JP2004199445A - Contactless ic card transaction device and transaction method and transaction control program to be used for the device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a non-contact IC card other than a contactless IC card of a customer utilizing a contactless IC card transaction device from being erroneously detected. <P>SOLUTION: When the customer utilizing the transaction device 21 brings a contactless IC card 40 into contact with an IC card contact detection part 31, a contact detection signal is outputted. The contact detection signal is sent to a control part 32. In a range of prescribed time (e.g. about 3sec) after outputting the contact detection signal, an IC card processing part 22 detects the approach of the contactless IC card 40 by a command from the control part 32 and outputs an approach detection signal. When the approach detection signal is outputted, the IC card processing part 22 reads out customer ID recorded in the contactless IC card 40 on the basis of a command from the control part 32 and sends the customer ID to the control part 32. The control part 32 discriminates whether the contactless IC card 40 can be used on the basis of the customer ID, and when the the card is usable, prescribed transaction operation is started. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a non-contact type IC card transaction device, a non-contact type IC card detection method and a detection control program used in the device, and in particular, an unspecified large number of people in a narrow space such as a convenience store where many people come and go. The present invention relates to a non-contact type IC card transaction device which is preferably installed in a place where a human is present, a non-contact type IC card detection method and a detection control program used in the device.
[0002]
[Prior art]
The automatic cash transaction apparatus has conventionally been installed and used in a financial institution such as a bank, but in recent years has tended to be installed in a convenience store and the like. Conventionally, the automatic cash transaction apparatus is mainly used when a customer inserts a cash card, but in recent years, an automatic cash transaction apparatus using an IC card has been manufactured. IC cards include a contact type IC card and a non-contact type IC card. The contact type IC card is provided with terminals on its surface, and exchanges data with a reader / writer device in the transaction device via the terminals. On the other hand, the non-contact type IC card has an antenna inside and exchanges data with the transaction device via the antenna. The names of “contact type IC card” and “non-contact type IC card” are commonly known in Japan, and international standards include “Integrated circuit card with contact” (IC card with external terminal) and “Contactless integrated circuit”. card "(IC card without external terminals). Among these cards, the non-contact type IC card uses a different frequency for communication depending on the distance to the transaction device at the time of use, and the short type (up to about 20 cm), the short type, the short type, and the slightly longer distance (up to about 1 m) ) The near type uses long waves, and the long distance (several meters) remote type uses microwaves.
[0003]
Conventionally, this type of non-contact type IC card transaction device is, for example, as shown in FIG.
The non-contact type IC card transaction device is an automatic cash transaction device 1 as shown in the figure, and includes an IC card processing unit 2, a magnetic card processing unit 3, a passbook processing unit 4, a receipt processing unit 5, , An internal operation unit 6, a customer operation unit 7, a journal processing unit 8, a bill processing unit 9, a coin processing unit 10, and a control unit 11. The IC card processing unit 2 outputs an approach detection signal when the contactless IC card approaches an area where communication is possible. The magnetic card processing unit 3 outputs an insertion detection signal when a magnetic card such as a cash card is inserted. The passbook processing unit 4 performs processing such as printing on the passbook.
[0004]
The receipt processing unit 5 issues a receipt on which the processing content of the automatic cash transaction apparatus 1 is printed. The internal operation unit 6 has various switches and display means for performing an inspection and maintenance work of the transaction apparatus 1. The customer operation unit 7 has a touch panel, key switches, and display means for the customer to operate. The journal processing unit 8 records the processing content of the transaction device 1. The bill processing unit 9 identifies the bill inserted by the customer and pays out the bill according to the request of the customer. The coin processing unit 10 identifies coins inserted by a customer and pays out coins in response to a request from the customer. The control unit 11 starts a predetermined transaction operation based on the customer ID recorded on the non-contact type IC card when the approach detection signal is output from the IC card processing unit 2, and also controls the entire transaction apparatus 1. Perform control.
[0005]
In this automatic cash transaction apparatus 1, a customer approaches a non-contact type IC card to the IC card processing unit 2, and the non-contact type IC card approaches a communicable area of, for example, within 10 cm from the IC card processing unit 2. At this time, the IC card processing unit 2 sends an approach detection signal to the control unit 11. Then, based on the customer ID recorded in the non-contact type IC card, the control unit 11 determines whether or not the non-contact type IC card can be used. The operation is performed.
[0006]
In addition to the above-described automatic cash transaction apparatus 1, conventionally, as this kind of technology, there has been one described in the following literature, for example.
In the non-contact type IC card processing device described in Patent Document 1, the distance from the antenna unit to the non-contact type IC card is detected, and when the distance to the antenna unit is within a predetermined range, data transfer starts. The data transfer between the main body and the non-contact type IC card is reliably performed.
[0007]
In the automatic cash transaction apparatus described in Patent Document 2, whether or not a user has a non-contact type IC card is detected by a non-contact type IC card processing unit, and a financial institution name menu is displayed. Since it is confirmed that the name of the financial institution read out from the contact type IC card by selective communication matches the financial institution in the menu, there is no need to insert the card and the operability of the user is improved. .
[0008]
[Patent Document 1]
JP-A-2000-149072 (page 1, FIG. 1, 2, 3)
[Patent Document 2]
JP 2001-052237 A (Page 1, FIGS. 1 and 4)
[0009]
[Problems to be solved by the invention]
However, the conventional automatic cash transaction apparatus 1 has the following problems.
That is, when the automatic cash transaction apparatus 1 shown in FIG. 9 is installed in a place where there are many unspecified people in a narrow space, such as a convenience store, where many people enter and exit, the transaction apparatus 1 is used. However, there is a problem that a contactless IC card other than the customer who wants to perform the transaction is erroneously detected and an unnecessary transaction operation is started.
[0010]
Further, in the non-contact type IC card processing device described in Patent Document 1, since the communication is performed by detecting the distance from the antenna unit to the non-contact type IC card, there is a problem that there are many unstable elements. Further, the automatic cash transaction apparatus described in Patent Document 2 has the same problem as the transaction apparatus 1 of FIG. 9 because all the IC cards within the detection range are detected by the non-contact type IC card processing unit.
[0011]
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and provides a non-contact type IC card transaction device that does not erroneously detect a non-contact type IC card other than a customer who wants to use the transaction device. It is an object of the present invention to provide a transaction method and a transaction control program which are used.
[0012]
[Means for Solving the Problems]
In order to solve the above problem, the invention according to claim 1 includes an IC card processing unit that outputs an approach detection signal when a contactless IC card that transmits and receives data by wireless communication approaches a predetermined area. A contact detection unit that outputs a contact detection signal when the contactless IC card or an object comes into contact with the contactless IC card transaction device that starts a predetermined transaction operation based on the approach detection signal; And a control unit for detecting the approach of the non-contact type IC card to the IC card processing unit after the output of the contact detection signal.
[0013]
According to a second aspect of the present invention, there is provided an IC card processing section for outputting an approach detection signal when a non-contact type IC card on which a customer ID is recorded approaches a predetermined area, and for outputting the approach detection signal. And a control unit for starting a predetermined transaction operation based on the customer ID. The non-contact type IC card transaction device outputs a contact detection signal when the non-contact type IC card or the object comes into contact A contact detection unit is provided, and the control unit causes the IC card processing unit to detect the approach of the non-contact type IC card within a predetermined time period after the contact detection signal is output; The predetermined transaction operation is started based on the customer ID when the approach detection signal is output from the IC card processing unit.
[0014]
The invention according to claim 3 has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area. The present invention relates to a non-contact type IC card transaction device that starts a predetermined transaction operation based on the IC card processing unit, adjusts a communicable distance to the IC card processing unit to detect only contact of the non-contact type IC card, The communicable distance is readjusted within a predetermined time period after the contact detection signal is output from the processing unit to detect the approach of the non-contact type IC card, and the approach detection signal is output from the IC card processing unit. And a control unit for starting the predetermined transaction operation when is output.
[0015]
According to a fourth aspect of the present invention, there is provided an IC card processing unit for outputting an approach detection signal when a non-contact type IC card on which a customer ID is recorded approaches a predetermined area, and for outputting the approach detection signal. And a control unit that starts a predetermined transaction operation based on the customer ID. The control unit adjusts a communicable distance to the IC card processing unit. Only the contact of the non-contact type IC card is detected, and the communicable distance is readjusted within a predetermined time period after the contact detection signal is output from the IC card processing unit, to thereby adjust the non-contact type IC card. The approach of the card is detected, and the predetermined transaction operation is started based on the customer ID when the approach detection signal is output from the IC card processing unit.
[0016]
The invention according to claim 5 has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area. The present invention relates to a transaction method for detecting a non-contact type IC card before starting the predetermined transaction operation, which is used in a non-contact type IC card transaction device that starts a predetermined transaction operation based on the contact detection unit. A contact detection process in which the contact detection unit outputs a contact detection signal when the non-contact type IC card or object comes into contact, and the IC card processing unit outputs the contact detection type signal after the contact detection signal is output. IC card detection processing for detecting the approach of an IC card is performed.
[0017]
According to a sixth aspect of the present invention, there is provided an IC card processing unit for outputting an approach detection signal when a non-contact type IC card on which a customer ID is recorded approaches a predetermined area, and when the approach detection signal is output. And a control unit for starting a predetermined transaction operation based on the customer ID. The non-contact type IC card transaction device detects the non-contact type IC card before starting the predetermined transaction operation. A contact detection unit is provided, and the contact detection unit outputs a contact detection signal when the non-contact type IC card or the object comes into contact, and the contact detection signal is output. The IC card processing unit detects the approach of the non-contact type IC card within a predetermined time range after the IC card detection process, and the IC card processing unit outputs the approach detection signal. Performing card identification processing for identifying whether or not the contactless IC card can be used based on the customer ID; and performing transaction processing for starting the predetermined transaction operation when the contactless IC card is usable. It is characterized by.
[0018]
The invention according to claim 7 has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area. Used in a non-contact type IC card transaction device that starts a predetermined transaction operation based on the transaction method of detecting the non-contact type IC card before starting the predetermined transaction operation. A first level adjustment process for adjusting a communicable distance to a level at which only contact of the non-contact type IC card is detected, a contact detection process of detecting only contact of the non-contact type IC card, A second level adjustment process for re-adjusting the communicable distance to a level at which the approach of the non-contact type IC card is detected within a predetermined time period after the contact detection signal is output from the card processing unit; Performing an IC card detection process of detecting approach of the non-contact type IC card and a transaction process of starting the predetermined transaction operation when the IC card processing unit outputs the approach detection signal. Features.
[0019]
The invention according to claim 8 is an IC card processing unit that outputs an approach detection signal when a non-contact type IC card on which a customer ID is recorded approaches a predetermined area, and when the approach detection signal is output. And a control unit for starting a predetermined transaction operation based on the customer ID. The non-contact type IC card transaction device detects the non-contact type IC card before starting the predetermined transaction operation. A first level adjustment process of adjusting a communicable distance to the IC card processing unit to a level at which only contact of the non-contact type IC card is detected; A contact detection process of detecting only a contact, and a communication detection range within a predetermined time after a contact detection signal is output from the IC card processing unit. A second level adjustment process for re-adjusting the IC card, an IC card detection process for detecting the approach of the non-contact type IC card, and the customer ID when the approach detection signal is output from the IC card processing unit. And a transaction processing for starting the predetermined transaction operation when the non-contact type IC card is usable based on a card identification process for identifying whether or not the non-contact type IC card can be used. .
[0020]
According to a ninth aspect of the present invention, there is provided a transaction control program for causing a computer to realize the functions of the contactless IC card transaction device according to the first to fourth aspects.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First embodiment
FIG. 1 is a block diagram showing an electrical configuration of a contactless IC card transaction device according to a first embodiment of the present invention.
As shown in the figure, the non-contact type IC card transaction device of this embodiment is an automatic cash transaction device 21, which includes an IC card processing unit 22, a magnetic card processing unit 23, a passbook processing unit 24, a receipt processing unit. 25, an internal operation unit 26, a customer operation unit 27, a journal processing unit 28, a bill processing unit 29, a coin processing unit 30, an IC card contact detection unit 31, and a control unit 32. . The IC card processing unit 22 outputs an approach detection signal when the non-contact type IC card on which the customer ID is recorded approaches an communicable area. The magnetic card processing unit 23 outputs an insertion detection signal when a magnetic card such as a cash card is inserted. The passbook processing unit 24 performs processing such as printing on the passbook.
[0022]
The receipt processing unit 25 issues a receipt on which the processing content of the transaction device 21 is printed. The internal operation unit 26 has various switches and display means for performing inspection and maintenance work of the transaction device 21. The customer operation unit 27 has a touch panel, key switches, and display means for inputting data relating to transactions by operating the customer. The journal processing unit 28 records the processing contents of the transaction device 21. The bill processing unit 29 identifies the bill inserted by the customer, and pays out the bill according to the customer's request. The coin processing unit 30 identifies the coin inserted by the customer and pays out the coin according to the request of the customer.
[0023]
The IC card contact detection unit 31 is configured by a contact sensor (for example, a piezoelectric element that is turned on when an object comes into contact), and outputs a contact detection signal when a non-contact IC card or the like comes into contact. The control unit 32 has a CPU (central processing unit) 32a for controlling the entire transaction apparatus 21 and a ROM (read only memory) 32b in which a transaction control program for operating the CPU 32a is recorded. The control unit 32 causes the IC card processing unit 22 to detect the approach of the non-contact type IC card within a predetermined time after the contact detection signal is output from the IC card contact detection unit 31, and When the approach detection signal is output from the processing unit 22, a predetermined transaction operation is started based on the customer ID recorded on the non-contact type IC card, and the entire transaction device 21 is controlled.
[0024]
FIG. 2 is a perspective view showing the appearance of the automatic cash transaction apparatus 21 of FIG.
The automatic cash transaction apparatus 21 has an operation panel 33 and a front panel 34. At a substantially center of the operation panel 33, a customer operation unit 27 is provided. A bill processing unit 29 is provided at a right rear portion of the operation panel 33. A coin processing unit 30 is provided at a left rear portion of the operation panel 33. At the right end of the operation panel 33, an IC card processing unit 22 and an IC card contact detection unit 31 are provided integrally. A magnetic card processing unit 23 is provided at an upper right portion of the front panel 34, and a receipt processing unit 25 is provided below the magnetic card processing unit 23. On the left side of the magnetic card processing unit 23, a passbook processing unit 24 is provided.
[0025]
FIG. 3 is a block diagram showing an electrical configuration of a non-contact type IC card used in the automatic cash transaction apparatus 21 of FIG.
The non-contact type IC card 40 includes an antenna 41, a communication control unit 42, an I / O unit 43, a CPU 44, a memory 45, an antenna 46, and a power generation unit 47. In the non-contact type IC card 40, the power wave emitted from the IC card processing unit 22 of the transaction device 21 is received via the antenna 46, and the power for operating the non-contact type IC card 40 is generated by power generation. Generated by the unit 47. The customer ID is recorded in the memory 45 in advance. Then, the customer ID is emitted from the memory 45 to the IC card processing unit 22 of the automatic teller machine 21 via the CPU 44, the I / O unit 43, the communication control unit 42, and the antenna 41 in order, so that data necessary for the transaction can be transmitted and received. Done.
[0026]
FIG. 4 is a flowchart for explaining the operation of the automatic cash transaction apparatus 21 in FIG. 1, and FIG. 5 is a diagram showing an area where the IC card processing unit 22 can communicate.
With reference to these figures, the processing content of the transaction method using the transaction device 21 of FIG. 1 will be described.
When a customer using the transaction device 21 contacts the non-contact type IC card 40 or a wallet or the like containing the non-contact type IC card 40 with the IC card contact detection unit 31, as shown in FIG. A contact detection signal is output from the card contact detection unit 31 (step A1, contact detection processing). The contact detection signal is sent to the control unit 32. Within a predetermined time period (for example, about 3 seconds) after the contact detection signal is output from the IC card contact detection unit 31, the non-contact type IC card 40 is Is detected (step A2, IC card detection processing).
[0027]
In this case, for example, as shown in FIG. 5, when the non-contact type IC card 40 approaches a communicable area of a radius R (R; for example, about 10 cm) from the IC card processing unit 22, the IC card processing is performed. The approach detection signal is output from the unit 22. When the approach detection signal is output from the IC card processing unit 22, the customer ID recorded on the non-contact type IC card 40 is read by the IC card processing unit 22 in accordance with a command from the control unit 32, and is sent to the control unit 32. Sent out. The control unit 32 determines whether or not the contactless IC card can be used based on the customer ID (step A3, card identification processing). When the non-contact type IC card 40 is usable in the card identification processing (step A3), a predetermined transaction operation is started (step A4, transaction processing). After the transaction operation is performed normally, the transaction ends (step A5, transaction end).
[0028]
As described above, in the first embodiment, the IC card contact detection unit 31 that detects the contact of the non-contact type IC card 40 or the wallet or the like containing the non-contact type IC card 40 is provided. In order to detect that the non-contact type IC card 40 approaches an area where the IC card processing unit 22 can communicate within a predetermined time period after the contact detection signal is output from the card contact detection unit 31. Therefore, erroneous detection of a non-contact type IC card other than the customer using the transaction apparatus 21 is prevented, and only the non-contact type IC card 40 of the user himself is detected.
[0029]
Second embodiment
FIG. 6 is a block diagram showing an electric configuration of a non-contact type IC card transaction device according to a second embodiment of the present invention. Elements common to those in FIG. Common symbols are assigned.
As shown in the figure, the non-contact type IC card transaction device of this embodiment is an automatic cash transaction device 21A, in which the IC card contact detection unit 31 in FIG. Instead of the unit 32, an IC card processing unit 22A and a control unit 32A having different functions are provided. Under the control of the control unit 32A, the IC card processing unit 22A adjusts the communicable distance with the non-contact type IC card 40 to, for example, a short distance of several mm, and detects only the contact of the non-contact type IC card 40. The contact detection signal is output, and thereafter, the communicable distance is readjusted to about 10 cm as in the first embodiment, the approach of the non-contact type IC card 40 is detected, and the approach detection signal is output.
[0030]
In the control unit 32A, the transaction control program recorded in the ROM 32b is changed from that of the first embodiment. That is, the control unit 32A adjusts the communicable distance to the IC card processing unit 22A to detect only the contact of the non-contact type IC card 40, and after the contact detection signal is output from the IC card processing unit 22A. Within the predetermined time range, the communicable distance is readjusted to detect the approach of the non-contact type IC card 40. When the approach detection signal is output from the IC card processing unit 22A, the non-contact type IC card is output. In addition to starting a predetermined transaction operation based on the customer ID recorded on the card 40, the transaction device 21A is also entirely controlled. Other configurations are the same as those in FIG.
[0031]
FIG. 7 is a perspective view showing the appearance of the automatic cash transaction apparatus 21A in FIG. 6, and the same reference numerals are given to the same elements as those in FIG. 2 showing the first embodiment.
In the automatic cash transaction apparatus 21A, the IC card contact detection section 31 in FIG. 2 is deleted, and an IC card processing section 22A is provided instead of the IC card processing section 22.
[0032]
FIG. 8 is a flowchart illustrating the operation of the automatic cash transaction apparatus 21A of FIG.
With reference to this figure, the processing content of the transaction method using transaction device 21A of FIG. 6 will be described.
In the standby state, under the control of the control unit 32A, the IC card processing unit 22A adjusts the communicable distance with the non-contact type IC card 40 to a short distance of several mm (step B1, first level adjustment processing). . Next, when the customer using the transaction device 21A contacts the non-contact type IC card 40 or a purse containing the non-contact type IC card 40 with the IC card processing unit 22A, the contact from the IC card processing unit 22A is performed. A detection signal is output (step B2, contact detection processing). The contact detection signal is sent to control unit 32A. Within a predetermined time (for example, about 3 seconds) after the contact detection signal is output from the IC card processing unit 22A, the communicable distance is readjusted to a level at which the approach of the non-contact type IC card 40 is detected. (Step B3, second level adjustment processing). In response to a command from the control unit 32A, the approach of the non-contact type IC card 40 is detected by the IC card processing unit 22A (step B4, IC card detection processing).
[0033]
In this case, as in the first embodiment, for example, as shown in FIG. 5, the non-contact type IC card 40 is located within a communicable area of a radius R (R; for example, about 10 cm) from the IC card processing unit 22A. When approaching, the IC card processing unit 22A outputs an approach detection signal. When the approach detection signal is output from the IC card processing unit 22A, the customer ID recorded on the non-contact type IC card 40 is read by the IC card processing unit 22A in accordance with a command from the control unit 32A, and is sent to the control unit 32A. Sent out. The control unit 32A determines whether or not the contactless IC card can be used based on the customer ID (step B5, card identification processing). When the non-contact type IC card 40 is usable in the card identification process (step B5), a predetermined transaction operation is started (step B6, transaction process). After the transaction operation is normally performed, the transaction ends (step B7, transaction end).
[0034]
As described above, in the second embodiment, in the first and second level adjustment processes, the communication between the IC card processing unit 22A and the contactless IC card 40 based on the transaction control program recorded in the ROM 32b. Since the level of the possible distance is adjusted to the one corresponding to the contact detection and the one corresponding to the proximity detection, without providing the IC card contact detection section 31 in FIG. The erroneous detection of the type IC card is prevented, and only the non-contact type IC card 40 of the user is detected.
[0035]
As described above, the embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and even if there is a design change without departing from the gist of the present invention, the present invention is not limited thereto. Included in the invention.
For example, in FIG. 2, the IC card processing unit 22 and the IC card contact detection unit 31 are integrated, but may not be integrated if they are provided near each other. In the non-contact type IC card 40 of FIG. 3, the antenna 46 and the power generation unit 47 may be omitted as long as a battery is built in as a power source for operating the non-contact type IC card 40. In addition to the piezoelectric element, the IC card contact detection unit 31 includes an optical sensor that turns off the light receiving unit when the light of the light emitting unit is blocked when the non-contact type IC card comes into contact with the IC card. It may be constituted by a microswitch or the like which is turned on when the IC card comes into contact. Further, in the first embodiment, in step A1 (contact detection processing), the object to be brought into contact with the IC card contact detection unit 31 is a predetermined time after the contact detection signal is output from the IC card contact detection unit 31 ( As long as the customer can bring the non-contact type IC card 40 close to the IC card processing unit 22 within a range of, for example, about 3 seconds, the customer's hand or finger may be used. In each embodiment, the automatic cash transaction apparatus has been described as an example. However, the present invention can be applied to all apparatuses for performing transactions using a non-contact IC card.
[0036]
【The invention's effect】
As described above, according to the configuration of the present invention, a contact detection unit for detecting that a non-contact type IC card or an object has contacted is provided, and a predetermined detection after a contact detection signal is output from the contact detection unit. Since the non-contact type IC card is detected to approach the predetermined area from the IC card processing unit within the time range, the non-contact type IC card other than the customer who uses the non-contact type IC card transaction device is detected. In addition to preventing erroneous detection of the card, it is possible to detect only the non-contact type IC card of the user. In the first and second level adjustment processes, the level of the communicable distance between the IC card processing unit and the non-contact type IC card based on the transaction control program corresponds to the contact detection and corresponds to the approach detection. Therefore, it is possible to prevent erroneous detection of a non-contact type IC card other than the customer who uses the non-contact type IC card transaction device without providing an IC card contact detection unit, and to provide the non-contact type IC card of the customer himself / herself. Only can be detected.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electrical configuration of a contactless IC card transaction device according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing an appearance of the automatic cash transaction apparatus 21 of FIG.
FIG. 3 is a block diagram showing an electrical configuration of a non-contact type IC card used in the automatic cash transaction apparatus 21 of FIG.
FIG. 4 is a flowchart illustrating an operation of the automatic cash transaction apparatus 21 of FIG.
FIG. 5 is a diagram showing a communicable area of the IC card processing unit 22;
FIG. 6 is a block diagram showing an electrical configuration of a contactless IC card transaction device according to a second embodiment of the present invention.
FIG. 7 is a perspective view showing an appearance of the automatic cash transaction apparatus 21A of FIG. 6;
FIG. 8 is a flowchart illustrating an operation of the automatic cash transaction apparatus 21A of FIG. 6;
FIG. 9 is a block diagram showing an electrical configuration of a conventional contactless IC card transaction device.
[Explanation of symbols]
21, 21A Automatic cash transaction device (non-contact IC card transaction device)
22, 22A IC card processing unit
32, 32A control unit
31 IC card contact detection unit (contact detection unit)
32a CPU (central processing unit)
32b ROM (read only memory)
40 Non-contact IC card

Claims (9)

It has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area, and starts a predetermined transaction operation based on the approach detection signal A non-contact type IC card transaction device,
A contact detection unit that outputs a contact detection signal when the non-contact type IC card or the object comes into contact with the contact detection unit;
A control unit for detecting the approach of the non-contact type IC card to the IC card processing unit after the output of the contact detection signal is provided. An IC card processing unit that outputs an approach detection signal when a non-contact type IC card in which a customer ID is recorded approaches a predetermined area;
A control unit that starts a predetermined transaction operation based on the customer ID when the approach detection signal is output.
A contact detection unit that outputs a contact detection signal when the non-contact type IC card or the object comes into contact with the contact card;
The control unit includes:
The IC card processor detects the approach of the non-contact type IC card within a predetermined time after the contact detection signal is output, and the IC card processor outputs the approach detection signal. Wherein the predetermined transaction operation is started based on the customer ID. It has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area, and starts a predetermined transaction operation based on the approach detection signal A non-contact type IC card transaction device,
Adjust the communicable distance to the IC card processing unit to detect only the contact of the non-contact type IC card, and within a predetermined time after the contact detection signal is output from the IC card processing unit. A control unit is provided for readjusting the communicable distance to detect the approach of the non-contact type IC card and starting the predetermined transaction operation when the approach detection signal is output from the IC card processing unit. A non-contact type IC card transaction device, comprising: An IC card processing unit that outputs an approach detection signal when a non-contact type IC card in which a customer ID is recorded approaches a predetermined area;
A control unit that starts a predetermined transaction operation based on the customer ID when the approach detection signal is output.
The control unit includes:
Adjust the communicable distance to the IC card processing unit to detect only the contact of the non-contact type IC card, and within a predetermined time after the contact detection signal is output from the IC card processing unit. The communicable distance is readjusted to detect the approach of the non-contact type IC card, and the predetermined transaction operation is started based on the customer ID when the approach detection signal is output from the IC card processing unit. A non-contact type IC card transaction device, characterized in that: It has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area, and starts a predetermined transaction operation based on the approach detection signal A transaction method for detecting the non-contact type IC card before starting the predetermined transaction operation, wherein the transaction method is used for a non-contact type IC card transaction device.
A contact detection unit is provided,
A contact detection process in which the contact detection unit outputs a contact detection signal when the non-contact IC card or the object comes into contact;
The transaction method, wherein after the contact detection signal is output, the IC card processing unit performs an IC card detection process for detecting approach of the non-contact type IC card. An IC card processing unit that outputs an approach detection signal when the contactless IC card on which the customer ID is recorded approaches a predetermined area; and a predetermined value based on the customer ID when the approach detection signal is output. A transaction method for detecting the non-contact type IC card before starting the predetermined transaction operation, wherein the transaction method is used for a non-contact type IC card transaction device comprising a control unit for starting the transaction operation.
A contact detection unit is provided,
A contact detection process in which the contact detection unit outputs a contact detection signal when the non-contact IC card or the object comes into contact;
An IC card detection process in which the IC card processing unit detects the approach of the non-contact type IC card within a predetermined time period after the contact detection signal is output;
A card identification process for identifying whether or not the contactless IC card can be used based on the customer ID when the approach detection signal is output from the IC card processing unit;
A transaction process for starting the predetermined transaction operation when the contactless IC card is usable. It has an IC card processing unit that outputs an approach detection signal when a non-contact type IC card that transmits and receives data by wireless communication approaches a predetermined area, and starts a predetermined transaction operation based on the approach detection signal A transaction method for detecting the non-contact type IC card before starting the predetermined transaction operation, wherein the transaction method is used for a non-contact type IC card transaction device.
A first level adjustment process of adjusting a communicable distance to the IC card processing unit to a level at which only contact of the non-contact type IC card is detected;
Contact detection processing for detecting only contact of the non-contact type IC card;
A second level adjustment process for re-adjusting the communicable distance to a level at which the approach of the non-contact type IC card is detected within a predetermined time period after the contact detection signal is output from the IC card processing unit; When,
IC card detection processing for detecting approach of the non-contact type IC card;
A transaction process for starting the predetermined transaction operation when the approach detection signal is output from the IC card processing unit. An IC card processing unit that outputs an approach detection signal when the contactless IC card on which the customer ID is recorded approaches a predetermined area; and a predetermined value based on the customer ID when the approach detection signal is output. A transaction method for detecting the non-contact type IC card before starting the predetermined transaction operation, wherein the transaction method is used for a non-contact type IC card transaction device comprising a control unit for starting the transaction operation.
A first level adjustment process of adjusting a communicable distance to the IC card processing unit to a level at which only contact of the non-contact type IC card is detected;
Contact detection processing for detecting only contact of the non-contact type IC card;
A second level adjustment process for re-adjusting the communicable distance to a level at which the approach of the non-contact type IC card is detected within a predetermined time period after the contact detection signal is output from the IC card processing unit; When,
IC card detection processing for detecting approach of the non-contact type IC card;
A card identification process for identifying whether or not the contactless IC card can be used based on the customer ID when the approach detection signal is output from the IC card processing unit;
A transaction process for starting the predetermined transaction operation when the contactless IC card is usable. A transaction control program for causing a computer to realize the functions of the contactless IC card transaction device according to claim 1.

Images