WO2015165965A1 - Système de stockage de valeurs - Google Patents

Système de stockage de valeurs Download PDF

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Publication number
WO2015165965A1
WO2015165965A1 PCT/EP2015/059338 EP2015059338W WO2015165965A1 WO 2015165965 A1 WO2015165965 A1 WO 2015165965A1 EP 2015059338 W EP2015059338 W EP 2015059338W WO 2015165965 A1 WO2015165965 A1 WO 2015165965A1
Authority
WO
WIPO (PCT)
Prior art keywords
container
controller
communication unit
storage system
securities
Prior art date
Application number
PCT/EP2015/059338
Other languages
German (de)
English (en)
Inventor
Enrico CARERI
Original Assignee
Squitek Ag
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Squitek Ag filed Critical Squitek Ag
Publication of WO2015165965A1 publication Critical patent/WO2015165965A1/fr

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Classifications

    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B15/00Identifying, scaring or incapacitating burglars, thieves or intruders, e.g. by explosives
    • G08B15/02Identifying, scaring or incapacitating burglars, thieves or intruders, e.g. by explosives with smoke, gas, or coloured or odorous powder or liquid
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05GSAFES OR STRONG-ROOMS FOR VALUABLES; BANK PROTECTION DEVICES; SAFETY TRANSACTION PARTITIONS
    • E05G1/00Safes or strong-rooms for valuables
    • E05G1/14Safes or strong-rooms for valuables with means for masking or destroying the valuables, e.g. in case of theft

Definitions

  • the invention relates to a securities storage system comprising a container for storing securities and an external communication unit, wherein the container comprises at least the following container elements:
  • Insert banknotes, security documents and other valuables are stored in a container in which is at least partially filled with color ink container.
  • Paint container can be distributed through a trigger in the container. By The monochromaticization of the securities will render them worthless.
  • the trigger is controlled by a controller.
  • the known containers with a color distribution device for storing securities are either complicated and therefore expensive to manufacture or the color distribution device is easy to avoid by a thief.
  • the object of the present invention is therefore, a
  • This task is accomplished by a securities depository system with the
  • a securities storage system comprising a container for storing securities and an external communication unit, the container having at least the following container elements:
  • the Nahfeldkommunikationshim is adapted to exchange at a distance of a maximum of 10cm between the communicator antenna and NFC antenna data and receive electrical energy.
  • the data and energy transmission thus takes place at a distance of the two antennas of a maximum of 10cm.
  • the FC microprocessor is directly connected to the NFC antenna, so that the N FC microprocessor even without electrical storage only on the
  • Power supply is operated by the near field communication.
  • NFC near field communication
  • the container is accordingly configured
  • the data exchange and the charging of the container takes place via the same interface, namely the near-field communication unit. Additional connectors for exchanging data and / or for charging the electrical storage need not be provided on the container.
  • the near-field communication unit preferably has a maximum external dimensions of 30 mm ⁇ 30 mm ⁇ 5 mm for compact installation in the container.
  • the container is preferably designed for transporting securities.
  • the container is designed in the form of a cashbox, in particular in the form of a cashbox for use in cash machines.
  • the at least partially filled with color ink container may be in the form of an at least partially filled with ink cartridge.
  • Such an ink cartridge is particularly inexpensive to produce.
  • the trigger comprises a gas cartridge, in particular in the form of a C0 2 capsule.
  • a gas cartridge in particular in the form of a C0 2 capsule.
  • the gas cartridge may be pierceable by a tip, the tip being movable by an electric motor of the trigger to the gas cartridge.
  • a trigger is at the same time structurally simple and reliable.
  • the trigger is preferably designed such that the piercing takes place within max 0.5s.
  • the electrically operated container elements can directly from
  • the Near-field communication unit may have an induction coil-shaped conductor as an NFC antenna for receiving electrical energy.
  • the container can be transported in a suitcase, trolley or the like, which contains the monitoring module.
  • the container can be formed in this case without own energy storage.
  • the container preferably has an electrical memory for
  • Voltage supply at least one container element.
  • the container is thereby transportable without connection to an external voltage source and without contact of the Nahfeldkommunikationstechnik to an external monitoring module.
  • the container is designed to be particularly user-friendly if the electrical memory can be charged by the electrical energy received via the near-field communication unit.
  • electrical storage at least one lithium battery is preferably used.
  • a CR 123 lithium primary cell
  • the container preferably comprises at least one sensor for measuring at least one container state, wherein the sensor is connected to the controller. If the sensor measures a signal indicative of an opening of the container and / or a transport of the container, the sensor transmits this signal to the controller, whereupon it can actuate the trigger to color the contents of the container.
  • the at least one sensor can be formed separately from the controller or integrally with the controller.
  • the container preferably comprises a position sensor, shock sensor,
  • Water sensor temperature sensor, a sensor in the form of a mechanical switch and / or a light sensor.
  • the sensor (s) is / are in each case connected to the controller. If the container has a position sensor, then it can detect a movement of the container and indirectly - via the controller and the trigger - trigger the coloring of the securities. By a shock sensor, a violent opening of the container can be registered. The opening of the container can also be detected by a sensor in the form of a mechanical switch and / or a light sensor. Manipulations on the container can continue to be registered by a water sensor and / or a temperature sensor.
  • a very secure transport of the container can be ensured by the fact that the controller comprises a timer or is connected to a timer of the container.
  • the controller can press the shutter button when the time set in the timer has expired.
  • the controller is preferably designed such that the timer starts as soon as no connection of the
  • Nahfeldkommunikationsaku with the monitoring module consists.
  • the securities are inked when the container is being transported, without any contact with an external monitoring module within the time set in the timer.
  • the near field communication unit sets the time set in the timer.
  • the controller is integral with a shock sensor
  • control is preferably designed for encrypted near-field communication.
  • the control of the container is preferably switched by the near field communication in different modes.
  • the controller is switched by the near field communication unit in an active mode and an inactive mode, the controller reacts in active mode on all sensors of the container and / or the timer and ignored in inactive mode all sensors of the container and / or the timer.
  • the container is thereby secured in the active mode against tampering and transported in the inactive mode and apparently.
  • the controller may further be switchable by near-field communication into a transport mode in which the controller is responsive to those sensors that detect opening of the container but do not respond to those sensors that detect transport of the container. As a result, the container in transport mode is transportable, but not staining apparently. in the
  • Transport mode is thus ensured for a secure transport.
  • a user can thereby by
  • Near field communication determines if the container is in Inactive, Active, or Transport mode. The user can thereby ensure that he can safely open or transport the container.
  • the controller is adapted to the container state and / or the SpeicherhellMap by Nahfeldkommunikation to the
  • the container status indicates whether the trigger has already been actuated, ie. whether the securities are colored or not colored. Furthermore, the user can over the mentioned function the Determine the filling level of the electrical storage and charge it if necessary.
  • the container is thus designed to be particularly easy to use.
  • the controller may be designed to transmit the container contents, for example the number of currency notes or the monetary value, to the monitoring module. A user can thereby determine the condition and / or contents of the container without having to open it.
  • the controller comprises a
  • Container mode By reading the data memory can thus be tracked in which states or modes the container has been.
  • the controller has a clock on to the
  • the container may, in addition to the "inking system" described above, at least one further securing of the container, for example a
  • Monitoring module prefers a maximum of the external dimensions 19mm x 50mm x 5mm.
  • the communication unit may be in the form of a hand-held transmitter, a smartphone or a personal computer. If the communication unit is designed in the form of a hand-held transmitter or a smartphone, a user can transport the container together with the communication unit so that the container is in constant contact with the communication unit or its monitoring module. If the user then steals the container, the connection between the monitoring module and
  • the communication unit may alternatively be designed in the form of a switching station, wherein the monitoring module by a keypad, a
  • the switching station for example, in the form of a
  • the monitoring module is secured in the switching station by a keypad, a switch in a lock mechanism and / or a biometric sensor.
  • the biometric sensor may include a fingerprint scanner, a retinal scanner (iris scanner) or the like. This can ensure that the
  • Monitor module is used exclusively by an authorized user to change the mode of the container via near field communication.
  • the securities storage system may further include a base station
  • Communication unit is designed to lose its ability to communicate with the controller when the contact between the base station and
  • the communication unit is disconnected.
  • the communication unit is therefore capable of communication with the container only if they are in the
  • the base station remains.
  • the base station can be formed or arranged in a vault, for example in a bank.
  • Securities storage system is thus designed to be particularly secure.
  • the invention further relates to a method for communication with a previously described container, wherein a data exchange per
  • Nahfeldkommunikation takes place between an external monitoring module and a Nahfeldkommunikationshim of the container. In this case, in addition to the data exchange, a transfer of electrical energy from the
  • Monitoring module to the near field communication unit.
  • the transmission of data and energy takes place at a distance of the monitoring module to the near field communication unit of less than 10 cm.
  • a particularly preferred trigger or a particularly preferred ink container is described below:
  • the trigger may comprise a compression chamber which is gas-tight within the compression chamber for efficient pressure build-up.
  • a gas cartridge with a stored therein compressed gas for pressurizing the compression chamber
  • an activatable opening device preferably electromechanical type, for releasing the gas from the cartridge and a with a marking medium (color) filled compressible ink fountain can be arranged.
  • carbon dioxide or nitrogen can be stored in the gas cartridge.
  • gas cartridges are commercially available, for example in
  • the marking medium may be present as needed as a pigment dry powder or as a liquid such as a solution or an emulsion.
  • the compressible memory is over a through the
  • Marking medium operable pressure relief valve d. h a so-called media-operated pressure relief valve, fluidically connectable to an outside of the trigger.
  • Marking medium leads. When exceeding a predetermined
  • Opening pressure of the pressure relief valve in the compression chamber flows the marking medium via the pressure relief valve to the outside of the trigger, d. h., the marker is via the pressure relief valve in the
  • the fact that the ink container is compressible, can be a complete or an almost complete delivery of the storage medium stored in the storage medium can be ensured.
  • Nitrogen capsules can be readily built up atmospheric pressures (in relation to the normal atmosphere) within the compression chamber, which are suitable for a sudden expulsion of the marker from the trigger.
  • the gas cartridge is in the structurally simplest case by means of a
  • Puncture membrane sealed wherein the opening means a
  • Puncture spike which is movable by means of an electromechanical drive relative to the gas cartridge from a rest position into a puncture membrane of the gas cartridge perforating and the gas-releasing puncture position.
  • the opening device thus has a piercing spike and a (controllable) electrically actuated drive for the piercing dome.
  • the puncture membrane of the gas cartridge can be made of PTFE, for example
  • the piercing pin according to the invention can have a tip section with an enlarged outer diameter compared to its nominal diameter. As a result, outflow of the gas from the gas cartridge can be ensured after puncturing the puncture membrane.
  • the puncturing spike may moreover have a through bore extending in the direction of its longitudinal axis, through which the compressed gas contained in the gas cartridge can flow into the compression chamber.
  • the piercing spike can be provided on the outside with at least one flow groove, through which the gas can flow out of the gas cartridge on the outside along the piercing spike.
  • the flow groove may be designed as a circumferential annular groove or as a longitudinal groove. In the former case, the puncture membrane is arranged in the puncture position of the puncture mandrel in the axial direction of the puncture spike at the level of the annular groove.
  • Opening device arranged in the compression chamber electrical energy source, in particular a battery, an accumulator or a capacitor, for driving the piercing mandrel or for a
  • Triggering mechanism of the drive preferably formed by a prestressed drive spring of the piercing pin.
  • the ink container may in particular be designed bag-shaped.
  • the ink container extends on the outlet side, preferably with a, preferably tubular, outlet region into a wall duct of the
  • the outlet of the ink container may, for the purpose of pressure-tight sealing of the compression chamber to the outside with the wall of the
  • Compression chamber welded and / or glued.
  • the pressure relief valve is designed as a bursting membrane.
  • the bursting membrane can be arranged in particular in the region of the outlet region of the reservoir.
  • the bursting membrane can be formed, for example, by a weld through which a free flow cross section of the outlet-side outlet region of the accumulator or of the aforementioned wall bushing of the compression chamber is laid.
  • the trigger may according to the invention have a media outlet with one or more outlet openings for the marking medium.
  • the marking medium may in particular comprise one or more dyes and is preferably present as an ink.
  • the labeling medium may further comprise specific DNA and / or RNA.
  • Fig. 1 is a schematic representation of a container according to the invention
  • Fig. 2 is a schematic representation of a first
  • Fig. 3 is a schematic representation of a second
  • Fig. 4 is a trigger having a compression chamber in which a gas cartridge with a stored therein stored compressed gas, an electromechanical opening means for releasing the gas from the cartridge and a filled with the marking medium compressible ink container are arranged, wherein the ink container through a through
  • FIG 5 shows the opening device and the gas cartridge of the trigger of Figure 1 in an exempted detail.
  • FIG. 6 shows the release of FIG. 1 in the activated operating state and during the drive-out phase of the marking medium, in a side view
  • FIG. 7 is a schematic partial view of a securities storage system.
  • FIG. 1 shows a container 10 according to the invention.
  • the container 10 is designed for storing securities.
  • the securities are arranged in the form of stacks 12, 14 in the container 10. More specifically, the container 10 is designed for transporting banknotes.
  • the container 10 is designed in the form of a cashbox.
  • the container 10 is standardized for use in a bank machine.
  • the securities may be colored by a paint 16.
  • the color 16 is in the form of ink.
  • the ink 16 is in a paint container 18, which is in the form of an ink cartridge.
  • a trigger 20 is provided in the container 10.
  • the trigger 20 comprises an electric motor 22, a tip 24 and a gas cartridge 26. When the electric motor 22 is actuated, the electric motor 22 moves the tip 24 into the gas cartridge 26. The expansion of the gas in the gas cartridge 26 causes a distribution of the ink 16 in FIG Container 10.
  • the securities located in the container 10 are colored.
  • the triggering of the trigger 20 is performed by a controller 28.
  • the controller 28 evaluates signals from sensors 30, 32, 34, 36, 38, 40.
  • the sensor 30 is a position sensor
  • the sensor 32 is a shock sensor
  • the sensor 34 is a water sensor
  • the sensor 36 is a shock sensor
  • the sensors 30, 32, 34, 36, 38, 40 are each electrically connected to the controller 28.
  • the controller 28 may then further actuate the trigger 20 when signaled to the controller 28 by a timer 42.
  • the controller 28 may be in three different modes:
  • the controller 28 ignores the signals of the
  • the container 10 can thereby be transported in the inactive mode and opened, without causing the release of the trigger 20. 2.
  • the controller 28 responds to the signals from the sensors 30, 32, 34, 36, 38, 40 and the timer 42. If the timer 42 expires and / or sends one or more of the sensors 30, 32, 34, 36, 38, 40 a signal from which the controller 28 concludes an unauthorized action, the controller 28 triggers the trigger 20 to color the securities inside the container 10.
  • the controller 28 ignores the signals of the
  • Container 10 can thereby be transported in transport mode but can not be opened without coloring the securities.
  • the mode of the controller 28 may be adjusted via a near field communication unit 44.
  • the near field communication unit 44 comprises an NFC antenna for receiving data by means of near field communication.
  • the near field communication unit 44 is electrically connected to the controller 28.
  • the near-field communication unit 44 can also be used to read in which mode the controller 28 is located.
  • the container status can be read out, i.e. It can be read whether a coloring has already taken place or not.
  • the controller 28, the sensors 30, 32, 34, 36, 38, 40, the timer 42 and the electric motor 22 are powered by an electrical memory 46 with voltage.
  • the electric storage 46 is in the form of a lithium battery
  • the container 10 is designed to be particularly easy to maintain by the electrical memory 46 via the near field communication unit 44 is chargeable.
  • the near field communication unit 44 is thus both for
  • Transmission of data and for receiving electrical energy for charging the electrical memory 46 is formed.
  • the controller 28 includes a data memory 48 in which the container states as well as the modes of the controller 28 are stored chronologically.
  • the content of the data memory 48 can be transmitted via the near field communication unit 44 be read out.
  • the near field communication unit is also designed to overwrite the data memory 48 and / or reset.
  • In the data memory 48 may continue the contents of the container 10, that is, in the present case, the number and / or the monetary value of the
  • the data memory 48 is preferably designed to read this data over the
  • Near field communication unit 44 to enable. A user can thereby learn about the contents of the container 10 without having to open it. About the near field communication unit 44 can continue the
  • FIG. 2 shows a security deposit system 50 in the form of a security deposit system 50
  • the security deposit system 50 includes a
  • Communication unit 52 which is formed in Figure 2 in the form of a switching station.
  • the securities storage system 50 the
  • Container 10 (see Figure 1) arranged. For the sake of clarity, the details of the container 10 are not shown in Figure 2.
  • Communication unit 52 comprises a monitoring module 54, which is used for
  • Monitoring module 54 is thus in radio contact (as shown in Figure 2) or in direct contact with the container 10.
  • the monitoring module 54 includes a communicator antenna to data, commands and electrical energy to the container 10 and the Nahfeldkommunikationsaku 44 of the container 10 (see Figure 1) to transfer.
  • the monitoring module 54 may include an inductor-shaped conductor as a communicator antenna for transmitting electrical energy.
  • the monitoring module 54 is configured to read data from the container 10.
  • the controller 28 (see Figure 1) of the container 10 can be switched by the monitoring module 54 from the active mode to the inactive mode or the transport mode. To ensure that the access of the monitoring module 54 the container 10 is carried out only by authorized persons, the
  • Communication unit 52 a switch 56 in a lock mechanism to operate the monitoring module 54.
  • the communication unit 52 is thus designed in the form of a switching station.
  • FIG. 3 shows a further securities storage system 58 in the form of a bank building.
  • the securities storage system 58 includes a
  • Communication unit 60 in the form of a switching station.
  • Communication unit 60 is a monitoring module 62 is arranged, which - as well as the monitoring module 54 according to Figure 2 - to
  • Communication unit 62 is in radio contact with a base station 64.
  • the base station 64 is fixed in a vault 66 of the
  • the contact between the monitoring module 62 and the base station 64 may alternatively be given by a fixed line to the radio connection shown. If the contact between the monitoring module 62 and the communication unit 60 is interrupted, the communication unit 60 loses its ability to communicate with the container 10 or with the controller 28 (see FIG. 1) of the container 10. This can effectively prevent the
  • Communication unit 60 is used outside the vault 66.
  • Fig. 4 shows a marking system 100 (trigger and ink container) for
  • Marking system 100 has a trigger container 114, which in the present case has a substantially elongated rectangular basic shape. It goes without saying that the release container 114 can also have another basic geometric shape if required.
  • the trigger container 114 has a container wall 116, the total of a gas-tight
  • the trigger tray 114 may be formed from two superimposed foil blanks or, as in the embodiment shown in FIG. 1, also from a single one
  • the trigger tank 114 forms a pressure-tight and gas-tight sealed pressure or compression chamber 118.
  • the compression chamber 118 is at its opposite end faces 120, 122 respectively through
  • a gas cartridge 124 with a stored therein under a positive pressure, d. H . compressed, gas 126 arranged.
  • the gas 126 serves to pressurize the
  • Compression chamber 118 with an overpressure.
  • the gas cartridge 124 may be, for example, a so-called CO 2 capsule with compressed CO 2, as shown here. In such a CO 2 capsule, the pressure of the gaseous phase of the carbon dioxide at 25 ° C is generally above 60 bar.
  • the gas cartridge has a closure designed as a puncture membrane 128.
  • Opening device 130 is arranged.
  • the opening device 130 is mechanically coupled to the gas cartridge 124 in an unspecified manner.
  • the opening device 130 has an electrically operable, d. H. an electromechanical drive 132 and a piercing pin 134.
  • the piercing spike 134 is shown in its rest or initial position in FIG. 1, in which the piercing spike 134 of the piercing membrane 128 of FIG. 1
  • Gas cartridge 124 is arranged spaced.
  • the puncturing mandrel 134 can by means of the drive 130 from its initial position along a movement axis designated 136 relative to the puncture membrane 128 and through the puncture membrane 128 of the gas cartridge 124 into a the
  • An electrical energy storage 138 serves as an energy source for the drive.
  • the energy store 138 may comprise a battery, an accumulator or even a capacitor.
  • a compressible paint container 140 is arranged in the compression chamber 118.
  • the paint container 140 has a wall 142 of an easily deformable material, such as a plastic film material on.
  • a marking medium 144 is stored in the ink container 140.
  • the marking medium 144 is ink, ie, an intensely colored liquid.
  • the ink container 140 has a tubular outlet region 146 which extends through a wall duct 148 of the front side 120 of FIG.
  • Compression chamber 118 extends therethrough.
  • the wall recess 148 may be formed by an interruption of the frontal weld of the trigger tank.
  • the outlet region 146 of the ink container 140 is peripherally welded gas-tight and pressure-tight with the container wall 116 of the trigger tank 114, to ensure a pressure-tight sealing of the compression chamber 118 to the outside.
  • the ink container 140 is fluidically connectable via a pressure relief valve 150 to a media outlet 152 of the trigger container 114.
  • the media outlet 152 has a plurality of outlet openings 154, which are fluidically connected to the overpressure valve 150 via an outlet channel 156 formed by the trigger container 114
  • the outlet openings 154 of the trigger container 114 serve for spraying the marking medium 144 and have an opening cross-section suitable for this purpose. It is understood that the
  • Outlet openings 154 may differ in their opening cross-section at least partially from each other to the marking medium 144th
  • the media outlet may also have only a single outlet opening 154.
  • the marking medium may also be used as a pigment powder
  • the pressure relief valve 150 is formed in the embodiment shown by a bursting membrane.
  • the bursting membrane consists of a
  • the bursting membrane is designed to rupture upon pressurization of the reservoir 140, and thus the marking medium 144 therein, by the gas 126 exiting the gas canister 124 to permit exit of the marking medium 44 from the reservoir 140.
  • Fig. 5 shows the gas cartridge 124 and the electromechanical
  • the puncture dome 134 was moved to the above-described puncture position in which the
  • the piercing mandrel 134 may, as shown in Fig. 5, with a
  • Gas storage contained in the gas cartridge can reliably flow into the pressure-tight chamber.
  • the piercing pin can be provided on the outside with a flow groove 160 for the gas 126, which is formed in the embodiment shown in FIG. 5 as an annular groove. The annular groove is in the puncture position of the piercing pin 134 along the
  • Puncture membrane 128 of the gas cartridge 124 arranged.
  • the operation of the marking system 100 is as follows:
  • the piercing spike 134 Upon activation of the drive 132, the piercing spike 134 is moved along the axis of movement 136 from its home position (FIG. 4) relative to
  • Trigger container 114 The compressible ink container 140 and the marking medium 144 contained therein are exposed to the atmospheric pressure.
  • the overpressure valve 150 is opened upon reaching or exceeding its defined opening pressure, so that the ink container 140 is in fluid communication with the Ruleaustass 152 of the container and its outer side 162.
  • the opening pressure of the pressure relief valve 150 in the embodiment shown here corresponds to the bursting pressure of the bursting membrane.
  • the marking agent is driven by the compression of the ink container 140 from the paint container 140 and the open pressure relief valve, the
  • Outlet passage 156 and the outlet ports 154 of the trigger tank 114 discharged into the vicinity of the trigger tank 114, as shown in FIG. 6 figuratively shown.
  • FIG. 7 schematically shows details of a securities storage system 68. The features of the securities storage system 68 also apply to the
  • Securities storage system 68 includes a monitoring module 70 and a near field communication unit 72.
  • the monitoring module 70 includes a communicator antenna 74 and a communicator microprocessor 76 connected to the communicator antenna 74.
  • Near field communication unit 72 includes an NFC antenna 78 and an N FC microprocessor 80.
  • the NFC microprocessor 80 is directly connected to the NFC antenna 78 so that the NFC microprocessor 80 is operable without electrical memory (see, for example, the electrical memory 46 of FIG. 1).
  • the NFC microprocessor 80 may be connected to an electrical memory such as the electrical memory 46 of FIG. 1, the NFC microprocessor 80 is operable solely with the electrical energy from the near field communication.
  • the near field communication takes place via the communicator antenna 74 and the NFC antenna 78.
  • the two antennas 74, 78 are less than 10 cm, in particular less than 9 cm,
  • the data exchange between the communicator antenna 74 and the NFC antenna 78 is shown in FIG. 7 by an arrow 82.
  • the electromagnetic energy transfer is represented by an arrow 84.
  • An arrow 86 symbolizes the output, an arrow 88 the input and an arrow 90 the voltage connection, in particular with a voltage of 6V to 12V of the monitoring module 70.
  • an arrow 92 symbolizes the input to the near field communication unit 72 and an arrow 94 the output from the
  • the invention relates to a securities storage system with a marking system for banknotes, security documents and other valuables.
  • the marking system comprises a container with a marking system for banknotes, security documents and other valuables.
  • a controller designed to trigger a color distribution mechanism in the container.
  • the container is adapted by means of a near field communication unit to transmit data and commands via near field communication from one
  • the near field communication unit is configured to receive electrical energy from the monitoring module to directly operate an NFC microprocessor of the near field communication unit.
  • the container may include at least one sensor connected to the controller and / or a timer formed in the controller or connected to the controller for registering a triggering event.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Burglar Alarm Systems (AREA)

Abstract

L'invention concerne un système de stockage de valeurs comprenant un système de marquage pour des billets de banque, documents de sécurité et autres objets de valeur. Le système de marquage comprend un contenant (10) pourvu d'une commande (28) conçue pour déclencher un mécanisme qui répand de l'encre dans le contenant (10). Au moyen de son unité de communication en champ proche (44), ledit contenant (10) est conçu pour recevoir des données et des instructions provenant d'un module de surveillance et pour transmettre ces données au module de surveillance. L'unité de communication en champ proche (44) est conçue pour recevoir de l'énergie électrique provenant du module de surveillance afin de faire fonctionner directement un microprocesseur NFC de l'unité de communication en champ proche (44). Le contenant (10) peut comprendre au moins un capteur (30, 32, 34, 36, 38, 40) connecté à la commande (28) et/ou un minuteur (42) formé dans la commande (28) ou connecté à cette dernière, servant à enregistrer un évènement de déclenchement.
PCT/EP2015/059338 2014-05-02 2015-04-29 Système de stockage de valeurs WO2015165965A1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE102014208286.2A DE102014208286A1 (de) 2014-05-02 2014-05-02 Behälter zur Aufbewahrung von Wertpapieren und Wertpapieraufbewahrungssystem
DE102014208286.2 2014-05-02

Publications (1)

Publication Number Publication Date
WO2015165965A1 true WO2015165965A1 (fr) 2015-11-05

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PCT/EP2015/059338 WO2015165965A1 (fr) 2014-05-02 2015-04-29 Système de stockage de valeurs

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DE (1) DE102014208286A1 (fr)
WO (1) WO2015165965A1 (fr)

Cited By (1)

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Publication number Priority date Publication date Assignee Title
RU182734U1 (ru) * 2017-07-06 2018-08-29 Станислав Валерьевич Ульянов Хранилище с программно-аппаратным комплексом обеспечения целостности корпуса

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Publication number Priority date Publication date Assignee Title
NL2019714B1 (en) * 2017-10-12 2019-04-23 Asr Holding B V A device assembly for spoiling banknotes arranged as a stack within a container

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