JPH0560153B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to a recycling banknote handling method, and more specifically to an automatic cash transaction device that handles deposits and withdrawals, such as a teller device or an automatic savings or payment device in banking operations. The present invention relates to a recirculating banknote handling method in which deposited banknotes are automatically recirculated as disbursed banknotes within the device.

[Background of the invention]

An automated teller machine that handles banknotes in a recycle-type manner can automatically recycle deposited banknotes for withdrawal within the device, making it possible to reduce the amount of banknotes prepared in each device for withdrawal at the start of business. It has the advantage of being able to manage funds efficiently.

Japanese Unexamined Patent Publication No. 57-146396 describes this type of automatic teller machine, which is provided with a temporary storage box for temporarily storing deposited banknotes and a banknote storage box provided for each denomination. At the time of deposit, the banknotes stored in the temporary storage box are transported and stored in the banknote storage box for each denomination between the end of the transaction and the start of the next transaction. It is stated that the banknotes of the type are taken out from the banknote storage box and withdrawn.

In conventional devices of this kind, bills are supplied to each denomination storage box for withdrawal at the start of business and at the end of a withdrawal transaction, when the denomination storage box is empty,
Or when it is detected that the remaining amount is low.

In other words, the storage box for each denomination changes from its normal state (not empty and not low) to empty or low when banknotes are released through a withdrawal transaction. Due to its condition, it cannot be empty or low after a deposit transaction). Therefore, each time a withdrawal transaction is made, it is checked whether the storage box by denomination becomes empty or the amount remaining is low, and when it becomes empty or the amount remaining is low, the storage box for each denomination is checked. The type storage box is refilled with banknotes.

The problem here is what to do when it is detected that the storage box for each denomination is empty or has a low amount remaining. In other words, in conventional devices, when it is detected that the denomination storage box is empty or has a low amount remaining, multiple denominations of deposited banknotes that can be returned for withdrawal and banknotes prepared in advance are stored. A large amount of banknotes were supplied at once from the bulk storage box for storing banknotes until the storage boxes for each denomination were full. For this reason, the device performs a banknote supply operation until the storage box for each denomination is empty or has a small amount remaining, and during this operation, the device cannot receive the next transaction, and the device suspends transactions. In addition, when a deposit transaction is performed, the deposited banknotes are transported and stored in the denomination-specific storage box only after the transaction is completed.
While the deposited banknotes are being transported and stored in storage boxes for each denomination,
The device cannot accept the next transaction, and while the deposited banknotes are being transported, the device is also in a transaction suspension state, causing inconvenience to the customer.The storage box for each denomination is empty or has a low amount remaining. It takes a considerable amount of time for the bank to become full, and it is not possible to immediately move on to the next transaction while deposited banknotes are being transported, which poses a particularly serious problem during busy transaction times.

[Purpose of the invention]

The present invention has been made in view of the above circumstances, and its purpose is to solve the above-mentioned problems in conventional automatic teller machines that handle banknotes in a recirculating manner, and to store banknotes in storage boxes for each denomination. To provide a recycling-type banknote handling method which enables supply processing to be executed without placing an apparatus in a transaction suspension state and prevents customers from waiting due to transaction suspension of the apparatus.

[Summary of the invention]

The recycle banknote handling method of the present invention includes a temporary stacker that temporarily holds received deposited banknotes, a physically large recycling box that stores banknotes that can be recycled for withdrawal among the received deposited banknotes, and a withdrawal banknote. This automatic teller machine is equipped with a plurality of physically small banknote storage boxes for storing banknotes by denomination, and a control unit connected to a central device. At the same time, the banknotes inserted by the user are stored in the temporary stacker, and when a deposit transaction is approved as a result of the inquiry process, the banknotes in the temporary stacker are stored in the recycling box. , after the completion of the storage process, check the banknote storage status of the plurality of banknote storage boxes;
When there is a banknote storage box that is not full, the banknote is taken out from the recycle box and transported, the denomination is determined during transport, and the banknote of the corresponding denomination is supplied to the banknote storage box that is not full, and the banknote storage box to be supplied is The banknotes without the above are supplied to the temporary stacker and then stored in the recycling box.
The present invention is characterized in that, after the deposit transaction permission is issued, the collection processing and supply processing and the output processing of the transaction for discharging media such as cards, slips, passbooks, etc. are performed independently and in parallel. .

In other words, in a deposit transaction, after the inserted banknotes are temporarily stored in the stacker, when the central device gives permission for the deposit transaction, the automatic teller machine performs the output processing of the transaction to release the medium such as a card, slip, passbook, etc. (Specifically, printing on the statement slip, ejecting the card,
Processes such as passbook printing, ejection, and receipt of these media, and when these media are removed and received by the user, the output processing of the transaction is completed and the transaction is also terminated), and the banknotes temporarily in the stacker. The banknotes are processed by storing the banknotes in the recycle box and supplying the banknotes from the recycle box to the banknote storage box. Since the transaction output processing and the banknote processing are separate and independent processes, the banknote processing is performed simultaneously and in parallel with the transaction output processing until the transaction output processing is completed.

As a result, the supply of banknotes to the banknote storage box is performed until the output processing of the transaction is completed, so that the banknotes are supplied to the banknote storage box at the end of the deposit transaction.

Therefore, in the present invention, there is no need to carry out the banknote supply process after the transaction is completed, and the banknote supply process after the transaction is completed can be made unnecessary. Therefore, in the present invention, the transaction suspension state of the device due to the supply of banknotes to the banknote storage box after the transaction is completed (the transaction suspension state of the device means, as described in the above [Background of the Invention] section, During the banknote feeding operation after a transaction is completed, the device is in a state where it cannot accept the next transaction) does not occur.

Furthermore, at the end of the deposit transaction, the process of supplying banknotes to the banknote storage box has been completed, so the next transaction is
This is done without any influence from previous deposit transactions.

Furthermore, the recycling box is physically large and the multiple banknote storage boxes that store withdrawn banknotes by denomination are physically smaller than the recycling box, so the recycling box can store a sufficient amount of banknotes. Moreover, since the deposited banknotes are also recycled, there is no need to suspend the transaction and supply banknotes to the recycling box.

As described above, according to the present invention, the device does not go into a transaction suspension state between transactions, and it is not necessary to put the device into a transaction suspension state in order to store bills in the bill storage box.

[Embodiments of the invention]

Embodiments of the present invention will be described below based on the drawings. First, the drawings used will be explained.

FIG. 1 shows an example of the configuration of an online system consisting of a central device and terminal devices. In the figure, 201 is a central device, 202 is a terminal device, and 203 is a communication path connecting the central device 201 and the terminal device 202. In this embodiment, an automated teller machine serves as a terminal device.

FIG. 2 shows an example in which message identification is specified as a part of the reply message outputted from the central device 201 to the terminal device, that is, the automatic teller machine 202. In the figure, 204 is the reply message. , 205 indicates message identification. The message identification 205 is composed of, for example, 2 bits, where "00" corresponds to permission for withdrawal transactions, "01" for prohibition of withdrawal transactions, "10" for permission for deposit transactions, and "11" for prohibition on deposit transactions. shall be.

FIG. 3 is a block diagram of the banknote transport mechanism of the deposit/withdrawal section showing only the elements related to the present invention on the terminal device side, that is, on the automatic teller machine side. In the figure, 1 is a deposit/withdrawal port shutter for depositing and withdrawing banknotes with customers;
2 is a banknote receiving box; 3 is a banknote separation box that sends out the banknotes in the receiving box one by one to a conveyance path; 12 is an authenticity discriminator for appraising banknotes; 25 is a bulk storage box that stores banknotes of all denominations handled; 26E is a 1,000 yen note storage box that stores only 1,000 yen notes, and 26F is a 10,000 yen note storage box that stores only 10,000 yen notes. Further, 27 is a recycling box that temporarily stores banknotes in order to recycle the deposited banknotes for withdrawal, 27A is a temporary stacker that temporarily holds deposited and withdrawn banknotes, 28 is a denomination discriminator that discriminates only the denomination, and G1 ~G4 indicates a gate for sorting the destinations of banknotes.

FIG. 4 shows an example of a logic diagram on the automated teller machine side for embodying the present invention. In the figure, 100 is a transmitter/receiver between the central device and the automatic teller machine, 101 is a transmitting/receiving buffer, 102 is an input operation panel, and 103 is an inquiry unit that creates an inquiry message according to data input through the input operation panel 103. The message creation circuit 104 is a deposited banknote insertion completion detection circuit that detects that the deposited banknotes have been completely inserted into the receiving box.

105 is the above-mentioned banknote insertion completion detection circuit 104
After recognizing that the deposited banknotes have been completely inserted into the receiving box, the banknote authenticity judger 1 detects the deposited banknotes in the receiving box.
2, the banknotes are counted via the temporary stacker 2.
A deposited banknote counting command circuit 7A issues a conveyance instruction, and a deposited banknote counting circuit 106 detects that the counting operation started by the command from the deposited banknote counting command circuit 105 has been completed for all banknotes placed in the receiving box. This is an operation completion detection circuit.

107 is a deposit transaction completion detection circuit that detects completion of input operations necessary for deposit transaction;
Reference numeral 8 denotes a withdrawal operation completion detection circuit that detects the completion of input operations necessary for a withdrawal transaction, and 109 indicates input data after the withdrawal operation completion detection circuit 108 recognizes that the input operation is completed. According to the specification, a specified number of bills are withdrawn from the 1,000 yen bill storage box 26E and the 10,000 yen bill storage box 26F, and an instruction is issued to convey the bills to the bill receiving box 2 via the authenticity detector 12. This is a bill counting command circuit.

Reference numeral 110 denotes a dispensing banknote counting completion detection circuit that detects that the banknote counting operation started by the command from the dispensing banknote counting command circuit 109 has finished counting the number of banknotes specified by the input data; 111 a central device; This is a reply message identification decoder for recognizing the message identification 205 of the reply message 204 sent from the user.

112 is a bill removal detection circuit whose output signal becomes a true value when a bill is removed from the bill receiving box 2;
Reference numeral 113 denotes a banknote recognition circuit that judges the denomination of a banknote when the banknote passes through the authenticity determiner 12 and the denomination determiner 28; and 114, when all the banknotes in the banknote receiving box 2 are exhausted, its output signal is a true value. This is the receiving box banknote-free detection circuit.

Further, 115 is a 1,000 yen bill storage box full detection circuit whose output signal becomes the true value when the 1,000 yen bill storage box is full, and 116 is the output signal when the 10,000 yen bill storage box is full. 117 is a recycle box banknote-free detection circuit whose output is the true value when the banknotes in the recycle box 27 become empty; 118 is a recycle box banknote-free detection circuit whose output is the true value; and 118, the recycle box 27 is full. This is a recycle box full detection circuit whose output signal becomes the true value when the recycle box becomes full. Reference numeral 119 denotes a temporary stacker banknote absence detection circuit whose output signal becomes a true value when all the banknotes are gone in the temporary stacker 27A.

Reference numeral 120 is a deposit/withdrawal port open command that opens the deposit/withdrawal port when a withdrawal permission instruction from the device is recognized during a withdrawal transaction, or when a deposit transaction prohibition instruction from the central device is recognized during a deposit transaction. circuit,
121 supplies the reduced amount of banknotes due to withdrawal from the recycle box 27 to the 1,000 yen bill storage box 26E and 10,000 yen bill storage box 26F during a withdrawal transaction, and supplies the 1,000 yen bill storage box and 10,000 yen bill storage box 26F during a deposit transaction. When both storage boxes are not full, recycle box 2
This is a banknote supply command circuit that supplies the deposited banknotes stored in 7 to the 1,000-yen note storage box and the 10,000-yen note storage box that are not full.

122 is a 1,000 yen bill loading command which is sent to the 1,000 yen bill storage box 26E by gate G3 when the bill passes through the denomination determiner 28 according to a command from the bill supply command circuit 121, if the bill is a 1,000 yen bill. circuit, 1
Similarly, 23 is connected to the 10,000 yen bill storage box 26 by gate G4.
124 yen note import command circuit to be imported into F
When a banknote passes through the denomination discriminator 28 according to a command from the banknote supply command circuit 121, if the storage box corresponding to the banknote is full, the gate G1 is controlled to temporarily transfer the banknote to the temporary stacker 27A. This is a stacker import command circuit.

125 also indicates that during a withdrawal transaction, in the operation of supplying bills from the recycle box 27 to the denomination-specific bill storage boxes 26E and 26F after the withdrawal banknotes have been conveyed to the bill receiving box 2, if the denomination-specific bill storage boxes 26E and 26F are full, If the banknotes collected in the temporary stacker 27A due to the banknote withdrawal are instructed to prohibit withdrawal by a reply message from the central device, the banknotes are collected in the temporary stacker 27A from the banknote receiving box 2.
During a deposit transaction, if a deposit permission instruction is received from the central device, the deposited bill temporarily held in the stacker 27A, or in the bill supply operation after the deposit transaction is completed. This is a recycle box retrieval command circuit for storing banknotes temporarily collected in the stacker 27A into the recycle box 27 because the denomination banknote storage boxes 26E and 26F are full.

126 temporarily stores the withdrawn banknotes held in the banknote receiving box 2 in the stacker 2 when an instruction to prohibit withdrawal is received from the central device during a withdrawal transaction.
7A withdrawal banknote collection command circuit for collection, 1
27 is a recycle box 2 when receiving a deposit permission response message from the central device in a deposit transaction.
7 is a bulk storage box collection command circuit for storing the input banknotes held in the temporary stacker 27A in the bulk storage box 25 when the banknotes are full, and 128 is a response message from the central device to prohibit deposits during a deposit transaction. At the time of reception, the deposited bills are sent to the receiving box 2 in order to return the deposited bills temporarily held in the stacker to the customer.
This is a circuit for commanding the return of deposited banknotes to be transported to.

Furthermore, 140 to 164 are AND circuits, and 170 to 164 are AND circuits.
177 is an OR circuit, 180 to 190 are inverter circuits, and 301 to 304 are signal paths.

The banknote handling process of this embodiment configured as described above will be described below.

First, the conveyance route of deposited and withdrawn banknotes will be explained using FIG. In a withdrawal transaction, a specified number of banknotes of a specified denomination is sent from the 1,000-yen note storage box 26E or the 10,000-yen note storage box 26F via the authenticity detection path 12, gate G1, and gate G2. The banknotes are transported to the banknote receiving box 2. If a reply message is received from the central device to permit the withdrawal transaction, the deposit/withdrawal port 1 is opened and the withdrawn banknotes in the bill receiving box 2 are discharged. If a reply message prohibiting the withdrawal transaction is received, the banknotes in the banknote receiving box 2 are transferred to the banknote separation box 3 and the authenticity discriminator 1.
2 and temporary stacker 27 via gate G1.
A, and when all the banknotes in the banknote receiving box 2 have been transported to the temporary stacker 27A, the banknotes are transferred to the temporary stacker 27A.
Store 7A banknotes in recycling box 27,
The banknotes taken out by the withdrawal are collected from the recycling box 27 via the denomination discriminator 28 into the respective denomination storage boxes 26E and 26F.

In a deposit transaction, deposited banknotes are received in a banknote receiving box 2, a banknote separation box 3, and an authenticity discriminator 1.
2 and temporary stacker 27 via gate G1.
Transported to A. If the deposit transaction is permitted upon receiving a response from the central device, and if the recycle box 27 is full, the deposited banknotes in the temporary stacker 27A are stored in the bulk storage box 25. If the recycle box 27 is not full, the deposited banknotes are stored in the recycle box 27, and the banknotes are supplied from the recycle box 27 to each denomination storage box 26E, 26F that is not full. In addition, if the deposit transaction is prohibited, the deposited banknotes in the temporary stacker 27A are transferred to the receiving box 2 via the denomination discriminator 28, gates G3 and G4, authenticity discriminator 12, gate G1 and gate G2. The banknotes are transported, the deposit/withdrawal port 1 is opened, and the deposited banknotes are returned.

Next, details of the operation will be explained using FIGS. 2 to 7.

The message identification 205 of the reply message 204 from the central device 201 in FIG.
The output signals 301, 302,
When 303 or 304 becomes the true value, it is possible to recognize whether withdrawal transactions are permitted, withdrawal transactions are prohibited, deposit transactions are permitted, or deposit transactions are prohibited, respectively.

First, the banknote handling process in the case of a withdrawal transaction will be explained. The flow of processing in this case is shown in the flowcharts of FIGS. 5A and 5B. Note that the symbols used in this flowchart are the same as those used in FIG.

The terminal device 202 is a withdrawal transaction operation completion detection circuit 1
When the completion of the input operation is detected by 08, the inquiry message created by the inquiry message creation circuit 103 is gated by the AND circuit 140 and set in the transmission/reception buffer 101, thereby transmitting the inquiry message to the central device. At the same time, the dispensing banknote counting command circuit 109 sends instructions to each denomination storage box 26E and 26 according to the input data.
The banknotes are taken out from F and conveyed to the banknote receiving box 2.

When the dispensing banknote counting completion detection circuit 110 detects the completion of the banknote counting operation, the AND circuit 141 performs the following operations.
The banknote supply command circuit 1 gates the conditions until both the 1,000-yen note and 10,000-yen note storage boxes are full, or the recycling box 27 is empty.
21 is activated, and the recycle box 27 supplies the amount of banknotes taken out from each denomination storage box in response to a withdrawal instruction. The 1,000 yen note taking command circuit 122 and the 10,000 yen note taking command circuit 123 determine the denomination of the banknote conveyed from the recycling box 27 by the banknote supply command circuit 121 when the banknote passes through the denomination discriminator 28. Gate G3 and Gate G respectively
4 to take banknotes into storage boxes for each denomination.

If either one of the denomination storage boxes is full, the temporary stacker 27 is controlled by gate G1.
Store in A. In addition, the banknotes stored in the temporary stacker are stored in the stacker when the banknote feeding operation ends and the output signal of the AND circuit 141 becomes a false value.
When the AND circuit 164 becomes the true value and the recycle box import command circuit 125 is activated, the data is stored in the recycle box 27.

As a result of decoding the response message, if the withdrawal transaction is prohibited, the output signal 302 of the response message identification decoder 111 becomes the true value, the withdrawal bill collection command circuit 126 is activated, and the bill is taken out to the bill receiving box 2. The withdrawn banknotes are temporarily stored in the stacker 27A.
Transport to. This operation continues until there are no more bills in the bill receiving box 2, the output signal of the receiving box no-bill detecting circuit 114 becomes a true value, and the output of the AND circuit 153 becomes a false value.

When the output signal of the receiving box banknote-free detection circuit 114 is a true value, that is, when the operation of storing banknotes from the receiving box to the temporary stacker is completed, the output signal of the AND circuit 154 is a true value, and the recycle box import command circuit 125 is activated. Ru. The recycling box 27 is activated by the temporary stacker banknote absence detection circuit 119.
When the storage operation is completed, the output signal of the AND circuit 152 becomes the true value, and the banknote supply command circuit 121
is activated and the bills taken out with the withdrawal instruction are stored in storage boxes 26E and 2 for each denomination from the recycling box.
Supplied to 6F.

Next, banknote handling processing in the case of a deposit transaction will be explained. The flow of processing in this case is shown in the flowcharts of FIGS. 6A to 6D. The symbols used in the flowchart are the same as those used in FIG. Further, FIG. 7 is a time chart showing a situation in which processing in the automatic teller machine (from transaction selection to medium receipt) and banknote handling processing are processed in parallel during deposit processing.

When a deposited bill is inserted into the bill receiving box 2, it is detected by the deposited bill insertion completion detection circuit 104, and the deposited bill counting command circuit 105 is activated. The banknotes placed in the banknote receiving box are conveyed to the temporary stacker 27A via the banknote separation box 3, the authenticity discriminator 12, and the gate G1. When the operation of transporting banknotes from the banknote receiving box 2 to the temporary stacker 27A is completed and the input operation required for the deposit transaction is completed, the output of the deposit transaction completion detection circuit 107 becomes the true value,
The inquiry message created by the inquiry message creation circuit 103 is set in the transmission/reception buffer via the AND circuit 140 and transmitted to the central device.

A reply message from the central unit to the inquiry is decoded by the message identification decoder 111. As a result of decoding, if the deposit transaction is permitted, the output signal 303 of the decoder 111 becomes the true value. Recycle box full detection circuit 11
8 is the true value, that is, if the recycle box 27 is full, the batch storage box collection command circuit 1
27 is activated and the deposited banknotes in the temporary stacker 27 are stored in the bulk storage box 25. If the recycle box 27 is not full, the recycle box import command circuit 125 is activated and the temporary stacker 27 is
The deposited banknotes in A are stored in the recycling box 27.

When the output signal of the temporary stacker banknote detection circuit 119 becomes the true value and the end of the storage operation in the recycle box 27 is detected, the output of the AND circuit 157 becomes the true value, the banknote supply command circuit 121 is activated, and the banknote supply command circuit 121 is activated to start recycling. Bills are supplied from the box 27 to the denomination storage boxes 26E and 26F which are not full.

When this bill passes through the denomination discriminator 28, the denomination is determined, and when the output signal of the AND circuit 158 or 159 becomes the true value, the thousand yen bill receiving command circuit 1
The gate G3 is controlled by the activation of the 22, and the gate G4 is controlled by the activation of the 10,000 yen bill retrieval command circuit 123, and banknotes are stored in the denomination storage boxes. When supplying banknotes from the recycling box 27 to the denomination storage boxes 26E and 26F, if either one of the denomination storage boxes is full,
When the output signal of the AND circuit 160 becomes the true value, the temporary stacker retrieval command circuit 124 is activated, and the banknotes are collected in the temporary stacker 27A.

When both denomination storage boxes 26E and 26F are full, or when the recycle box 27
When becomes empty, the above supply operation ends,
When the output signal of the AND circuit 161 becomes the true value and the recycle box import command circuit 125 is activated, the banknotes in the temporary stacker 27A are stored in the recycle box 27.

Here, the banknote handling process after receiving the deposit transaction permission from the central device is, as shown in FIG. This is done simultaneously with media release and media reception. Therefore, the next transaction can be started immediately after the transaction ends.

As a result of decoding the response message identification code, if the deposit transaction is prohibited, the output signal 304 of the decoder 111 and the output of the AND circuit 162 become true values, the deposited banknote return command circuit 128 is activated, and the temporary stacker 27A is activated. The deposited banknotes taken in are conveyed to the banknote receiving box 2. Temporary Statsuka 2
When all the banknotes in 7A are conveyed to the receiving box, the output signal of the temporary stacker banknote-free detection circuit 119 becomes a true value, the output signal of the AND circuit 162 becomes a false value, and the deposited banknote return command is canceled. .

Also, at this time, since the output signal of the AND circuit 163 becomes the true value, the deposit/withdrawal port open command circuit 1
20 is activated, the deposit/withdrawal port 1 is opened, and the deposited banknotes are returned. When deposited banknotes are removed,
The output signal of the banknote removal detection circuit 112 is the true value,
The output of the AND circuit 163 becomes a false value, the deposit/withdrawal port open command is canceled, and the deposit/withdrawal port 1 is closed.

In the above embodiment, a case has been described in which the operation on the terminal device side is configured by a logic circuit, but it goes without saying that this may also be done by program processing by a microprocessor or the like.

〔Effect of the invention〕

The present invention is as described above, and in a deposit transaction, after the inserted banknotes are temporarily stored in the stacker, when the central device gives permission for the deposit transaction, the automatic teller machine receives the card, slip,
Processing for banknotes consists of outputting a transaction that releases a medium such as a passbook, storing banknotes in a temporary stacker in a recycling box, and supplying banknotes from the recycling box to a banknote storage box. Since the output processing and the processing for banknotes are separate and independent processes, the processing for the banknotes is performed simultaneously and in parallel with the output processing for the transaction until the output processing for the transaction is completed. The supply of banknotes to the box is
Since this is carried out before the output processing of the transaction is completed, the banknotes have already been supplied to the banknote storage box at the end of the deposit transaction.

Therefore, in the present invention, there is no need to perform the banknote supply process after the transaction is completed, and the effect that the banknote supply process after the transaction is unnecessary can be obtained.

Therefore, the present invention has the effect that the transaction suspension state of the device does not occur due to the supply of banknotes to the banknote storage box after the transaction is completed.

Furthermore, in the present invention, when the deposit transaction ends, the process of supplying banknotes to the banknote storage box is completed.
The effect is that the next transaction is executed without any influence from the previous deposit transaction.

Further, in the present invention, a recycling box is provided, the recycling box is physically large, and a plurality of banknote storage boxes for storing withdrawn banknotes by denomination are physically smaller than the recycling box. Since a sufficient amount of banknotes can be stored in the box and the deposited banknotes are also recycled, there is an advantage that there is no need to suspend the transaction and supply banknotes to the recycling box.

Furthermore, according to the present invention, since there is no need to put the device in a trading suspension state, there is an advantage that customers are not made to wait due to trading suspension.

[Brief explanation of drawings]

The drawings all relate to embodiments of the present invention; FIG. 1 shows an example of the configuration of an online system, FIG. 2 shows an example of a message format received from a central device, and FIG. 3 shows an example of a message format received from a central device. A block diagram of the bill conveyance mechanism, FIG. 4 is a logical configuration diagram of the terminal device side, FIGS. 5A and 5B are flowcharts showing the flow of bill handling processing in the case of dispensing processing, and FIGS. 6A to 6D. 7 is a flowchart showing the flow of banknote handling processing in the case of deposit processing, and FIG. 7 is a time chart showing the situation of parallel processing. 1... Deposit/withdrawal port, 2... Bill receiving box, 3... Bill separating box, 12... Authenticity discriminator, 25... Bulk storage box, 26E, 26F... Storage box by denomination, 27...
...Recycle box, 27A...Temporary stacker, 28...Denomination discriminator.

Claims (1)

[Claims] 1. A temporary stacker that temporarily holds accepted deposited banknotes, a physically larger recycling box that stores the accepted deposited banknotes that can be recycled for withdrawal, and a physically larger recycling box that stores withdrawn banknotes that are physically smaller than the recycling box. A recycling-type banknote handling method in an automated teller machine comprising a plurality of banknote storage boxes for storing banknotes by type and a control unit connected to a central device, the method comprising: determining whether a transaction is possible or not to the central device in response to a deposit transaction input; Processing the inquiry and storing the banknotes inserted by the user in the temporary stacker,
When a deposit transaction is approved as a result of the inquiry process, a storage process is performed to store the banknotes in the temporary stacker into the recycling box, and after the storage process is completed, the banknote storage status of the plurality of banknote storage boxes is checked and whether the banknotes are full or not. When there is a banknote storage box that is not full, the banknote is taken out from the recycling box and transported, the denomination is determined during transport, and the banknote of the corresponding denomination is supplied to the banknote storage box that is not full. Banknotes that do not exist are supplied to the temporary stacker and then stored in the recycle box. After the deposit transaction permission is granted, the storage process and supply process and the transaction of discharging media such as cards, slips, passbooks, etc. and output processing are performed independently and in parallel.