JP2008259750A - Game machine and game machine inspection system for inspecting game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily perform inspection for checking whether or not a normal control board peculiar to a game machine is built in the game machine with high security. <P>SOLUTION: In a slot machine, a board case housing a main control board is sealed with a sealing seal. A first radio communication device 70 storing a board ID code peculiar to the main control board is provided in the main control board, and a second radio communication device 90 storing a management ID code associated with the ID code is provided on the sealing seal. An inspection device 110 performs radio data communication between the first and second radio communication devices, receives the board ID code stored in the first radio communication device 70 and the management ID code stored in the second radio communication device 90, and determines whether or not the main control board built in the slot machine is a normal control board peculiar to the slot machine by checking the received board ID code with the management ID code. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention incorporates a control board that stores a control program related to the progress of the game and controls the operation of the gaming machine based on the control program, and a board case that houses the control board is sealed The present invention relates to a gaming machine sealed by a seal and a gaming machine inspection system for inspecting the gaming machine.

  A gaming machine such as a pachinko machine or a slot machine has a built-in control board on which a CPU and a ROM are mounted, and the contents of gaming operations in the gaming machine are determined based on a control program stored in the ROM. . In this way, since the control program is the center that determines the operation of the gaming machine, the player or the store clerk in the game is illegal to acquire a large number of medals and game balls from the control board on which the regular control program is stored. Unfair advantage can be obtained by replacing the counterfeit control board storing the control program or replacing the ROM storing the legitimate control program with the ROM storing the illegal control program as described above. A cheating attempt is being made.

  Conventionally, the above-mentioned fraudulent act is a seal that can accommodate the control board on which the ROM is mounted in a transparent resin board case and leave a trace when the board case is opened. By sticking the seal to the substrate case, the substrate case is prevented and detected from being illegally opened. However, if the seal seal is peeled off so as not to leave a trace of peeling, or if the seal seal is skillfully cut to such an extent that it cannot be visually identified, it has been difficult to detect fraud.

  Therefore, a wireless communication device storing the identification information unique to the gaming machine managed secretly is attached to the control board of the gaming machine, the identification information is read by the inspection device, and the read identification information matches the regular identification information. There has been proposed an inspection system for inspecting whether or not an illegal act such as replacing a control board has been performed by determining whether or not to do so (for example, see Patent Document 1).

  The gaming machine inspection system described in Patent Document 1 is configured to provide a wireless communication device storing the identification information in a control device mounted on a control board, and to read the identification information by the inspection device. Transmits a predetermined electromagnetic wave to the wireless communication device, and the wireless communication device receiving the electromagnetic wave returns identification information to the inspection device. When the inspection device receives the identification information, it collates with the identification information for each model of the gaming machine stored in advance in the inspection device, and when the identification information does not match or when the identification information is not returned within a predetermined time, It is determined that an illegal act such as replacing the control board or the control device has been performed.

  There has also been proposed an inspection system for inspecting whether an illegal act such as replacing a control board has been performed by incorporating a wireless communication device in the seal sticker (see, for example, Patent Document 2). In the gaming machine inspection system described in Patent Document 2, a wireless communication device including an IC chip portion and an antenna capable of data communication with an inspection device is provided on one surface of a seal film of a seal seal via an adhesive layer. The antenna is disconnected when the seal seal is forcibly removed from the substrate case and the substrate case is opened, so that data communication with the inspection apparatus cannot be performed. In this gaming machine inspection system, by transmitting a predetermined electromagnetic wave from the inspection device to the seal seal, when the predetermined data is returned from the seal seal, it is determined that the substrate case is not opened, If the specified data is not returned from the seal sticker even if a predetermined electromagnetic wave is transmitted from the device to the seal sticker, it is determined that the antenna has been cut and the seal sticker has been removed and the substrate case has been opened illegally. To do. Thereby, even if the sealing seal once peeled off from the substrate case is cleverly re-applied again, an illegal act can be easily found.

JP-A-11-137822 Japanese Patent Laid-Open No. 10-225565

  However, in the gaming machine inspection system described in Patent Document 1, in order to check the validity of the identification information, it is necessary to store identification information for each model of the gaming machine in advance in the inspection device. First, if the inspection device is lost or stolen, the identification information may be known. When the identification information is known, it becomes possible to easily forge a wireless communication device that holds the same identification information as the wireless communication device provided in the regular control device, and the forged wireless communication device is illegally controlled. When provided in the apparatus, there is a problem that the gaming machine inspection system described in Patent Document 1 cannot find fraud.

  Further, in the gaming machine inspection system described in Patent Document 2, it is possible to easily determine whether or not the board case has been opened illegally, but the control board built in the gaming machine is unique to the gaming machine. It is not possible to determine whether it is genuine. For example, even if a control board is replaced with an unauthorized one without opening the board case, or a control board that should be built in one gaming machine is built in another different gaming machine in advance, There is a problem that the gaming machine inspection system described in 2 cannot be found.

  The present invention has been made paying attention to the above problems, and relates to a gaming machine in which a control board on which a control device is mounted is incorporated, and a board case containing the control board is sealed by a sealing seal. A gaming machine capable of easily inspecting whether a machine-specific regular control board or control device is incorporated and maintaining high security, and a gaming machine inspection system for inspecting the gaming machine The purpose is to provide.

  A gaming machine according to the present invention has a built-in control board that stores a control program related to the progress of the game and that controls the operation of the gaming machine based on the control program, and that contains the control board A case is formed by sealing with a sealing seal, and is provided on the control board or the control device, the first storage means storing the identification information unique to the control board or the control device, and the sealing seal provided on the sealing seal. And second storage means for storing management identification information associated with the identification information. Each of the first and second storage means is configured to be accessible from the outside by the inspection device so that the identification information and the management identification information can be acquired by a predetermined external inspection device.

  The gaming machine inspection system according to the present invention includes a first storage means provided in the control board or the control device and storing identification information unique to the control board or the control device, and the identification information provided in the seal seal. A second storage means for storing management identification information associated with the first and second storage means, and an inspection device for accessing the first and second storage means from the outside. The inspection apparatus includes an acquisition unit that acquires the identification information stored in the first storage unit and the management identification information stored in the second storage unit from the gaming machine, and the identification information acquired by the acquisition unit. Determining means for checking whether the control board or the control device built in the gaming machine is a genuine one inherent to the gaming machine by checking whether the management identification information is compared with the management identification information. And an output means for outputting a determination result of the determination means.

In the gaming machine configured as described above, the first storage means that can be accessed from the outside by a predetermined inspection device is a control board or a control apparatus (hereinafter referred to as “control board or the like”), and the second storage means is. Each seal seal is provided, and the first storage means stores identification information unique to a control board or the like built in the gaming machine, while the second storage means stores the gaming machine. The management identification information associated with the identification information unique to the control board or the like built in is stored.
The acquisition unit of the inspection apparatus acquires identification information unique to the control board or the like stored in the first storage unit and management identification information stored in the second storage unit, respectively. The means determines whether the identification information acquired by the acquisition means and the management identification information have a predetermined relationship. The determination result of the determination means is output by the output means.

According to this gaming machine inspection system, when the identification information and the management identification information are in a predetermined relationship as a result of the comparison between the identification information unique to the control board or the like and the management identification information, It can be easily determined that the machine has a built-in regular control board unique to the gaming machine. On the other hand, if the identification information and the management identification information are not in a predetermined relationship, this gaming machine does not have a regular control board or the like unique to the gaming machine, that is, an unauthorized control board or the like. It can be easily discriminated that the control board has been intentionally replaced, or that it is a regular control board or the like, but another type of control board or the like is erroneously incorporated.
In addition, since it is not always necessary to store the identification information for each gaming machine in advance in order to inspect the gaming machine, the identification information is not lost even if the inspection apparatus is lost or stolen. There is no fear of being known, and the gaming machine can be inspected while maintaining high security.

In the above-described configuration of the present invention, the “game machine” may be a plurality of types of game machines such as a slot machine and a pachinko machine.
The “identification information unique to the control board or the control device” stored in the first storage means includes the board identification information for specifying the control board to be incorporated in the gaming machine and the control device mounted on the control board. For example, or identification information for specifying a storage device (ROM) constituting the control device.

Further, the first storage means may be provided on either the control board or the control device. When the first storage means is provided on the control device, only the control device storing the control program is removed and replaced with a control device storing an unauthorized control program. It will be possible to inspect for illegal acts.
Furthermore, the “management identification information” stored in the second storage unit is preferably the same as the “identification information” stored in the first storage unit. According to this, it is possible to easily check the identification information and the management identification information in the inspection apparatus.

  If a seal that is difficult to peel from the substrate case is used, or if the seal seal is forcibly removed from the substrate case, the second storage means provided on the seal seal is destroyed and can be accessed by the inspection device. It is desirable to configure so that it disappears. According to this, when the second storage means cannot be accessed from the inspection device, it can be determined that there is a possibility that the sealing seal is peeled off from the substrate case and the substrate case is illegally opened.

  Each of the first and second storage means is an IC tag capable of wireless data communication with the inspection device so that identification information and management identification information can be acquired in the inspection device. Although preferable, it is not limited to this. For example, as the first and second storage means, the identification information and the management identification information are converted into a predetermined image pattern like a one-dimensional or two-dimensional barcode, and the image pattern is obtained by an inspection device. The identification information and management identification information may be acquired by reading.

According to the present invention, the first storage means that can be accessed from the outside by a predetermined inspection device is provided on the control board or the control device of the gaming machine, the second storage means is provided on the sealing seal, and the first storage means is provided. Since the storage means stores the identification information unique to the control board or the control device built in the gaming machine, and the management information is stored in the second storage means, the identification information and the management identification information are stored in the inspection device. , It is possible to easily check whether or not the gaming machine has a built-in regular control board or control device unique to the gaming machine.
In addition, when inspecting the gaming machine, it is not necessary to store the control board for each gaming machine or the identification information of the control apparatus in advance in the inspection device, so that the inspection can be performed while maintaining high security.

  1 and 2 show a configuration of a slot machine 1 to which a gaming machine inspection system according to the present invention is applied. The machine body of the slot machine 1 is configured by attaching a front door 3 to a housing 2 having a front opening so that the front door 3 can be opened and closed. FIG. 1 shows the configuration of the front door 3 as viewed from the front, and FIG. The internal structure of the housing 2 excluding the door 3 is shown respectively.

  The front door 3 is configured using an upper panel 4, a front panel 5, and a lower panel 6. A liquid crystal display 7 is provided at the center of the upper panel 4, and sound effect output speakers 8 and 9 are arranged on both sides thereof. In addition, on the back side of the top panel 4, an effect lamp 21 for clearly indicating light emission such as a prize is incorporated.

  The liquid crystal display 7 is for displaying various effect images (moving images and still images) according to the progress of the game, and displays information related to game contents such as the results of lottery processing related to the game results on a liquid crystal display. The player is informed by the effect display by the device 7 and the sound effect emitted from the speakers 8 and 9.

  The front panel 5 is formed by performing silk screen printing on the surface of a transparent synthetic resin plate or tempered glass. In the center of the plate surface of the front panel 5, a non-colored and transparent rectangular symbol display window 10 surrounded by a printing area is formed. In the symbol display window 10, three reels 11 a, 11 b and 11 c are arranged at positions facing the symbol display window 10. On the outer peripheral surface of each reel 11a, 11b, 11c, a plurality of symbols such as symbols for establishing a prize such as a bonus or a small part, a symbol for losing, and the like are displayed. When each reel 11a, 11b, 11c is stopped. Each of the three symbols is stopped and displayed in the symbol display window 10.

  On the surface of the front panel 5, three horizontal winning lines L1 to L3 that connect the three symbols of the reels 11a, 11b, and 11c that can be seen from the symbol display window 10 in the horizontal direction, and lower right and lower left Two diagonal winning lines L4 and L5 are shown which are connected in each diagonal direction. When the reels are stopped, the symbols of the reels 11a, 11b, and 11c are aligned and positioned on the five winning lines L1 to L5.

  Below the symbol display window 10 of the front panel 5, a stored number indicator 12, a payout number indicator 13, and the like are provided. The number of stored medals stored (credited) in the machine is digitally displayed on the stored number display 12, and the number of medals to be paid out as a dividend when the winning combination is established is digitally displayed on the payout number display 13. The “stored medal” is a medal that is inserted from the medal slot 14 and stored in the machine (electrically stored) prior to the execution of the game. It is supposed to be executed. If the winning combination is established as a result of the game, the number of medals corresponding to the winning combination is awarded, and if the medal is equal to or less than the upper limit value (for example, 50) of the credit, the medal is not released to the medal tray 20. It is added to the number of storage.

  Below the front panel 5, a medal slot 14 for receiving medals for the game, a start lever 15 for rotating the reels 11a, 11b, and 11c all at once, and the reels 11a, 11b, and 11c are individually stopped. Stop switches 16a, 16b and 16c, a bet switch 17 and a settlement switch 18 are provided. A medal payout opening 19 and a medal tray 20 are provided below the lower panel 6.

The bet switch 17 is for the player to instruct the machine to consume three stored medals for one game. When the bet switch 17 is pressed, three stored medals are withdrawn, but if there are only two remaining medals, two stored medals are withdrawn, and if there are only one, one stored medal is withdrawn. It is.
All five winning lines L1 to L5 are activated for the use of three stored medals. Only the central horizontal winning line L1 is enabled for the use of one stored medal, and only three horizontal winning lines L1 to L3 are enabled for the use of two stored medals. .

  After the winning line is validated by pressing the bet switch 17, when the start lever 15 is operated, a lottery process relating to the prize is executed inside the machine. As a result of the lottery process, when a bonus or small bonus such as a big bonus or a regular bonus is won, a corresponding flag is set in the main controller 31 described later, and when the stop switches 16a, 16b, 16c are pushed, Control (drawing control) is performed in which the corresponding symbol is drawn onto the activated winning line and the reel is stopped. As a result, a pattern in which three symbols corresponding to the lottery are arranged easily appears on the activated pay line.

  The settlement switch 18 is operated by the player to instruct the settlement of the stored medal. When the settlement switch 18 is operated, the number of stored medals displayed on the stored number display unit 12 is paid out from the medal payout opening 19 to the medal tray 20.

  Inside the housing 2, a medal releasing machine 28 including a hopper 27 is incorporated in addition to a reel unit 22 in which three reels 11 a, 11 b, and 11 c are assembled, a speaker 25 for low-frequency output, a power supply unit 26. ing. A board case 50 that houses a main control board 30 on which a main control device 31 that centrally manages the operation of the entire slot machine 1 is mounted is attached to the rear plate of the housing 2. Although not shown, a sub control board on which a sub control device 40 for controlling the display of the liquid crystal display 7, the sound from the various speakers 8, 9, 25 and the lighting of the effect lamp 21 is mounted is also attached. ing.

  The reel unit 22 has three reels 11a, 11b, and 11c and stepping motors 23a, 23b, and 23c for driving the reels integrally assembled to a frame 24.

The hopper 27 is for storing medals thrown into the aircraft, and medals thrown from the medal slot 14 pass through a medal passage (not shown) provided inside the front door 3. To be taken into the hopper 27.
The medal releasing machine 28 is for discharging the medals stored in the hopper 27 to the medal payout opening 19, and the medal released from the medal releasing machine 28 is paid out through a medal payout passage (not shown). It is carried to the exit 19 and paid out to the medal tray 20.

  The substrate case 50 is attached above the reel unit 22. FIG. 3 is a schematic view partially showing a cross section of the substrate case 50. The substrate case 50 includes a case main body 51 in which the main control board 30 is accommodated, and a cover portion 54 for covering the main control board 30 in the state where the main control board 30 is accommodated. The case body 51 and the cover part 54 are made of a transparent synthetic resin material. The case main body 51 is a box-shaped container in which four side wall parts 53 are integrally provided on the periphery of a flat rectangular bottom part 52. The upper surface of the case main body 51 is opened, and the space surrounded by the side wall parts 53 is accommodated in the substrate. It is a space. The cover part 54 is a rectangular flat plate having substantially the same size as the bottom part 52 of the case body 51, and is fixed to the case body 51 so as to close the opening on the upper surface of the case body 51. In addition, a sealing seal 60 is attached to the substrate case 50 across the case main body 51 and the cover portion 54, so that the main control substrate 30 cannot be contacted from the outside. In addition, the peripheral edge part 54a of the cover part 54 is a curved surface so that the upper surface and side surface of the cover part 54 may continue smoothly.

  In the slot machine 1 of this embodiment, a first wireless communication device 70 capable of performing wireless data communication with an inspection device 110 described later is provided on the main control board 30. The first wireless communication device 70 is composed of, for example, an IC chip 71 including an antenna 72 at an appropriate place, and should be built in the slot machine 1 in the built-in ROM 78 (shown in FIG. 9). A unique board ID code (board identification information) for specifying the main control board 30 is stored. This board ID code is secretly managed, and can be read from the first wireless communication apparatus 70 in response to a transmission request from the inspection apparatus 110. In the inspection apparatus 110, the details will be described later, but the main control board 30 built in the slot machine 1 using the board ID code transmitted from the first wireless communication apparatus 70 is a regular one unique to the slot machine 1. It is inspected whether it is a main control board.

  FIG. 4 is a diagram illustrating a state where the first wireless communication device 70 is attached to the main control board 30. The main control board 30 has a multilayer structure including a substrate lower layer portion 30b, a power supply print layer 30c laminated on the substrate lower layer portion 30b, and a substrate upper layer portion 30a laminated on the power supply print layer 30c. An IC chip storage portion 30d is formed on the lower surface of the substrate upper layer portion 30a. The first wireless communication device 70 is placed on the power supply print layer 30c, and is further embedded in the main control board 30 by stacking the board upper layer part 30a from above. Each layer is bonded with a predetermined adhesive.

In the above-described embodiment, the first wireless communication device 70 is embedded in the main control board 30, but may be attached to the surface of the main control board 30 (the surface of the substrate upper layer portion 30 a).
Further, an IC functioning as the first wireless communication device 70 is provided by providing an IC chip portion storing the substrate ID code in a game control microcomputer constituting the main control device 31 mounted on the main control substrate 30. The chip unit and the main control device 31 for game control may be configured inseparably. As a result, it is possible to inspect an illegal act such as removing only the main control device 31 storing the regular control program and replacing it with the main control device storing the unauthorized control program.

  As shown in FIGS. 5 and 6, the seal seal 60 includes a second wireless communication device 90 capable of performing wireless data communication with the inspection device 110 on a thin seal film 61 made of synthetic resin. It is the thing of the structure provided. The sealing film 61 has a rectangular planar shape, and a first adhesive layer 62 is formed on one surface of the sealing film 61 by applying an adhesive. An IC chip 91 and a transmission / reception antenna 92 that constitute the second wireless communication device 90 are provided on the first adhesive layer 62.

The IC chip 91 is for controlling data communication with the inspection apparatus 110, and a built-in ROM 98 (shown in FIG. 9) has a management ID code (management identification) associated with the board ID code. Information) is stored. This management ID code can be read from the second wireless communication device 90 in response to a transmission request from the inspection device 110. In this embodiment, the management ID code stored in the ROM 98 of the second wireless communication apparatus 90 is the same ID code as the board ID code stored in the ROM 78 of the first wireless communication apparatus 70. The
The transmission / reception antenna 92 is, for example, a loop antenna in which a metal film made of copper is formed in a coil shape, and both ends are drawn out of the loop and connected to the IC chip 91.

  A sheet piece 64 made of synthetic resin is interposed between the IC chip 91 and the first adhesive layer 62. On the other hand, the transmission / reception antenna 92 is directly attached to the surface of the first adhesive layer 62. A second adhesive layer 63 is formed on the surfaces of the IC chip 91 and the transmission / reception antenna 92 by applying an adhesive having a lower adhesive strength than the adhesive constituting the first adhesive layer 62. The second adhesive layer 63 and the first adhesive layer 62 exposed from the second adhesive layer 63 are attached to the substrate case 50 by the adhesive force.

  If the sealing seal 60 is forcibly removed from the substrate case 50, the sealing seal 60 is such that the adhesive force between the first adhesive layer 62 and the second adhesive layer 63 is provided with the IC chip 91 or the like. Therefore, the first adhesive layer 62 and the second adhesive layer 63 are separated from each other, the second adhesive layer 63 remains on the substrate case 50, and only the first adhesive layer 62 is peeled off from the substrate case 50. The At this time, since the adhesive force of the first adhesive layer 62 is greater than the adhesive force of the second adhesive layer 63, the transmission / reception antenna 92 and the sheet piece 64 adhere to the first adhesive layer 62 and peel off, but the surface of the sheet piece 64 Since the IC chip 91 provided on the second adhesive layer 63 remains in the second adhesive layer 63, the IC chip 91 and the transmission / reception antenna 92 are disconnected, and wireless data communication between the second wireless communication device 90 and the inspection device 110 is performed. It becomes impossible.

  Thereby, even if a predetermined radio wave is transmitted from the inspection device 110 to the second wireless communication device 90 of the seal seal 60, if there is no response from the second wireless communication device 90, the seal seal 60 Is peeled off from the substrate case 50, and it can be determined that there is a possibility that the substrate case 50 is illegally opened even if the seal seal 60 once peeled off is cleverly reapplied so that it cannot be visually recognized. .

In FIG. 6, reference numeral 65 denotes management information (for example, the model of the slot machine 1 built in) which is printed on the surface of the seal seal 60 (the upper surface of the seal film 61) and which is stored in the substrate case 50. Name, spec, manufacturer name, etc.). The printed layer 65 is provided above the IC chip 91 and the connection portion so that the connection portion between the IC chip 91 and the transmission / reception antenna 92 is inconspicuous when the seal seal 60 is viewed from the surface. .
The printing layer 65 is formed by printing with oil-based ink. As a result, when the seal seal 60 is peeled off by the solvent, printing blur occurs, so that the adhesive strength of the adhesive layer is reduced by the solvent. Thus, it is possible to easily detect an illegal act of trying to peel off the seal seal 60 without leaving a trace.

In this embodiment, when the seal seal 60 is peeled from the substrate case 50, the IC chip 91 and the transmission / reception antenna 92 are disconnected, whereby the second wireless communication device 90 is destroyed. However, the present invention is not limited to this, and a configuration may be adopted in which the second wireless communication device 90 is destroyed when a predetermined portion of the transmission / reception antenna 92 (hereinafter referred to as “disconnected portion 66” shown in FIG. 5) is disconnected.
In this configuration, the disconnected portion 66 is centered on a portion corresponding to a joint of the substrate case 50 (a portion where the case main body 51 and the cover portion 54 are continuous) when the sealing seal 60 is attached to the substrate case 50. It is desirable to be provided in an area having a width of about 15 to 25 mm. This is because it is difficult to form the transmitting / receiving antenna 92 if the area is too narrow. Since the seal seal 60 can be attached to the substrate case 50 in either the vertical direction or the horizontal direction, the regions are provided in the vertical direction and the horizontal direction of the seal seal 60.

  FIG. 7 shows an electrical configuration of the slot machine 1 described above. In this figure, the power supply system is not shown. The slot machine 1 is provided on a main control device 31 provided on the main control board 30 as a main processing device and a board different from the main control device 31, and is operated by receiving a command from the main control device 31. And a control device 40.

  The main control device 31 is composed of a microcomputer, and includes a random number generator 35 used for a lottery process in addition to a CPU 32 which is a main body of control and calculation, a ROM 33 and a RAM 34 which are storage means. The ROM 33 stores various programs for controlling the game and necessary data such as a plurality of lottery tables for lottery related to a prize, in addition to a control program related to the progress of the game. The RAM 34 is used for reading and writing data necessary for advancing the game, such as a winning flag (for storing the winning state) and a bet number of medals when winning a prize in the lottery. The random number generator 35 generates a random number to be sampled when the CPU 32 performs a lottery process. This lottery process is executed when the start lever 15 is operated.

  Input / output units are connected to the main controller 31 via a bus 36. As an input unit, in addition to the start lever 15, stop switches 16a, 16b, 16c, bet switch 17, and settlement switch 18, various sensors 19 (medal detection sensor in the medal slot 14, front door opening / closing detection sensor, etc.) Etc. are connected. The output unit includes a stored number display unit 12, a payout number display unit 13, a medal discharger 28, a reel drive circuit 29 that controls driving of the stepping motors 23a, 23b, and 23c of the reels 11a, 11b, and 11c. Is connected.

  The CPU 32 controls the operation of the input / output units in series while reading / writing data from / to the RAM 34 according to a control program stored in the ROM 33, and samples the random number value generated by the random number generator 35 and participates in the award. Execute lottery processing. Further, various commands obtained by executing the control program are transmitted to the sub-control device 40.

  The sub-control device 40 is for receiving a command signal from the main control device 31 and notifying the result of the internal lottery process or performing various effects. The sub-control device 40 includes a CPU that performs a control operation in accordance with a preset program according to the command signal, a ROM that is a storage unit that stores the program, and a RAM that temporarily stores processing results and the like. The sub-control device 40 is connected with a liquid crystal display 7, various speakers 8, 9, 25, a lamp 21, and the like.

FIG. 8 is a block diagram schematically showing the electrical configuration of the first and second wireless communication devices 70 and 90 and the inspection device 110.
The inspection device 110 includes a data transmission / reception unit 114, a display unit 115, An operation unit 116 and a power supply unit 117 that supplies electric power to each operation unit are included. These operating units are connected to the CPU 111 via a bus 118. In the ROM 112, as display data for displaying information displayed on the display unit 115 as well as access data functioning as ID code transmission request information for the first and second wireless communication devices 70 and 90 as fixed data. Etc. are stored.

The first wireless communication device 70 holds an ID unique to the wireless communication device in addition to the board ID code and the first verification data required for inspection by the inspection device 110. The second wireless communication device 90 holds an ID unique to the wireless communication device in addition to the management ID code and second verification data necessary for inspection by the inspection device 110.
The ID codes held in the first and second wireless communication devices 70 and 90 can be read from the first and second wireless communication devices 70 and 90 by transmitting access data from the inspection device 110, respectively. It can be done.

  FIG. 9 is a block diagram showing an electrical configuration of the first and second wireless communication devices 70 and 90. Note that the electrical configuration of the second wireless communication apparatus 90 is the same as that of the first wireless communication apparatus 70, and therefore, the description thereof is omitted by attaching the reference numerals to the corresponding configuration in parentheses.

  The IC chip 71 (91) is provided with a demodulator 73 (93) for demodulating the radio wave (modulated wave) from the inspection device 110 received by the transmission / reception antenna 72 (92). The demodulating unit 73 (93) is provided with a reference phase signal having a predetermined frequency from the frequency oscillating unit 74 (94). The demodulating unit 73 (93) receives the modulated wave received by the transmitting / receiving antenna 72 (92). The signal component contained in the received modulated wave is extracted by comparing with the reference phase signal from the frequency oscillating unit 74 (94). The signal component extracted in this manner is subjected to removal of frequency components other than the predetermined frequency band by the filter 75 (95), and is then supplied to the A / D converter 76 (96) to be converted into received data (access data). The

  The reception data converted by the A / D conversion unit 76 (96) is given to the CPU 77 (97). A ROM 78 (98) is connected to the CPU 77 (97), and in addition to the board ID code (or management ID code) and the first verification data (or second verification data), the ROM 78 (98) is wireless. An ID unique to the communication device is stored. When the reception data is given from the A / D converter 76 (96), the CPU 77 (97) reads the first verification data (or the second verification data) from the ROM 78 (98), and the read first verification data. (Or the second verification data) and the received data are verified.

  Here, the first verification data (or second verification data) is the same data as the access data stored in the ROM 112 of the inspection apparatus 110, and the received data is the first verification data (or second verification data). If they match, the CPU 77 (97) determines that there is an ID code transmission request from the inspection apparatus 110, and reads the substrate ID code (or management ID code) from the ROM 78 (98). Then, the read data is given to the modulation unit 79 (99), and a modulation wave conveyed toward the inspection apparatus 110 is created in the modulation unit 79 (99).

The modulating unit 79 (99) is given a carrier wave having a predetermined frequency from the frequency oscillating unit 80 (100). The modulation unit 79 (99) modulates the carrier wave of the predetermined frequency with the data given from the CPU 77 (97) by the BPSK method to create a modulation wave, and gives the created modulation wave to the transmission unit 81 (101). . The modulated wave given to the transmission unit 81 (101) is appropriately amplified and then conveyed from the transmission / reception antenna 72 (92) to the inspection apparatus 110.
If the received data does not match the first verification data (or the second verification data), data transmission from the first and second wireless communication devices 70 and 90 is not performed.

  The operation of each operation unit of each of the first and second wireless communication devices 70 and 90 is performed using power generated from the radio wave from the inspection device 110. The transmission / reception antenna 72 (92) is provided with a resonance circuit (not shown) including a tuning coil. When a radio wave from the inspection device 110 is received by the transmission / reception antenna 72 (92), the reception wave is received. As a result, the magnetic flux passing through the tuning coil changes, and an AC voltage is generated in the resonance circuit. The generated AC voltage is converted into a DC voltage by an AC / DC converter 82 (102) provided in the IC chip 71 (91), and then is not more than a certain voltage (for example, 5 volts or less) by a regulator 73 (103). And is supplied as an operating voltage to each operating unit such as the CPU 77 (97). Therefore, data communication can be performed between the first and second wireless communication devices 70 and 90 and the inspection device 110 even when the power to the slot machine 1 is not turned on.

  FIG. 10 is a block diagram showing an electrical configuration of the data transmission / reception unit 114 provided in the inspection apparatus 110. The data transmission / reception unit 114 includes a signal processing unit 120 including a microprocessor. When a predetermined operation is performed on the operation unit 116, a transmission request for each ID code is made to the first and second wireless communication devices 70 and 90. At this time, the signal processing unit 120 sends access data to the CPU 111. Output a command requesting. As a result, the CPU 111 reads the access data from the ROM 112 and outputs the read access data to the signal processing unit 120.

  The access data input to the signal processing unit 120 is given to the modulation unit 121, and the modulation unit 121 creates modulated waves to be output toward the first and second wireless communication devices 70 and 90. The modulating unit 121 is given a carrier wave having a predetermined frequency from the frequency oscillating unit 122. The modulation unit 121 modulates the carrier wave having the predetermined frequency with the access data supplied from the signal processing unit 120 according to the BPSK method, creates a modulated wave, and gives the created modulated wave to the transmission unit 123. The modulated wave given to the transmission unit 123 is appropriately amplified by the transmission unit 123 and then output from the transmission / reception antenna 124 to the first and second wireless communication devices 70 and 90.

At this time, the modulation wave output toward the first wireless communication device 70 and the modulation wave output toward the second wireless communication device 90 are modulated so that the frequencies thereof are different. The unit 121 is supplied with carrier waves having different frequencies from the frequency oscillating unit 122, and the modulation unit 121 modulates the two types of carrier waves having different frequencies to generate two types of modulated waves, which are supplied to the transmission unit 123. . The first and second wireless communication apparatuses 70 and 90 are configured to receive only one of the modulated waves having different frequencies, and the first and second modulated waves having different frequencies are sequentially received. By carrying to the wireless communication devices 70 and 90, the first and second wireless communication devices 70 and 90 respond only to the modulated wave of a predetermined frequency.
According to such a configuration, even if an ID code transmission request is simultaneously sent from the inspection device 110 to the first and second wireless communication devices 70 and 90, the first and second wireless communication devices 70 and 90 are used. There is a time lag in the response from, and transmission data from each wireless communication device does not collide with each other.

  When there is a response from the first wireless communication device 70 or the second wireless communication device 90 within a predetermined time and the transmission / reception antenna 124 receives a modulated wave from the first wireless communication device 70, for example, the modulated wave is demodulated. Is supplied to the unit 125 and demodulated by the demodulation unit 125. The demodulation unit 125 is provided with a reference phase signal having the same frequency as the carrier wave used in the first and second wireless communication devices 70 and 90 from the frequency oscillation unit 126. And the reference phase signal from the frequency oscillating unit 126 are compared, and a signal component included in the received modulated wave is extracted. The signal component extracted in this manner is subjected to removal of frequency components other than the predetermined frequency band by the filter 127, and is then supplied to the A / D conversion unit 128 to be converted into reception data (substrate ID code).

  Similarly, when the transmission / reception antenna 124 receives a modulated wave from the second radio communication device 90, this modulated wave is given to the demodulator 125, demodulated by the demodulator 125, and then predetermined by the filter 127. The frequency components other than are removed and given to the A / D converter 128 to be converted into received data (management ID code).

The board ID code and the management ID code converted by the A / D conversion unit 128 are given to the signal processing unit 120 and further given to the CPU 111. The CPU 111 collates the board ID code read from the first wireless communication device 70 with the management ID code read from the second wireless communication device 90, and determines whether or not they match. If the board ID code and the management ID code match, the CPU 111 determines that the regular main control board 30 unique to the slot machine is built in the slot machine 1, and accordingly. Is displayed on the display unit 115 (for example, “inspection OK”).
On the other hand, if the board ID code does not match the management ID code, or there is no response from the first wireless communication device 70 or the second wireless communication device 90 even if a predetermined time elapses from the ID code transmission request. In this case, the CPU 111 does not include the regular main control board 30 specific to the slot machine in the slot machine 1 or the first and second wireless communication devices 70 and 90 are attached. It is determined that there is an abnormality in the control board 30 or the seal sticker 60, and a display to that effect (for example, “matching mismatch” or “abnormality”) is displayed on the display unit 115.

  In general, since a plurality of slot machines 1 are arranged close to each other in a game arcade, when radio waves are transmitted from the inspection device 110 to the first and second wireless communication devices 70 and 90 of a specific slot machine 1. The radio waves are also sent to the first and second radio communication devices 70 and 90 of the adjacent slot machine 1 and there is a possibility that interference between the radio waves may occur. Therefore, the data communication possible range between the first and second wireless communication devices 70 and 90 and the inspection device 110 is set so that data communication is not possible when the front door 3 of the slot machine 1 is closed. That is, it is desirable to set so that data communication cannot be performed unless the inspection device 110 is brought close to the first and second wireless communication devices 70 and 90.

  FIG. 11 and FIG. 12 show the flow of control for the inspection system for gaming machines in the slot machine 1 to which the present invention is applied. FIG. 11 shows the flow of control by the inspection device 110, and FIG. The flow of control by the first and second wireless communication devices 70 and 90 is shown. In the figure, “ST” is an abbreviation of “STEP” and indicates each procedure in a series of control flows.

  In ST1 of FIG. 11, the CPU 111 of the inspection device 110 waits for the operation of the operation unit 116 and confirms whether or not to send an ID code transmission request to the first and second wireless communication devices 70 and 90. Yes. When the operation unit 116 is operated in this state, the determination of ST1 is “YES” and the process proceeds to ST2, and the CPU 111 first performs a process of creating a modulated wave to be output to the first wireless communication device 70. And execute a process of outputting the modulated wave from the transmission / reception antenna 124 to the first wireless communication device 70 (ST3).

In the first wireless communication apparatus 70, when the modulated wave from the inspection apparatus 110 is received by the transmission / reception antenna 72, the determination of ST100 in FIG. 12 becomes “YES” and the process proceeds to ST101, and the CPU 77 of the first wireless communication apparatus 70 Verifies the access data included in the received modulated wave with the first verification data. If the collation result is OK, the determination in ST102 is “YES”, and the CPU 77 determines that the received data has been transmitted from the inspection apparatus 110, and the board ID code stored in the ROM 78. Is output to the inspection apparatus 110 (ST103).
If the result of collation in ST101 is not OK, the determination in ST102 is “NO”, and the CPU 77 determines that the data is not from the regular inspection device 110, and executes error processing (ST104).

Next, when there is a response from the first wireless communication device 70 within a predetermined time in the inspection device 110, the determination of ST4 in FIG. 11 is “YES”, and the CPU 111 of the inspection device 110 receives the received modulation. The board ID code included in the wave is stored in the RAM 113 (ST5), and the process proceeds to ST7.
In ST4, if there is no response from the first wireless communication device 70 even after a predetermined time has elapsed, the determination is “NO”, and the CPU 111 causes the display unit 115 to display an error in the main control board 30. Is displayed (ST6).

  In ST7, the CPU 111 executes a process of creating a modulated wave to be output next to the second wireless communication apparatus 70, and outputs the modulated wave from the transmission / reception antenna 124 to the second wireless communication apparatus 90. Is executed (ST8).

In the second wireless communication apparatus 90, when the modulated wave from the inspection apparatus 110 is received by the transmission / reception antenna 92, the determination in ST100 of FIG. 12 becomes “YES” and the process proceeds to ST101, and the CPU 97 of the second wireless communication apparatus 90 Verifies the access data included in the received modulated wave with the second verification data. If the collation result is OK, the determination in ST102 is “YES”, and the CPU 97 determines that the received data is transmitted from the inspection apparatus 110, and the management ID code stored in the ROM 98 is determined. Is output to the inspection apparatus 110 (ST103).
If the result of the collation in ST101 is not OK, the determination in ST102 is “NO”, the CPU 97 determines that the data is not from the normal inspection device 110, and executes error processing (ST104).

Next, if there is a response from the second wireless communication device 90 within a predetermined time in the inspection device 110, the determination of ST9 in FIG. 11 is “YES”, and the CPU 111 of the inspection device 110 receives the received modulation. The management ID code included in the wave is stored in the RAM 113 (ST10), and the process proceeds to ST12.
In ST9, if there is no response from the second wireless communication apparatus 90 even after the predetermined time has elapsed, the determination is “NO”, and the CPU 111 indicates that the seal seal 60 has an abnormality. A display to the effect is generated (ST11).

Then, in the next ST12, the CPU 111 of the inspection apparatus 110 performs a process of collating the board ID code read from the first wireless communication apparatus 70 and the management ID code read from the second wireless communication apparatus 90. . If the board ID code and the management ID code match as a result of the verification process in ST12, the determination in ST13 is “YES”, and the CPU 111 has a normal main control unique to the slot machine in the slot machine 1. It is determined that the substrate 30 is built in, and a display indicating that the inspection result is normal is displayed on the display unit 115 (ST14).
If the result of the collation in ST12 is inconsistent, the determination in ST13 is “NO”, and the CPU 111 indicates that the slot machine 1 does not have a regular main control board 30 unique to the slot machine. Determination is made and display indicating that the collation does not match is displayed on the display unit 115 (ST15).

  According to the gaming machine inspection system having the above-described configuration, even if the inspection device 110 makes an ID code transmission request to the first and second wireless communication devices 70 and 90, the first wireless communication device 70 or the first wireless communication device 70 or 90 When there is no response from the second wireless communication device 90, for example, an abnormality such as the seal seal 60 being peeled off from the substrate case 50 and the substrate case 50 being illegally opened can be easily inspected. . Even if the board ID code and the management ID code are returned from the first and second wireless communication devices 70 and 90, the board ID code and the management ID code are collated, and the board ID code and the management ID code are checked. Is determined in advance as to whether or not the main control board 30 incorporated in the slot machine 1 is a normal main control board unique to the slot machine, that is, Whether it is a main control board but another type of main control board is installed by mistake, or whether it is intentionally replaced with an illegal main control board, without removing the main control board from the slot machine. Can be easily inspected.

  In the above-described embodiment, the printed layer 65 on the surface of the seal seal 60 has management information on the main control board 30 accommodated in the board case 50 (for example, the model name and specifications of the built-in slot machine 1). , Manufacturer name, etc.) are written in advance, but the management information is also stored in the ROM 98 of the second wireless communication apparatus 90. The above-described management information, board ID code, management ID code, and the like are stored in the first and second wireless communication devices 70 and 90 by the manufacturer when the slot machine 1 is manufactured. Then, the manufacturer creates a database in which the board ID code, the management ID code, and the management information are associated with each other, and ships the slot machine 1 to each game hall. According to such a configuration, when the manufacturer inspects the slot machine 1 with the gaming machine inspection system having the above-described configuration, unlike the inspection device 110 used in the game hall, the first and second wireless devices By using the inspection device 110 in which each ID code returned from the communication devices 70 and 90 is displayed on the display unit 115 together with the management information, the ID code is collated with the database, thereby enabling a more strict inspection. It becomes.

  In the above-described embodiment, the example in which the present invention is applied to the slot machine has been described. However, the present invention is not limited to this, and can be widely applied to gaming machines such as pachinko machines.

  Further, in the above-described embodiment, the modulated waves having different frequencies are sequentially conveyed from the inspection device 110 to the first wireless communication device 70 and the second wireless communication device 90, respectively, and the first and second By configuring the wireless communication devices 70 and 90 to receive only one of the modulated waves having different frequencies, the first and second wireless communication devices 70 and 90 simultaneously check the ID code. However, the present invention is not limited to this, and the first and second wireless communication devices 70 and 90 can simultaneously return the ID code to the inspection device 110 by the following method. It may be prevented.

  In this embodiment, a modulated wave having a constant frequency is output from the inspection device 110 to the first and second wireless communication devices 70 and 90. At this time, in addition to the access data, a wireless communication device ID held by each wireless communication device is added to the modulated wave in order to limit wireless communication devices that respond to the modulated wave. Each wireless communication device determines whether the wireless communication device ID added to the received modulated wave includes a unique ID of the wireless communication device, and includes the ID of its own wireless communication device. Only if it is configured to respond.

  FIG. 13 and FIG. 14 show the flow of control for the inspection system for gaming machines in the slot machine to which the above embodiment is applied. FIG. 13 shows the flow of control by the inspection apparatus 110, and FIG. The flow of control by the first and second wireless communication devices 70 and 90 is shown.

  In ST1 of FIG. 13, the CPU 111 of the inspection device 110 waits for the operation of the operation unit 116 and confirms whether or not to send an ID code transmission request to the first and second wireless communication devices 70 and 90. Yes. When the operation unit 116 is operated in this state, the determination of ST1 is “YES” and the process proceeds to ST2, and the CPU 111 creates a modulated wave to be output to the first and second wireless communication devices 70 and 90. Execute the process. At this time, in addition to the access data, a unique ID of a wireless communication device provided in all gaming machines to be inspected by the inspection device 110 is added to the modulated wave. And the process which outputs the said modulated wave to the 1st, 2nd radio | wireless communication apparatuses 70 and 90 from the transmission / reception antenna 124 is performed.

When the first and second wireless communication apparatuses 70 and 90 receive the modulated wave from the inspection apparatus 110, the determination in ST100 of FIG. 14 is “YES” and the process proceeds to ST101. The CPUs 77 and 97 of the wireless communication devices 70 and 90 collate the access data included in the received modulated wave with the first collation data or the second collation data. If the collation result is OK, the determination in ST102 is “YES”, and the CPUs 77 and 97 determine that the received data has been transmitted from the inspection apparatus 110. Next, the CPUs 77 and 97 determine whether or not the wireless communication device ID included in the received modulated wave includes its own ID stored in the wireless communication device (ST103). Here, since the modulated wave includes unique IDs of all the wireless communication devices to be inspected, the determination is “YES”, and the process proceeds to ST104 and is stored in the ROMs 78 and 98. The process which outputs the board | substrate ID code or management ID code which is present toward the test | inspection apparatus 110 is performed.
If the result of collation in ST101 is not OK, the determination in ST102 is “NO”, and the CPUs 77 and 97 determine that the data is not from the regular inspection apparatus 110, and execute error processing (ST105). .

Next, in the inspection device 110, if there is a response from the first wireless communication device 70 and the second wireless communication device 90 within a predetermined time, the determination of ST3 in FIG. Next, the CPU 111 of the inspection device 110 determines whether or not responses from the first and second wireless communication devices 70 and 90 have been made simultaneously.
In ST3, if there is no response from the first and second wireless communication devices 70 and 90 even if the predetermined time has elapsed, the determination is “NO”, and the CPU 111 causes the display unit 115 to Is displayed (ST5).

In ST4, when the modulated waves from the first and second wireless communication apparatuses 70 and 90 are not received simultaneously, the determination is “NO”, and the CPU 111 of the inspection apparatus 110 determines whether the first and second are the first and second. It is determined whether or not there is a response from any of the wireless communication devices 70 and 90 (ST6). As a result, when there is a response from both the first and second wireless communication apparatuses 70 and 90, the determination in ST6 is “YES”, and the process proceeds to ST12 and the first wireless communication apparatus 70 is reached. The process of collating the board ID code read from the management ID code read from the second wireless communication apparatus 90 is performed. If the board ID code and the management ID code match as a result of the collation process in ST12, the determination in ST14 is “YES”, and the CPU 111 does not have a regular attribute unique to the slot machine. It is determined that the main control board 30 is built in, and a display to the effect that the inspection result is normal is displayed on the display unit 115 (ST15). If the collation result in ST12 does not match, the determination in ST14 is “NO”, and the CPU 111 does not have that the slot machine 1 has a built-in regular main control board 30 unique to the slot machine. Determination is made and display indicating that the collation does not match is displayed on the display unit 115 (ST16).
In ST6, if there is no response from one of the first and second wireless communication devices 70 and 90, the determination is “NO”, and the CPU 111 has not responded to the display unit 115. A display indicating that an abnormality has occurred in the wireless communication device is displayed (ST7).

  On the other hand, in ST4, when the modulated waves from the first and second wireless communication devices 70 and 90 are simultaneously received, the determination is “YES” and the process proceeds to ST8, and the CPU 111 of the inspection device 110 again Processing for creating and outputting a modulated wave to be output to the first and second wireless communication devices 70 and 90 is executed. At this time, the range of the wireless communication device ID added to the modulated wave is changed from the previous one and narrowed (for example, if the wireless communication device ID added last time is 1 to 30, 1 to Change to 15.)

When the first and second wireless communication devices 70 and 90 receive the modulated wave from the inspection device 110 again, the determination in ST100 of FIG. 14 is “YES” and the process proceeds to ST101. Similarly, the CPUs 77 and 97 of the wireless communication apparatuses 70 and 90 determine whether or not the received modulated wave is transmitted from the inspection apparatus 110 (ST101 and ST102). If it is determined that the received modulated wave is transmitted from inspection device 110 (determination in ST102 is “YES”), CPUs 77 and 97 specify the wireless communication device ID included in the received modulated wave as the wireless communication device ID. It is determined whether or not the self ID stored in the communication device is included (ST103). Here, if only the first wireless communication device 70 includes the wireless communication device ID in the modulated wave, the CPU 77 of the first wireless communication device 70 stores the board stored in the ROM 78. A process of outputting the ID code toward the inspection apparatus 110 is executed (determination of ST103 is “YES”, ST104).
On the other hand, the CPU 97 of the second wireless communication device 90 does not output the management ID code to the inspection device 110 and ends the processing (determination of ST103 is “NO”).

  Then, in the inspection apparatus 110, if there is a response from the first wireless communication apparatus 70 within a predetermined time, the determination of ST9 in FIG. 13 is “YES” and the process proceeds to ST10. In this case, Since the responses from the first and second wireless communication apparatuses 70 and 90 are not simultaneously performed, the determination in ST10 is “NO”. Then, since the determination in next ST11 is also “NO”, the process returns to ST8, and the process of creating and outputting the modulated wave to be output to the wireless communication apparatus is executed again. At this time, the range of the wireless communication device ID added to the modulated wave is changed from the previous one (for example, the wireless communication device ID to be added is changed to 16 to 30).

Then, in each of the first and second wireless communication devices 70 and 90, when the modulated wave from the inspection device 110 is received again, the determination of ST100 in FIG. 14 becomes “YES” and the process proceeds to ST101. Similarly, the CPUs 77 and 97 of the wireless communication devices 70 and 90 determine whether the received modulated wave is transmitted from the inspection device 110 (ST101 and ST102). If it is determined that the received modulated wave is transmitted from inspection device 110 (determination in ST102 is “YES”), CPUs 77 and 97 specify the wireless communication device ID included in the received modulated wave as the wireless communication device ID. It is determined whether or not the self ID stored in the communication device is included (ST103). In this case, since the wireless communication device ID is included in the modulated wave only for the second wireless communication device 90, the CPU 97 of the second wireless communication device 90 inspects the management ID code stored in the ROM 98. A process of outputting to 110 is executed (determination of ST103 is “YES”, ST104).
On the other hand, the CPU 87 of the first wireless communication device 80 does not output the board ID code to the inspection device 110 and ends the processing (determination of ST103 is “NO”).

  Then, in the inspection device 110, if there is a response from the second wireless communication device 90 described above within a predetermined time, the determination of ST9 in FIG. 13 becomes “YES” and the process proceeds to ST10. In this case, Since the responses from the first and second wireless communication apparatuses 70 and 90 are not simultaneously performed, the determination in ST10 is “NO”. Then, since the determination in next ST11 is “YES”, the process proceeds to ST12, where the board ID code read from the first wireless communication apparatus 70 and the management ID code read from the second wireless communication apparatus 90 are collated. Perform the process. If the board ID code and the management ID code match as a result of the collation process in ST12, the determination in ST13 is “YES”, and the CPU 111 has a regular attribute unique to the slot machine 1 in the slot machine 1. It is determined that the main control board 30 is built in, and a display indicating that the inspection result is normal is displayed on the display unit 115 (ST14). If the result of the collation in ST12 is inconsistent, the determination in ST13 is “NO”, and the CPU 111 indicates that the slot machine 1 does not have a regular main control board 30 unique to the slot machine. Determination is made and display indicating that the collation does not match is displayed on the display unit 115 (ST15).

It is a front view showing the appearance of the slot machine. It is a front view of the slot machine showing an internal structure. It is a schematic diagram which shows the cross section of a substrate case partially. It is sectional drawing of a main control board. It is a top view of a seal seal. It is sectional drawing of a seal seal. FIG. 3 is a block diagram showing an electrical configuration of the slot machine. It is a block diagram which shows the electrical schematic structure of a 1st, 2nd radio | wireless communication apparatus and a test | inspection apparatus. It is a block diagram which shows the electrical structure of the 1st, 2nd radio | wireless communication apparatus. It is a block diagram which shows the electrical structure of the data transmission / reception part of a test | inspection apparatus. It is a flowchart which shows the flow of control about the test | inspection of the game machine by an inspection apparatus. It is a flowchart which shows the flow of control about the test | inspection of the gaming machine by the 1st, 2nd radio | wireless communication apparatus. It is a flowchart which shows the flow of other control about the test | inspection of the gaming machine by the test | inspection apparatus. It is a flowchart which shows the flow of another control about the test | inspection of the gaming machine by the 1st, 2nd radio | wireless communication apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Slot machine 30 Main control board 31 Main control apparatus 50 Board case 60 Sealing seal 70 1st wireless communication apparatus 71 IC chip 72 Transmission / reception antenna 90 2nd wireless communication apparatus 91 IC chip 92 Transmission / reception antenna 110 Inspection apparatus 111 CPU
112 ROM
113 RAM
114 Data transmission / reception unit 115 Display unit

Claims (3)

A control board that stores a control program relating to the progress of the game and that controls the operation of the gaming machine based on the control program is incorporated, and a board case that houses the control board is sealed with a sealing seal In the gaming machine that
First storage means provided on the control board or control device and storing identification information unique to the control board or control device, and management identification information provided on the seal sticker and associated with the identification information. Two storage means,
Each of the first and second storage means is configured to be accessible from the outside by the inspection device so that the identification information and management identification information can be acquired in a predetermined external inspection device.   The gaming machine according to claim 1, wherein each of the first and second storage means is an IC tag. A control board that stores a control program relating to the progress of the game and that controls the operation of the gaming machine based on the control program is incorporated, and a board case that houses the control board is sealed with a sealing seal A gaming machine inspection system for inspecting a gaming machine comprising:
First storage means provided on the control board or control device and storing identification information unique to the control board or control device, and management identification information provided on the seal sticker and associated with the identification information. Two storage means, and an inspection device for accessing the first and second storage means from the outside,
The inspection apparatus includes an acquisition unit that acquires the identification information stored in the first storage unit and the management identification information stored in the second storage unit from the gaming machine, and the identification information acquired by the acquisition unit. Determining means for checking whether the control board or the control device built in the gaming machine is a genuine one inherent to the gaming machine by checking whether the management identification information is compared with the management identification information. And a game machine inspection system comprising output means for outputting the determination result of the determination means.

Images