direction relatively to body of cartridge by their rotation. Different plans of positioning of buttons along the axis display appropriate various characteristics of cartridge content. Cartridge may be inserted into ATM, where button positions may be read by ATM.

EFFECT: unused buttons may be kept in the cartridge, button locations may be changed without opening the cartridge.

33 cl, 72 dwg

FIELD: technology for calibrating banknote handling machines.

SUBSTANCE: in accordance to invention, during realization of method, at least one usable banknote is selected, at least one unusable banknote is selected, selected banknotes are subjected to processing in banknote handling machine, recording data into memory, which data are received by means of at least one sensor, and on basis of results of processing of data stored in memory, received by means of at least one sensor, at least one threshold value is set for banknote parameter measured by at least one sensor.

EFFECT: automatic setting of threshold values of parameters of banknotes, measured by sensors, without operator participation.

11 cl

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