KR20090064982A - Power-supply device and power-supply method for atm - Google Patents

Abstract

The present invention relates to a power supply device and a power supply method of the automated teller machine, and more particularly, by measuring the amount of current consumed according to the operation of the automated teller machine in real time, when the current amount is below a predetermined value, the power is supplied from the main power source. In addition, the present invention relates to a power supply device and a power supply method of the automatic teller machine that can reduce the capacity of the main power supply device by cutting off the main power supply and supplying power from the battery when the value increases above a certain value.

To this end, the present invention, the main power for supplying power to the automated teller machine, the battery for supplying current to the automated teller machine in place of the main power when the internal consumption current of the automated teller machine more than a certain value, the inside of the automated teller machine A current sensing sensor that is installed at a predetermined position and measures the amount of current inside the device, which changes as the financial teller machine operates according to a user's request, and receives the measured amount of current from the current sensing sensor. The control unit for controlling the switch according to the result, and if the current value measured according to the command of the control unit is within the allowable capacity range of the main power supply, the main power supply is connected to the module for each part, and the measured current amount value If the main power supply exceeds the allowable capacity range, the switch that connects the battery to the partial module is It is characterized.

Description

POWER SUPPLY AND POWER SUPPLY METHOD FOR ATM

The present invention relates to a power supply device and a power supply method of the automated teller machine, and more particularly, to measure the amount of current consumed according to the operation of the automated teller machine in real time to supply current from the main power supply if the current amount is below a predetermined value. In addition, the present invention relates to a power supply device and a power supply method of a automated teller machine that can reduce the capacity of the main power supply by cutting off the main power and supplying power from the battery when the amount of current increases above a certain value.

The automated teller machine is installed in convenience stores and public places in addition to banks to provide customers with convenient financial services at banks and other financial institutions, allowing customers to freely deposit and withdraw cash using their own cash service cards or credit cards. to be.

In general, the power supply of the automatic teller machine is normally supplied from the main power supply, and in the case of abnormal power failure or power failure, the power supply is supplied through a battery mounted therein so that the device can be used normally.

1 is a block diagram showing the internal structure of a conventional automated teller machine, the main power supply 10 for supplying power to the automated teller machine, the power supply so that the operating system can be terminated normally and the data being processed can be backed up in the event of a power failure or abnormality of the main power supply. Battery 20 for supplying the battery, the battery state sensor 30 for monitoring the state of the battery, the input module 40 for converting and processing the user's input information into an electrical signal, so as to receive or withdraw cash or check Cash / check deposit and withdrawal module 41 to read the information stored in the magnetic strip of the passbook or credit card, account information, record the deposit and withdrawal information, and then return the card or bankbook, the transaction (42), transactions Printing module 43, which prints the contents on the account book or on the transaction statement, and the computer system of the financial company (hereinafter referred to as "host") Communication module 44 for performing the exchange, battery power backup control in case of power failure and the control unit 50 for controlling the operating system and file system of the automation device according to the user's request and the conveying path for conveying bills during cash input and output (not shown) ) And a main motor (not shown) for transmitting power to the conveying path.

The main power that constitutes the automated teller machine provides power for the operation of a number of modules, and the battery provides power for the device to operate normally for a certain period of time in case of main power failure or power failure. .

Looking at the amount of current consumed in actual operation of the automated teller machine, the current is about 2A ~ 6A in the case of standby state without user's use, reading card or bankbook information, entering information, printing, etc. On the other hand, a large current of about 10A to 20A is consumed in counting cash in a counter, discriminating counterfeit money, or driving a main motor.

Therefore, in order to smoothly operate the equipment, the capacity of the main power supply must be adjusted to be greater than or equal to the maximum current consumption value of the automatic teller machine. However, in this case, the main power supply becomes large and the manufacturing cost increases accordingly. In addition, while the battery built in the device is expensive to install, there is a problem that the use efficiency is extremely low because it is used only in an emergency such as a power failure or power failure.

The present invention is to solve the problems of the prior art as described above, when the amount of current consumed in accordance with the operation of the automated teller machine in real time, when the current amount is below a certain value, the power is supplied from the main power supply, and increases above a certain value The purpose of the present invention is to provide a power supply device and a power supply method of the automated teller machine that can cut the main power supply and supply power from the battery to reduce the capacity of the main power supply device.

The power supply apparatus of the automatic teller machine according to the present invention includes a main power supply for supplying power to the automated teller machine; A battery for supplying current to the automated teller machine in place of the main power supply when the internal consumption current of the automated teller machine becomes more than a predetermined value; A current sensing sensor installed at a predetermined position inside the automatic teller machine and measuring the amount of current inside the machine, which changes as the automatic teller machine operates according to a user's request; A control unit which receives the measured amount of current from the current sensor and compares the measured amount of current with the allowable capacity of the main power supply and adjusts the switch according to the comparison result; If the measured current value is within the allowable capacity of the main power supply, the main power is connected to the module for each part. If the measured current value exceeds the allowable capacity of the main power supply, the battery A switch to connect; Characterized in that consisting of.

In addition, the power supply method of the automatic teller machine according to the present invention, by the current sensing sensor installed in a predetermined position inside the automated teller machine is changed according to the operation of the automatic teller machine according to the user's request Measuring a current amount and transferring the measured current amount value to a controller; When the measured value is compared with the allowable capacity of the main power supply in the control unit receiving the measured value, and the measured current value is within the allowable capacity of the main power supply, the main power is connected to the module for each part, and the measured current amount value is the allowable capacity of the main power supply. If exceeding, instructing the battery to be connected to the module for each part; Connecting a main power source or a battery to the device according to a command of the controller; Characterized in that comprises a.

According to the power supply device and the power supply method of the automatic teller machine according to the present invention, the main power supply by supplying the main power only when the current consumption of the device is below a certain value, and by supplying battery power when the current consumption of the device is above a certain value. In addition, it is possible to reduce the size, reduce the production cost, and use the existing battery effectively.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the following embodiments unless departing from the gist of the present invention.

Figure 2 is a block diagram showing the internal configuration of the automated teller machine according to the present invention. 2, the power supply device 300 of the automated teller machine according to the present invention is the main power supply 100 for supplying power to the module 400 for each part, the main power supply at the time of abnormality or power failure of the main power supply (100) Instead of 100, the battery module 200 for supplying power to the module 400 for each part, connected to the main power source 100 or the battery 200, and operated by receiving power from the module module for each part, the main power source ( 100 and a switch 301 installed between the battery 200 and each module 400 to connect the main power source 100 or the battery 200 with the module 400 according to the command of the controller 500. Is installed at a predetermined position to measure the amount of current supplied to the instrument from within the instrument, connected to the current sensor 301, the module 400 and the power supply unit 300 for inspecting the change in the amount of current, each It is configured to include a control unit 500 for controlling the module 400 and the power supply unit 300 for each part.

The module 400 for each part is an input module 401 for converting and processing user input information into an electrical signal, a cash / check deposit and withdrawal module 402 for receiving or withdrawing cash or checks according to a user's request, and a bankbook. Bank account / card processing module 403, which can read the account information stored in the magnetic strip of the credit card and send it to the host through the communication unit, record the deposit and withdrawal contents, and return the card or bank account, and the transaction history. It is provided with a printing module 404 for printing on the bankbook and printing the transaction details, and a communication module 405 for exchanging information with the host.

In this case, looking at the amount of current consumed by the automated teller machine to perform the financial business according to the user's request, the standby state without the user's use, the reading of the card or bankbook information, the step of receiving the information, the printing step, etc. Currents of about 2A to 6A are consumed, and currents of about 10A to 20A are consumed in the case of counting cash in the counter, discriminating counterfeit money, or driving the main motor.

The current sensor 302 is installed at a predetermined position inside the automated teller machine measures the amount of current consumed when performing the financial business and transmits it to the control unit 500.

The controller 500 controls the switch 301 when the current amount value is within the capacity range of the main power source 100 using the current amount value measured by the current detection sensor 302 to control the main power supply module 100 by part. 400, and when the measured amount of current exceeds the capacity of the main power supply 100, the switch 301 is controlled to connect the battery 200 to the module 400 for each part.

In this case, the capacity of the main power supply 100 may be variously designed at the time of manufacturing the device according to the characteristics of the module 400 of each part and the intention of the designer. Preferably, the capacity of the main power supply 100 is 6A to 10A. In the case where a relatively large amount of current is required to be set to be between, the power supply device can be miniaturized by configuring the battery 200 to be used.

The switch 301 is provided between the main power source 100 and the battery 200 and the module 400 for each part. The switch 301 selects the main power source 100 or the battery 200 according to the command of the controller 500, and then selects the main power source 100 or the battery 200. To the module 400.

3 is a flowchart illustrating a power supply method of an automated teller machine according to an embodiment of the present invention.

When the user starts using the device with respect to the automated teller machine in standby state (S601) (S602), the current detection sensor 302 installed at a predetermined position inside the automated teller machine operates the module 400 for each part. By measuring the amount of current inside the device that changes as (S603) and delivers the measured value of the current amount to the control unit 500.

The controller 500 receiving the value of the current amount compares the value of the received current amount with the allowable current amount value of the main power supply 100 (S604) when the allowable current amount value of the main power supply exceeds the allowable current amount value by controlling the battery. By connecting the 200 and the module 400 to each other (S606) to perform the financial business, if not exceeded by controlling the switch 301 to control the main power source 100 and the module 400 for each part By connecting to each other (S605) to enable the financial business.

Until the automatic teller machine is idle, the current amount sensor 302 installed in the device measures the amount of current each time the operation of the device is changed (S603) and transmits the measured value to the control unit 500, and controls ( When the received current amount value is within the allowable capacity range of the main power supply 100, the main power supply 100 is connected to the module 400 for each part, and the received current amount value exceeds the allowable capacity of the main power supply 100. In this case, the process of connecting the battery 200 to the module 400 for each part is repeated.

Subsequently, when the automatic teller machine is in an idle state (S607), the battery state sensor 201 installed in the battery 200 checks the state of charge of the battery 200 and controls the control unit connected to the battery state sensor 201 ( When the signal is transmitted to 500 and the controller 500 determines that the amount of charge of the battery 200 is insufficient (S608), the controller 500 charges the battery 200 (S609) and indicates that the amount of charge of the battery 200 is sufficient. If it is determined, the process returns to the standby state (S611) to perform the next financial business.

In the above process, the charging of the battery 200 is performed in an idle state of a device in which the financial business is not performed so that an abnormal situation may not occur during the financial business performance.

4 is a flowchart illustrating a process of withdrawing cash through an automated teller machine according to an embodiment of the present invention.

If the person using the automated teller machine inserts the passbook into the device (S801), the automated teller machine reads the passbook information and inquires the account information (S802). If there is no abnormality in the account and account information as a result of the inquiry, the user inputs the amount and password to be withdrawn (S803), and accordingly, the automatic teller machine converts the input information into an electrical signal (S805). In the above process, since a current amount of 2A to 6A is consumed, power is supplied through the main power source 10.

When the input information is correct (S805), the cash is counted through the counter (S806), and the cash is transferred through the transport path (S807). In this process, since the current of 10A to 20A is consumed, the battery 20 Supply power through

 After the cash is withdrawn normally, the balance is printed on the bank account (S808) and the bank account is returned to the user (S809). However, if the input information does not match the account information, the process is terminated and the account is returned to the user (S809). In this process, since current of 2A to 6A is consumed, power is supplied through the main power source 10.

Figure 1 shows the configuration of a conventional automated teller machine.

Figure 2 shows a part of the configuration of the automated teller machine is a power supply device of the automated teller machine according to the present invention.

3 is a flowchart illustrating a power supply method of an automated teller machine according to the present invention.

<Description of main parts of drawing>

100: main power 200: battery

201: battery status sensor 300: power supply

301: switch 302: current sensor

400: module for each part 401: input module

402: cash / card processing module 403: bank / card processing module

404: printing module 405: communication module

500: control unit

Claims (7)

In the power supply of the automatic teller machine, A main power supply for powering the automatic teller machine; A battery for supplying current to the automated teller machine in place of the main power supply when the internal consumption current of the automated teller machine becomes more than a predetermined value; A current sensing sensor installed at a predetermined position inside the automatic teller machine and measuring the amount of current inside the machine, which changes as the automated teller machine starts a financial service; A controller which receives the measured amount of current from the current sensor and compares the measured amount of current with an allowable capacity of the main power supply and adjusts the switch according to the result; If the measured current value is within the allowable capacity of the main power supply, the main power is connected to the module for each part. If the measured current value exceeds the allowable capacity of the main power supply, the battery A switch to connect; Power supply of the automatic teller machine characterized in that it comprises a. The method of claim 1, And a battery state sensor connected to the battery and measuring a state of charge of the battery and transferring the battery state to the controller. The method of claim 1, The power supply of the automatic teller machine, characterized in that the capacity of the main power is set within the range of 6A ~ 10A. In the power supply method of the automated teller machine, Measuring the amount of current inside the device that changes as the automated teller machine starts the financial service by a current sensor installed at a predetermined position inside the automated teller machine, and transmitting the measured amount of current to the controller; When the measured value is compared with the allowable capacity of the main power supply in the control unit receiving the measured value, and the measured current value is within the allowable capacity of the main power supply, the main power is connected to the module for each part, and the measured current amount value is the allowable capacity of the main power supply. If exceeding, instructing the battery to be connected to the module for each part; Connecting a main power source or a battery to a module for each part according to a command of the controller; Power supply method of the automatic teller machine comprising a. The method of claim 4, wherein The power supply method is a power supply method of the automated teller machine, characterized in that it is repeatedly performed every time the operation of the automated teller machine changes until the automatic teller machine is idle. The method of claim 4, wherein Measuring the battery capacity after the automatic teller machine is idle, and charging the battery when the battery charge becomes less than a predetermined amount. The method of claim 6, Charging the battery is a power supply method of the automated teller machine, characterized in that the automated teller machine is performed in an idle state that does not perform financial business.

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