JP2004062597A - Safe management system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a safe management system capable of searching the position of a safe with pinpoint accuracy and reducing costs rather than a conventional system. <P>SOLUTION: A safe 10 used in the safe management system is provided with a GPS receiver 1 to output its own positional information, a radio transceiver 2, and a memory 3 to store a data log related to the cash stored in the safe. The safe 10 attached to an automatic cash handling device 21 communicates with and is managed by a monitoring control server 22 and a collecting operation server 31 via a wide area network 50. The safe 10 can communicate by the radio transceiver 2 so that the locating position (pinpoint display) of the safe 10 and the amount of stored money can be grasped by the monitoring control server 22 and the collecting operation server 31 nearly in real time even if the safe 10 is detached from the automatic cash handling device 21. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a safe management system, and more particularly, to a technology that enables unified management of stored money and the like while grasping the exact positions of safes in a plurality of automatic money handling apparatuses.
[0002]
[Prior art]
As a device for handling money without human intervention, for example, there are a vending machine, an automatic ticketing machine, an automatic exchange machine, an automatic cash dispenser, and the like. These are widespread as means for performing various sales of juices, tobacco, meal tickets, boarding tickets, etc., or services such as financial counters, without incurring labor costs.
In recent years, there has been a system in which these automatic money handling apparatuses are put on-line and the operation status is monitored in a remote manned office.
[0003]
FIG. 7 is a diagram illustrating a configuration example of a system in which an automatic money handling apparatus is brought online.
In a system shown in this example, in a restaurant company that operates a chain store as a business form, the automatic ticket issuing machines 101a, 101b, and 101c arranged at the stores of the chain stores A, B, and C connect to the dedicated communication network 102. It is connected to the host computer 104 of the chain store headquarters 103 via the network. Then, various control commands are issued from the host computer 104 to the automatic ticket issuing machines 101a, 101b, 101c, and the automatic ticket issuing machines 101a, 101b, 101c function to return a response thereto.
[0004]
At each chain store, a customer is asked to purchase a desired menu ticket by an automatic ticket issuing machine in advance, and the food and drink products are handed over with the menu ticket. By doing so, the accounting work at the store is reduced, and the store clerk can concentrate on cooking and serving customers.
On the other hand, the accounting of the chain stores A to C is performed by the chain store headquarters 103. That is, sales information and the like of the automatic ticket issuing machines 101a to 101c are collected by the host computer 104 via the dedicated communication network 102, and the chain store headquarters 103 centrally manages the information.
In this way, the chain store headquarters 103 is centralized, including accounting and tallying, purchasing, business management, and automatic ticketing machine maintenance, and online real-time operation is achieved.
[0005]
By the way, in the above-mentioned automatic ticketing machine, the amount of cash (banknotes and coins) stored in the vault of the automatic ticketing machine for each denomination increases or decreases due to the transfer of money. Collection and replenishment work is required so that there is no recovery. Conventionally, this work was often performed by the clerk of each store, but in recent years, the clerk of each store touches cash by collecting and exchanging the safe itself by a specialized recovery staff at the chain store headquarters 103. In addition, management has been started to thoroughly separate labor and clarify responsibilities.
[0006]
On the other hand, in an automatic money handling apparatus such as an ATM (automatic teller machine) arranged at an unmanned branch office of a financial company or the like, the amount of money stored and handled in a safe is large. And the safe itself was collected and exchanged under a strict security system.
[0007]
Here, as an example relating to the conventional safe collection, for example, a cash transport vehicle security system as disclosed in Japanese Patent Application Laid-Open No. 08-339482 has been proposed, and this will be briefly described with reference to FIG. That is, the example of the security system shown in this figure includes a cash transport vehicle 201 that transports a cash storage box 202, a portable wireless terminal device 203 that is carried by a crew of the cash transport vehicle, and transmits an abnormality occurrence signal S1 when an abnormal situation occurs. A base station device 204 which constantly polls for a response signal S2 from the cash transport vehicle by performing polling at a fixed period, and receives a radio wave of an artificial satellite mounted on the cash transport vehicle 201 and outputs position information of the cash transport vehicle. GPS receiver 211, an in-vehicle device 212 mounted on the cash transport vehicle 201 for communicating with the portable radio terminal device 203 and the base station device 204, and a base station receiving the transmission signal S3 of the cash storage box 202. And a relay station device 205 for transmitting the relay signal S4 to the device 204.
[0008]
And it works as follows. That is, when an abnormal situation occurs in the cash transport vehicle 201, the crew operates the portable wireless terminal device 203 to transmit the abnormality occurrence signal S1 including the portable wireless terminal ID number. The in-vehicle device 212 that has received the abnormality occurrence signal S1 holds the portable wireless terminal ID number, and transmits a response signal S2 obtained by adding the portable wireless terminal ID number to the position information D1 every time polling is performed from the base station device 204. The base station device 204 receives the response signal S2, displays the caller's name and vehicle number based on the portable wireless terminal ID number, and displays the position of the cash transport vehicle 201 based on the position information.
Further, when the cash storage box 202 is taken out of the cash transport vehicle 201, the transmitter of the cash storage box 202 transmits a transmission signal S3 of a specific code. The relay station device 205 that has received the transmission signal S3 adds the relay station ID number to the specific code of the cash box and transmits the same to the base station device 204 as the relay signal S4. The base station device 204 displays the area where the cash box is located based on the specific code of the cash box and the ID number of the relay station.
[0009]
According to this, even if it is robbed, the position of the cash transport vehicle 201 can be specified accurately and in real time. Further, since the transmitter for transmitting the transmission signal S3 of the specific code is incorporated in the cash box 202 when the criminal takes the cash box 202 out of the cash transport vehicle, the relay station device installed for each fixed area is provided. Of the relay stations 205, it is possible to know which relay station apparatus 205 is receiving the transmission signal S3, and it is possible to specify the area where the cash storage box is present.
[0010]
[Problems to be solved by the invention]
However, in the above-mentioned conventional online system of an automatic money handling apparatus, when the above-described cash transport vehicle security system is applied and a safe (cash storage box) is managed, the following problems arise. was there. That is, when the safe is taken out of the automatic money handling apparatus or the cash transport vehicle, the cover area of the relay station device 205 that has received the transmission signal S3 is specified as the safe location. Here, if the cover area of each relay station device 205 is made extremely narrow, the location of the safe can be narrowed down and search can be facilitated, but this requires installation of a huge number of relay station devices. There is a problem in that it is necessary and the cost involved increases.
[0011]
The present invention has been made in order to solve such a problem, and an object of the present invention is to provide a safe management system in which the position of a safe can be searched for at a pinpoint and the cost is lower than that of a conventional safe. I do.
[0012]
[Means for Solving the Problems]
The invention of claim 1 of a safe management system according to the present invention for solving the above-mentioned problem is a system for managing a safe detachably provided in an automatic currency handling device by a monitoring device, wherein the safe is: GPS receiving means for receiving a signal from a GPS satellite and outputting its own position information, wireless means for communicating by wireless communication, and recording means for storing a data log relating to money stored in the safe. The monitoring device can communicate with the safe via the wireless means, and even when the safe is disengaged from the automatic money handling device, the monitoring device can grasp the location and the amount of money stored in the safe. It is made possible.
According to this, the safe itself can acquire its own position information and transmit it together with the stored amount to the monitoring device by wireless means, so that the monitoring device can centrally manage each safe.
[0013]
According to a second aspect of the safe management system according to the present invention, in the safe management system according to the first aspect, the automatic money handling apparatus and the monitoring apparatus can communicate with each other via a network. .
According to this, in addition to the above-described effects, the centralized management of the safe by the monitoring device can be performed via a system in which the automatic money handling apparatus equipped with the safe is brought online through a network connection.
[0014]
The invention of claim 3 of the safe management system according to the present invention is characterized in that in the safe management system according to claim 1 or 2, the safe is provided with a unique identification symbol.
According to this, when managing the safes, each safe can be easily specified.
[0015]
The invention of claim 4 of the safe management system according to the present invention is the safe management system according to any one of claims 1 to 3, wherein the wireless means is IPv6-compliant wireless means, and each wireless means has It is characterized in that a unique IP address is assigned to each.
According to this, it is possible to clearly specify the transmission / reception address with each safe in communication via the network.
[0016]
According to a fifth aspect of the safe management system according to the present invention, in the safe management system according to any one of the first to fourth aspects, the safe is provided with clock means, and the clock means is a GPS means. Time correction is performed based on time information from the receiving means.
According to this, since a time stamp with an accurate time can always be attached, the credibility of the time information relating to the data log can be increased.
[0017]
The invention of claim 6 of the safe management system according to the present invention is the safe management system according to any one of claims 1 to 5, wherein the vehicle carrying the safe has the same GPS as that mounted on the safe. A receiving means and a wireless means are provided, and communication between the safe in transit and the wireless means provided on the vehicle is made possible by a second wireless means.
According to this, even when direct communication between the safe loaded on the carrier and the wireless base station becomes impossible due to the electromagnetic shielding effect of the vehicle body (chassis), the second wireless means provided on the vehicle As a result, information in the safe can be relayed and collected, and communication with the wireless base station can be performed from wireless means provided in the vehicle, so that the monitoring device can centrally manage the safe without interruption.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail based on the illustrated embodiment.
FIG. 1 is a system model configuration diagram showing an embodiment of a safe management system according to the present invention. Here, here, a company that operates a business using an automatic money handling device (hereinafter referred to as an operating company) and a company that provides a safe management service for a safe related to the automatic money handling device of the company (hereinafter, referred to as an operating company) , A safe management company) will be described.
[0019]
The safe management system shown in this example includes a part of an online automatic money handling system in which a plurality of automatic money handling apparatuses 21a to 21c and a monitoring control server 22 are connected by a wide area network 50, and furthermore, the wide area network 50 And a collection operation server 31 connected to the server.
Each of the automatic money handling apparatuses 21a to 21c has a built-in safe 10, and details of the safe 10 will be described later.
[0020]
The devices arranged on the operating company side are the automatic money handling devices 21a to 21c and the monitoring control server 22. When applied to the business mode shown in FIG. 7 described above, for example, the monitoring control server 22 is arranged in the head office of a chain store, and the automatic money handling devices 21a to 21c correspond to those arranged in each chain store.
On the other hand, the collection management server 31 is provided at the safe management company.
[0021]
The safe management company further includes a safe base station 32, a LAN (Local Area Network) 33, and a safe collection / exchange vehicle 40. The safe base station 32 is a facility (place) for storing the safe 10 collected by the safe collection and exchange vehicle 40, and is connected to the collection operation server 31 via the LAN 33 here. Note that the safe base station 32 is a safety management facility that allows only managed specific personnel to enter and exit.
[0022]
The wide area network 50 is composed of a public communication line such as the Internet, and is connected to the wide area network 50 so as to be accessible from a mobile communication network 60 such as a PHS (Personal Handyphone System) or a mobile phone. . The mobile communication network 60 is provided with a plurality of radio base stations 61 that cover an area defined for each zone (called a cell), and covers a wide area as a whole. Here, they are illustrated as wireless base stations 61a and 61b.
[0023]
Next, a safe used in the safe management system according to the present invention will be described.
FIG. 2 is a functional block diagram showing a configuration example of the safe according to the present invention.
The safe 10 shown in this example includes a GPS receiver 1 for receiving radio waves from an artificial satellite (hereinafter, referred to as a GPS satellite) by a GPS (Global Positioning System) to obtain its own position information, and a mobile communication network. A wireless transceiver 2 capable of transmitting data by radio waves to the wireless base station 61, a memory 3 for storing data log information relating to the transfer of money to the safe 10, and an external device (mainly an automatic money handling device) ), An interface unit 4 having a connector 5 for use in connection with the safe, an ID storage unit 6 storing a unique ID assigned to each safe, a clock unit 7 for generating time information, and the above-described functional blocks. And a control unit 8 for controlling the overall control of the safe 10 and a money storage 9 for storing various bills and coins. To have.
Although not shown here, a charging circuit and a battery are also provided.
[0024]
The GPS receiver 1 can determine its own location by receiving radio waves from a plurality of satellites such as the illustrated GPS satellites 70a to 70c by an antenna unit and performing predetermined processing. It is. In addition, the GPS receiver 1 functions in cooperation with the wireless transceiver 2, and uses the network assist method (also referred to as assist GPS) proposed by SnapTrack to save a short time. , A positioning result (position information) can be obtained.
[0025]
The wireless transceiver 2 is, for example, a transceiver that can use a mobile phone network. A so-called mobile phone itself may be used, but in this case, since it is not assumed to be used by a human, the wireless transceiver 2 uses the wide area network 50 while removing functional parts such as a voice communication circuit, a liquid crystal monitor, and a handset. A transceiver suitable for data transmission is preferred. As a specific example, the transceiver is a DoPa (NTT DOCOMO trademark) compatible transceiver provided by NTT DOCOMO. DoPa is a data communication service using a packet switching method, and a communication cost is charged according to the amount of data transmitted. Therefore, if DoPa is applied to the wireless transceiver 2 in the safe management system, a system having a low running cost can be configured. it can. Further, it is desirable that the wireless transceiver 2 can cope with a communicable area even in a place such as a tunnel or underground. Therefore, any of a plurality of communication systems such as a PHS and a mobile phone may be automatically selected and switched to complement the non-communication area.
[0026]
The memory 3 stores information supplied via the interface unit 4, that is, a log of data relating to putting in and out of cash stored in the money storage 9. At this time, the information is sequentially stored in association with the time information from the clock unit 7. The data log stored in the memory 3 is used for, for example, calculation of cash in and out of money in the safe. Note that the memory 3 is a flash memory or the like in which data retained is not erased even when the power supply is cut off. This will reduce battery consumption when moving the safe alone.
[0027]
The interface unit 4 is a functional block that mediates information by data communication with an external device connected to the safe 10, and various data communication systems can be applied as the interface. For example, if the data communication system supported by the interface unit 4 is a USB (Universal Serial Bus), the connector 5 connected to the USB unit is a USB connector. Further, in this case, the battery in the safe may be configured to be charged using electric power supplied from an external device connected via USB.
[0028]
The identification ID storage unit 6 stores an identification ID composed of a unique code string managed in association with each safe. That is, the monitoring control server 22 and the collection operation server 31 manage the identification of the safe based on the identification ID. When TCP / IP (Transmission Control Protocol / Internet Protocol) is used in the wide area network 50, for example, an IP address of IPv6 (Internet Protocol Version 6) may be associated with the identification ID, or may be used as the identification ID as it is. Good.
[0029]
The clock unit 7 generates time information based on a stable frequency from a built-in crystal oscillator. The generated time information is used as a time stamp when the data log is stored in the memory 3. The clock unit 7 has a time correction function. For example, the time may be synchronized with the GPS receiver 1 based on the GPS time, or an NTP (Network) on the wide area network 50 via the wireless transceiver 2 may be used. The time may be synchronized by a Time Protocol (Server) server.
[0030]
The money storage 9 is configured so that money can be transferred to and from a predetermined mechanical mechanism such as an automatic money handling device 21 on which the safe 10 is mounted, but a person can easily touch the money inside the storage. Is not possible.
Further, all information relating to the transfer of money to the money storage 9 is stored in the memory 3 via the interface unit 4, but prior to this, an external device (automatically connected to the safe 10) is connected. With the money handling apparatus 21), in an authentication sequence for mutually confirming each other, money passing is allowed after passing the authentication sequence.
[0031]
Here, returning to FIG. 1, the functional operation of the safe management system according to the present invention will be described. That is, the above-described safe 10 is stored and operated in each of the automatic money handling apparatuses 21a to 21c of the operating company. The operation information of the automatic money handling apparatuses 21a to 21c is monitored by the monitoring control server 22 via the wide area network 50, and the monitoring control server 22 performs online real-time processing together with information related to the maintenance of the apparatus such as various alarm signals and status signals. Output and display the sales summary etc. Further, the monitoring control server 22 can remotely control the automatic money handling apparatuses 21a to 21c, such as stopping a service operation (operation) and updating display information.
Note that the collection operation server 31 of the safe management company monitors the operation information of the automatic money handling devices 21a to 21c similarly to the monitoring control server 22, although remote control of the automatic money handling devices 21a to 21c is restricted. I have.
[0032]
In addition, since communication is performed via a public communication line such as the wide area network 50 or the mobile communication network 60, security using encryption technology is applied, and it goes without saying that electronic authentication and access right management are performed. No. As an example, mutual authentication is performed at least in an initial procedure of establishing a communication route by calling from a server with respect to an automatic money handling apparatus in which a safe is installed or a direct safe. For example, the identification ID of each safe and the corresponding encryption key table are set on the server side, while the safe side has the identification ID of the safe itself and the corresponding encryption key. Then, the authentication sequence is performed in the following procedure. That is, (1) the server sets an encryption key based on the identification ID of a specific safe, and encrypts and transmits an identification ID return request to the safe. (2) The safe decrypts the identification ID return request, encrypts its own identification ID with its own encryption key, and returns it. (3) The server decrypts the reply, and checks whether the ID sent from the safe matches the ID sent earlier by the server. (4) If they match, the server passes the authentication OK and the server proceeds to a procedure for sending a control command such as a monetary information acquisition command. (5) If they do not match, end the communication and generate an alarm.
[0033]
Next, regarding each safe, the dual control of the monitoring control server 22 and the collection operation server 31 is completely duplicated, and it is always or regularly confirmed that the records of the respective servers match. ing. Note that a neutral server may be further provided, and the server may be configured to perform a three-way comparison of the servers while giving a higher priority to the neutral server.
The information of the safe stored in the automatic money handling devices 21a to 21c is sent to the monitoring control server 22 and the collection operation server 31 via each automatic money handling device. Thereby, the monitoring control server 22 and the collection operation server 31 can always keep track of the position information and the storage amount of each safe.
The transmission timing includes, for example, (1) when the cash in the money storage 9 fluctuates when the automatic money handling apparatus is used, and (2) when a transmission is requested from the monitoring control server 22 or the collection operation server 31. , (3) Periodical transmission at a predetermined time.
[0034]
At the time of the cash fluctuation of (1), for example, a notification may be made each time a data log stored in the safe memory 3 is generated, that is, each time a sales is generated. Further, in the transmission request from the server side of the above (2), the server makes a call to all safes or some predetermined safes by polling, and the corresponding safe is the current position information of the safe itself, The operating state and the information on the amount stored in the safe may be returned to the server together with its own identification ID. In addition, the regular transmission of (3) automatically transmits a simple notification at predetermined time intervals (short time intervals) based on a built-in clock of the safe and an overall notification at predetermined time (long time intervals). It may be performed on a regular basis.
[0035]
In such an operation, for example, when the safe 10a stored in the automatic money handling apparatus 21a exceeds a preset threshold and becomes in a state such as a decrease in change coins or an increase in high-value bills, the state is changed to the collection operation server 31. Is detected by. Then, the safe managing company turns the safe collecting and exchanging vehicle 40 to the automatic money handling apparatus 21a to collect the safe 10a and, on the other hand, replaces it by installing another initialized safe 10b.
[0036]
Note that the safe 10a which has been detached from the automatic money handling apparatus 21a is in a state where it is present alone. However, even in this state, the safe 10a can be connected to the monitoring control server 22 and the collection operation server 31 via the wireless base station 61a, the mobile communication network 60, and the wide area network 50. It is possible to always keep track of the position information and the storage amount of the safe 10a.
[0037]
Each safe collected by the safe collection and exchange vehicle 40 is stored in the safe base station 32. However, even in this state, each safe can be connected to the monitoring control server 22 and the collection operation server 31 via the nearest wireless base station, the mobile communication network 60, and the wide area network 50. Therefore, it is possible to always keep track of the position information and the storage amount of each safe.
[0038]
Next, a monitor display example in the collection operation server 31 will be described.
FIG. 3 and FIG. 4 are diagrams showing examples of safe status display on the server side. Both figures are provided with display selection fields such as a system menu and a contractor list. Here, for one contractor, FIG. 3 shows a display example of a “main screen”, and FIG. An example is shown.
[0039]
That is, in the collection operation server 31, a “main screen” display is configured based on a database in which information collected from each safe is accumulated. In this example, a list of safe information is displayed for items such as safe ID, location, state, and amount stored, and the total amount stored in the previous safe is displayed at the bottom of the screen. Further, an "emergency call" button for the contractor is prepared, and by pressing the "access" button, it is possible to arbitrarily link to the monitoring control server allocated to the contractor. I have.
For each safe, the current location can be ascertained and points can be displayed on the map by pressing the "map" button. In the case of the moving state, pressing the "car" button displays the vehicle number and the information of the driver (collection member). The storage amount can be displayed by denomination by pressing the “denomination” button.
[0040]
Further, in the configuration of the "payment account" display, the storage amount history can be displayed in detail for each money type of money for each safe. In the initialization of the safe, coins for return of change and small bills are stored for a predetermined fixed amount. These initialization operations are also performed in the safe base station 32 by the initialization provided separately. It may be performed by a device.
By the way, in recent years, the automatic money handling apparatus has been increasing in the circulation type which can return the money inputted by the user as change. It is preferable to add a learning assist function for optimizing a threshold value or the like so that a desired collection span can be compensated for with a small initial amount as much as possible in accordance with the statistical result in the “payment book”.
[0041]
In the embodiment of the present invention described above, even if the safe 10 is moving and stored in the base station, the safe is provided by the wireless transceiver 2 provided in the safe 10 via the mobile communication network 60 and the wide area network 50. The example in which communication is performed between the monitoring control server 22 and the collection operation server 31 has been described. However, the present invention is not limited to this example. In some cases, as shown in the following FIG. 5 or FIG. 6, the in-vehicle device may relay the communication of the safe 10 using the in-vehicle device.
[0042]
FIG. 5 is a diagram illustrating an example of the configuration of the in-vehicle device of the safe collection vehicle 40. The in-vehicle device 41 shown in this example includes a wireless transceiver 42 connectable to a mobile communication network 60, a GPS receiver 43 capable of receiving a radio wave from a GPS satellite to measure its own location, and the GPS receiver 43, a navigation unit 44 including a microphone, a speaker, a recording medium such as map information, a screen display monitor, and the like; a vehicle interface unit 45 for transmitting and receiving information related to traveling from an automobile; and a Bluetooth (Ericsson) And a relay Bluetooth terminal 46 having a registered trademark (registered trademark) module 46a (parent device). That is, Bluetooth modules 46b to 46d (slaves) are provided in each of the safes 10c to 10e to be loaded on the loading portion of the safe collection and exchange vehicle 40, and the relay Bluetooth terminal 46 is used to store the data logs of the safes 10c to 10e. The information can be relayed. In this case, the position information of each safe may be notified as the position information of the safe collection vehicle 40.
According to this, since the body of the safe collection / exchange vehicle 40 has a reinforced security chassis structure, even if an electromagnetic wave shielding effect occurs for communication of the safe in the cargo bed, the safe information can be obtained. Information can be made communicable.
[0043]
FIG. 6 is a diagram illustrating another example of the configuration of the in-vehicle device of the safe collection and exchange vehicle 40. The same functional blocks as those shown in FIG. 5 described above are denoted by the same reference numerals, and description thereof will be omitted. That is, the in-vehicle device 41 shown in this example is provided with a relay RF-ID tag terminal 47 using an RF-ID tag method as a relay terminal. RF antennas 47a to 47c extend from the relay RF-ID tag terminal 47, and the RF antennas 47a to 47c are embedded in trays 48a to 48c arranged in shelves on the loading platform. On the other hand, ID tags 49a to 49c are embedded in the safes 10f to 10h, and the electromagnetic induction communication is performed between the ID tags 49a to 49c and the RF antennas 47a to 47c. The information can be relayed.
Since the power for the electromagnetic induction communication at this time is obtained based on the electromagnetic waves output from the RF antennas 47a to 47c, battery consumption in each safe can be reduced, and at the same time, FIG. The same effects as those described above can be obtained. In FIGS. 5 and 6, wireless means using electromagnetic waves, such as Bluetooth and IF-ID tags, have been described as an example. However, the present invention is not limited to this, and ultrasonic waves and infrared rays (light) may be used. It may be configured as a relay terminal using the existing wireless means.
[0044]
As described above, the safe management system according to the present invention uses the monitoring control server 22 of the operating company and the collection / operation server 31 of the safe management company to transmit information about all safes stored or distributed almost in real time. It can be managed centrally, and it is possible to grasp the total of the sales amount almost in real time. Further, the operating company does not need to touch the cash related to the automatic money handling equipment at all, and the cash management and responsibility are taken by the safe management company, so that the responsibility is clearly separated, and the operating company manages the main business. Can be devoted to. That is, the safe management company side (a) presents the current location of the safe in a pinpoint manner, (b) presents the cash accounting information stored in the safe and the total thereof, and (c) schedules the delivery of the safe. And operating the safe management while presenting the collection history and disposing highly transparent information to the operating company of the contractor, and the monetary total data stored in the monitoring control server 22 of the operating company on a regular basis. The total sales amount that finally matches the actual cash total data is delivered to the safe management company. On the other hand, the safe management company pays a fee to the safe management company.
In addition, the transfer of money between the operating company and the safe management company may be performed by transferring money to each other's account online using a financial company such as a bank using an Internet banking service. In this case, the cash taken out of the safe at the safe base station 32 of the safe management company is collected by the cash transport vehicle of the financial company, and the management risk for the cash after collection may be undertaken by the financial company.
[0045]
Furthermore, in a case where the safe base station 32 of the safe management company takes out the collected cash in the safe and initializes it by a person (person in charge) without using an initialization device, for example, Each staff member carries an IC card or a USB device key for specifying and discriminating each of them, and when the staff member accesses the safe, the IC card or the USB device key is connected to the safe, and the staff member stored in the safe is stored. Enter specific information into the safe. With this, the safe authenticates the clerk information, stores the time and who accessed it in the data log, and enables locking and unlocking with a different physical key only when the access is correct. I do. In this way, the clerk who finally opened the safe and the information on the time are recorded and managed, and the clerk in charge is identified, so that fraud can be prevented.
[0046]
In order to prove that data stored in the memory 3 in the safe has not been tampered with, for example, a digital signature module is added to the safe and a digital signature verification module is added to the server. May be additionally provided, and the server may verify whether or not the time stamp attached to each storage item has been tampered with.
[0047]
As described above, the safe management system of the present invention is configured as in the embodiment described above. Here, the correspondence between the terms described in the claims and the terms described in the embodiments will be described. That is, the “monitoring device” described in the claims corresponds to the “monitoring control server 22” and / or the “collection operation server 31” in the embodiment. Similarly, “GPS receiver” corresponds to “GPS receiver 1” or “GPS receiver 43”, and “wireless means” refers to “wireless transceiver 2” or “wireless transceiver 42”. Correspondingly, “recording means” corresponds to “memory 3”.
[0048]
Similarly, “network” corresponds to “wide area network 50”, “unique identification symbol” corresponds to “identification ID stored in the identification ID storage unit”, and “clock means”. Corresponds to the "clock unit 7", the "vehicle carrying the safe" corresponds to the "safety collection and exchange vehicle 40", and the "second wireless means" corresponds to the "relaying Bluetooth terminal 46". Or, it corresponds to the “relay RF-ID tag terminal 47”.
[0049]
【The invention's effect】
As described above, the safe management system according to claim 1 of the present invention uses a safe provided with a GPS receiver, a wireless transceiver, and a memory as the safe used therein, and the safe itself stores its own position information. It is configured so that it can be acquired and transmitted to the monitoring device by a wireless transceiver together with the data log (storage amount) in the memory. Therefore, in the monitoring device, the safe location (pinpoint display), storage amount for each safe And other detailed information can be obtained almost in real time. Therefore, it is possible to realize a safe management system in which the position of a safe is easily managed by a low-cost system.
[0050]
Further, the safe management system according to claim 2 of the present invention, in addition to the above-described effects, further monitors information of each safe via a system in which an automatic money handling apparatus equipped with a safe is connected online through a network connection. Can be transmitted.
[0051]
Further, the safe management system according to claim 3 of the present invention further manages the safe by assigning a unique identification code to each safe, so that each safe can be easily specified.
[0052]
Further, the safe management system according to claim 4 of the present invention further assigns an IPv6 compliant IP address to each wireless means, so that the transmission / reception address with each safe is clearly specified in communication via the network. be able to.
[0053]
Further, in the safe management system according to claim 5 of the present invention, since the clock means corrects the time based on the GPS time, a time stamp based on an accurate time can be always added, so that the data log can be added. The credibility of the related time information can be increased.
[0054]
Further, the safe management system according to claim 6 of the present invention further provides a case where direct communication between the safe loaded on the carrier and the wireless base station becomes impossible due to the electromagnetic shielding effect of the vehicle body (chassis). However, since the information in the safe is relayed and collected by the second wireless means provided in the vehicle, and communication with the wireless base station can be performed from the wireless means provided in the vehicle, the monitoring device can be centrally managed without interruption. Can be.
[Brief description of the drawings]
FIG. 1 is a system model configuration diagram showing a configuration example of a safe management system according to the present invention.
FIG. 2 is a functional block diagram showing a configuration example of a safe according to the present invention.
FIG. 3 is a diagram showing a safe status display example of the collection operation server.
FIG. 4 is a diagram showing another example of a safe status display of the collection operation server.
FIG. 5 is a block diagram showing a first applied configuration example of the safe collection vehicle.
FIG. 6 is a block diagram showing a first applied configuration example of a safe collection vehicle.
FIG. 7 is a diagram illustrating an example of an online system of an automatic money handling apparatus according to the related art.
FIG. 8 is a diagram showing an example of a cash transport vehicle security system according to the related art.
[Explanation of symbols]
1 ... GPS receiver
2 ... Wireless transceiver
3 ... Memory
4 Interface unit
5. Connector (including wireless connection means)
6. Identification ID storage unit
7 Clock section
8 ... Control unit
9 ... money hangar
10 ... safe
10a-10h: safe
21a-21c: Automatic money handling device
22: Monitoring control server
31 ... collection operation server
32 ... safe base station
33 ・ ・ ・ LAN
40 ... safe collection exchange car
41 ・ ・ ・ In-vehicle device
42 ・ ・ ・ Wireless transceiver
43 ・ ・ ・ GPS receiver
44 ・ ・ ・ Navigation unit
45 ・ ・ ・ Vehicle interface
46 ... Relay terminal (Bluetooth)
46A: Master unit (Bluetooth module)
46b to 46c: slave unit (Bluetooth module)
47 ・ ・ ・ Relay terminal (RF-ID tag)
47a to 47c: RF antenna (RF module)
48a-48c ・ ・ ・ Tray
49a-49c ・ ・ ・ ID tag
50 ... wide area network
60 mobile communication network
61 ・ ・ ・ Wireless base station
61a, 61b ... wireless base station
70a-70c ... GPS satellites
101a to 101c: automatic ticketing machine (automatic currency handling device)
102 ... Dedicated communication network
103 ・ ・ ・ Chain store headquarters
104 ・ ・ ・ Host computer
201 ・ ・ ・ Cash transport vehicle
202 ・ ・ ・ Cash storage box
203: Portable wireless terminal device
204 ... base station apparatus
205 ・ ・ ・ Relay station device
211 ... GPS receiver
212 ・ ・ ・ In-vehicle device

Claims (6)

It is a system that manages a safe provided detachably in an automatic currency handling device with a monitoring device,
The safe is
GPS receiving means for receiving a signal from a GPS satellite and outputting its own position information;
Wireless means for communicating by wireless communication;
Recording means for storing a data log relating to money stored in the safe,
The monitoring device is capable of communicating with a safe via the wireless means,
A safe management system, wherein the monitoring device is capable of ascertaining the location of the safe and the amount of money stored in the safe even when the safe is detached from the automatic money handling apparatus. The safe management system according to claim 1, wherein the automatic money handling device and the monitoring device can communicate with each other via a network. The safe management system according to claim 1, wherein the safe is provided with a unique identification code. 4. The safe management system according to claim 1, wherein the wireless unit is an IPv6-compliant wireless unit, and each wireless unit is assigned a unique IP address. 5. The safe management system according to claim 1, wherein the safe is provided with clock means, and the clock means corrects time based on time information from GPS receiving means. The vehicle carrying the safe is provided with the same GPS receiving means and wireless means as those mounted on the safe,
The safe management system according to any one of claims 1 to 5, wherein communication between the safe during transportation and wireless means provided on the vehicle is enabled by a second wireless means.

Images