JP7467375B2 - CASH HANDLING APPARATUS, CASH HANDLING SYSTEM, METHOD FOR REGISTRATION OF IDENTIFICATION FIRMWARE FOR CASH HANDLING APPARATUS, AND PROGRAM FOR REGISTRATION OF IDENTIFICATION FIRMWARE FOR CASH HANDLING APPARATUS - Google Patents

Description

The present invention relates to a cash handling device, a cash handling system, a method for registering identification firmware for a cash handling device, and a program for registering identification firmware for a cash handling device.

At the counters of financial institutions, devices used by operators include cash handling machines, financial terminals, and passbook printers. Cash handling machines can handle both paper money and coins, and have the ability to identify the type and dirt of paper money and coins, and determine their authenticity.

When coins are reminted or banknotes are reprinted, it is necessary to develop identification firmware to update the identification firmware used in the identification unit of the cash handling device each time a coin is reminted or reprinted. In addition, adjustments must be made to apply the newly developed identification firmware to cash handling devices already on the market (see, for example, Patent Documents 1 and 2).

When applying identification firmware to a cash handling device, the identification firmware is generally prepared in advance and temporarily stored in the financial terminal, and the cash handling device downloads the identification firmware from the financial terminal and applies it to the identification section of the banknotes or coins.

When it comes to coins, cash handling machines can only accept the six types of coins currently in circulation, so commemorative coins are rejected. However, because commemorative coins are accepted as currency, they must be kept separately and managed on hand, which creates a management burden.

On the other hand, when it comes to newly issued coins, if they are of the same type, they tend to have almost the same shape as current coins, so in this case it is possible to deal with this by simply changing the identification firmware, without having to change the hardware.

JP 2000-242822 A JP 2019-185321 A

When new currency is issued, vendors of cash handling equipment develop identification firmware in advance to identify the new currency. In addition, at the site where the cash handling equipment that will handle the new currency is installed, work is required to apply the developed identification firmware to the cash handling equipment.

Because the file size of identification firmware is large, the developed identification firmware is distributed from a higher-level control device such as a server to subordinate financial terminals via a network, and is then sent from the financial terminal to the cash handling device where it is applied. Depending on the network environment, this application method may be avoided due to the network load it places on the network. In such cases, maintenance personnel must apply the firmware directly to the cash handling device on-site, which creates a cost issue in terms of labor costs.

In addition, for reminted coins, the identification firmware is revised to accommodate them, but because the identification firmware is created before the coins are put into circulation, there is a development challenge in that it will need to be revised after they are put into circulation. Applying the revisions also requires additional work to be done locally.

The present invention has been made in consideration of these points, and aims to provide a cash handling device, a cash handling system, a method for registering identification firmware for a cash handling device, and a program for registering identification firmware for a cash handling device that solves problems in terms of cost and development.

In order to solve the above-mentioned problems, one proposal of the present invention provides a cash handling device comprising a read data acquisition unit that acquires read data of a reminted coin or commemorative coin read by the coin identification unit, an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit, and an identification firmware application unit that applies the identification firmware generated by the identification firmware generation unit to an identification firmware storage unit used in the coin identification unit.

Another idea of the present invention provides a cash handling system in which a plurality of cash handling devices that handle cash are connected via a network. The cash handling devices of this cash handling system have a read data acquisition unit that acquires read data of a reminted coin or commemorative coin read by the coin identification unit, an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit, an identification firmware application unit that applies the identification firmware generated by the identification firmware generation unit to an identification firmware storage unit used in the coin identification unit, and a communication unit that transmits the identification firmware to other cash handling devices via the network to share it among all the cash handling devices.

In another proposal of the present invention, a cash handling system is provided that includes a plurality of cash handling devices that handle cash, terminals that are each connected to the cash handling devices via a network, and a host control device that is connected to the cash handling devices and the terminals via a network. The cash handling devices of the cash handling system have a read data acquisition unit that acquires read data of the coins read by the coin identification unit, an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit, a communication unit that transmits the identification firmware generated by the identification firmware generation unit to the host control device and receives from the terminals reconstructed identification firmware reconstructed by the host control device, and an identification firmware application unit that applies the reconstructed identification firmware received by the communication unit to an identification firmware storage unit used in the coin identification unit. The host control device of the cash handling system has an identification firmware aggregation unit that aggregates the identification firmware generated by the plurality of cash handling devices, an identification firmware reconstruction unit that reconstructs the plurality of identification firmware aggregated by the identification firmware aggregation unit into one reconstructed identification firmware, and a reconstructed identification firmware distribution unit that distributes the reconstructed identification firmware to all terminals. The terminal of the cash handling system has a reconstructed identification firmware storage unit that stores the reconstructed identification firmware distributed from the host control device.

Another proposal of the present invention provides a method for registering identification firmware for a cash handling device, in which a control unit of the cash handling device acquires read data of a reminted coin or commemorative coin read by a coin identification unit of the cash handling device, the control unit generates identification firmware from the read data, and the control unit applies the generated identification firmware to an identification firmware storage unit used by the coin identification unit.

Another proposal of the present invention provides an identification firmware registration program for a cash handling device that causes a computer to function as a read data acquisition unit that acquires read data of a reminted coin or commemorative coin read by a coin identification unit, an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit, and an identification firmware application unit that applies the identification firmware generated by the identification firmware generation unit to an identification firmware storage unit used in the coin identification unit.

The cash handling device, cash handling system, cash handling device identification firmware registration method, and cash handling device identification firmware registration program configured as above have the advantage that, for example, when coins are recoined, new identification firmware can be registered without waiting for the development of identification firmware by the cash handling device vendor.

1 is a functional block diagram showing a cash handling device according to a first embodiment; FIG. 13 is a diagram showing an example of use of a cash handling device according to a second embodiment. FIG. 2 is a diagram showing the appearance of a cash handling device. FIG. 2 is a diagram showing the functions of a cash handling device. FIG. 2 is a plan view showing the coin section of the cash handling device. 2 is a block diagram showing an example of a hardware configuration of a cash handling device. FIG. This figure shows an example of the display of the display operation unit when registering or updating identification firmware, where (A) is a menu screen, (B) is a management mode screen, (C) is an identification registration mode screen, (D) is a coin identification registration screen, (E) is a registration denomination selection screen, (F) is a new registration start screen, (G) is an update denomination selection screen, and (H) is an update registration start screen. 10 is a flowchart showing the flow of registration processing of identification firmware by the coin processing unit. 11A and 11B are diagrams showing an example of data construction of the identification firmware, in which (A) shows the read data of the first sheet, (B) shows the read data of the second sheet, and (C) shows the read data of the third sheet. FIG. 13 is a diagram illustrating functions of a cash handling system according to a third embodiment. FIG. 13 is a diagram showing a system configuration of a cash handling system according to a third embodiment. FIG. 13 is a diagram showing functions of a cash handling system according to a fourth embodiment. FIG. 13 is a diagram showing a system configuration of a cash handling system according to a fourth embodiment. 2 is a block diagram showing an example of a hardware configuration of a financial terminal. 13 is a flowchart showing the flow of a process for rebuilding the identification firmware by the server. FIG. 13 is a diagram showing a system configuration of a cash handling system according to a fifth embodiment.

Below, the embodiments for carrying out the present invention will be described in detail with reference to the attached drawings. Note that in the drawings, parts indicated with the same reference numerals indicate the same components. Furthermore, each embodiment can be carried out by partially combining multiple embodiments within a range that does not cause inconsistencies.

FIG. 1 is a functional block diagram showing a cash handling apparatus according to a first embodiment.
The cash handling device 10 according to the first embodiment comprises a coin recognition unit 11 , an identification firmware storage unit 12 , a read data acquisition unit 13 , an identification firmware generation unit 14 , and an identification firmware application unit 15 .

The coin identification unit 11 and the identification firmware storage unit 12 are functions that the cash handling device 10 originally has in order to identify coins. The coin identification unit 11 processes the unique data of the coin read by various sensors using the identification firmware stored in the identification firmware storage unit 12 to identify the type (denomination) of the coin and determine its authenticity.

The read data acquisition unit 13, the identification firmware generation unit 14, and the identification firmware application unit 15 are new functions provided in the present invention for registering new identification firmware for reminted coins or commemorative coins.

The read data acquisition unit 13 acquires the read data of the coin to be registered that is read by the coin identification unit 11. Coin reading is performed on multiple coins. The identification firmware generation unit 14 inputs the multiple read data acquired by the read data acquisition unit 13 and generates identification firmware for the coin to be registered. The identification firmware application unit 15 registers the identification firmware generated by the identification firmware generation unit 14 by applying it to the identification firmware storage unit 12 used by the coin identification unit 11.

As a result, the cash handling device 10 can generate and update the identification firmware for reminted coins by itself, solving both cost and development issues at the same time. For commemorative coins, the cash handling device 10 can also generate and register new identification firmware, reducing the burden of managing commemorative coins. Furthermore, to address identification errors caused by coin stains due to circulation, the cash handling device 10 can also generate identification firmware using scan data from used coins and use it to update the identification firmware.

Figure 2 shows an example of how to use a cash handling device according to the second embodiment, Figure 3 shows the external appearance of the cash handling device, Figure 4 shows the functions of the cash handling device, Figure 5 is a plan view showing the coin section of the cash handling device, and Figure 6 is a block diagram showing an example of the hardware configuration of the cash handling device.

As shown in FIG. 2, a financial institution's counter is equipped with a cash handling device 20, a financial terminal 40, a passbook printer 50, and other devices used by operators. The cash handling device 20 and the financial terminal 40 are connected by a LAN (Local Area Network) 51, and the passbook printer 50 is connected to the financial terminal 40 by a USB (Universal Serial Bus) cable 52.

The cash handling device 20 is used to deposit and withdraw banknotes and coins, and as shown in FIG. 3, has a display operation unit 21 and a coin deposit port 22 at the top, and a banknote deposit port 23, a foreign object receiving tray 24, a banknote withdrawal port 25, and coin withdrawal boxes 26a and 26b at the front.

As shown in FIG. 4, the cash handling device 20 has a coin section 27 and a banknote section 28. The banknote section 28 has a front/back reversing section 29, a banknote recognition section 30, a banknote stacker 31, and a banknote cassette 32. The banknote stacker 31 has a temporary holding section and stackers prepared for each denomination of banknote, and the banknote cassette 32 has a temporary holding section and cassette prepared for banknotes that are insufficient or excessive in the banknote stacker 31.

The front/back inversion unit 29 and the banknote recognition unit 30 are arranged in a loop-shaped transport unit 33. The front/back inversion unit 29 accepts banknotes inserted into the banknote deposit slot 23 and passes them to the banknote recognition unit 30. The banknote recognition unit 30 reads one side of the banknote and passes it again to the front/back inversion unit 29 via the transport unit 33. The front/back inversion unit 29 inverts the passed banknote and passes it to the banknote recognition unit 30. The banknote recognition unit 30 reads the other side of the banknote and recognizes the banknote.

Banknotes recognized by the banknote recognition unit 30 are taken into the stacker of the corresponding denomination and stored in the banknote stacker 31 while being transported by the transport unit 33. Banknotes that cannot be recognized by the banknote recognition unit 30 are transported to the foreign object receiving tray 24.

When dispensing banknotes, the required number of banknotes of the required denomination are taken out from the banknote stacker 31 , identified by the banknote identification unit 30 , and then transported to the banknote dispensing port 25 .
The banknote cassette 32 has the function of storing deposited banknotes that the banknote stacker 31 cannot store when it is full, and of replenishing the banknotes that are in short supply in the banknote stacker 31 for dispensing, and stores banknotes of mixed denominations.

The coin section 27 has a coin identification section 35, a temporary storage section 36, stackers 37a, 37b, 37c, 37d, 37e, and 37f prepared for each denomination, a transport section 38, and a coin cassette 39.

When a coin is inserted into the coin deposit port 22 of the coin section 27, the coin is transported by the transport section 38 to the coin identification section 35 where it is identified. Coins identified by the coin identification section 35 are sorted and stored in stackers 37a, 37b, 37c, 37d, 37e, and 37f of the corresponding denomination according to the identification results. Coins that cannot be identified by the coin identification section 35 are transported to the coin withdrawal boxes 26a and 26b.

When dispensing coins, the required number of coins of the required denomination are taken out from stackers 37a, 37b, 37c, 37d, 37e, and 37f, identified by the coin identification unit 35, and then transported to coin dispensing boxes 26a and 26b by the transport unit 38. Coins that cannot be identified by the coin identification unit 35 are stored in the coin cassette 39.

The cash handling device 20 has a hardware configuration as shown in FIG. 6 and is a computer having a function of generating coin identification firmware based on the read data read by the coin identification unit 35. The cash handling device 20 is equipped with a control unit 20a, which controls the entire cash handling device 20. The control unit 20a is, for example, a CPU (Central Processing Unit). The control unit 20a is connected to a memory unit 20b and multiple peripheral devices via a bus 20f.

The memory unit 20b has a RAM (Random Access Memory) used as the main memory device and a hard disk used as the auxiliary memory device, and further has a non-volatile memory that stores the identification firmware.

The RAM temporarily stores at least a portion of the OS (Operating System) program executed by the control unit 20a, and application programs for executing the read data acquisition process, the identification firmware generation process, and the identification firmware application process. The RAM also stores various data required for processing by the control unit 20a. The hard disk stores the OS program, application programs for executing the read data acquisition process, the identification firmware generation process, and the identification firmware application process, and various data.

The cash handling device 20 also has a number of peripheral devices, including a display operation unit 21, a coin processing unit 20c, a banknote processing unit 20d, and a communication interface 20e, each of which is connected to the control unit 20a via a bus 20f.

The display operation section 21 has a display for displaying images and a touch panel for input operations. The coin processing unit 20c has a transport section 38, a deposit section 20c1, a withdrawal section 20c2, a stacker 37, a coin cassette 39, and a coin recognition section 35. The communication interface 20e is connected to the financial terminal 40 by a LAN 51.

The display operation unit 21 displays a predetermined GUI (Graphical User Interface) related to the identification firmware registration process on the display screen in accordance with an instruction from the control unit 20a. The touch panel notifies the control unit 20a of the operation instructions input when performing the identification firmware registration operation.

In the coin processing unit 20c, the identification firmware registration process is carried out in accordance with instructions from the control unit 20a, with the deposit unit 20c1 accepting coins to be registered, the coin identification unit 35 identifying the accepted coins, and the withdrawal unit 20c2 dispensing the identified coins.

The processing functions of this embodiment can be realized by the above hardware configuration.
Figure 7 shows an example of the display of the display operation unit when registering or updating identification firmware, where (A) is a menu screen, (B) is a management mode screen, (C) is an identification registration mode screen, (D) is a coin identification registration screen, (E) is a registration denomination selection screen, (F) is a new registration start screen, (G) is an update denomination selection screen, and (H) is an update registration start screen.

The cash handling device 20 registers the identification firmware in accordance with the screen display of the display operation unit 21 .
First, the "management mode" button is pressed from the menu screen 21a of Fig. 7(A) displayed on the display operation unit 21. This causes the display operation unit 21 to transition to a management mode screen 21b shown in Fig. 7(B). Next, when the "identification registration mode" button is pressed on this management mode screen 21b, the display operation unit 21 transitions to an identification registration mode screen 21c shown in Fig. 7(C). On the identification registration mode screen 21c, it is specified whether the identification firmware is to be registered for banknotes or coins. On this identification registration mode screen 21c, when the "coin identification registration" button is pressed, the display operation unit 21 transitions to a coin identification registration screen 21d shown in Fig. 7(D).

When registering a new coin on the coin identification registration screen 21d, the "Register" button is pressed. This causes the display operation unit 21 to transition to a registration denomination selection screen 21e shown in FIG. 7 (E). On the registration denomination selection screen 21e, if the denomination to be registered is a "500 yen" coin, the "500 yen" button is pressed. This causes the display operation unit 21 to transition to a new registration start screen 21f shown in FIG. 7 (F), where pressing the "Start" button starts the new registration process of the identification firmware by the coin processing unit 20c.

When updating and registering coins on the coin identification registration screen 21d, the "Update" button is pressed. This causes the display operation unit 21 to transition to an update denomination selection screen 21g shown in FIG. 7 (G). On the update denomination selection screen 21g, if the denomination to be updated is a "500 yen" coin, the "500 yen" button is pressed. This causes the display operation unit 21 to transition to an update registration start screen 21h shown in FIG. 7 (H). Here, after pressing the button for the coin registered in the selected denomination, pressing the "Start" button starts the identification firmware update registration process by the coin processing unit 20c.

FIG. 8 is a flowchart showing the flow of the registration process of the identification firmware by the coin processing unit.
[Step S1] When the registration process of the identification firmware is for coins, the control unit 20a selects coin identification registration.

[Step S2] The control unit 20a reads the registration coin that has been inserted into the deposit unit 20c1 and transported by the transport unit 38 with the coin recognition unit 35, and obtains read data.
[Step S3] The control unit 20a generates recognition firmware based on the read data read by the coin recognition unit 35.

[Step S4] The control unit 20a applies the generated identification firmware to the identification firmware storage unit of the memory unit 20b. In the identification firmware storage unit, if the generated identification firmware is for a newly registered coin, the generated identification firmware is newly registered, and if the coin is already registered, the registered identification firmware is updated with the generated identification firmware.

Figure 9 shows an example of data construction of the identification firmware, where (A) shows the read data of the first sheet, (B) shows the read data of the second sheet, and (C) shows the read data of the third sheet. Note that in Figure 9, for the sake of explanation, the read data is shown with extremely reduced resolution, and pixels are shown as binary data of white or black.

Let us assume that the read data of the first coin read by the image sensor of the coin recognition unit 35 has a dot pattern in which the pixels at the positions of dots D1, D2, and D3 are black, as shown in Figure 9 (A), for example.

Next, suppose the read data for the second coin has a dot pattern like that shown in Figure 9 (B). Now, the dot pattern of the second coin is rotated while comparing the dot pattern of the first coin with the dot pattern of the second coin.

When the dot pattern of the second coin rotates to the dot pattern that is closest to the dot pattern of the first coin, the read data of the second coin obtained at that time is learned. In other words, whether the dot pattern of the second coin is closest to the dot pattern of the first coin is determined by whether the colors of the dots in corresponding positions match. If, for example, 90% of the dot data of the dot patterns match, it is assumed that the dot pattern represents one side of the coin, and the read data of that dot pattern is adopted and learned.

In the illustrated example, when the dot pattern of the second coin is rotated 90 degrees counterclockwise, it matches the dot pattern of the first coin, so the dot pattern at that rotated position is learned.

For the third and subsequent coins, the same process is performed on the read data, and if 90% of the dot data matches, the read data for that dot pattern is learned as a dot pattern representing one side of the coin.

In the example shown in Figure 9 (C), when the dot pattern of the third coin is rotated 270 degrees counterclockwise, dots D1 and D2 match dots D1 and D2 at the corresponding positions on the first coin, but dot D3 does not match dot D3 at the corresponding position on the first coin. The read data at this time is learned as the dot pattern representing the other side of the coin.

When multiple read data are obtained in the above manner, identification firmware for one side of the coin and identification firmware for the other side of the coin are generated from the read data, and the identification firmware is applied to the identification firmware storage unit.

FIG. 10 is a diagram showing the functions of a cash handling system according to the third embodiment, and FIG. 11 is a diagram showing the system configuration of the cash handling system according to the third embodiment.
The third embodiment is applied to a case where, for example, in a branch office of a financial institution, a plurality of sets of financial terminals 40A-40N and cash handling devices 20A-20N for counter services are installed as shown in Figures 10 and 11. The financial terminals 40A-40N and the cash handling devices 20A-20N are connected to each other by a LAN 51.

The cash handling devices 20A-20N each have the same configuration. For example, the cash handling device 20A of the A-type machine has a coin identification unit 21A, an identification firmware storage unit 22A, a read data acquisition unit 23A, an identification firmware generation unit 24A, an identification firmware application unit 25A, and a communication unit 26A. The cash handling device 20N of the N-type machine has a coin identification unit 21N, an identification firmware storage unit 22N, a read data acquisition unit 23N, an identification firmware generation unit 24N, an identification firmware application unit 25N, and a communication unit 26N. The communication unit 26A of the cash handling device 20A and the communication unit 26N of the cash handling device 20N are functions that are originally provided so that the communication units 26A and 20N of the cash handling device 20A can communicate with the financial terminals 40A and 40N.

In the third embodiment, for example, when cash handling device 20A of machine A registers or updates the coin identification firmware, the identification firmware of machine A is transmitted to the other cash handling devices 20B-20N, and is shared by all cash handling devices 20A-20N. When attempting to register or update the identification firmware for multiple denominations of coins, if multiple cash handling devices share the task of generating the identification firmware for multiple denominations, the registration or update of the identification firmware can be completed in a short time.

Figure 12 shows the functions of a cash handling system according to the fourth embodiment, Figure 13 shows the system configuration of a cash handling system according to the fourth embodiment, Figure 14 is a block diagram showing an example of the hardware configuration of a financial terminal, and Figure 15 is a flowchart showing the flow of the identification firmware reconstruction process by the server.

The fourth embodiment is applied, for example, to a case where financial terminals 40A-40N for counter operations, cash handling devices 20A-20N, and a server 60 serving as a higher-level control device are installed between branches of a financial institution, as shown in Figures 12 and 13. The financial terminals 40A-40N, cash handling devices 20A-20N, and server 60 are interconnected by a LAN 51.

The cash handling devices 20A-20N each have the same configuration. For example, the cash handling device 20A of the A-type machine has a coin recognition unit 21A, an identification firmware storage unit 22A, a read data acquisition unit 23A, an identification firmware generation unit 24A, an identification firmware application unit 25A, and a communication unit 26A.

The server 60 comprises a communication unit 61, an identification firmware aggregation unit 62, an identification firmware reconstruction unit 63 and a reconstructed identification firmware distribution unit 64. In the server 60, the communication unit 61 receives the identification firmware generated by each of the cash handling devices 20A-20N, the identification firmware aggregation unit 62 aggregates the multiple identification firmwares, and the identification firmware reconstruction unit 63 reconstructs them into one identification firmware. The reconstructed identification firmware is distributed to the financial terminals 40A-40N by the reconstructed identification firmware distribution unit 64.

The financial terminals 40A-40N each have the same configuration. For example, the financial terminal 40A for machine A has a communication unit 40A1 and a reconfigured identification firmware storage unit 40A2. The reconfigured identification firmware distributed from the server 60 is stored in the reconfigured identification firmware storage unit 40A2. The financial terminals 40A-40N transmit the reconfigured identification firmware stored in the reconfigured identification firmware storage unit 40A2 to the cash handling devices 20A-20N, respectively. In the cash handling devices 20A-20N, the identification firmware application unit 25A applies the reconfigured identification firmware to the identification firmware storage unit 22A.

The financial terminals 40A-40N have a hardware configuration as shown in FIG. 14, and are computers that have the function of temporarily storing the reconstructed identification firmware distributed from the server 60 and transmitting the stored reconstructed identification firmware to the cash handling devices 20A-20N. For example, the financial terminal 40A for machine A has a control unit 41, which controls the entire financial terminal 40A. The control unit 41 is, for example, a CPU. The control unit 41 is connected to a memory unit 42 and multiple peripheral devices via a bus 45.

The storage unit 42 has a RAM used as a main storage device and a hard disk used as an auxiliary storage device. The RAM temporarily stores at least a portion of the OS program executed by the control unit 41 and the application program for executing the relay process of the reconstruction identification firmware. The RAM also stores the reconstruction identification firmware and various data required for processing by the control unit 41. The hard disk stores the OS program, the application program for executing the relay process of the reconstruction identification firmware, and various data.

The financial terminal 40A also has an input/output interface 43 and a communication interface 20e as peripheral devices, each of which is connected to the control unit 41 via a bus 45. The input/output interface 43 is connected to a display device 46, an input device 47, an image reader 53, and a passbook printer 50. The display device 46 is a display that displays screen images, and displays screen images according to commands from the control unit 41 via the input/output interface 43. The input device 47 is an information input device such as a keyboard or mouse, and the input information is notified to the control unit 41 via the input/output interface 43. The image reader 53 is used to read forms, and the read image data is notified to the control unit 41 via the input/output interface 43. The passbook printer 50 prints passbooks in response to commands from the control unit 41 via the input/output interface 43.

The communication interface 44 is connected to the cash handling device 20A and the server 60 via a LAN 51.
The above hardware configuration enables the processing functions of the financial terminals 40A-40N to be realized.

The server 60, not shown in the figure, has a hardware configuration similar to that of the financial terminals 40A-40N, and executes the identification firmware reconstruction process as shown in FIG. 15 using an application program for identification firmware reconstruction stored in the memory unit.

[Step S11] The server 60 sequentially reads and consolidates the identification firmware from the subordinate cash handling apparatuses 20A-20N for which the identification firmware has been generated.
[Step S12] The server 60 reconstructs one identification firmware from the aggregated multiple identification firmwares. This reconstruction of the identification firmware is performed, for example, by a technique such as averaging dot data at corresponding coordinates of a dot pattern.

[Step S13] The server 60 distributes the reconstructed identification firmware to all of the cash handling apparatuses 20A-20N under its control in sequence.
FIG. 16 is a diagram showing a system configuration of a cash handling system according to the fifth embodiment.

The fifth embodiment is applied to a system having a configuration as shown in FIG. 16, for example, between the head office and branches of a financial institution. That is, in this cash handling system, for example, financial terminals 40A-40N, cash handling devices 20A-20N, and a server 60 located at a branch are interconnected by a LAN 51, and this LAN 51 is connected to a WAN (Wide Area Network) 54. The WAN 54 is connected to LANs 51a of other branches and LAN 51b of the head office, and a host 70, which is the highest-level computer that controls the entire system, is connected to LAN 51b.

In this cash handling system, the host 70 performs the identification firmware reconstruction process that was handled by the server 60 in the fourth embodiment. That is, the host 70 directly collects the identification firmware from the cash handling devices, reconstructs the identification firmware, and distributes the reconstructed identification firmware directly to all cash handling devices.

In addition, the server may perform the process of aggregating the identification firmware and the process of distributing the reconstructed identification firmware, and the host 70 may only perform the process of reconstructing the identification firmware.

The above is merely illustrative of the principles of the present invention. Furthermore, numerous variations and modifications are possible to those skilled in the art, and the present invention is not limited to the exact configurations and applications shown and described above. For example, in the fourth embodiment, the identification firmware reconstruction process is performed by a server, but one of the cash handling devices 20A-20N may perform the aggregation, reconstruction and distribution of the identification firmware.

In addition, while the above embodiment has been described as being for handling when coins are reminted or commemorative coins, the same method can also be applied to cash handling devices for reprinted banknotes or foreign banknotes.

LIST OF SYMBOLS 10 Cash handling device 11 Coin recognition unit 12 Identification firmware storage unit 13 Read data acquisition unit 14 Identification firmware generation unit 15 Identification firmware application unit 20 Cash handling device 20A-20N Cash handling device 20a Control unit 20b Memory unit 20c Coin processing unit 20c1 Deposit unit 20c2 Dispensing unit 20d Banknote processing unit 20e Communication interface 20f Bus 21 Display operation unit 21A-21N Coin recognition unit 21a Menu screen 21b Management mode screen 21c Identification registration mode screen 21d Coin identification registration screen 21e Registration denomination selection screen 21f New registration start screen 21g Update denomination selection screen 21h Update registration start screen 22 Coin deposit port 22A-22N Identification firmware storage unit 23 Banknote deposit port 23A-23N Read data acquisition unit 24 Foreign object receiving tray unit 24A-24N Identification firmware generation unit 25 Banknote dispensing port 25A-25N Identification firmware application unit 26A-26N Communication unit 26a, 26b Coin dispensing box 27 Coin unit 28 Banknote unit 29 Front/rear reversal unit 30 Banknote recognition unit 31 Banknote stacker 32 Banknote cassette 33 Transport unit 35 Coin recognition unit 36 Temporary holding unit 37, 37a, 37b, 37c, 37d, 37e, 37f Stacker 38 Transport unit 39 Coin cassette 40, 40A-40N Financial terminal 40A1 Communication unit 40A2 Reconfigured identification firmware storage unit 41 Control unit 42 Memory unit 43 Input/output interface 44 Communication interface 45 Bus 46 Display device 47 Input device 50 Passbook printer 51, 51a, 51b LAN
52 USB cable 53 Image reading device 60 Server 61 Communication unit 62 Identification firmware aggregation unit 63 Identification firmware reconstruction unit 64 Reconstructed identification firmware distribution unit 70 Host

Claims (5)

a read data acquisition unit that acquires read data of the reminted coin or commemorative coin read by the coin identification unit;
an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit;
an identification firmware application unit that applies the identification firmware generated by the identification firmware generation unit to an identification firmware storage unit used in the coin identification unit;
A cash handling device comprising: In a cash handling system in which a plurality of cash handling devices that handle cash are connected via a network,
The cash handling device is
a read data acquisition unit that acquires read data of the reminted coin or commemorative coin read by the coin identification unit;
an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit;
an identification firmware application unit that applies the identification firmware generated by the identification firmware generation unit to an identification firmware storage unit used in the coin identification unit;
a communication unit that transmits the identification firmware to other cash handling devices via the network to share the identification firmware among all the cash handling devices;
A cash handling system comprising: A cash handling system including a plurality of cash handling devices that handle cash, terminals each connected to the cash handling devices via a network, and a host controller connected to the cash handling devices and the terminals via the network,
The cash handling device is
a read data acquisition unit that acquires read data of the coin read by the coin recognition unit;
an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit;
a communication unit that transmits the identification firmware generated by the identification firmware generation unit to the upper control device and receives from the terminal the reconstructed identification firmware reconstructed by the upper control device;
an identification firmware application unit that applies the reconstructed identification firmware received by the communication unit to an identification firmware storage unit used in the coin identification unit;
having
The upper control device includes:
an identification firmware aggregation unit that aggregates the identification firmware generated by a plurality of the cash handling devices;
an identification firmware reconstruction unit that reconstructs the plurality of identification firmwares aggregated by the identification firmware aggregation unit into one reconstructed identification firmware;
a reconstruction identification firmware distribution unit that distributes the reconstruction identification firmware to all of the terminals;
having
The terminal includes:
a reconstruction identification firmware storage unit for storing the reconstruction identification firmware distributed from the upper control device;
Cash handling system. A control unit of the cash handling device acquires read data of the recoined coin or commemorative coin read by the coin identification unit of the cash handling device,
The control unit generates identification firmware from the read data;
The control unit applies the generated identification firmware to an identification firmware storage unit used in the coin identification unit.
A method for registering identification firmware in a cash handling device. Computer,
a read data acquisition unit that acquires read data of the reminted coin or commemorative coin read by the coin identification unit;
an identification firmware generation unit that generates identification firmware from the read data acquired by the read data acquisition unit;
an identification firmware application unit that applies the identification firmware generated by the identification firmware generation unit to an identification firmware storage unit used in the coin identification unit;
and a firmware registration program for registering a cash handling device to function as a

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