JP2012038016A - Ic card reader/writer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an IC card reader/writer which is user-friendly and can treat both an IC card which can be inserted into an insertion slot and a potable phone which cannot be inserted into the same.SOLUTION: An IC card reader/writer comprises: a first antenna 81 for performing non-contact communication with an IC card 150 in a first communication area AR11; a second antenna 78 for performing non-contact communication with a communication target (portable phone 155) in a second communication area (outside of a case 41); and switching means (relays 310) for selectively switching between the first antenna 81 and the second antenna 78.

Description

  The present invention relates to an IC card reader / writer, for example, an IC card reader / writer provided in a ball rental apparatus called a sand installed between gaming machines.

  Conventionally, in a game hall such as a pachinko hall, a vertically long game medium rental for lending game media such as pachinko balls and coins between adjacent game machines in an area called an island where a large number of game machines are installed. A device (hereinafter referred to as sand) is installed.

  This sand is provided in a frame installed between each gaming machine, and banknotes, coins, prepaid cards, etc. are inserted through insertion ports provided on the front surface, so that game media can be lent, A signal for urging gaming media is transmitted to a gaming machine (see Patent Document 1).

  In addition, the non-contact type IC card in which the player's ID is stored is mounted on the mobile phone, and the non-contact communication is performed between the IC card and the sand, so that the ID read from the IC card in the sand Based on the above, it is also possible to identify a player by making an inquiry to the server and rent out game media to the player (see Patent Document 2).

  Further, as a card reader / writer provided in the sand, a card reader / writer provided with a card storage unit that stores cards that are no longer needed is also considered (see Patent Document 3).

JP 2006-254970 A JP 2008-259603 A JP 2004-215762 A

  By the way, information is exchanged with a non-contact type IC card inserted from a card insertion slot in one sand, and a non-contact type IC card is inserted between a device such as a mobile phone that cannot be inserted from the card insertion slot. If the same communication can be performed, it is considered that the usability can be improved.

  In view of the above problems, an object of the present invention is to provide an easy-to-use IC card reader / writer.

  A feature according to the embodiment of the present invention is that, in the IC card reader / writer, the first antenna for performing non-contact communication with the IC card in the first communication area, and the communication target in the second communication area And a switching means for selectively switching between the first antenna and the second antenna.

  According to this configuration, it is possible to perform non-contact communication with the IC card in the first communication area via the first antenna, and in the second communication area via the second antenna. Non-contact communication can be performed with a communication target. Thereby, non-contact communication can be performed via the second antenna even with a communication target device that cannot be carried into the first communication area.

  A feature of an embodiment of the present invention is that, in the above configuration, the first antenna is provided inside a housing for carrying the IC card, and the second antenna is provided outside the housing. It is being done.

  According to this configuration, non-contact communication can be performed via the first antenna with the IC card inserted inside the housing, and non-contact communication can be performed via the second antenna outside the housing. Contact communication can be performed. Accordingly, non-contact communication can be performed via the second antenna even with a communication target device that cannot be carried in from the IC card insertion slot.

  A feature of an embodiment of the present invention is that, in the above configuration, the casing includes a card insertion slot for inserting the IC card into the casing, and the second antenna is connected to the card insertion slot. It is provided around.

  According to this configuration, the area around the card insertion slot can be used effectively. For example, even in a sand provided in a narrow space between gaming machines, the communication area of the second antenna (first 2 communication area).

  A feature according to an embodiment of the present invention is that in the configuration described above, there is provided a detecting means for detecting the introduction of the IC card into the first communication area, wherein the switching means is based on a detection result of the detecting means. And switching from the second antenna to the first antenna when it is detected that the IC card is carried into the first communication area.

  According to this configuration, normally, the second antenna is selected, and the switching frequency of the switching means is reduced by selecting the first antenna only when the IC card is carried into the first communication area. It is possible to suppress the deterioration of the switching means.

  According to the present invention, an easy-to-use IC card reader / writer can be provided.

1 is a perspective view showing an appearance of an IC card reader / writer according to an embodiment of the present invention. It is a front view which shows the sand incorporating an IC card reader / writer. It is a perspective view which shows the attachment state of the bezel in the front part of an IC card reader / writer. It is a perspective view which shows the back surface part of a bezel. It is sectional drawing which shows the cross section of a bezel. It is a top view which shows the back surface of an antenna board | substrate. It is a perspective view which shows the use condition of an IC card and a mobile telephone. It is a perspective view which shows the internal structure of the housing | casing of an IC card reader / writer. It is a top view which shows the antenna board | substrate provided in the communication area. It is a side view which shows an antenna board | substrate and a control board. It is a block diagram which shows the structure of an IC card reader / writer. It is a flowchart which shows the antenna switching process procedure by a control circuit. It is a flowchart which shows other embodiment of the antenna switching process sequence by a control circuit. It is a perspective view which shows the back part side of an IC card reader / writer. It is a perspective view which shows the back side of a stack part. It is a perspective view which shows the front side of a stack part. It is a side view which shows the side surface of an opening-and-closing lid. It is a perspective view which shows the structure of a bulging member. It is the schematic where it uses for description of conveyance operation of an IC card. It is the schematic where it uses for description of the usage method of a mobile telephone. It is a perspective view which shows the internal structure of a housing | casing.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing an appearance of an IC card reader / writer 40 according to the present embodiment. As shown in FIG. 2, the IC card reader / writer 40 is provided in a sand (game medium lending device) 20 disposed between the pachinko machines 10.

  Each sand 20 is communicably connected to a controller (not shown) that performs system management and sales management for the entire hall. Each sand 20 has, for example, a card insertion slot 61 for inserting an IC card issued by a card issuing machine (not shown) in the hall, a bill insertion slot 21 for inserting a bill, and a coin for inserting coins. A coin slot 22 and an operation unit 24 operated by the player are provided. On the operation unit 24, numeric keys are arranged.

  A player receives an IC card, a predetermined amount of banknotes or coins from the card insertion slot 61, the banknote insertion slot 21 or the coin insertion slot 22 and rents game media (pachinko balls) necessary for the game. Can do.

  An IC card as a value medium is issued at a card issuing machine or sand 20 installed in a hall, and at the time of issuance, monetary data corresponding to the amount inserted by the player into the card issuing machine or sand 20 is provided. Written. The sand 20 in which the IC card in which the amount data is written is inserted is a pachinko ball corresponding to the amount specified by the player operating the operation unit 24 within the range of the amount data written in the IC card. Is sent to the pachinko machine 10 attached to the sand 20. Based on the signal sent from the sand 20, the pachinko machine 10 provides the player with the number of pachinko balls specified by the signal. In this case, the sand 20 subtracts the amount corresponding to the pachinko ball provided to the player from the amount data of the inserted IC card. Thereby, the player can use an IC card instead of cash.

  As described above, the sand 20 also has a function as a card issuing machine that issues an IC card. A player inserts banknotes or coins from the banknote insertion slot 21 or the coin insertion slot 22, and controls the operation unit 24. By operating the card issuance and specifying the amount, the IC card reader / writer 40 incorporated in the sand 20 stores the amount data corresponding to the specified amount in the stack portion of the IC card reader / writer 40 (described later). After being written on the IC card stacked on the card, it is discharged to the player via the card insertion slot 61. A player can borrow a pachinko ball using this IC card.

  When the amount data of the IC card inserted by the player becomes 0, the IC card reader / writer 40 of the sand 20 collects and stacks the IC card on the stack unit without discharging the IC card. Thereby, the used IC card is always collected in the stack portion, and it is possible to prevent the unnecessary IC card from being thrown into the hole. Further, the IC card collected in the stack unit is used as a new card when the sand 20 is used as a card issuing machine for the IC card. Thereby, the IC card can be reused.

  As shown in FIG. 1, the entire IC card reader / writer 40 is housed in a box-shaped casing 41, and the casing 41 is fixed inside the sand 20 (FIG. 2). . A bezel 60 in which a card insertion slot 61 is formed is fixed to the front surface portion 41 </ b> A of the housing 41. The bezel 60 is entirely made of a resin material so as to be translucent. Inside the bezel 60 is provided an antenna substrate on which an antenna for performing non-contact communication with an IC card mounted on a mobile phone or the like is provided (described later).

  The casing 41 of the IC card reader / writer 40 is formed in a shape that fits in the sand 20 provided in a narrow space between the pachinko machines 10. That is, the casing 41 is formed so that the thickness W in the width direction is thin with respect to the depth D. The casing 41 is inserted through the stack portion 200 and the card insertion slot 61 for stacking a plurality of IC cards. Communication means for performing non-contact communication with the IC card or the IC card supplied from the stack unit 200, a control board (CPU board) for controlling the operation, and the like are provided.

  In the stack unit 200, an opening / closing lid 201 is pivotally supported on one side surface of the housing 41 through a rotation shaft 202 (202 </ b> A, 202 </ b> B) so as to be opened and closed. The opening / closing lid 201 is provided with a card holding portion (described later) for holding a plurality of IC cards. As shown by a one-dot chain line in FIG. 1, when the opening / closing lid 201 is rotated to a predetermined angle and the front opening 206 of the opening / closing lid 201 (stack unit 200) is exposed to the outside of the housing 41, the front opening The IC card stacked and accommodated inside 206 can be taken out, and the IC card can be replenished inside. The removal and refilling of the IC card through the front opening 206 is an action performed by the staff of the game hall. The removal and replenishment of the IC card can also be performed via card insertion openings 42 and 61 described later. Details of the stack unit 200 will be described later.

  A card insertion slot 42 (described later) for a player to insert an IC card is provided on the front surface portion 41A of the casing 41, and a bezel 60 is attached to cover the card insertion slot 42.

  FIG. 3 is a perspective view showing a mounting state of the bezel 60 on the front surface portion 41A of the IC card reader / writer 40, and FIG. 4 is a perspective view showing a back surface portion of the bezel 60. As shown in FIG. As shown in FIG. 3, a card insertion slot 42 for inserting an IC card is provided in the front surface portion 41A of the housing 41, and when the bezel 60 is attached to the front surface portion 41A, The card insertion slot 61 communicates with the card insertion slot 42 of the front surface portion 41A.

  Flat projections 64A and 64B project from one edge on the back side of the bezel 60, and the projections 64A and 64B are respectively formed in the front surface 41A of the housing 41. It is inserted into the joint holes 44A and 44B.

  In addition, protrusions 65A and 65B project from corners on the back surface side of the bezel 60, and the protrusions 65A and 65B are engaged holes 45A formed in the front surface 41A of the housing 41, respectively. , 45B.

  In a state where the protrusions 64A, 64B and 65A, 65B are inserted into the engagement holes 44A, 44B and 45A, 45B, the protrusions 64A, 64B are connected to the casing 41 through screw holes formed in the protrusions 64A, 64B. The bezel 60 can be fixed to the front surface portion 41 </ b> A of the housing 41 by screwing to the front surface portion 41 </ b> A.

  Further, as shown in FIGS. 4 and 5, on the back side of the bezel 60, the protrusions 66 </ b> A, 66 </ b> B and 67 </ b> A, 67 </ b> B extend in the insertion direction of the IC card 150 at positions facing each other across the card insertion slot 61. It is provided to do. Tapered portions 66C and 67C are formed at the tips of the protrusions 66A and 66B and 67A and 67B so as to spread outward from the passing area of the IC card 150, and are discharged in the direction of arrow b (FIG. 5). The IC card 150 is guided by the tapered portions 66C and 67C. Thereby, the IC card 150 to be discharged is smoothly guided into the card insertion slot 61 and discharged.

  Positioning projections 68A and 68B are provided on the back side of the bezel 60. By fitting these projections 68A and 68B into the positioning holes 71A and 71B of the antenna substrate 70 (FIG. 3), the bezel The antenna substrate 70 can be positioned with respect to 60. In this state, the antenna substrate 70 is fixed to the back side of the bezel 60 by screwing the screws 73 into the screw holes 69 on the back side of the bezel 60 through the through holes 72 of the antenna substrate 70. Can do.

  The antenna substrate 70 has an insertion hole 75 large enough to allow the IC card 150 to be inserted. When the antenna substrate 70 is fixed to the bezel 60, the bezel 60 is fixed to the front surface portion 41 </ b> A of the housing 41. The insertion hole 75 of the antenna substrate 70, the card insertion slot 61 of the bezel 60, and the card insertion slot 42 formed in the front surface portion 41A of the housing 41 are communicated with each other. Thus, in a state where the bezel 60 is fixed to the front surface portion 41 </ b> A of the housing 41, the IC card 150 is inserted through the card insertion slot 61 of the bezel 60, the insertion hole 75 of the antenna substrate 70 and the card insertion slot 42 of the housing 41. Can be inserted into the housing 41, and the IC card 150 inside the housing 41 can be discharged to the outside.

  The front surface 70A (FIG. 3) of the antenna substrate 70 is provided with LEDs 76A and 76B that display information such as the operating state of the IC card reader / writer 40 and whether or not the IC card 150 is permitted to be inserted depending on the light emission mode. . The light emitted from the LEDs 76 </ b> A and 76 </ b> B is transmitted to the front side of the bezel 60 through the translucent bezel 60. Thereby, the player can visually observe the light of the LEDs 76 </ b> A and 76 </ b> B provided behind the bezel 60.

  FIG. 6 is a plan view showing the back surface 70 </ b> B of the antenna substrate 70. As shown in FIG. 6, a connector 77 for connecting to a connector provided inside the housing 41 of the IC card reader / writer 40 protrudes from the back surface 70 </ b> B of the antenna substrate 70 on the back surface 70 </ b> B of the antenna substrate 70. When the bezel 60 is fixed to the housing 41 together with the antenna substrate 70, the connector 77 of the antenna substrate 70 is connected to the interior of the housing via the through hole 46 formed in the front surface portion 41A of the housing 41. Are connected to a connector (not shown). As a result, power and control signals can be sent from the housing 41 side to the antenna substrate 70 side via the connector 77, and the LEDs 76A and 76B can be controlled to emit light, or can be connected to an external device via the antenna 78 described later. It is possible to communicate without contact between them.

  On the back surface 70B of the antenna substrate 70, an antenna 78 is provided for communicating with a communication target in a non-contact manner by an electromagnetic induction method or the like. The antenna 78 is an antenna pattern wired on the back side of the antenna substrate 70, and is formed so as to wind around the insertion hole 75 of the antenna substrate 70. The antenna 78 forms a space in front of the bezel 60 in which electromagnetic communication can be performed.

  Accordingly, as shown in FIG. 7, for example, the cellular phone 155 provided with an antenna for performing non-contact communication by an electromagnetic induction method is brought close to the bezel 60, whereby the cellular phone is connected via the antenna 78 of the antenna substrate 70. Communication can be performed between 155 and a control circuit (described later) of the IC card reader / writer 40. Note that various modes can be applied to the antenna on the mobile phone 155 side, such as a built-in mobile phone 155 or a configuration in which a non-contact IC card is mounted on the mobile phone 155. The communication method is, for example, an electromagnetic induction method with a carrier frequency of 13.56 MHz, but is not limited thereto. In addition, the object to communicate with the antenna 78 of the antenna substrate 70 provided in the bezel 60 is not limited to the mobile phone 155. In short, communication with the antenna 78 of the antenna substrate 70 is performed without contact. Various devices can be applied as long as the devices have communication means capable of performing the above.

  As described above, the IC card reader / writer 40 is not limited to performing non-contact communication (described later) inside the housing with respect to the IC card 150 that can be inserted from the card insertion slot 61 provided in the bezel 60. Communication can be performed in a non-contact manner even with a device having a shape that cannot be inserted from the mouth 61 (for example, the mobile phone 155). That is, in the past, information such as monetary data was stored in an IC card and used for renting pachinko balls, etc. In addition to such usage, a mobile phone 155 or the like is used instead of an IC card. be able to. In this case, as shown in FIG. 7, for example, the mobile phone 155 is held over the antenna 78 of the antenna substrate 70 to perform non-contact communication between the mobile phone 155 and the IC card reader / writer 40, thereby providing an IC card reader. The writer 40 acquires a unique identification number of the mobile phone 155 from the mobile phone 155. The sand 20 in which the IC card reader / writer 40 is incorporated accesses the server in the hall where the sand 20 is installed, determines whether the identification number acquired from the mobile phone 155 is registered, and is registered. If it is, information such as amount data and the number of stored balls corresponding to the identification number is acquired, and processing such as pachinko ball lending is performed based on such information.

  The IC card reader / writer 40 is incorporated in the sand 20 disposed in a narrow area between the pachinko machine 10 (FIG. 2), and a card insertion slot 61 for inserting the IC card 150 of the IC card reader / writer 40 is provided. The IC card reader / writer 40 is provided on the front surface 41A of the housing 41. That is, in the relatively narrow front surface portion 41A, the area of the front surface portion 41A can be effectively utilized by disposing the wound antenna 78 in the region around the card insertion slot 61.

Next, a configuration for performing non-contact communication with the IC card 150 inserted from the card insertion slot 61 will be described. As shown in FIG. 7, when the IC card 150 is inserted into the card insertion slot 61 provided in the front surface portion 41 </ b> A of the housing 41 of the IC card reader / writer 40, the IC card reader / writer 40 is placed inside the housing 41. By drawing the inserted IC card 150 to a predetermined position by the card transport mechanism provided in the card and performing non-contact communication with the IC card 150 at the predetermined position, information is written to and read from the IC card 150 I do. Note that the communication with the IC card 150 uses, for example, an electromagnetic induction method with a carrier frequency of 13.56 MHz, but is not limited thereto.
FIG. 8 is a perspective view showing the internal structure of the housing 41 of the IC card reader / writer 40. FIG. 8 is a diagram in which the stack unit 200 (opening / closing lid 201) and the like shown in FIG. 1 are omitted.

  As shown in FIG. 8, in the IC card reader / writer 40, there are a communication area AR11 for non-contact communication with the IC card 150 (FIG. 7) inserted from the card insertion slot 61, and a plurality of communication areas AR11. And a stack area (storage area) AR12 for stacking the IC cards.

  In the case 41, the communication area AR11 and the stack area AR12 are sequentially arranged in series from the card insertion slot 61, and the conveyance belt 105 that is stretched over the plurality of conveyance rollers 91 to 95 over these two areas. And a conveyor belt 106 that is stretched over a plurality of conveyor rollers 96-100. These transport belts 105 and 106 are driven in such a manner that the transport rollers 91 and 96 are rotated by a motor (not shown), so that the IC card 150 is transported from the card insertion slot 61 to the communication area AR11 and the stack area AR12. It is driven so as to be conveyed in the loading direction) or the discharging direction (direction in which the stack area AR12 is discharged to the communication area AR11 and the card insertion slot 61).

  In the communication area AR11, an antenna substrate 80 is provided at a position facing the IC card 150. The antenna substrate 80 is provided with an antenna 81 (FIG. 9) for communicating with the IC card 150 in a non-contact manner by an electromagnetic induction method or the like. As shown in FIG. 9, the antenna 81 is an antenna pattern wired on the IC card facing surface side of the antenna substrate 80, and is provided so as to form a winding pattern on the surface of the antenna substrate 80. The antenna 81 forms a space in the communication area AR11 where communication by the electromagnetic induction method can be performed. Thereby, the control circuit (CPU) of the IC card reader / writer 40 can communicate with the IC card 150 conveyed to the communication area AR11 via the antenna 81 of the antenna substrate 80. Note that this communication method is, for example, an electromagnetic induction method with a carrier frequency of 13.56 MHz, but is not limited thereto.

  As shown in FIG. 10, the control board 120 is fixed to the antenna board 80 at a predetermined interval, and the control circuit described above is provided on the control board 120. Further, this control circuit and the antenna 81 of the antenna substrate 80 are connected. Thereby, communication with the IC card 150 via the antenna 81 is performed under the control of the control circuit of the control board 120. As described above with reference to FIGS. 3, 6, and 7, the control circuit of the control board 120 is connected to the antenna 78 formed on the antenna board 70 of the bezel 60. Communication with a communication target (such as a mobile phone 155) is performed.

  The antenna board 80 is provided with a relay for switching between the antenna 78 of the antenna board 70 and the antenna 81 of the antenna board 80. The control circuit selectively executes either communication via the antenna 78 or communication via the antenna 81 by controlling this relay.

  The switching process of the antenna 78 and the antenna 81 will be described. FIG. 11 is a block diagram showing the configuration of the IC card reader / writer 40. As shown in FIG. 11, a control board 120 and an antenna board 80 are provided inside a case 41 of the IC card reader / writer 40, and an antenna board 70 is provided outside the case 41 (inside the bezel 60). Is provided. The control board 120 is provided with a CPU, a ROM, a RAM, and the like.

  In the communication area AR11 inside the housing 41, an optical sensor 301 for detecting whether or not the IC card 150 has been loaded is provided. The mounting position of the optical sensor 301 is a position in the vicinity of the card insertion slot 61 (FIG. 8) inside the housing 41 or the innermost part of the communication area AR11, and detects the IC card 150 carried into the communication area AR11. It is supposed to be. Note that the sensor for detecting the IC card 150 is not limited to the optical sensor 301, and various sensors can be applied. In addition, as the installation position, various positions can be applied as long as the IC card 150 can be detected to be carried into the communication area AR11. Further, the IC card 150 may be detected not only by one sensor but also by a plurality of sensors.

  As described above with reference to FIG. 8, the antenna 81 provided on the antenna substrate 80 is an antenna for performing non-contact communication with the IC card 150 in the communication area AR <b> 11 inside the housing, and is provided on the antenna substrate 70. The antenna 78 is an antenna for performing non-contact communication with a device such as the mobile phone 155 (or an IC card attached to the device).

  Inside the casing 41, a relay 310 is provided as switching means for selectively switching between the two antennas 81 and 78. In the present embodiment, the relay 310 has a mechanical contact and is provided on the antenna substrate 80. The control circuit of the control board 120 selectively switches the antenna 78 or the antenna 81 by switching the relay 310.

  The antenna substrate 70 provided on the bezel 60 is provided with the LEDs 76A and 76B described above with reference to FIG.

  In the above configuration, the control circuit of the control board 120 uses the state in which the relay 310 is switched to the first switching end 310A as a basic state, and in this state, the antenna 78 on the bezel 60 side is selected.

  Then, when detecting that the IC card 150 is inserted into the communication area AR11 based on the detection result of the optical sensor 301, the control circuit switches the relay 310 to the second switching end 310B side, The antenna 81 on the communication area AR11 side is selected.

  FIG. 12 is a flowchart showing an antenna switching processing procedure by the control circuit. In step S11, the control circuit determines whether or not the IC card 150 has been carried into the communication area AR11 based on the detection result of the optical sensor 301. If a negative result is obtained here, this means that the IC card 150 does not exist in the communication area AR11. In this case, the control circuit shifts the processing from step S11 to step S12 to maintain the selection of the external antenna (antenna 78 on the bezel 60 side), and in the subsequent step S13, maintains the light emission mode of the LEDs 76A and 76B. The process returns to step S11.

  On the other hand, if a positive result is obtained in step S11, this means that the IC card 150 has been carried into the communication area AR11. In this case, the control circuit shifts the processing from step S11 to step S14, and selects the antenna 81 (internal antenna) inside the casing by switching the relay 310 to the second switching end 310B side. In step S15, the control circuit changes the light emission mode of the LEDs 76A and 76B to the light emission mode indicating that communication with the IC card 150 is performed inside the housing.

  Thereby, the control circuit can perform non-contact communication with the IC card 150 in the communication area AR11 via the antenna 81 inside the housing, and the player can change the light emission mode of the LEDs 76A and 76B. , It can be recognized that communication is being performed with the IC card 150 inside the housing.

  After executing the process of step S15, the control circuit moves to step S16 and determines whether communication with the IC card 150 in the communication area AR11 is completed. This determination method includes a method in which the control circuit actually determines the communication content, a method in which the IC card 150 is carried out from the communication area AR11 based on the detection result of the optical sensor 301, or the relay 310 is connected to the internal antenna. For example, there is a method of measuring a lapse of time after switching to (switching end 310B).

  If a negative result is obtained in step S16, this means that communication with the IC card 150 in the communication area AR11 has not been completed, and the control circuit until a positive result is obtained in step S16. The processing step is repeated.

  If an affirmative result is obtained in step S16, this means that communication with the IC card 150 in the communication area AR11 has been completed, and the control circuit moves from step S16 to step S17 to turn on the relay 310. Switch to the first switching end 310A (external antenna side). As a result, the antenna 81 inside the casing is switched to the antenna 78 on the outside (bezel 60 side). After the process of step S17, the control circuit shifts the process to step S18, and changes the light emission mode of the LEDs 76A and 76B to the light emission mode indicating that the antenna 78 is selected. Then, a control part returns a process to step S11 above.

  As described above, in the present embodiment, in the configuration in which the two antennas 78 and 81 are provided, either antenna is connected by selectively switching one of the antennas. Therefore, it is possible to prevent the occurrence of a communication failure and to perform reliable communication using either the antenna 78 or the antenna 81.

  Further, by switching between the two antennas 78 and 81 by the relay 310, it is not necessary to provide the control board 120 for performing communication via these antennas 78 and 81 individually for each antenna. Thereby, a structure can be simplified.

  In addition, the process which switches the antennas 78 and 81 is not restricted to the process sequence shown in FIG. 12, A various procedure can be used. FIG. 13 is a flowchart illustrating another example of the antenna switching processing procedure. The process of FIG. 13 is a process that is called and executed every predetermined time by the control circuit.

  As shown in FIG. 13, in step S21, the control circuit determines whether or not the IC card 150 exists in the communication area AR11 based on the detection result of the detection means such as the optical sensor 301.

  If a negative result is obtained in step S21, this means that the IC card 150 does not exist in the communication area AR11, and the control circuit shifts the processing from step S21 to step S22 to It is determined whether the antenna (antenna 78) is switched. If it has already been switched to the external antenna, the control circuit returns to step S21 described above and repeats the same processing.

  On the other hand, if the control circuit has not yet switched to the external antenna, the control circuit obtains a negative result in step S22, thereby moving the process from step S22 to step S23, and switching the relay 310 to the first switching end 310A side. By switching to, the external antenna (antenna 78) is selected. In step S24, the control circuit changes the light emission mode of the LEDs 76A and 76B to the light emission mode indicating that the external antenna (antenna 78) is switched.

  On the other hand, if a positive result is obtained in step S21, this means that the IC card 150 has been carried into the communication area AR11, and the control circuit moves from step S21 to step S25, It is determined whether or not it has already been switched to the internal antenna (antenna 81). If it has already been switched to the internal antenna, the control circuit returns to step S21 described above and repeats the same processing.

On the other hand, if the control circuit has not been switched to the internal antenna yet, the control circuit obtains a negative result in step S25, moves the process from step S25 to step S26, and switches the relay 310 to the second switching end 310B side. By switching to, the internal antenna (antenna 81) is selected. In step S27, the control circuit changes the light emission mode of the LEDs 76A and 76B to the light emission mode indicating that communication is performed with the IC card 150 inside the housing, and then returns to step S21 described above.
Thus, the antennas 78 and 81 can be switched also by the antenna switching process of FIG.

  Next, the stack unit 200 provided in the stack area AR12 will be described. In the stack area AR12, a stack unit 200 (FIG. 1) for storing a plurality of IC cards 150 in a stacked manner is provided. As shown in FIG. 1, the stack unit 200 is pivotally supported with respect to the housing 41 of the IC card reader / writer 40 via the rotation shafts 202 </ b> A and 202 </ b> B. By rotating the stack unit 200, the IC card 150 housed therein is also rotated integrally, and the front opening 206 (FIG. 17) of the opening / closing lid 201 of the stack unit 200 faces the outside of the housing 41. In this state, the internal IC card 150 can be taken out, and the IC card 150 can be stored inside. For example, when all the IC cards 150 in the stack unit 200 are ejected from the card insertion slot 61 and used for the player, the staff of the game hall opens the opening / closing lid 201 of the stack unit 200 and newly installs a new one inside. An IC card 150 can be inserted. Further, when the number of IC cards 150 accommodated inside increases, the staff of the game hall can open the opening / closing lid 201 of the stack unit 200 and take out the internal cards.

  FIG. 14 is a perspective view showing the back surface portion 41B side of the IC card reader / writer 40. FIG. As shown in FIG. 14, support portions 47 and 48 for pivotally supporting the rotation shafts 202 </ b> A and 202 </ b> B of the opening / closing lid 201 of the stack portion 200 are provided on the edge portion of the back surface portion 41 </ b> B of the IC card reader / writer 40. ing. The rotation shafts 202A and 202B are provided on the same axis line.

  FIG. 15 is a perspective view showing the back side of the stack unit 200, and FIG. 16 is a perspective view showing the front side of the stack unit 200. The stack unit 200 is configured to stack and store a plurality of IC cards 150 inside a rectangular parallelepiped opening / closing lid 201. As shown in FIG. 16, the opening / closing lid 201 is provided with a holding plate 210 that holds the IC card 150 accommodated therein. The pressing plate 210 faces the top plate 205 (the inner surface of the opening / closing lid 201) of the opening / closing lid 201, and is supported by the opening / closing lid 201 so as to be movable in a direction approaching or separating from the top plate 205. Further, the holding plate 210 is urged in a direction away from the top plate 205 by urging means (not shown) such as a coil spring. As a result, the IC card 150 is pressed by the contact surface 210 </ b> A side of the pressing plate 210 in the opening / closing lid 201.

  Support plates 211 </ b> A to 211 </ b> D that support the IC card 150 housed inside are provided on the side surface of the opening / closing lid 201. The IC card 150 can be held in parallel with the top plate 205 inside the opening / closing lid 201 by hooking the IC card 150 on the L-shaped bent ends of the support plates 211A to 211D.

  FIG. 17 is a side view showing a side surface of the opening / closing lid 201. As shown in FIG. 17, in the opening / closing lid 201, a plurality of IC cards 150 can be stacked and accommodated by inserting the IC card 150 into the inside from the front opening 206.

  When the opening / closing lid 201 is closed with respect to the housing 41, the front opening 206 is arranged toward the communication area AR11 (FIG. 8), so that communication can be performed when the opening / closing lid 201 is closed. When the IC card 150 in the area AR11 is conveyed to the stack area AR12 as the conveying belts 105 and 106 are driven, the IC card 150 is inserted into the opening / closing lid 201 through the front opening 206.

  Here, a bulging member 250 supported so as to bulge from the bottom surface to the internal space of the housing 41 is provided on the bottom surface of the stack area AR12 (FIG. 8). As shown in FIG. 18, the bulging member 250 is fixed to the rotation shafts of the transport rollers 94 and 99 and engaged with an eccentric cam 251 that rotates integrally with the rotation shaft, and as the eccentric cam 251 rotates. , And moves up and down in the direction indicated by the arrow d. Accordingly, when the conveyance rollers 91 to 100 are rotated by a motor (not shown) to convey the IC card 150 from the communication area AR11 to the stack area AR12, the bulging member 250 is rotated along with the rotation of the conveyance rollers 94 and 99. Swells to the stack area AR12. When the bulging member 250 bulges out, when the IC card 150 is already stored in the opening / closing lid 201 of the stack portion 200, the IC card 150 is pushed up by the bulging member 250, and below this, the communication area AR11. A space for inserting a new IC card 150 conveyed from is secured. At this time, the bulging member 250 retreats from the stack area AR12 at the timing when a new IC card 150 starts to be inserted under the already held IC card 150 pushed up by the bulging member 250. The timing of the retraction is set according to the shape of the eccentric cam 251. As the bulging member 250 is retracted in this manner, the new IC card 150 carried in from the communication area AR11 is reliably carried into the opening / closing lid 201 without being obstructed by the bulging member 250.

  As described above, the IC card reader / writer 40 according to the present embodiment can perform communication processing with the IC card 150 and communication processing with the mobile phone 155. As shown in FIG. 19, when the IC card 150 is inserted through the card insertion slot 61 of the bezel 60, the IC card reader / writer 40 drives the conveyor belts 105 and 106 to place the IC card 150 on the antenna substrate. It is transported to the communication area AR11 facing 80 (FIGS. 19A and 19B). When communication with the IC card 150 via the antenna substrate 80 is completed in the communication area AR11 and the amount data of the IC card 150 becomes 0, for example, the IC card reader / writer 40 drives the conveyor belts 105 and 106. The IC card 150 is conveyed to the stack area AR12. In this case, as described above with reference to FIG. 15, the bulging member 250 pushes up the IC card 150 stacked on the stack portion 200, and a new IC card 150 insertion space is formed below the IC card 150 (FIG. 19C )).

In this state, the IC card reader / writer 40 further drives the conveyor belts 105 and 106 to carry the IC card 150 that has completed communication into the insertion space formed by the bulging member 250 (FIG. 19 ( D)).
As a result, the IC card 150 that is determined to be stacked after communication is completed is stacked on the stack unit 200.

  In addition, when the player inserts banknotes or coins from the banknote insertion slot 21 or the coin insertion slot 22 (FIG. 2) and designates the issue of the IC card 150, the sand 20 is transferred to the stack unit 200 of the IC card reader / writer 40. By transporting the stacked IC cards 150 to the communication area AR11 by driving in the discharge direction of the transport belt and performing communication, the money amount data is written to the IC card 150, and then this is transferred from the card insertion slot 61. Discharge.

  On the other hand, as shown in FIG. 20, an antenna provided on the bezel 60 is also connected to a communication target (for example, the mobile phone 155) that cannot be inserted from the card insertion slot 61 of the bezel 60. By approaching the substrate 70, the IC card reader / writer 40 can perform non-contact communication with the mobile phone 155 via the antenna substrate 70 (FIGS. 20A and 20B).

  As shown in FIG. 17, the IC card 150 is stacked and accommodated inside the opening / closing lid 201, and when the opening / closing lid 201 is opened as shown by a one-dot chain line in FIG. The IC card 150 accommodated in the inside of the opening / closing lid 201 can be taken out via the front opening 206 of the opening / closing lid 201, and the IC card 150 is replenished to the inside of the opening / closing lid 201 via the front opening 206. can do.

  When a player who does not have the IC card 150 inserts cash from the bill insertion slot 21 or the coin insertion slot 22, the IC card 150 refilled inside the opening / closing lid 201 is driven by the transport belts 105 and 106 in the communication area. It is transported to the AR 11 and predetermined amount data is written by non-contact communication via the antenna 81.

  On the other hand, when a player who has the IC card 150 inserts the IC card 150 through the card insertion slot 61, the IC card 150 is transported to the communication area AR11 by driving the transport belts 105 and 106, and is connected via the antenna 81. Through the communication, the amount data stored in the IC card 150 is read out by the control circuit.

  As described above, the IC card 150 is carried into the communication area AR11 from both the stack unit 200 and the card insertion slot 61, and the optical sensor 301 can communicate with the communication area regardless of the carry-in route. The presence of the IC card 150 carried into the AR 11 can be detected.

  The IC card reader / writer 40 has a communication function for the above-described IC card 150 and a communication function with a communication target having a shape that cannot be inserted from the card insertion slot 61 of the mobile phone 155 or the like equipped with the IC card. In addition to the configuration of the switching means (relay 310), the stack unit 200 for stacking the IC cards 150, etc., it has a mechanism for restricting insertion of the IC card 150 inserted from the card insertion slot 61.

  FIG. 21 is a perspective view showing the internal structure of the housing 41. As shown in FIG. 21, a card lock unit 160 that restricts the insertion of the IC card 150 is provided inside the housing 41 on the side where the bezel 60 (card insertion slot 61) is provided. The card lock unit 160 includes two lock claws 161 and 162 that are fitted to a shaft 165 that rotates as the conveyance rollers 91 to 95 and 96 to 100 for conveying the IC card 150 rotate. The lock claws 161 and 162 rotate integrally with the shaft 165 with a slight frictional force with respect to the shaft 165.

  When the IC card 150 is inserted from the card insertion slot 61 (FIG. 8), the IC card 150 is detected by a sensor (not shown) provided at a predetermined position, and the IC card 150 is inserted into the card insertion slot 61 (FIG. 8). The conveying rollers 91 to 95 and 96 to 100 are rotationally driven in the direction of loading from (3). In response to this, the lock claws 161 and 162 rotate so as to lift their tip portions onto the card insertion path. The timing at which the transport rollers 91 to 95 and 96 to 100 start rotating (that is, the timing at which the lock claws 161 and 162 start to rotate) is determined according to the position of the sensor, and the IC card 150 is inserted into the card insertion slot 61. Then, the transport rollers 91 to 95 and 96 to 100 start to rotate, and the lock claws 161 and 162 start to rotate accordingly.

  The positions of the lock claws 161 and 162 are provided closer to the card insertion slot 61 than the conveyor belts 105 and 106. When the IC card 150 is inserted to the extent that it reaches the conveyor belts 105 and 106, The IC card 150 already exists in the rotation direction of the lock claws 161 and 162, and contacts the side surface of the IC card 150 even if the lock claws 161 and 162 rotate. In this case, since the lock claws 161 and 162 are fitted to the shaft 165 with a predetermined frictional force as described above, the shaft is further moved while the lock claws 161 and 162 are in contact with the side surface of the IC card 150. Even if 165 rotates, only the shaft 165 rotates, and the lock claws 161 and 162 do not rotate any more. Thereby, the lock claws 161 and 162 do not hinder the operation of carrying in the IC card 150 inserted at this time.

  When the IC card 150 inserted at this time is further carried in by the conveyor belts 105 and 106 and passes through the positions of the lock claws 161 and 162, the lock claws 161 and 162 enter the insertion path of the IC card 150. Thereby, even if a new IC card 150 is subsequently inserted from the card insertion slot 61, the IC card 150 is locked by the lock claws 161 and 162 so that it cannot be inserted inside.

  As described above, in a state where one IC card 150 is inserted and carried into the inside by the conveyor belts 105 and 106, a new IC card 150 is prevented from being inserted by the lock claws 161 and 162. Can do.

  When the communication process is completed for the IC card 150 carried into the communication area AR <b> 11 (FIG. 8), the IC card 150 is carried out to the card insertion slot 61 and discharged to the outside through the card insertion slot 61. In this carry-out operation, the transport rollers 91 to 95 and 96 to 100 rotate in reverse to the carry-in state, and accordingly, the lock claws 161 and 162 are retracted from the insertion path of the IC card 150. It becomes a state to do. Thereby, when the IC card 150 is ejected, even if the IC card 150 is newly inserted, it is not locked by the lock claws 161 and 162 and can be carried into the housing.

  Further, when the IC card 150 for which communication processing has been completed in the communication area AR11 (FIG. 8) is carried into the stack unit 200, the lock claws 161 and 162 are kept protruding from the insertion path of the IC card 150. Therefore, the transport rollers 91 to 95 and 96 to 100 are slightly rotated in the reverse direction. Thereby, the lock claws 161 and 162 can be retracted from the insertion path of the IC card 150 so that a new IC card 150 can be inserted.

  In the above-described embodiment, the case where the present invention is applied to the IC card reader / writer 40 used for the sand of a pachinko machine has been described. However, the present invention is not limited to this, and other various types such as a pachislot machine. It can be applied to an IC card reader / writer used in a gaming machine.

  Further, the present invention is not limited to gaming machines, and can be widely applied to IC card reader / writers used for other purposes such as IC card reader / writers used in vending machines.

  In the above-described embodiment, the case where the relay 310 having the mechanical contact is used has been described. However, the present invention is not limited to this, and a semiconductor switching element may be used. Further, the attachment position of the relay 310 is not limited to the antenna substrate 80 but may be the antenna substrate 70 or the control substrate 120.

  In the above embodiment, the case where the LEDs 76A and 76B are provided on the antenna substrate 70 has been described. However, the present invention is not limited to this, and a dedicated substrate may be provided in addition to the antenna substrate. Moreover, the number of LED76A, 76B is not restricted to two, A various number is applicable.

  In the above-described embodiment, the antenna 78 is provided so as to be wound around the card insertion slot 61. However, the formation position of the antenna 78 is not limited to this, and for example, an IC card reader / writer. As long as it is a part exposed to the outside, such as any position of the front surface 40, it can be provided at various positions.

  In the above-described embodiment, the case where the communication target of the antenna 78 is the mobile phone 155 or the IC card attached to the mobile phone 155 is described. However, the present invention is not limited to this, and other various devices may be used. There may be. In this case, non-contact communication can be performed with these devices by holding the device in front of the bezel 60 (communication region of the antenna 78). Even if these devices have a shape that cannot be inserted from the card insertion slot 61 into the housing 41, they can communicate by simply holding them in front of the bezel 60. The communication target by the antenna 78 is not limited to these devices including the mobile phone 155, and may be an IC card 150 that can be inserted from the card insertion slot 61. For example, the IC card reader / writer 40 can communicate with the IC card 150 only by holding the IC card 150 possessed by the player in front of the bezel 60 (the communication area of the antenna 78). Therefore, the player can cause the IC card reader / writer 40 to read the information on the IC card 150 without taking the trouble of inserting the IC card 150 possessed from the card insertion slot 61. In this case, when the IC card 150 prepared in the stack unit 200 is newly issued, the antenna 81 in the housing 41 is used as a communication unit for writing monetary amount data or the like to the IC card 150. Become. The newly issued IC card 150 is discharged (issued) to the outside through the card insertion slot 61 after information is written in the communication area AR11.

(Outline of IC card reader / writer)
The IC card reader / writer 40 in the embodiment of the present invention includes a first antenna 81 for performing contactless communication with an IC card in the first communication area AR11, and a second communication area (housing 41). And a switching means (relay 310) for selectively switching between the first antenna 81 and the second antenna 78. It is characterized by.

  According to this configuration, non-contact communication can be performed with the IC card 150 in the first communication area AR11 via the first antenna 81, and the second communication area (the front side of the bezel 60). In, non-contact communication can be performed with the communication target via the second antenna 78. Thereby, non-contact communication can be performed via the second antenna 78 even with a communication target device (such as the mobile phone 155) that cannot be carried into the first communication area AR11.

  In the IC card reader / writer 40 according to the present embodiment, the first antenna 81 is provided inside the housing 41 into which the IC card 150 is carried, and the second antenna 78 is provided outside the housing 41 in the above configuration. It is provided in.

  According to this configuration, non-contact communication can be performed via the first antenna 81 with the IC card 150 inserted into the housing, and the second antenna 78 is provided outside the housing. Non-contact communication can be performed through the network. Thereby, non-contact communication can be performed via the second antenna 78 even with a communication target device (such as the mobile phone 155) that cannot be inserted from the IC card insertion slot (card insertion slot 61). .

  In the IC card reader / writer 40 according to the present embodiment, the casing 41 includes a card insertion slot 61 for inserting the IC card 150 into the casing, and the second antenna 78 has a card insertion slot. 61 is provided around 61.

  According to this configuration, the area around the card insertion slot 61 can be used effectively. For example, even in the sand 20 provided in a narrow place between gaming machines, the communication area of the second antenna 78 on the front surface thereof. (Area over which the communication target device is held) can be secured.

  The IC card reader / writer 40 according to the present embodiment includes detection means (optical sensor 301) for detecting the carry-in of the IC card 150 to the first communication area AR11 in the above configuration, and the switching means (relay 310) includes: Switching from the second antenna 78 to the first antenna 81 is detected when the IC card 150 is carried into the first communication area AR11 based on the detection result of the detection means (the optical sensor 301). To do.

  According to this configuration, normally, the second antenna 78 is selected, and only when the IC card 150 is carried into the first communication area AR11, the first antenna 81 is selected. The switching frequency of the relay 130) can be reduced, and deterioration of the switching means can be suppressed.

DESCRIPTION OF SYMBOLS 10 Pachinko machine 20 Sand 21 Bill insertion port 22 Coin insertion port 24 Operation unit 40 IC card reader / writer 41 Case 41A Front surface part 42, 61 Card insertion port 47, 48 Support part 60 Bezel 70, 80 Antenna board 78, 81 Antenna 91 Transport roller 105, 106 Conveyor belt 150 IC card 155 Mobile phone 200 Stack unit 201 Opening / closing lid 202A, 202B Rotating shaft 301 Optical sensor 310 Relay

Claims (4)

A first antenna for performing contactless communication with an IC card in the first communication area;
A second antenna for performing contactless communication with a communication target in the second communication area;
An IC card reader / writer, comprising: switching means for selectively switching between the first antenna and the second antenna. The first antenna is provided inside a housing for carrying the IC card,
2. The IC card reader / writer according to claim 1, wherein the second antenna is provided outside the housing. The housing includes a card insertion slot for inserting the IC card into the housing,
The IC card reader / writer according to claim 2, wherein the second antenna is provided around the card insertion slot. Detecting means for detecting the IC card carried into the first communication area;
The switching means switches from the second antenna to the first antenna when the introduction of the IC card into the first communication area is detected based on the detection result of the detection means. The IC card reader / writer according to any one of claims 1 to 3.

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