JP2020135431A - Card processor, toll collection machine, card processing method, and program - Google Patents

Abstract

To provide a card processor capable of settlement processing in accordance with the kind of a card medium inserted in one insertion port, a toll collection machine, a card processing method, and a program.SOLUTION: A card processor 1A includes: one insertion port 10 in which a card medium is inserted; a magnetic reading part 13 which is arranged on a downstream side of the insertion port and reads information stored to magnetic stripes; a distribution mechanism 14 which is arranged on a downstream side of the magnetic reading part and distributes the card medium to a first conveying path 15a or a second conveying path 15b in accordance with the information read from the magnetic stripes; a first card reader unit 16 which is arranged in the first conveying path and can read an IC chip on the basis of a first settlement application; and a second card reader unit 17 which is arranged in the second conveying path and can read the IC chip on the basis of a second settlement application.SELECTED DRAWING: Figure 2

Description

The present invention relates to a card processing device, a toll machine, a card processing method, and a program.

On toll roads, machines such as automatic toll collectors that accept user operations and automatically collect usage fees, and toll collectors that are used to accept user operations and collect usage fees (hereinafter, These are collectively referred to as "toll machines"). The toll machine is equipped with a card processing device for reading various information from the credit card in order to accept payment by the credit card from the user.

Further, the card processing device may have a plurality of card processing units so that a plurality of types of card media can be processed. For example, Patent Document 1 records a magnetic card processing unit that processes a magnetic card in which an amount (balance) prepaid in a magnetic stripe is recorded, and an amount prepaid in an IC (Integrated Circuit) chip. A card processing device having a wireless card processing unit that processes a wireless card by wireless communication and a credit card processing unit that processes a credit card in which account information for credit payment is recorded on a magnetic stripe or an IC chip is described. There is.

When the inserted card medium is determined to be a magnetic card based on the external dimensions and the thickness, the card processing device conveys the card medium to the magnetic card processing unit. In addition, for wireless cards and credit cards that cannot be identified by their external dimensions and thickness, this card processing device transports the card medium to the wireless card processing unit if it succeeds in reading via wireless communication by the wireless R / W unit. However, if it fails, the card medium is transported to the credit card processing unit.

JP-A-2002-304643

In recent years, as a countermeasure against fraudulent use of credit cards, it has been required to support EMV-IC cards, which are credit cards conforming to EMV (Europey, MasterCard, VISA protocol) specifications. The EMV-IC card is an aspect of an IC card on which an IC chip is mounted, but an IC card other than the EMV-IC card used in a conventional toll collection machine (for example, an electronic toll collection system (ETC)) The processing executed in the payment processing is different from the ETC-IC card (ETC-IC card) used in the Collection System (registered trademark) and "automatic toll collection system").

The EMV-IC card and the ETC-IC card, which is an IC card other than the EMV-IC card, have substantially the same external dimensions and thickness, and may not have a wireless communication function. Therefore, the EMV-IC card and the ETC-IC card cannot be distinguished by the mechanism of the card processing device described above. Therefore, for example, it is conceivable to install a card processing device for processing an EMV-IC card and a card processing device for processing an ETC-IC card side by side.

However, when a plurality of card processing devices are introduced into the toll machine in this way, the user may mistakenly insert the ETC-IC card into the card processing device for, for example, an EMV-IC card. Then, after the payment process in the card processing device for the EMV-IC card fails, the user reinserts the returned ETC-IC card into the card processing device for the ETC-IC, and the payment process ends again. I have to wait until. As a result, the service time required to collect the usage fee will increase significantly.

The present invention has been made in view of such problems, and is a card processing device, a fee machine, a card processing method, and a card processing device capable of performing payment processing according to the type of card medium inserted from one insertion slot. Provide a program.

In order to solve the above problems, the present invention employs the following means.
According to the first aspect of the present invention, a card process including a magnetic stripe and an IC chip, and at least one of a plurality of types of payment application formats performs payment processing based on a card medium recorded on the IC chip. The devices (1A, 1B) are arranged on one insertion port (10) into which the card medium is inserted and on the downstream side of the insertion port in the insertion direction of the card medium, and store information stored in the magnetic stripe. The magnetic reading unit (13) for reading and the card medium are arranged on the downstream side of the magnetic reading unit in the insertion direction of the card medium, and the card medium is read from the magnetic stripe in the first transport path (15a) or A distribution mechanism (14) that distributes to the second transport path (15b), and a first card reader unit (16) that is arranged in the first transport path and can read the IC chip based on the first payment application. , A second card reader unit (17) arranged in the second transport path and capable of reading the IC chip based on the second payment application.
By doing so, the card processing device can convey the card medium to an appropriate card reader unit according to the type based on the information read from the magnetic stripe of the card medium inserted into one insertion slot. it can. As a result, the card processing device does not require the user to select the insertion slot according to the card medium, so that the card reader unit in which the card medium that cannot be processed is mistakenly inserted fails the processing, and the user The frequency of reinserting the card medium can be reduced. Further, since there is only one insertion slot, it is possible to shorten the time for the user to search for a place to insert the card medium. As a result, the card processing device can suppress an increase in the service time required for the payment processing.

According to the second aspect of the present invention, in the card processing apparatus (1A, 1B) according to the first aspect, the first end portion (141a) on the insertion port side of the distribution mechanism (14) is fixed. The rotary plate (141) is provided so that the second end portion (141b) on the downstream side can be moved between the first transport path (15a) and the second transport path (15b). With the card medium placed on the upper surface (141c) of the plate, the second end of the rotating plate is moved to move the second end to the first transport path (15a) or the second transport. Connect to the road (15b).
By doing so, the card processing apparatus can distribute the card medium to the first transport path or the second transport path with a simple configuration for rotating the rotating plate.

According to the third aspect of the present invention, in the card processing apparatus (1A, 1B) according to the second aspect, the first transport path (15a) and the second transport path (15b) are provided at different heights. Be done. The distribution mechanism (14) moves the second end portion (141b) of the rotating plate (141) so as to match the height of the first transport path or the second transport path.
By doing so, the card processing device can arrange the first card reader unit and the second card reader unit side by side, for example, in the vertical direction, so that the size from the insertion port of the card processing device to the downstream end can be adjusted. It can be made compact.

According to the fourth aspect of the present invention, in the card processing apparatus (1A, 1B) according to the third aspect, the first transport path (15a) is provided at a height corresponding to the insertion port (10). The second transport path (15b) is provided on the upper side of the first transport path in the vertical direction.
By doing so, in the card processing device, the path from the insertion slot to the first transport path is linear in the horizontal direction, so that the card medium to be transported is less likely to be affected by gravity or the like, and the card medium is conveyed. It is possible to prevent the control related to the above from becoming complicated. Further, the route from the insertion port to the second transport path is a path that goes upward in the vertical direction, but the influence of the card medium colliding with the second transport path is suppressed as compared with the path that goes downward in the vertical direction. can do.

According to the fifth aspect of the present invention, the card processing apparatus (1B) according to any one of the first to fourth aspects is the first transport path (15a) or the second transport path (15b). A third card reader unit (18) is further provided, which is arranged in a third transport path (15c) on the downstream side in the insertion direction of the card medium and enables the IC chip to be read based on the third payment application.
By doing so, the card processing device can process the card medium that cannot be processed by the first card reader unit or the second card reader unit by the third card reader unit.

According to a sixth aspect of the present invention, the toll machine (100) includes a card processing device (1A, 1B) according to any one of the first to fifth aspects.

According to a seventh aspect of the present invention, a card process including a magnetic stripe and an IC chip, in which at least one of a plurality of types of payment application formats performs payment processing based on a card medium recorded on the IC chip. The method includes a magnetic stripe reading step of reading information stored in the magnetic stripe of the card medium inserted from one insertion slot, and a first transport path for the card medium according to the information read from the magnetic stripe. Alternatively, a distribution step of distributing to the second transport path, a first card reading step of reading the IC chip of the card medium transported to the first transport path based on the first payment application, and the second transport path. It has a second card reading step of reading the IC chip based on the second payment application for the card medium conveyed to.

According to an eighth aspect of the present invention, a card process including a magnetic stripe and an IC chip, and at least one of a plurality of types of payment application formats performs payment processing based on a card medium recorded on the IC chip. The program for operating the computer (900) of the apparatus (1A, 1B) includes a magnetic stripe reading step of reading information stored in the magnetic stripe of the card medium inserted from one insertion slot, and reading from the magnetic stripe. The IC chip is based on the first payment application for the distribution step of distributing the card medium to the first transport path or the second transport path according to the received information and the card medium transported to the first transport path. The first card reading step of reading the IC chip and the second card reading step of reading the IC chip based on the second payment application are executed for the card medium conveyed to the second transport path.

According to the card processing device, the fee machine, the card processing method, and the program according to the present invention, it is possible to perform payment processing according to the type of card medium inserted from one insertion slot.

It is a figure which shows the outline of the charge machine which concerns on 1st Embodiment. It is sectional drawing of the card processing apparatus which concerns on 1st Embodiment. It is an enlarged view of Part III of FIG. It is a figure which shows the functional structure of the control part of the card processing apparatus which concerns on 1st Embodiment. It is a flowchart which shows an example of the processing of the card processing apparatus which concerns on 1st Embodiment. It is sectional drawing of the card processing apparatus which concerns on 2nd Embodiment. It is a flowchart which shows an example of the processing of the card processing apparatus which concerns on 2nd Embodiment. It is a figure which shows an example of the hardware configuration of the card processing apparatus which concerns on at least one Embodiment.

<First Embodiment>
Hereinafter, the toll machine and the card processing device according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 5.

(Overall configuration of toll machine)
FIG. 1 is a diagram showing an outline of a toll machine according to the first embodiment.
As shown in FIG. 1, the toll machine according to the present embodiment is, for example, an automatic toll collector 100 installed at a toll gate on a toll road. The automatic toll collector 100 is installed on the island I laid on the road side of the lane L of the tollgate, and receives the operation of the toll road user, that is, the driver or passenger of the vehicle A, and automatically charges the toll. It is a device for collecting at.

As shown in FIG. 1, the automatic toll collection machine 100 includes a card processing device 1A and a CPU 2. Further, an operation panel 102 for accepting user operations is provided on the front surface 101 of the housing facing the lane L (+ Y side in FIG. 1) of the automatic toll collection machine 100. The user performs various operations related to payment of the usage fee via the operation panel 102.

The card processing device 1A is a device for reading a card medium. The card processing device 1A has an insertion port 10 that opens into the operation panel 102, accepts the insertion of the card medium from the user, and returns (discharges) the card medium to the user.

The CPU 2 is a processor that controls the operation of the entire automatic charge collection machine 100. In this embodiment, the CPU 2 functions as a higher-level device of the card processing device 1A. When the user inserts the card medium into the insertion slot 10, the CPU 2 controls the card processing device 1A to execute various processes related to the payment process based on the card medium.

(Functional configuration of card processing device)
Here, the card medium to be processed by the card processing device 1A according to the present embodiment will be described. In the present embodiment, the card medium is an "EMV-IC card" which is a card medium equipped with an IC chip and an "IC card other than an EMV-IC card" which is a card medium equipped with an IC chip (for example, ETC-IC). It is assumed that there are three types of "front surface magnetic stripe card", which is a card medium that does not have an IC chip.

The card medium on which the IC chip is mounted has a magnetic stripe on the back surface of the card medium. In the EMV-IC card, the second track is defined by the JIS standard ID-1 (formerly JIS-I). Further, the front surface magnetic stripe card has a magnetic stripe on the surface. The front surface magnetic stripe card is defined by the old JIS-II standard.

The magnetic stripe of the card medium on which the IC chip is mounted is standardized by ISO (International Organization for Standardization), JIS (Japanese Industrial Standards), and the like. Specifically, there are magnetic stripes that include two tracks, a first track and a second track, and those that include three tracks, a first track, a second track, and a third track.

The standard for the first truck is a standard established by the International Air Transport Association (IATA). The second track standard was developed by the American Bankers Association (American Bankers Association, ABA). The third track standard is a standard developed by the American pension industry. The standard for the third truck is the Euro standard in Europe. Name information and the like are recorded on the first track. Information such as a card number indicating that the card is a credit card (that is, a unique arrangement pattern of numbers indicating that the card is a credit card) is recorded on the second track. The third track is mainly related to the US pension industry or Eurocard information. That is, when the card medium is a credit card, the second track of the magnetic stripe has a card number indicating that it is a credit card (that is, an array of unique numbers indicating that it is likely to be an EMV-IC card). Pattern) is included.

FIG. 2 is a cross-sectional view of the card processing device according to the first embodiment.
As shown in FIG. 2, the card processing device 1A includes an insertion port 10, a card detection unit 11, an inlet transfer path 12, a magnetic reading unit 13, a distribution mechanism 14, a first transfer path 15a, and a first. It includes two transport paths 15b, a first card reader unit 16, a second card reader unit 17, and a control unit 19.

Only one insertion port 10 is provided so as to open in the front surface 101 of the housing of the automatic toll collection machine 100. When the user wishes to pay the usage fee by credit card, the user inserts the card medium C into the insertion slot 10. When the processing by the card processing device 1A is completed, the card medium C is discharged from the insertion slot 10 to the outside of the housing of the automatic toll collection machine 100 and returned to the user.

The card detection unit 11 is arranged on the downstream side (−Y side) of the insertion port 10 in the insertion direction of the card medium C, and detects that the card medium C has been inserted into the card processing device 1A.

The inlet transport path 12 is arranged on the downstream side (−Y side) of the insertion port 10 in the insertion direction of the card medium C, and transports the inserted card medium C to a predetermined position. For example, as shown in FIG. 2, the inlet transport path 12 is composed of a roller driven by a motor and a belt, and the card is placed on the upper surface of the belt by rotating the roller with the motor to move the belt. The medium C is conveyed toward the downstream side (−Y side) or the upstream side (+ Y side).

The magnetic reading unit 13 is arranged on the downstream side (−Y side) of the insertion port 10 in the insertion direction of the card medium C, and reads the information recorded on the magnetic stripe of the card medium C conveyed by the inlet transfer path 12. .. The magnetic reading unit 13 according to the present embodiment has a magnetic reading unit 13a arranged on the front surface side (+ Z side) of the card medium C and a magnetism arranged on the back surface side (−Z side) of the card medium C. It is composed of a reading unit 13b.

The magnetic reading unit 13a reads the information recorded on the magnetic stripe of the card medium C, which is the front surface magnetic stripe card. The magnetic reading unit 13b reads the information recorded on the card medium C on which the IC chip is mounted, that is, the magnetic stripe of the EMV-IC card and the IC card other than the EMV-IC card. The magnetic reading units 13a and 13b output the information read from the magnetic stripe to the control unit 19. Hereinafter, the information read by the magnetic reading units 13a and 13b is referred to as "magnetic reading information".

The distribution mechanism 14 is arranged on the downstream side (−Y side) of the magnetic reading unit 13 in the insertion direction of the card medium C, and transmits the card medium C to the first transport path 15a according to the magnetic reading information read from the magnetic stripe. Alternatively, it is distributed to the second transport path 15b. Further, the distribution mechanism 14 includes a rotary plate 141, a drive unit 143, and transfer rollers 144a and 144b.

FIG. 3 is an enlarged view of Part III of FIG.
As shown in FIG. 3, in the rotating plate 141, the first end portion 141a on the insertion port 10 side (+ Y side) is fixed, and the second end portion 141b on the downstream side (−Y side) is the first transport path 15a. It is made movable with and from the second transport path 15b. Specifically, the shaft 142 is inserted through the first end portion 141a, and the second end portion 141b is rotated by rotating around the shaft 142 in a state where the card medium C is placed on the upper surface 141c. It is possible to move along the direction R. As a result, the second end portion 141b of the rotating plate 141 is connected to the first transport path 15a or the second transport path 15b.

The drive unit 143 is an actuator for rotating the rotating plate 141. As shown in FIG. 3, in the drive unit 143, the second end portion 141b of the rotating plate 141 coincides with the arrangement height of the first transport path 15a under the control from the control unit 19 described later (FIG. 3). The rotating plate 141 is rotated so as to move to the position indicated by the solid line of 3) or the second position P2 (the position indicated by the broken line in FIG. 3) corresponding to the arrangement height of the second transport path 15b. In the present embodiment, the initial position of the rotating plate 141 is set to the first position P1.

The transport rollers 144a and 144b move the card medium C placed on the upper surface 141c of the rotating plate 141 to the downstream side (−Y side) or the upstream side (+ Y side). The transfer roller 144a is arranged at a height substantially matching the upper surface 141c of the rotating plate 141 at the first position P1, and conveys the card medium C between the rotating plate 141 and the first conveying path 15a. The transport roller 144b is arranged on the upper side (+ Z side) of the upper surface 141c of the rotating plate 141 at the second position P2. The transport roller 144b rotates with the card medium C sandwiched between the upper surface 141c of the rotary plate 141, and transports the card medium C between the rotary plate 141 and the second transport path 15b.

The first transport path 15a is arranged on the downstream side (-Y side) of the distribution mechanism 14, and has the same configuration as the inlet transport path 12, so that the distribution mechanism 14 and the predetermined position inside the first card reader unit 16 are arranged. The card medium C is conveyed between them. As shown in FIG. 2, the first transport path 15a positions the insertion port 10, the inlet transport path 12, and the rotating plate 141 of the distribution mechanism 14 at the first position P1 in the height direction (± Z direction). Arranged to match. Therefore, the inlet transport path 12, the distribution mechanism 14 (rotating plate 141 at the first position P1), and the first transport path 15a are linearly arranged in the horizontal direction (± Y direction). Therefore, since the path from the insertion port 10 to the first transport path 15a is not easily affected by gravity, it is possible to suppress complicated control when transporting the card medium C. Further, as shown in FIG. 2, a transport roller 151a for transporting the card medium C may be further provided on the upper portion of the first transport path 15a.

As shown in FIG. 2, the second transport path 15b is arranged on the downstream side (−Y side) of the distribution mechanism 14, and has the same configuration as the inlet transport path 12 and the first transport path 15a. And the predetermined position inside the second card reader unit 17, the card medium C is conveyed. Further, the second transport path 15b is arranged at a height different from that of the first transport path 15a.

For example, in the present embodiment, as shown in FIG. 2, the second transport path 15b is arranged on the upper side (+ Z side) of the first transport path 15a in the vertical direction. In the example of FIG. 2, the second transport path 15b is arranged at an angle so as to be linearly arranged with the rotating plate 141 at the second position of the distribution mechanism 14. Further, as shown in FIG. 2, a transport roller 151b for transporting the card medium C may be further provided on the upper portion of the second transport path 15b.

As shown in FIG. 2, the first card reader unit 16 is arranged in the first transport path 15a. The first card reader unit 16 has an IC contact 161 capable of contacting an IC chip mounted on the card medium C. When the card medium C is conveyed to a predetermined position inside the first card reader unit 16, the IC contact 161 is brought close to the card medium C and brought into contact with the IC chip. The first card reader unit 16 makes it possible to read the IC chip mounted on the card medium C based on the first payment application via the IC contact 161.

The first card reader unit 16 according to the present embodiment is, for example, a card reader unit capable of reading an EMV-IC card. The first payment application is one of a plurality of types of application formats pre-recorded on the IC chip, and the present embodiment includes various programs for performing payment processing based on the EMV-IC card. ing.

The second card reader unit 17 is arranged in the second transport path 15b as shown in FIG. The second card reader unit 17 has an IC contact 171 capable of contacting an IC chip mounted on the card medium C. When the card medium C is conveyed to a predetermined position inside the second card reader unit 17, the IC contact 171 is brought close to the card medium C and brought into contact with the IC chip. The second card reader unit 17 makes it possible to read the IC chip mounted on the card medium C based on the second payment application via the IC contact 171.

The second card reader unit 17 according to the present embodiment is, for example, a card reader unit capable of reading an IC card other than an EMV-IC card. The second payment application is one of a plurality of types of application formats pre-recorded on the IC chip, and in the present embodiment, it is based on an IC card other than the EMV-IC card (for example, an ETC-IC card). Includes various programs for processing payments. Hereinafter, the information read by the first card reader unit 16 or the second card reader unit 17 is referred to as "IC chip reading information".

FIG. 4 is a diagram showing a functional configuration of a control unit of the card processing device according to the first embodiment.
As shown in FIG. 4, the control unit 19 of the card processing device 1A is connected to the CPU 2 of the automatic toll collector 100 via the communication line LN. Further, the control unit 19 includes a magnetic stripe processing unit 190, a type determination unit 191, a transfer control unit 192, an IC chip processing unit 193, a communication unit 194, and a storage unit 195.

The magnetic stripe processing unit 190 acquires the magnetic reading information read by the magnetic reading unit 13 and stores it in the storage unit 195. Further, when the payment processing based on the IC card cannot be performed, the magnetic stripe processing unit 190 outputs the acquired magnetic reading information to the CPU 2 of the automatic charge collection machine 100.

The type determination unit 191 determines the type of the inserted card medium C based on the magnetic reading information acquired by the magnetic stripe processing unit 190. As described above, when the card medium C is an EMV-IC card, the second track of the magnetic stripe is likely to have a card number indicating that it is a credit card (that is, an EMV-IC card). The unique array pattern of numbers shown) is included. Therefore, the type determination unit 191 determines that the card medium C to be read is an EMV-IC card when the magnetic reading information read by the magnetic reading unit 13b includes an array of numbers matching a predetermined arrangement pattern. judge. On the other hand, when the magnetic reading information read by the magnetic reading unit 13b does not include an array of numbers matching a predetermined arrangement pattern, the type determination unit 191 uses an IC other than the EMV-IC card as the card medium C to be read. Determined to be a card. The type determination unit 191 outputs this determination result to the CPU 2 of the automatic toll collection machine 100.

The transport control unit 192 sets the card medium C on the downstream side (−Y side in FIG. 2) or the upstream side (FIG. 2) with respect to the inlet transport path 12, the distribution mechanism 14, the first transport path 15a, and the second transport path 15b. It is controlled to be conveyed to the + Y side of 2. For example, when the card detection unit 11 detects the insertion of the card medium C, the transfer control unit 192 instructs the inlet transfer path 12 to transport the card medium C to a predetermined position. Further, the transport control unit 192 controls the distribution mechanism 14 according to the type of the card medium C determined by the type determination unit 191. When it is determined that the inserted card medium C is an EMV-IC card, the transfer control unit 192 instructs the distribution mechanism 14 to transfer the card medium C to the first transfer path 15a. On the other hand, when it is determined that the inserted card medium C is an IC card other than the EMV-IC card, the transfer control unit 192 transfers the card medium C to the distribution mechanism 14 to the second transfer path 15b. Instruct. Further, the transport control unit 192 instructs the first transport path 15a and the second transport path 15b to transport the card medium C to a predetermined position. When returning the card medium C, the transport control unit 192 instructs each unit to transport the card medium C to the upstream side (+ Y side in FIG. 2) and eject the card medium C from the insertion port 10.

The IC chip processing unit 193 controls the processing performed by the first card reader unit 16 and the second card reader unit 17 based on the commands output from the CPU 2 of the automatic charge collection machine 100 according to the type of the card medium. For example, the IC chip processing unit 193 causes the first card reader unit 16 and the second card reader unit 17 to read the IC chip and acquire the IC chip reading information. Further, the IC chip processing unit 193 outputs the acquired IC chip reading information to the CPU 2 of the automatic charge collection machine 100.

The communication unit 194 transmits and receives various information and commands to and from the CPU 2 of the automatic toll collector 100 via the communication line LN.

The storage unit 195 stores information generated and acquired in various processes in the control unit 19 (for example, magnetic reading information read by the magnetic reading unit 13). Further, the storage unit 195 may store in advance reference data indicating a unique arrangement pattern of numbers indicating that the card is likely to be an EMV-IC card.

(Processing of card processing device)
FIG. 5 is a flowchart showing an example of processing of the card processing device according to the first embodiment.
Hereinafter, the processing flow of the card processing apparatus 1A will be described with reference to FIG.

As shown in FIG. 5, first, the card detection unit 11 of the card processing device 1A detects that the user has inserted the card medium C through the insertion slot 10 (step S10). Then, the inlet transport path 12 transports the card medium C toward the distribution mechanism 14 on the downstream side (−Y side in FIG. 2).

Then, the magnetic reading unit 13 reads the information recorded on the magnetic stripe of the card medium C while the card medium C is conveyed to the distribution mechanism 14 (step S11). When the card medium C is a card medium on which an IC chip is mounted, the magnetic reading unit 13b reads the information recorded on the magnetic stripe on the back surface of the card medium C. When the card medium C is a front surface magnetic stripe card, the magnetic reading unit 13a reads the information recorded on the front surface magnetic stripe of the card medium C. The magnetic reading unit 13 outputs the read magnetic reading information to the control unit 19.

Next, the type determination unit 191 of the control unit 19 determines the type of the card medium C before reading the information in the IC chip mounted on the inserted card medium C. Specifically, the type determination unit 191 determines whether or not the card medium C is an EMV-IC card based on the magnetic reading information output from the magnetic reading unit 13 (step S12).

For example, the type determination unit 191 includes an array of numbers whose magnetic reading information (information recorded on the second track of the magnetic stripe) read by the magnetic reader 13 matches a predetermined arrangement pattern of the EMV-IC card. If so, it is determined that the card medium C is an EMV-IC card (step S12: YES). At this time, the type determination unit 191 outputs a determination result indicating that the inserted card medium C is an EMV-IC card to the CPU 2 of the automatic toll collection machine 100.

When it is determined that the card medium C is an EMV-IC card (step S12: YES), the transfer control unit 192 of the control unit 19 transfers the card medium C to the distribution mechanism 14 in the first transfer path 15a. Instruct to sort (step S13). In this embodiment, since the initial position of the rotating plate 141 is set to the first position P1 (FIG. 3), the distribution mechanism 14 controls the rotating plate 141 so as not to move in the initial position. Further, the distribution mechanism 14 controls the transport roller 144a in a state where the card medium C is placed on the upper surface 141c of the rotating plate 141 to move the card medium C downstream from the distribution mechanism 14 (−Y in FIG. 2). It is transported to the first transport path 15a on the side). At this time, the rotating plate 141 of the distribution mechanism 14 and the first transport path 15a are linearly arranged in the horizontal direction (± Y direction in FIG. 2). Therefore, since the distribution mechanism 14 only moves the card medium C horizontally toward the first transport path 15a, the card medium C can be smoothly transported without being affected by gravity or the like. ..

The first transport path 15a further conveys the card medium C conveyed from the distribution mechanism 14 to a predetermined position inside the first card reader unit 16 by the transfer roller 151a provided on the upper part. Then, the IC chip processing unit 193 of the control unit 19 executes the payment processing based on the first payment application for the EMV-IC card according to the command from the CPU 2 of the automatic charge collection machine 100 (step S14). For example, the IC chip processing unit 193 selects a first payment application from the IC chips mounted on the card medium C for the first card reader unit 16, and mounts the first payment application on the card medium C based on the first payment application. It is instructed to read various information necessary for payment processing from the IC chip. Then, the first card reader unit 16 moves the IC contact 161 to the lower side in the vertical direction (-Z side in FIG. 2) until it comes into contact with the IC chip, and is designated from the IC chip via the IC contact 161. Read the information. Further, the IC chip processing unit 193 outputs the IC chip reading information read by the first card reader unit 16 to the CPU 2 of the automatic toll collection machine 100 via the communication unit 194.

On the other hand, the type determination unit 191 includes an array of numbers whose magnetic reading information (information recorded on the second track of the magnetic stripe) read by the magnetic reader 13 matches a predetermined arrangement pattern of the EMV-IC card. If not, it is determined that the card medium C is an IC card other than the EMV-IC card (step S12: NO). At this time, the type determination unit 191 outputs a determination result indicating that the inserted card medium C is an IC card other than the EMV-IC card to the CPU 2 of the automatic toll collection machine 100.

When it is determined that the card medium C is an IC card other than the EMV-IC card (step S12: NO), the transfer control unit 192 of the control unit 19 secondizes the card medium C to the distribution mechanism 14. It is instructed to distribute to the transport path 15b (step S15). In this case, in the distribution mechanism 14, the rotating plate 141 is rotated by the drive unit 143 in a state where the card medium C is placed on the upper surface 141c of the rotating plate 141, and the second end portion 141b of the rotating plate 141 is the second. Control is performed so as to move to the two positions P2 (FIG. 3). Further, when the rotation of the rotating plate 141 is completed, the distribution mechanism 14 controls the transfer roller 144b to move the card medium C downstream from the distribution mechanism 14 (−Y side in FIG. 2) to the second transfer path 15b. Transport to. In addition, in order to prevent the card medium C from slipping off the rotating plate 141 while moving the rotating plate 141, the upper surface 141c of the rotating plate 141 is processed to prevent slipping so as not to hinder the transfer by the transfer roller 144b. May be good. Further, the linear distance between the downstream end (−Y side) of the inlet transport path 12 and the transport roller 144b may be set shorter than the length in the longitudinal direction (transport direction) of the card medium C. By doing so, even if the card medium C slides down from the upper surface 141c of the rotating plate 141, the upstream end (+ Y side) end of the card medium C is fastened by the inlet transport path 12. .. When the rotary plate 141 completes the movement to the second position P2 in this state, the card medium C can be positioned between the upper surface 141c of the rotary plate 141 and the transfer roller 144b, so that the card medium C is conveyed by the transfer roller 144b. Is possible.

For example, if the second transport path is arranged on the lower side in the vertical direction (-Z side in FIG. 2), when the card medium is moved from the rotating plate to the second transport path, the end on the downstream side of the card medium is set. There is a possibility of collision with the second transport path. Then, it becomes difficult to move the card medium smoothly, and the card medium is bent. Further, when the card medium is returned, the same effect may occur when the card medium is moved from the second transport path to the distribution mechanism. Therefore, when the second transport path is arranged on the lower side in the vertical direction, complicated control for suppressing such collision, bending, and the like of the card medium is required. However, in the present embodiment, as shown in FIG. 2, the second transport path 15b is arranged on the upper side in the vertical direction (+ Z side in FIG. 2), and therefore, as shown in FIG. 2, the rotating plate 141 and The second transport paths 15b will be arranged in a straight line. Then, when the card medium C moves from the rotating plate 141 to the second transport path 15b, the card medium C does not collide with the second transport path 15b. As a result, the distribution mechanism 14 can prevent the card medium C from colliding, bending, etc., and smoothly transport the card medium C to the second transport path 15b without performing complicated control.

The second transport path 15b further conveys the card medium C conveyed from the distribution mechanism 14 to a predetermined position inside the second card reader unit 17 by the transfer roller 151b provided on the upper part. Then, the IC chip processing unit 193 of the control unit 19 executes the payment processing based on the second payment application for the IC card other than the EMV-IC card according to the command from the CPU 2 of the automatic charge collection machine 100 (step S16). ). For example, the IC chip processing unit 193 selects a second payment application from the IC chips mounted on the card medium C for the second card reader unit 17, and mounts the second payment application on the card medium C based on the second payment application. It is instructed to read various information necessary for payment processing from the IC chip. Then, the second card reader unit 17 moves the IC contact 171 to the lower side in the vertical direction (-Z side in FIG. 2) until it comes into contact with the IC chip, and is designated from the IC chip via the IC contact 171. Read the information. Further, the IC chip processing unit 193 outputs the IC chip reading information read by the second card reader unit 17 to the CPU 2 of the automatic toll collection machine 100 via the communication unit 194.

Next, the IC chip processing unit 193 determines whether or not the payment processing is successful (step S17). For example, when various information required for payment processing is correctly read from the first card reader unit 16 or the second card reader unit 17, and the payment processing is completed in the CPU 2 of the automatic charge collection machine 100, the CPU 2 controls the card processing device 1A. A command to eject the card medium C is output to the unit 19. When the transfer control unit 192 and the IC chip processing unit 193 of the control unit 19 receive the ejection command of the card medium C, they determine that the settlement process is completed (step S17: YES).

At this time, the IC chip processing unit 193 notifies the first card reader unit 16 of the end of card processing, for example, when the card medium C is inside the first card reader unit 16. Then, the first card reader unit 16 moves the IC contact 161 to the upper side (+ Z side) in the vertical direction to make the card medium C non-contact with the IC chip, and makes the card medium C movable. When the card medium C is inside the second card reader unit 17, the IC chip processing unit 193 performs the same processing on the second card reader unit 17.

Further, the transport control unit 192 ejects the card medium C (step S19). Specifically, the transport control unit 192 controls the first transport path 15a, the second transport path 15b, the distribution mechanism 14, and the inlet transport path 12, and moves the card medium C to the upstream side (+ Y side in FIG. 2). To be transported to. At this time, when the rotating plate 141 is located at the second position P2 (FIG. 3), the distribution mechanism 14 rotates the rotating plate 141 when the card medium C is placed on the upper surface 141c of the rotating plate 141. To move to the first position P1 (FIG. 3). After that, the distribution mechanism 14 conveys the card medium C to the inlet transfer path 12 by the transfer roller 144a. The inlet transport path 12 discharges the card medium C from the insertion port 10.

On the other hand, if various information required for payment processing is not correctly read from the first card reader unit 16 or the second card reader unit 17, and the payment processing fails in the CPU 2 of the automatic charge collection machine 100, the CPU 2 controls the card processing device 1A. A command for performing payment processing based on the front surface magnetic stripe card is output to the unit 19. Upon receiving this command, the magnetic stripe processing unit 190 of the control unit 19 determines that the payment process has failed (step S17: NO), and according to the command from the CPU 2 of the automatic toll collector 100, the front surface magnetism Various processes related to the payment process based on the stripe card are executed (step S18). For example, the magnetic stripe processing unit 190 reads the magnetic reading information read in step S11 from the storage unit 195 and outputs it to the CPU 2 of the automatic toll collection machine 100 via the communication unit 194.

When the settlement process based on the command of the CPU 2 of the automatic charge collection machine 100 is completed, the transfer control unit 192 returns the card medium C to the user (step S19).

(Action effect)
As described above, the card processing device 1A according to the present embodiment is arranged on one insertion port 10 into which the card medium C is inserted and on the downstream side of the insertion port 10 in the insertion direction of the card medium C, and is formed on a magnetic stripe. The magnetic reading unit 13 that reads the stored information and the card medium C are arranged on the downstream side in the insertion direction of the card medium C of the magnetic reading unit 13, and the card medium C is placed in the first transport path 15a or the first transport path 15a or the card medium C according to the information read from the magnetic stripe. The distribution mechanism 14 for distribution to the second transport path 15b, the first card reader unit 16 arranged in the first transport path 15a and capable of reading the IC chip based on the first settlement application, and the second transport path 15b. It includes a second card reader unit 17 that is arranged and can read the IC chip based on the second payment application.
By doing so, the card processing device 1A turns the card medium C into an appropriate card reader unit according to the type based on the information read from the magnetic stripe of the card medium C inserted into one insertion slot 10. Can be transported. As a result, the card processing device 1A does not require the user to select an insertion slot according to the card medium C, so that the frequency with which the card reader unit in which the unprocessable card medium C is erroneously inserted fails the processing and the frequency of processing fails. It is possible to reduce the frequency with which the user reinserts the card medium C. Further, since there is only one insertion slot 10, it is possible to shorten the time for the user to search for a place to insert the card medium C. As a result, the card processing device 1A can suppress an increase in the service time required for the payment processing.

Further, in the distribution mechanism 14, the first end portion 141a on the insertion port 10 side is fixed, and the second end portion 141b on the downstream side can be moved between the first transport path 15a and the second transport path 15b. With the rotating plate 141 and the card medium C placed on the upper surface 141c of the rotating plate 141, the rotating plate 141 is moved to move the second end portion 141b into the first transport path 15a or the second transport path 15b. Connect.
By doing so, the card processing device 1A can distribute the card medium C to the first transport path 15a or the second transport path 15b with a simple configuration for rotating the rotating plate 141.

Further, the first transport path 15a and the second transport path 15b are provided at different heights. The distribution mechanism 14 moves the second end portion 141b of the rotating plate 141 so as to match the height of the first transport path 15a or the second transport path 15b.
By doing so, the card processing device 1A can arrange the first card reader unit 16 and the second card reader unit 17 side by side, for example, in the vertical direction, so that the card processing device 1A can be arranged downstream from the insertion port 10 of the card processing device 1A. The size up to the edge can be made compact.

Further, the first transport path 15a is provided at a height corresponding to the insertion port 10, and the second transport path 15b is provided on the upper side of the first transport path 15a in the vertical direction.
By doing so, in the card processing device 1A, the path from the insertion port 10 to the first transport path 15a becomes linear in the horizontal direction, so that the card medium C to be transported is less likely to be affected by gravity or the like. It is possible to prevent the control related to the transfer of the card medium C from becoming complicated. Further, the path from the insertion port 10 to the second transport path 15b is an upward path in the vertical direction, but as described above, the card medium C is a second transport path rather than a path toward the lower side in the vertical direction. It is possible to suppress the influence of collision with the vehicle.

<Second embodiment>
Next, the toll machine and the card processing device according to the second embodiment of the present invention will be described with reference to FIGS. 6 to 7.
The same components as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

(Functional configuration of card processing device)
FIG. 6 is a cross-sectional view of the card processing apparatus according to the second embodiment.
As shown in FIG. 6, the card processing device 1B according to the present embodiment further includes a third transport path 15c and a third card reader unit 18.

The third transport path 15c is arranged on the downstream side (-Y side) of the first transport path 15a, and has a predetermined position inside the first transport path 15a and the third card reader unit 18 by the same configuration as the inlet transport path 12. The card medium C is conveyed to and from. As shown in FIG. 6, the third transport path 15c is in the height direction (±) with the insertion port 10, the inlet transport path 12, the rotating plate 141 of the distribution mechanism 14 at the first position P1, and the first transport path 15a. They are arranged so that their positions in the Z direction) match. Therefore, each configuration from the inlet transport path 12 to the third transport path 15c is linearly arranged in the horizontal direction (± Y direction). Therefore, since the path from the insertion port 10 to the third transport path 15c is not easily affected by gravity, it is possible to suppress the complicated control when transporting the card medium C. Further, as shown in FIG. 6, a transport roller 151c for transporting the card medium C may be further provided above the third transport path 15c.

As shown in FIG. 6, the third card reader unit 18 is arranged in the third transport path 15c. The third card reader unit 18 has an antenna 181 for wirelessly communicating with an IC chip mounted on the card medium C. When the card medium C is conveyed to a predetermined position inside the third card reader unit 18, the IC chip mounted on the card medium C is mounted on the card medium C based on the third payment application by performing wireless communication via the antenna 181. Is readable.

The third card reader unit 18 according to the present embodiment is, for example, a card reader unit capable of reading a non-contact IC card. Therefore, in the present embodiment, the card medium C includes "non-contact IC card", "EMV-IC card", and "IC card other than EMV-IC card", which are card media on which an IC chip is mounted. It is assumed that there are four types, "front surface magnetic stripe card".

The third payment application is one of a plurality of types of application formats pre-recorded on the IC chip, and the present embodiment includes various programs for performing payment processing based on the non-contact IC card. ing.

(Processing of card processing device)
FIG. 7 is a flowchart showing an example of processing of the card processing device according to the second embodiment.
Hereinafter, the processing flow of the card processing apparatus 1B will be described with reference to FIG. 7. The processing flow of the card processing apparatus 1B shown in FIG. 7 includes the processing of the card processing apparatus 1A according to the first embodiment shown in FIG. 5, except that new processing (steps S20 to S23) described later is included. It is almost the same as the flow. Therefore, the same processing as in FIG. 5 (steps S10 to S16, S18 to S19) will be omitted.

The control unit 19 of the card processing device 1B according to the present embodiment determines whether or not the payment processing is successful after executing the payment processing (step S14) based on the first payment application in the first card reader unit 16. (Step S20). For example, when various information necessary for the payment process is correctly read from the first card reader unit 16 and the payment process is completed in the CPU 2 of the automatic charge collection machine 100, the CPU 2 sends the card medium C to the control unit 19 of the card processing device 1B. Is output as a command to discharge. When the transfer control unit 192 and the IC chip processing unit 193 of the control unit 19 receive the ejection command of the card medium C, they determine that the payment processing based on the first payment application is completed (step S20: YES).

At this time, the IC chip processing unit 193 notifies the first card reader unit 16 of the end of card processing. Then, the first card reader unit 16 moves the IC contact 161 to the upper side (+ Z side) in the vertical direction to make the card medium C non-contact with the IC chip, and makes the card medium C movable. Further, the transport control unit 192 ejects the card medium C (step S19).

On the other hand, if various information required for payment processing is not correctly read from the first card reader unit 16 and the payment processing fails in the CPU 2 of the automatic charge collection machine 100, the CPU 2 sends a non-contact IC to the control unit 19 of the card processing device 1B. A command to perform payment processing based on the card is output. Upon receiving this command, the IC chip processing unit 193 of the control unit 19 notifies the first card reader unit 16 of the end of card processing. Then, the first card reader unit 16 moves the IC contact 161 to the upper side (+ Z side) in the vertical direction to make the card medium C non-contact with the IC chip, and makes the card medium C movable. Further, the transport control unit 192 of the control unit 19 instructs the first transport path 15a to transport the card medium C to the third transport path 15c (step S21).

The third transport path 15c further transports the card medium C conveyed from the first transfer path 15a to a predetermined position inside the third card reader unit 18 by the transfer roller 151c provided at the upper part. Then, the IC chip processing unit 193 of the control unit 19 executes the payment processing based on the third payment application for the non-contact IC card according to the command from the CPU 2 of the automatic charge collection machine 100 (step S22). For example, the IC chip processing unit 193 selects a third payment application from the IC chips mounted on the card medium C for the third card reader unit 18, and mounts the third payment application on the card medium C based on the third payment application. It is instructed to read various information necessary for payment processing from the IC chip. Then, the third card reader unit 18 reads the designated information from the IC chip by performing wireless communication via the antenna 181. Further, the IC chip processing unit 193 outputs the IC chip reading information read by the third card reader unit 18 to the CPU 2 of the automatic toll collection machine 100 via the communication unit 194.

Next, the IC chip processing unit 193 determines whether or not the payment processing based on the second payment application or the third payment application is successful (step S23). For example, when various information required for payment processing is correctly read from the second card reader unit 17 or the third card reader unit 18 and the payment processing is completed in the CPU 2 of the automatic charge collection machine 100, the CPU 2 controls the card processing device 1B. A command to eject the card medium C is output to the unit 19. When the transfer control unit 192 and the IC chip processing unit 193 of the control unit 19 receive the ejection command of the card medium C, they determine that the payment processing based on the second payment application or the third payment application is completed (step S23: YES).

At this time, the IC chip processing unit 193 notifies the third card reader unit 18 of the end of card processing, for example, when the card medium C is inside the third card reader unit 18. Then, the third card reader unit 18 ends the wireless communication via the antenna 181 and makes the card medium C movable. When the card medium C is inside the second card reader unit 17, the IC chip processing unit 193 similarly notifies the second card reader unit 17 of the end of card processing. Then, the second card reader unit 17 moves the IC contact 171 to the upper side (+ Z side) in the vertical direction to make it in a non-contact state with the IC chip, and makes the card medium C movable. Further, the transport control unit 192 ejects the card medium C (step S19).

On the other hand, if various information required for payment processing is not correctly read from the second card reader unit 17 or the third card reader unit 18 and the payment processing fails in the CPU 2 of the automatic charge collection machine 100, the CPU 2 controls the card processing device 1B. A command for performing payment processing based on the front surface magnetic stripe card is output to the unit 19. Upon receiving this command, the magnetic stripe processing unit 190 of the control unit 19 determines that the payment process has failed (step S23: NO), and according to the command from the CPU 2 of the automatic toll collector 100, the front surface magnetism Various processes related to the payment process based on the stripe card are executed (step S18). Subsequent processing is the same as that of the first embodiment.

(Action effect)
As described above, the card processing device 1B according to the present embodiment is arranged in the third transport path 15c on the downstream side in the insertion direction of the card medium C in the first transport path 15a, and is an IC chip based on the third payment application. A third card reader unit 18 capable of reading the above is further provided.
By doing so, the card processing device 1B can process the card medium C that cannot be processed by the first card reader unit 16 by the third card reader unit 18.

Note that FIG. 6 shows an example in which the third transport path 15c and the third card reader unit 18 are arranged on the downstream side of the first transport path 15a, but the present invention is not limited to this. The third transport path 15c and the third card reader unit 18 may be arranged on the downstream side of the second transport path 15b, or one on each downstream side of both the first transport path 15a and the second transport path 15b. It may be arranged.

(Hardware configuration)
FIG. 8 is a diagram showing an example of the hardware configuration of the card processing device according to at least one embodiment.
Hereinafter, the hardware configuration of the card processing devices 1A and 1B according to at least one embodiment described above will be described with reference to FIG.

The computer 900 includes a CPU 901, a main storage device 902, an auxiliary storage device 903, and an interface 904.

The above-mentioned card processing devices 1A and 1B are mounted on the computer 900, respectively. The operations of the respective parts of the card processing devices 1A and 1B described above are stored in the auxiliary storage device 903 of each computer 900 in the form of a program. The CPU 901 reads the program from the auxiliary storage device 903, expands it to the main storage device 902, and executes the above processing according to the program. Further, the CPU 901 secures a storage area (storage unit 195) for storing various information acquired and generated in association with the processing in the main storage device 902 according to the program. Further, the CPU 901 secures a storage area for storing the data being processed in the auxiliary storage device 903 according to the program.

The computer 900 is connected to the external storage device 910 via the interface 904, and the storage area may be secured in the external storage device 910.

In at least one embodiment, the auxiliary storage device 903 is an example of a non-temporary tangible medium. Other examples of non-temporary tangible media include magnetic disks, magneto-optical disks, CD-ROMs, DVD-ROMs, semiconductor memories, etc. connected via interface 904. When this program is distributed to the computer 900 via a communication line, the distributed computer 900 may expand the program to the main storage device 902 and execute the above processing.

Further, the program may be for realizing a part of the above-mentioned functions. Further, the program may be a so-called difference file (difference program) that realizes the above-mentioned function in combination with another program already stored in the auxiliary storage device 903.

Although the embodiments of the present invention have been described in detail above, they are not limited to these as long as they do not deviate from the technical idea of the present invention, and some design changes and the like are possible.

For example, in each of the above-described embodiments, an example in which the toll machine is the toll automatic collector 100 has been described, but the present invention is not limited to this. In another embodiment, the toll machine may be a toll collection machine operated by a collector who receives usage fees from the user.

Further, in each of the above-described embodiments, the first card reader unit 16 is a card reader unit capable of reading an EMV-IC card, and the second card reader unit 17 is a card capable of reading an IC card other than an EMV-IC card. An example of a reader unit in which the third card reader unit 18 is a card reader unit capable of reading a non-contact IC card has been described, but the present invention is not limited thereto. In another embodiment, the first card reader unit 16 may be an IC card other than the EMV-IC card, or a card reader unit capable of reading a non-contact IC card. The second card reader unit 17 may be an EMV-IC card or a card reader unit capable of reading a non-contact IC card. The third card reader unit 18 may be an EMV-IC card or a card reader unit capable of reading an IC card other than the EMV-IC card. It is possible to arbitrarily change the order of these according to the card media frequently used by the automatic charge collector 100.

Further, in the above-described embodiment, the configuration in which the magnetic reading unit 13 is arranged on the downstream side (on the inlet transport path 12) of the insertion port 10 and the magnetic reading unit 13 reads the magnetic stripe of the card medium C has been described. It is not limited to this. In another embodiment, the first card reader unit 16, the second card reader unit 17, and the third card reader unit 18 may each have a magnetic read function for reading the magnetic stripe of the card medium C.

100 Charge automatic collection machine (charge machine)
1A, 1B Card processing device 10 Insertion port 11 Card detection unit 12 Inlet transport path 13, 13a, 13b Magnetic reader 14 Sorting mechanism 141 Rotating plate 142 Axis 143 Drive unit 144a, 144b Transport roller 15a First transport path 15b Second Transport path 15c Third transport path 151a, 151b, 151c Transport roller 16 First card reader unit 17 Second card reader unit 18 Third card reader unit 19 Control unit 190 Magnetic stripe processing unit 191 Type determination unit 192 Transport control unit 193 IC Chip processing unit 194 Communication unit 195 Storage unit 2 CPU

Claims (8)

A card processing device that includes a magnetic stripe and an IC chip, and at least one of a plurality of types of payment application formats performs payment processing based on a card medium recorded on the IC chip.
One insertion slot into which the card medium is inserted and
A magnetic reading unit arranged on the downstream side of the insertion slot in the insertion direction of the card medium and reading the information stored in the magnetic stripe.
A distribution mechanism arranged on the downstream side of the magnetic reading unit in the insertion direction of the card medium and distributing the card medium to the first transport path or the second transport path according to the information read from the magnetic stripe.
A first card reader unit arranged in the first transport path and capable of reading the IC chip based on the first payment application.
A second card reader unit that is arranged in the second transport path and can read the IC chip based on the second payment application.
A card processing device comprising. The distribution mechanism
It has a rotating plate in which the first end portion on the insertion port side is fixed and the second end portion on the downstream side can be moved between the first transport path and the second transport path.
With the card medium placed on the upper surface of the rotating plate, the second end portion of the rotating plate is moved to connect the second end portion to the first transport path or the second transport path. ,
The card processing device according to claim 1. The first transport path and the second transport path are provided at different heights.
The distribution mechanism moves the second end of the rotating plate so as to match the height of the first transport path or the second transport path.
The card processing device according to claim 2. The first transport path is provided at a height corresponding to the insertion port.
The second transport path is provided on the upper side of the first transport path in the vertical direction.
The card processing device according to claim 3. A third card reader unit that is arranged in the first transport path or the third transport path on the downstream side in the insertion direction of the card medium in the second transport path, and can read the IC chip based on the third payment application. Further prepare,
The card processing device according to any one of claims 1 to 4. A toll machine provided with the card processing device according to any one of claims 1 to 5. At least one of a plurality of types of payment application formats including a magnetic stripe and an IC chip is a card processing method that performs payment processing based on a card medium recorded on the IC chip.
A magnetic reading step of reading information stored in the magnetic stripe of the card medium inserted from one insertion slot, and
A distribution step of distributing the card medium to the first transport path or the second transport path according to the information read from the magnetic stripe, and
A first card reading step of reading the IC chip based on the first payment application for the card medium transported to the first transport path.
A second card reading step of reading the IC chip based on the second payment application for the card medium transported to the second transport path, and
Card processing method having. At least one of a plurality of types of payment application formats, including a magnetic stripe and an IC chip, is a program that functions a computer of a card processing device that performs payment processing based on a card medium recorded on the IC chip.
A magnetic reading step of reading information stored in the magnetic stripe of the card medium inserted from one insertion slot, and
A distribution step of distributing the card medium to the first transport path or the second transport path according to the information read from the magnetic stripe, and
A first card reading step of reading the IC chip based on the first payment application for the card medium transported to the first transport path.
A second card reading step of reading the IC chip based on the second payment application for the card medium transported to the second transport path, and
A program that executes.

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