JP4357010B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine represented by, for example, a pachinko gaming machine, a coin gaming machine, and a slot machine, and more particularly to a gaming machine provided with a control board for controlling the gaming machine.
[0002]
[Prior art]
Conventionally, in general, a gaming machine such as a pachinko gaming machine or a slot machine is provided with many control boards on which electronic elements such as MPU, ROM, and RAM constituting a microcomputer are mounted. Of these many control boards, for example, a game control board that controls game operations can often realize different game contents by exchanging a ROM that stores a program for controlling game operations. Is possible. For this reason, for example, the game control board is usually accommodated and provided in an accommodating portion that seals a sealed state by sticking a seal seal, thereby preventing fraud. Moreover, such an accommodating part was attached so that attachment or detachment was possible, for example with respect to the mounting base fixed to the game machine.
[0003]
[Problems to be solved by the invention]
However, in the above-described conventional housing portion, an illegal act of skillfully peeling off the sealing seal to open the box, cheating on the control board accommodated therein, and then attaching the sealing seal again is performed. In addition, even when a seal with a trace of separation such as a hologram seal is used as a seal seal to prevent this fraud, remove the storage part from the mounting base and place it in the storage part of the duplicated product with an unauthorized control board. There was a fraudulent replacement.
[0004]
The present invention has been conceived in view of such circumstances, and its purpose is to open the storage unit, and to illegally modify the control board that has an illegal correspondence relationship with the gaming machine. The object is to provide a gaming machine that can prevent fraudulent replacement.
[0005]
[Means for Solving the Problems]
  The present invention according to claim 1 is a gaming machine provided with a control board for controlling the gaming machine,
  The control boardIn a sealed stateA base to be accommodated and a lid for covering the base;Board withContainmentboxWhen,
in frontRecordsubstrateContainmentboxProvided in thesubstrateContainmentboxIdentification information transmitting means capable of transmitting identification information for identifying whether or not the correspondence between the control board accommodated in the gaming machine and the gaming machine is correct to the outside of the gaming machine.See
  The substrate storage box is
    A first mounting piece provided on the lid, for fixing the base and the lid;
    A fixing means attached to the first mounting piece for fixing the base and the lid;
    A base-side mounting hole provided in the base and to which the fixing means is attached;
    A lid-side mounting hole provided in the mounting piece portion and used when the first fixing piece portion is fastened to the base by the fixing means;
    A cutting portion that is cut to separate the first attachment piece from the lid and to release the fixed state between the base and the lid;
    The lid is provided on the lid so as to be juxtaposed with the first mounting piece, and the base and the lid are separated from the lid by cutting the cutting portion. A second mounting piece for fixing the base and the lid again by attaching a fixing means even if the fixed state is released.
  The cutting part is
    A connecting portion that connects the first mounting piece and the lid;
    An attachment connecting portion for connecting the first attachment piece portion and the second attachment piece portion;
  By cutting the connection portion and the attachment connection portion, the fixed state of the first attachment piece portion can be released,
  A state in which the fixing means used when fixing the base and the lid using the second attachment piece can be taken out by releasing the fixing of the base and the lid by cutting the cutting portion. To beIt is characterized by.
[0006]
  The present invention according to claim 2 is a gaming machine provided with a control board for controlling the gaming machine,
  The control boardIn a sealed stateA base to be accommodated and a lid for covering the base;Board withContainmentboxWhen,
in frontAn identification information transmitting means provided on the control board and capable of transmitting identification information for identifying whether or not the correspondence between the control board and the gaming machine to which the control board is attached is correct to the outside of the gaming machine; IncludingSee
  The substrate storage box is
    A first mounting piece provided on the lid, for fixing the base and the lid;
    A fixing means attached to the first mounting piece for fixing the base and the lid;
    A base-side mounting hole provided in the base and to which the fixing means is attached;
    A lid-side mounting hole provided in the mounting piece portion and used when the first fixing piece portion is fastened to the base by the fixing means;
    A cutting portion that is cut to separate the first attachment piece from the lid and to release the fixed state between the base and the lid;
    The lid is provided on the lid so as to be juxtaposed with the first mounting piece, and the base and the lid are separated from the lid by cutting the cutting portion. A second mounting piece for fixing the base and the lid again by attaching a fixing means even if the fixed state is released.
  The cutting part is
    A connecting portion that connects the first mounting piece and the lid;
    An attachment connecting portion for connecting the first attachment piece portion and the second attachment piece portion;
  By cutting the connection portion and the attachment connection portion, the fixed state of the first attachment piece portion can be released,
  A state in which the fixing means used when fixing the base and the lid using the second attachment piece can be taken out by releasing the fixing of the base and the lid by cutting the cutting portion. To beIt is characterized by.
[0007]
  According to a third aspect of the present invention, in addition to the configuration of the first aspect of the invention,substrateContainmentboxIncludes at least part of the resin surface of the multilayer structure,
  The identification information transmitting means is provided between layers of the resin surface.
[0008]
  According to a fourth aspect of the present invention, in addition to the configuration of the first aspect of the invention, the identification information transmitting means includessubstrateContainmentboxIt is affixed on the surface of this.
[0009]
According to a fifth aspect of the present invention, in addition to the configuration of the second aspect of the invention, the control board includes a storage unit in which a control program for controlling the gaming machine is stored,
The identification information transmitting means is configured to be integral with the storage unit.
[0010]
According to a sixth aspect of the present invention, in addition to the configuration of the second aspect of the invention, the control board has a multilayer structure in which at least a part thereof is laminated with a plurality of layers.
The identification information transmitting means is provided between the plurality of layers.
[0011]
According to a seventh aspect of the present invention, in addition to the configuration of the first or second aspect of the invention, the identification information transmitting means transmits the identification information in response to a request from a predetermined external device. It transmits to a device.
[0012]
The present invention described in claim 8 is characterized in that, in addition to the configuration of the invention described in claim 7, the identification information transmitting means includes:
An identification information storage unit storing the identification information;
Control means for performing control to transmit the identification information stored in the identification information storage section on condition that a predetermined electromagnetic wave is received from the external device.
[0013]
  The present invention according to claim 9 provides:Claim 8In addition to the configuration of the invention described in (2), the identification information transmission unit includes a power generation unit that generates power using the predetermined electromagnetic wave transmitted from the external device, and the control unit includes the power generation unit. The control is performed in response to the supply of the electric power generated in (1).
[0014]
[Action]
  According to the present invention as set forth in claim 1,By the first mounting piece and the fixing meansThe base body and the lid body are irreversibly fixed in a state in which the base body in which the control board is accommodated is closed with the lid body, and includes the base body and the lid body.Substrate storage boxIs difficult to open. further,By cutting the connection portion and the attachment connection portion provided in the cutting portion, the first attachment piece portion can be separated from the lid body and the fixed state between the base body and the lid body can be released. Thereafter, the base and the lid can be fixed again by attaching the fixing means to the second mounting piece provided on the lid so as to be juxtaposed with the first mounting piece. Become. The fixing means used when the base and the lid are fixed using the second mounting piece can be taken out by releasing the fixation between the base and the lid by cutting the cutting portion. It becomes. further,SaidSubstrate storage boxThe identification information transmission means provided in theSubstrate storage boxIdentification information for identifying whether the correspondence between the control board accommodated in the game machine and the gaming machine is correct is transmitted to the outside of the gaming machine.
[0015]
  According to the invention as claimed in claim 2,By the first mounting piece and the fixing meansThe base body and the lid body are irreversibly fixed in a state in which the base body in which the control board is accommodated is closed with the lid body, and includes the base body and the lid body.Substrate storage boxIs difficult to open. further,By cutting the connection portion and the attachment connection portion provided in the cutting portion, the first attachment piece portion can be separated from the lid body and the fixed state between the base body and the lid body can be released. Thereafter, the base and the lid can be fixed again by attaching the fixing means to the second mounting piece provided on the lid so as to be juxtaposed with the first mounting piece. Become. The fixing means used when the base and the lid are fixed using the second mounting piece can be taken out by releasing the fixation between the base and the lid by cutting the cutting portion. It becomes. further,Identification information for identifying whether or not the correspondence relationship between the control board and the gaming machine to which the control board is attached is correct to the outside of the gaming machine by the function of the identification information transmitting means provided on the control board. Sent.
[0016]
  According to the third aspect of the present invention, in addition to the action of the first aspect of the invention,substrateContainmentboxIncludes at least a part of the resin surface of the multilayer structure, and the identification information transmitting means is provided between the layers of the resin surface, making it difficult to modify the identification information transmitting means from the outside. .
[0017]
  According to the present invention as set forth in claim 4, in addition to the operation of the invention according to claim 1, the identification information transmitting means issubstrateContainmentboxBecause it is attached to the surface of thesubstrateContainmentboxThe identification information transmitting means can be provided in the apparatus.
[0018]
According to the present invention described in claim 5, in addition to the operation of the invention described in claim 2, the identification information transmitting means is configured inseparably from the storage unit of the control board. It is impossible to remove only the storage unit storing the control program and replace it with the storage unit storing the unauthorized modification program without touching the identification information transmitting means.
[0019]
According to the present invention described in claim 6, in addition to the operation of the invention described in claim 2, the control board has a multilayer structure in which a plurality of layers are laminated at least partially, and the identification information transmission Since the means is provided between the plurality of layers, it is difficult to modify the identification information transmitting means from the outside.
[0020]
According to the present invention described in claim 7, in addition to the operation of the invention described in claim 1 or 2, the identification information is transmitted in response to a request from a predetermined external device by the function of the identification information transmitting means. Is transmitted to the external device.
[0021]
According to this invention of Claim 8, in addition to the effect | action of the invention of Claim 7, the said identification information transmission means contains the identification information storage part and the control means in which the said identification information was stored, The control means controls the transmission of the identification information stored in the identification information storage section on condition that a predetermined electromagnetic wave has been received from the external device.
[0022]
  According to the invention as claimed in claim 9,Claim 8In addition to the operation of the invention described in (2), the identification information transmitting unit includes a power generating unit, and by the operation of the power generating unit, power is generated using the predetermined electromagnetic wave transmitted from the external device, The electric power is used for control by the control means.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below in detail with reference to the drawings. In the following embodiments, a pachinko gaming machine is shown as an example of a gaming machine. However, the present invention is not limited to this, and may be a coin gaming machine, a slot machine, or the like, for controlling the gaming machine. Any game machine provided with the control board can be applied to all.
[0024]
FIG. 1 is a front view of a pachinko gaming machine 1 and a prepaid card unit 35 as an example of a gaming machine according to the present invention.
[0025]
The prepaid card unit 35 is provided with a card use indication lamp 47, and the player is informed that the prepaid card unit 35 is in a usable state by the lighting or blinking of the card use indication lamp 47. The This prepaid card unit 35 is installed in a state of being inserted between a plurality of pachinko gaming machines 1 installed on the gaming machine installation island, and it is connected to the left or right gaming machine in the direction of the connecting table. Displayed on the display 49.
[0026]
When the player inserts a common card in which the card balance is recorded from the card insertion slot 50, the card balance recorded on the common card is read. Then, when the player performs the ball lending operation, the balance for the lending unit amount set in advance is reduced and the hit ball for the lending unit amount is placed in the upper plate 87 of the pachinko gaming machine 1. Loaned.
[0027]
The prepaid card unit 35 is provided with a fraction display switch 48. By pressing this fraction display switch 48, information such as a card balance and an error code when an error occurs is provided in the pachinko gaming machine 1. Displayed on an information display (not shown). In the figure, reference numeral 51 denotes a card unit lock, which is configured such that the front side of the prepaid card unit 35 can be opened by inserting a predetermined key into the card unit lock 51 and performing an unlocking operation.
[0028]
A game area is formed on the game board 3 of the pachinko gaming machine 1. The pachinko gaming machine 1 is provided with a hitting ball operation handle 82 for a player to hit the ball, and when the player operates the hit ball operation handle 82, the pachinko ball stored in the upper plate 87 is provided. Can be fired one by one. The fired pachinko balls are guided into the game area through the partition rails 2.
[0029]
In the center of the game area, a variable display device 4 capable of variably displaying special symbols as a plurality of types of identification information is provided. A variable winning ball apparatus 10 is provided below the variable display device 4. The variable winning ball apparatus 10 is attached by fixing the base plate 60 to the game board 3. The variable winning ball apparatus 10 has a first state that is advantageous for a player who can win a hit by opening and closing the plate 61 by exciting a solenoid 61a described later, and by demagnetizing the solenoid 61a. The opening / closing plate 61 is closed so that it can be changed to a second state which is disadvantageous for a player who cannot win a hit ball. The variable winning ball apparatus 10 is provided with six LEDs 62 that are lit or blinked in accordance with the gaming state.
[0030]
A warp inlet 21 is provided in each of the left side portion and the right side portion of the variable display device 4. The hit ball that has entered the warp inlet 21 flows down through the back side of the variable display device 4 and is discharged from the warp outlet 8 to the game area again. For this reason, the hit ball discharged from the warp outlet 8 is in a state where it is relatively easy to win the start opening 9. A normal symbol start gate 23 is provided in the passing path of the hit ball that has entered the warp inlet 21 provided in the left side portion of the variable display device 4. The normal symbol starting gate 23 is provided with a passing ball detector 23a for detecting the passing of a ball.
[0031]
When the ball hit into the game area enters the normal symbol start gate 23, the passing ball is detected by the passing ball detector 23a, and the normal symbol display 17 is variably started based on the detection output.
[0032]
The normal symbol display 17 is composed of, for example, a 7-segment display, and identification information called a normal symbol is variably displayed. If the display result of the normal symbol display 17 becomes predetermined specific identification information (for example, 7), a solenoid 20a, which will be described later, is excited, and a pair of left and right movable pieces 20 provided at the start port 9 are moved. It is opened only for a predetermined period, and the hit ball is in a state where it is easier to start and win. The starting winning ball won in the starting port 9 is detected by a starting ball detector 9a described later, and the variable display device 4 is variably started based on the detection output.
[0033]
The variable display device 4 is composed of, for example, a CRT display 4 (see FIG. 14) capable of liquid crystal display, and a variable display unit 5 is provided. The variable display unit 5 is divided into a left variable display unit, a middle variable display unit, and a right variable display unit. The variable display unit 5 is an identification composed of a plurality of types of special symbols when all the variable display units start variable at the same time. The information is scroll-displayed from the top to the bottom, first the left variable display unit is controlled to stop, then the right variable display unit is controlled to stop, and finally the middle variable display unit is controlled to stop.
[0034]
When the variable display device 4 is variably stopped and the special symbol is a combination of a predetermined special symbol (for example, 777), the display result becomes a predetermined specific display mode. In this case, a specific game state (a big hit state) occurs, and the variable winning ball apparatus 10 is controlled to the first state, which is advantageous to the player.
[0035]
In the variable winning ball apparatus 10, a specific winning area is provided, and a winning ball that has won the specific winning area is detected by a specific ball detecting switch 61c described later. Further, all winning balls that have won in the variable winning ball apparatus 10 are detected by the ball number detection switch 61b. Specifically, the specific winning ball detected by the specific ball detection switch 61c and the normal winning ball won in the normal winning area other than the specific winning area are detected by the ball number detecting switch 61b. A case where a predetermined number (for example, nine) of hitting balls that have entered the variable winning ball apparatus 10 in the first state is detected by the number-of-balls detection switch 61b or when a predetermined period (for example, 30 seconds) has elapsed. When the earlier condition is satisfied, the first state of the variable winning ball apparatus 10 ends and becomes the second state. The number detected by the ball number detection switch 61b is displayed by a number display 63 consisting of a 7-segment display. Then, the hit ball that entered during the period in which the variable winning ball apparatus 10 is in the first state wins the specific winning area, and after the variable winning ball apparatus 10 enters the second state, the specific ball detection switch 61c. If it is detected, the repeated continuation control for setting the variable winning ball device 10 to the first state again is executed. The upper limit number of executions of this repeated continuation control is set to 16 times, for example. In the repeated continuation control, the state in which the variable winning ball apparatus 10 is in the first state is called a round. When the upper limit number of executions of the repeated continuation control is 16, the variable winning ball apparatus 10 can be set to the first state for 16 rounds from the first round to the 16th round.
[0036]
When the variable display device 4 is variably displayed, if the hit ball is again won at the start port 9 and detected by the start ball detector 9a, the start winning ball is stored, and after the variable display device 4 is variably stopped, The variable display device 4 is variably started again based on the start winning memory after the variable start is possible again. The upper limit of the start winning memory is set to “4”, for example. The starting winning memory number at the present time is displayed by the starting memory display 6.
[0037]
The game area is further collected as an out ball when the windmill 19, the normal winning ports 7, 11, 15 and the hit ball that has been driven do not win any of the winning areas or the variable winning ball apparatus. An out port 16 is provided. Further, the game board 3 is provided with side lamps 22 for displaying decorative symbols.
[0038]
When hitting balls are awarded in various winning areas such as the start opening 9, the variable winning ball apparatus 10, and the normal winning openings 7, 11, 15 and the like, a predetermined number of prize balls corresponding to the winning openings are paid out to the upper plate 87. . Below the upper plate 87, there is provided a lower plate 86 for storing hitting balls discharged from the upper plate 87 by operating the upper plate ball removal lever 84. The hit ball stored in the lower plate 86 can be discharged by operating the lower plate ball removing lever 85.
[0039]
Speakers 81 for generating sound effects such as stereo sound are provided on the left and right of the upper part of the game board 3. In the figure, reference numeral 83 denotes a key for preventing the front frame that is the front frame of the pachinko gaming machine 1 from being opened and closed, and 266 is a switch that detects the opening of the front frame.
[0040]
In addition, the pachinko gaming machine 1 is provided with decorative LEDs 262 and decorative fluorescent lamps 263, 264, 265. These light up or blink in accordance with the gaming state, and inform the player of the occurrence or continuation of the specific gaming state and increase the gaming atmosphere. In addition, a ball break LED 260 for notifying that there are insufficient prize balls, and a payout LED 261 for notifying that a predetermined number of prize balls have been paid based on the occurrence of a winning ball are provided.
[0041]
Further, an ID transmitter 240 is embedded in the game board 3. FIG. 26 is a cross-sectional view for explaining the embedding state of the ID transmitter 240.
[0042]
Referring to FIG. 26, ID transmitter 240 is positioned between melamine decorative board 241 that forms the surface of game board 3 and veneer board 242 to which melamine decorative board 241 is bonded. The veneer plate 242 is fitted and fixed in the provided fitting portion. As will be described later with reference to FIG. 19, the ID transmitter 240 is composed of, for example, an IC chip of the same type as an IC chip embedded and used in a non-contact type IC card. ) Stores, for example, identification information (ID code) that can identify the type of the game board 3. This ID code is secretly managed by, for example, a third party management organization that manages each game hall or each game hall. The ID transmitter 240 identifies the ID code stored therein in response to a transmission request from the ID identification device 250 (see FIG. 18) arranged outside the corresponding pachinko gaming machine 1. To device 250. Accordingly, if the game board 3 is replaced with an illegal game board 3, a predetermined ID code will not be transmitted. Therefore, by checking whether the ID code is transmitted from the ID transmitter 240 and whether the ID code is correct, Thus, it is possible to easily grasp whether or not the game board 3 is replaced.
[0043]
FIG. 2 is a rear view of the pachinko gaming machine 1 and the prepaid card unit 35 shown in FIG. On the back surface of the pachinko gaming machine 1, a mechanism plate 53 is provided so as to be interposed in a U-shape. The mechanism plate 53 has a ball tank 54 for paying out a predetermined number of prize balls based on the winning winning balls, a ball alignment rail 55 for sending the balls in the ball tank 54 to the prize ball payout device 59, a curve rod 57, a passage body. 58, a winning ball payout device 59, a winning ball processing device 72 having a winning ball detecting switch 74 and a winning ball discharge solenoid 73, a game control board box 87b containing a game control board 87a, and an electric decoration containing an electric decoration board 64. A board box 65, a relay board box 76 containing the unit relay board 75, and a terminal board box 68 containing the terminal board 67 are provided.
[0044]
A window opening 56 is opened in the center of the mechanism plate 53, and a winning ball collective cover body 66 attached to the back surface of the game board 3 is penetrated from the window opening 56. The winning ball collective cover body 66 is provided with a relay board 78 and a variable display device (CRT display) 4. Various electrical components on the game board 3 are connected to the relay board 78 and a game control board 87a described later is connected. On the other hand, the variable display device 4 is provided with an image display control board 216 (see FIG. 15). The variable display device 4 displays various special symbols, characters, and other images on the variable display unit 5 (see FIG. 1) based on the image display control signal of the image display control board 216.
[0045]
The game control board 87a accommodated in the game control board box 87b includes a CPU, a RAM, and a ROM, and controls game operations of game devices such as the variable display device 4 and the variable winning ball device 10. For example, the game control board 87 a is connected to the image display control board 216 by wiring, and transmits a signal for designating an image to be displayed on the variable display unit 5 to the image display control board 216.
[0046]
The game control board box 87b is composed of a box body 110 (see FIG. 7) that houses the game control board 87a, and a lid body 90 (see FIG. 4) that covers the game control board 87a. . The lid 90 and the box body 110 are assembled to each other by attachment pieces 80a to 80c provided on an upper plate 92 (see FIG. 4) that constitutes the surface of the lid 90, and are in an irreversible fixed state. The three parties are configured so that the game control board box 87b cannot be opened for illegal purposes. The lid 90 is provided with an ID transmitter 231 of the same type as the ID transmitter 240 (see FIG. 8), as will be described later.
[0047]
In the figure, reference numeral 71 denotes a hitting unit, which is operated by a player operating a hitting operation handle 82 (see FIG. 1) to launch hit balls one by one into the game area. In addition, the electrical decoration board 63 controls the operation of electrical decorative components (decorative fluorescent lamps 265, decorative LEDs 262, 263, etc.) provided on the front surface of the pachinko gaming machine 1 based on commands or data from the game control board 87a. Is. The unit relay board 75 relays the wiring between the pachinko gaming machine 1 and the prepaid card unit 35.
[0048]
Further, on the back surface of the pachinko gaming machine 1, a prize ball board box 77 that houses a prize ball board 69 is further provided. The prize ball substrate 69 controls the operation of the prize ball payout device 59.
[0049]
The various boards and devices are provided with connectors for connecting predetermined wiring. The terminal board 67 accommodated in the terminal board box 68 supplies power to various electrical devices provided in the pachinko gaming machine 1, for example, the above-described respective boards and the ball hitting device 71 through a connector, and also pachinko gaming machines. The signal line is relayed inside 1 or the signal line is relayed between the pachinko gaming machine 1 and the outside.
[0050]
A middle plate 310 is provided below the wooden frame of the pachinko gaming machine 1 to which the mechanism plate 53 is assembled. An ID transmitter 235 of the same type as the ID transmitter 240 described above is embedded in the middle plate 310. It is. FIG. 25 is a cross-sectional view for explaining the state of embedding the ID transmitter 235.
[0051]
Referring to FIG. 25, middle plate 310 is formed by bonding front plate 236 and back plate 237, and a fitting portion 238 for fitting ID transmitter 235 is formed at a predetermined position of front plate 236. Has been. The ID transmitter 235 is fitted into the fitting portion 238 and adhered to the back plate 237 and fixed.
[0052]
Furthermore, an ID transmitter 224, an ID transmitter 245, and an ID transmitter 246 are attached to the image display control board 216, the electrical decoration board 64, and the prize ball board 69, respectively. 15 showing the circuit configuration of the image display control board 216, FIG. 16 showing the circuit configuration of the electrical decoration board 64, and FIG. 17 showing the circuit configuration of the prize ball board 69, respectively, an ID transmitter 224 and an ID transmitter 245. The mounting position of the ID transmitter 246 is shown.
[0053]
Here, with reference to FIG. 27 and FIG. 28, the state of attachment of the ID transmitter 224, ID transmitter 245, and ID transmitter 246 to each board will be described. FIG. 27 is a cross-sectional view of the image display control board 216, the illumination board 64, and the prize ball board 69, and FIG. 28 is a view showing another embodiment thereof. 27 and 28 are also referred to as sectional views showing another embodiment of the game control board 87a described later in the description of FIG. 22, as shown in parentheses.
[0054]
First, referring to FIG. 27, an image display control board 216, an electric decoration board 64, and a prize ball board 69 are printed wiring boards having printed wiring 187d on the front surface and the back surface thereof. A power supply print layer 187c corresponding to an intermediate layer is laminated, and an ID transmitter 224, an ID transmitter 245, or an ID transmitter 246 is placed on the power supply print layer 187c, and an IC chip storage portion 187 is formed from the upper portion. The substrate surface portion 187a has a multilayer structure formed by stacking. The ID transmitters 224, 245, and 246 interpose a power printed layer 187c between the substrate front surface portion 187a and the substrate back surface portion 187b at the stage of manufacturing the image display control substrate 216, the electrical decoration substrate 64, and the prize ball substrate 69. Therefore, it is difficult for a third party who attempts fraud to modify the ID transmitters 224, 245, and 246 from the outside. For this reason, it is possible to prevent the ID transmitters 224, 245, and 246 from being tampered with as much as possible.
[0055]
These ID transmitters 224, 245, 246 and the ID transmitter 235 embedded in the middle plate 310 are used in the same manner as the ID transmitter 240, for example, by being embedded in a non-contact type IC card. And the same kind of IC chip. In each memory (EEPROM), for example, identification information (ID code) that can identify the types of the middle plate 310, the image display control board 216, the electrical decoration board 64, and the prize ball board 69 corresponding to the pachinko gaming machine 1, respectively. ) Is stored. This ID code is secretly managed in the same manner as the ID transmitter 240, and is sent in response to a transmission request from an ID identification device 250 (see FIG. 18) arranged outside the corresponding pachinko gaming machine 1. The ID code stored in is transmitted to the ID identification device 250. By confirming this ID code, it is possible to easily determine whether or not there is an unauthorized replacement of the image display control board 216, the illumination board 64, and the prize ball board 69.
[0056]
Next, another embodiment will be described with reference to FIG. In this alternative embodiment, ID transmitters 224, 245, and 246 are attached to the surfaces of the image display control board 216, the illumination board 64, and the prize ball board 69 (the surface of the board surface portion 187a), respectively. In order to prevent 224, 245, 246 from being easily removed from each board, a board name sticker 188 on which the board type name is written is strongly attached from above ID transmitters 224, 245, 246. . According to this other embodiment, compared to the configuration shown in FIG. 27, the ID transmitters 224, 245, 246 can be easily attached to the image display control board 216, the illumination board 64, and the prize ball board 69, respectively. Become. For this reason, implementation is easy. It should be noted that it is desirable to use a board name seal 188 that is difficult to peel off, and that the ID transmitters 224, 245, and 246 are destroyed when the board name seal 188 is forcibly peeled off. .
[0057]
Next, the configuration of the game control board 87a and the game control board box 87b will be described with reference to FIGS.
[0058]
First, as shown in FIG. 7, the game control board 87a is formed of a rectangular printed wiring board, and most of the upper surface thereof is formed as an electronic component mounting area for mounting an electronic component 142 such as a ROM. On the other hand, a region on one side in the width direction is formed as a region for mounting the connector 88. The game control board 87a is provided with stop holes 143 at both ends on one side in the width direction, and engagement holes 144 at both ends on the other side in the width direction. In addition, the plating part which is not illustrated is provided in the outer periphery of the stop hole 143 in the upper surface and lower surface of the game control board 87a.
[0059]
Next, the game control board box 87b is a set of a box main body 110 (see FIG. 7) that houses the game control board 87a and a lid 90 (see FIG. 4) for covering the box main body 110. It consists of an attachment body, and this assembly body is attached to the mechanism board 53 (refer FIG. 2) via the attachment stand 150 (refer FIG. 3).
[0060]
Further, as shown in FIG. 4, the lid 90 is composed of a transparent upper plate 92, a metal lid frame 96, and a conductive plate 100 having transparency and conductivity. As shown in FIG. 7, 110 includes a bottom plate 111 having transparency and a metal main body frame 99.
[0061]
First, the lid 90 will be described. The upper plate 92 constituting a part of the lid 90 is made of a transparent synthetic resin rectangular plate composed mainly of a resin such as polyvinyl alcohol, polyester or polyethylene. The rectangular plate is formed by laminating a plurality of types or single types of resins, and an ID transmitter 231 (see FIG. 8) is provided between the inner layers. Here, FIG. 29 shows a cross-sectional view for explaining the mounting state of the ID transmitter 231 and FIG. 30 shows another embodiment thereof.
[0062]
First, referring to FIG. 29, an upper plate 92 includes an upper plate surface portion 92a, an electrostatic protection mesh 92c provided for the purpose of preventing malfunction of the game control CPU due to the generation of static electricity, and an upper plate rear surface portion 92b. It consists of a multilayer structure formed by sequentially laminating. Each layer is bonded with a predetermined adhesive that does not hinder the transparency of the upper plate 92. The ID transmitter 231 is provided inside the upper plate 92 so as to be sandwiched between the IC chip storage portion 92d formed on the upper plate surface portion 92a and the upper plate rear surface portion 92b via the electric protection mesh 92c. .
[0063]
The ID transmitter 231 includes an IC chip similar to the ID transmitter 240 shown in FIG. In the memory (EEPROM) of the ID transmitter 231, for example, identification information (ID code) that can identify the type of the game control board 87 a corresponding to the pachinko gaming machine 1 provided with the game control board box 87 b is stored. Like the ID transmitter 240, it is secretly managed. Similar to the ID transmitter 240, the ID transmitter 231 stores the ID transmitter 231 in response to a transmission request from an ID identification device 250 (see FIG. 18) disposed outside the pachinko gaming machine 1 corresponding to the pachinko gaming machine 1. The transmitted ID code is transmitted to the ID identification device 250. By confirming this ID code, it is possible to easily determine whether or not the game control board 87a is replaced with an illegally modified game control board box 87b. Further, since the ID transmitter 231 can be visually recognized from the outside due to the transparency of the upper plate 92, it is possible to suppress an unauthorized replacement action itself. Further, the ID transmitter 231 is provided between the resin layers constituting the upper plate 92, and an electrostatic protection mesh 92c is interposed between the upper plate surface portion 92a and the upper plate rear surface portion 92b at the stage of manufacturing the upper plate 92. Therefore, it is difficult for a third party who attempts fraud to touch the ID transmitter 231 from the outside. For this reason, it is possible to prevent the ID transmitter 231 from being illegally modified.
[0064]
Next, another embodiment will be described with reference to FIG. In this alternative embodiment, the ID transmitter 231 is attached to the surface of the upper plate 92 (upper plate surface portion 92a), and the ID transmitter 231 is prevented from being easily removed. A board name sticker 226 is strongly attached from above. The board name label describes the board type name of the game control board 87a.
[0065]
According to this other embodiment, it becomes easier to attach the ID transmitter 231 to the upper plate 92 as compared to the configuration shown in FIG. For this reason, implementation is easy. Note that it is desirable to use a substrate name seal 226 that is difficult to peel, and when the substrate name seal 226 is forcibly removed, the ID transmitter 231 is destroyed.
[0066]
Next, referring to FIG. 4, a plurality of welding projections 92 e for assembling the upper plate 92, the lid frame 90, and the conductive plate 100 are provided at predetermined intervals on the outer peripheral end portion on the lower surface side of the upper plate 92. Projected. A plurality of attachment piece portions 80 a to 80 c are arranged in parallel on both ends of the upper plate 92 in the longitudinal direction. The attachment pieces 80a to 80c are for irreversibly fixing the box body 110 (see FIG. 7) and the lid 90. Each of the mounting pieces 80a to 80c has an L-shaped cross section having a portion constituting the side wall of the upper plate 92 and a portion constituting the upper wall of the upper plate 92. The connecting portions 94a to 94c for connecting the mounting piece portions 80a to 80c are integrally formed. In the upper wall constituting portion of the upper plate 92, the connecting portions 93a to 93c for connecting the mounting piece portions 80a to 80c. (See FIG. 8) is integrally formed. In addition, a slit-shaped groove is formed between the mounting piece portions 80a to 80c, and the connecting portions 93a to 93c and 94a to 94c are provided in a state of protruding from the outer wall surfaces of the mounting piece portions 80a to 80c. (See FIG. 9). Further, as shown in FIGS. 4 and 8, mounting holes 95a to 95c are formed in the upper wall constituent portions of the mounting pieces 80a to 80c, respectively, and are adjacent to the mounting pieces 80c and above. Mounting holes 95d are formed in the corners at both ends on one side in the width direction of the plate 92. Furthermore, a concave portion 97a and a concave portion 98a are formed on the upper surface of the upper plate 92. A model name seal 97b indicating the model name of the pachinko gaming machine 1 is attached to the concave portion 97a, and a game is provided to the concave portion 98a. An exchange history sticker 98b in which each item of “exchanger” and “exchange date” written when the control board box 87b is exchanged is attached. A detailed configuration of the model name seal 97b and the replacement history seal 98b is shown in FIG.
[0067]
The upper portions of the mounting holes 95a to 95d described above have a concave shape that allows an assembly screw to enter the outer wall surface of the lid frame 96 in an assembled state with the box body 110 (FIG. 9). (See (A)). For this reason, the illegal act which cut | disconnects the head of a screw and cancel | releases a screw stop can be prevented. Further, each of the connecting portions 93a to 93c and 94a to 94c is engraved with “1 to 3” in order to suggest a game hall staff or the like about the opening procedure of the game control board box 87b (FIG. 8, FIG. 8). 12). Specifically, the connecting portions 93a and 94a corresponding to the mounting piece 80a are marked with “1”, and the connecting portions 93b and 94b corresponding to the mounting piece 80b are marked with “2”. The connecting portions 93c and 94c corresponding to the mounting piece portion 80c are marked with “3”. An attendant at the game hall cuts the connecting portions 93a to 93c and 94a to 94c according to these marks, and opens the game control board box 87b. The opening procedure will be described later.
[0068]
Next, the lid frame 96 will be described. The lid frame 96 has an opening 107, and a plurality of insertion holes 106 through which the plurality of welding projections 92 e on the upper plate 92 side are individually inserted are formed in the remaining upper surface region other than the opening 107. . Further, the outer peripheral edge of the lid frame 96 has a side wall hanging down over the entire circumference. The side walls at both ends in the longitudinal direction of the lid frame 96 are formed as contact walls 108 (see FIG. 9) that come into contact with the tip portions of mounting pieces 130 (see FIG. 9), which will be described later, in the assembled state with the box body 110. . The side wall on one side in the width direction of the lid frame 96 is formed as a partition wall that partitions the electronic component mounting area and the connector mounting area of the game control board 87a accommodated in the game control board box 87b into and out of the lid frame 96. Yes.
[0069]
Next, the conductive plate 100 will be described. The conductive plate 100 is made of a transparent synthetic resin rectangular plate like the upper plate 92, and a conductive fiber 101 having a black coating is provided on the upper surface thereof so as to be bonded to the entire region. A plurality of insertion holes 102 through which the welding projections 92 e on the upper plate 92 side are individually inserted are formed in the outer peripheral end portion of the conductive plate 100, similarly to the hole 106 formed in the lid frame 96. Here, the conductive fiber will be briefly described. The conductive fiber is roughly divided into a mesh of metal (copper, brass, nickel, aluminum, etc.) filaments, and a synthetic fiber with conductive particles ( Copper or carbon) may be applied or impregnated, and in any type of conductive fiber, 50 to 250 mesh (especially 100 to 200 mesh is good) from the viewpoint of electromagnetic shielding effect and light transmittance. It is desirable that the aperture ratio is 10 to 90% (particularly 30 to 80% is good). And, due to the structure of the mesh, the transparency is inevitably deteriorated, but in this embodiment, in order to suppress this, the conductive fiber 101 is made a dark color (black in the embodiment) avoiding the metal color. Improves transparency.
[0070]
In the present embodiment, the conductive plate 100 is configured by bonding the conductive fibers 101 to the transparent synthetic resin plate. However, the configuration of the conductive plate is not limited to this, and the conductive plate 100 is electrically conductive. A conductive plate (commonly referred to as a CRT filter or the like) may be formed by embedding a conductive fiber. In this case, the transparency can be improved by making the transparent synthetic resin plate dark. Moreover, you may comprise a conductive plate by formation of a transparent conductive layer. The transparent conductive layer will be briefly described. The transparent conductive layer is made of a metal such as gold, platinum, silver, aluminum, nickel, palladium, tin, or antimony, a metal oxide such as indium oxide or tin oxide, or a mixture thereof. Is formed on the surface of a resin material or the like as a layer having a thickness having conductivity and transparency by a method such as vacuum deposition, sputtering, ion plating, or CVD.
Next, with reference to FIG. 5 and FIG. 6, a procedure for assembling the lid 90 with the welding projection 92e will be described. 5 is a cross-sectional view of the lid 90, and FIG. 6 is a rear view of the lid 90 (a plan view seen from the conductive plate 100 side). As shown in FIGS. 5 and 6, the lid 90 is ultrasonically welded to the upper projection 92 e of the upper plate 92 inserted through the insertion hole 106 of the lid frame 96 and the insertion hole 102 of the conductive plate 100. It is configured as an assembly of the plate 92, the lid frame 96, and the conductive plate 100. Further, the conductive fibers 101 of the conductive plate 100 are reliably connected to the lid frame 96 by such welding of the welding projections 92e. In the welding of the welding projection 92e, when the upper plate 92 (welding projection 92e) and the conductive plate 100 are formed of the same material, the welded portion of the welding projection 92e is mixed with the conductive plate 100, making it even stronger. Welding becomes possible. The lid 90 may be assembled by heat welding other than ultrasonic welding, or using a solvent or an adhesive. Further, in the assembled state of the lid 90, a rectangular hologram seal 104 (see FIG. 8) is stuck between the upper surface of the upper plate 92 and the side surface of the lid frame 96, thereby the lid The assembled state of the body 90 is secured.
[0071]
Next, the box body 110 will be described with reference to FIG. As described above, the box main body 110 includes the bottom plate 111 and the main body frame 99.
[0072]
First, the bottom plate 111 is made of a transparent synthetic resin rectangular plate, and on its upper surface portion, flange pieces 112 for supporting the lower surface of the game control board 87a are erected in the vicinity of the four corners and in the central portions at both ends in the width direction. ing. Note that a slit portion 113 is formed in the flange piece 112 erected in the vicinity of the two corners on one side in the width direction so as to release interference with an engagement piece 124 described later. On the other hand, in the vicinity of the flange piece 112 erected in the vicinity of the two corners on the other side in the width direction, a through hole 114 that penetrates the mounting piece 122 described later is formed. In addition, a notch 115 is formed at a substantially central portion on one side in the longitudinal direction. The notch 115 is a notch for releasing interference with the engaging protrusion 154 (see FIG. 3) in a state where the game control board box 87b is attached to the mounting base 150.
[0073]
Next, the main body frame 99 will be described. The main body frame 99 has an opening 117 on the lower surface, and has a shape having a side wall on the entire outer periphery thereof. Engagement pieces 118 having a L-shaped cross section are formed on both sides in the width direction on the inner peripheral edge of the opening 117 with a predetermined length, and a locking hole is formed on one side in the longitudinal direction of the inner peripheral edge. A locking piece 119 formed with 120 is formed. In addition, a plurality of reduction holes 121 are formed in the remaining lower surface region other than the opening 117. Attachment pieces 122 having attachment holes 123 are formed at both ends on one side in the width direction in the lower surface region, and engagement pieces 124 having engagement protrusions 125 are provided at both ends on the other side in the width direction in the lower surface region. Is formed. The engagement piece 118 is bent slightly downward at the tip so that the engagement piece 118 can be easily engaged with an engagement rail 151 (see FIG. 3) on the attachment stand 150 side when attached to the attachment stand 150 described later.
[0074]
A plurality of heat radiation holes 128 are formed in one side wall of the main body frame 99 in the width direction. On both side walls in the width direction of the main body frame 99, reinforcing pieces 129 are extended at both ends in the longitudinal direction. The reinforcing pieces 129 are bent inward from the extended portion to press both side walls in the longitudinal direction of the main body frame 99 from the inside, thereby improving the strength of the main body frame 99. Moreover, since the gap between the side walls is closed, it is possible to prevent unauthorized modification by widening the side walls. Such a reinforcing piece 129 may be provided not only on the main body frame 99 but also on the lid frame 96 (see FIG. 4). Upper end portions of both side walls in the longitudinal direction of the main body frame 99 are formed as attachment pieces 130 bent inward, and the attachment pieces 130 have attachment holes 95a to 95a on the lid 90 (see FIG. 4) side. Mounting holes 131 to 134 corresponding to 95d are formed. In the vicinity of the mounting holes 132 to 134, equipment holes 135 to 137 for mounting the equipment one-way screws 145 in an inserted state are formed.
[0075]
The lid 90 and the box body 110 are configured as a game control board box 87b that houses the game control board 87a by the following assembly. First, the game control board 87a and the bottom plate 111 are overlapped and mounted on the main body frame 99, and the engagement protrusion 125 of the engagement piece 124 is inserted into the engagement hole 144 of the game control board 87a. Next, the stop hole 143 of the game control board 87 a is fastened together with the screw 139 to the mounting hole 123 of the mounting piece 122. As a result, the game control board 87a is screwed to the main body frame 99 with the bottom plate 111 interposed therebetween. In such mounting and fixing of the game control board 87a, when the hole positions of the stop hole 143 and the mounting hole 123 are aligned, the game control board 87a is slightly displaced so that the engagement protrusion 125 and the engagement hole 144 are engaged. In addition, one side in the width direction of the game control board 87a that is not screwed is also fixed.
[0076]
Next, the lid 90 is put on the box body 110 whose upper surface is open. 4 and 7, the mounting hole 95a of the mounting piece 80a is fixed to the mounting hole 131 of the main body frame 99 with a one-way screw 140 (see FIG. 9A). The stop portion is sealed with a rectangular hologram seal 105. As a result, an assembly (game control board box 87b) in which the game control board 87a is housed in a sealed state in the internal space between the lid 90 and the box body 110 is configured.
[0077]
Further, in the assembled state of the lid 90 and the box body 110, the one-way screw 140 inserted through each of the equipment holes 135 to 137 (see FIG. 7) is a lid from above as shown in FIG. 9 (B). By being attached so as to cover the body 90, it is accommodated in the game control board box 87b without being disengaged from the equipment holes 135 to 137. That is, in such an accommodation state, the upper wall surfaces in the vicinity of the attachment pieces 80b and 80c and the attachment hole 95d of the lid 90 individually prevent the one-way screw 140 from popping out. In addition, the installation method of the one-way screw 140 is not limited to the one described in the embodiment. For example, in the assembled state of the game control board box 87b, the head of the one-way screw 140 is completely pressed by the lid 90 (such as a mounting piece), or the diameter of the one-way screw 140 and the equipment holes 135 to 137 The diameter may be substantially the same. In such a configuration, it is possible to suppress the rattling of the one-way screw 140 provided in the closed state of the game control board box 87b.
[0078]
Here, the one-way screw 140 will be described with reference to FIGS. 10 and 11. FIG. 10A is a plan view of the one-way screw 140, and FIG. 10B is a perspective view of the one-way screw 140. FIG. 11A is a plan view of the one-way screw special driver as viewed from the tip side, and FIG. 11B is a partial plan view of the one-way screw special driver as viewed from the direction a. is there.
[0079]
The one-way screw 140 is a special screw that rotates only in the screw tightening direction, and once tightened, it cannot be removed unless the screw is destroyed. Specifically, as shown in FIGS. 10A and 10B, the screw groove provided in the head 141 includes an abutting surface portion 142, a concave portion 143, and a central hole portion 144. 11A and 11B, when the screw is tightened with the special minus driver 145, the central shaft portion 146 of the driver 145 is inserted into the central hole portion 144, and from this state, the contact piece of the driver 145 Screwing is performed by bringing the portion 147 into contact with the contact surface portion 142 and rotating the head 141 in one direction (the clockwise direction in FIG. 10A). On the other hand, when the driver 145 rotates the head 141 in the other direction (counterclockwise in FIG. 10A) to remove the screw 140, the driver 145 enters the recess 143 and slips. The head 141 cannot be rotated and the screw 140 cannot be removed. Although the screw 141 can be tightened by rotating the head 141 in one direction even with a normal flathead screwdriver, the central shaft portion 146 is connected to the central hole portion 144 of the one-way screw 140 as in the case of the special flathead screwdriver 145. Tightening can be performed more easily by inserting and positioning with the one-way screw 140.
[0080]
The one-way screw 140 for assembling the lid 90 and the box body 110 is configured to enter the outer wall surface of the lid frame 96 in a screwed state. For this reason, the hologram seal 105 that seals the stop portion of the one-way screw 140 is affixed on a flat surface having no protrusions, so that the hologram seal 105 can be prevented from being peeled off and damaged, and fraudulent acts on the hologram seal 105 can be easily identified. Become. The hologram seal includes a hologram layer, a light reflection layer, and an adhesive layer, and the hologram pattern formed on the hologram layer is configured to be difficult to counterfeit so as to prevent the sticking of the seal due to fraud. It has become. In this hologram design, coherent light (laser light) incident on the surface of the hologram seal enters the light reflecting layer through the embossed surface of the hologram layer, and is reflected from the light reflecting layer to the outside of the hologram seal as hologram interference light. Formed with. In addition, when the hologram sticker is peeled off, the hologram pattern does not return to its original shape even if it is attached again, so that the trace of peeling off remains.
[0081]
As described above, the game control board box 87b ensures the covering state of the game control board 87a by sealing the one-way screw 140 stop portion between the lid 90 and the box body 110 with the hologram seal 105. Further, an electromagnetic shielding effect can be achieved by the conductive plate 100 provided in the game control board box 87b. Further, the game control board box 87b is formed by forming the upper board 92 and the conductive board 100 constituting the upper wall surface thereof, and the bottom plate 111 constituting the lower wall face from respective transparent materials, thereby mounting the game control board 87a. The surface (upper surface) and the solder surface (lower surface) can be seen through from the outside. For this reason, when an illegal work (for example, an illegal work in which a jumper wiring is connected or an electronic component is mounted) is applied to the game control board 87a, the illegal work is immediately known. .
[0082]
Next, a mounting base 150 for mounting the game control board box 87b to the mechanism plate 53 will be described with reference to FIG. As shown in FIG. 3, the mounting base 150 is made of a rectangular plate made of synthetic resin (or metal), and a pair of engagement rails 151 having an inverted L-shaped cross section are formed at a predetermined interval at the center of the substrate. It is stipulated. The direction in which the engagement rail 151 is provided is the left-right direction along the long side portion of the mounting base 150. A guide surface 152 orthogonal to the substrate surface protrudes from each long side portion (front and rear end edges) of the mounting base 150. A release lever 153 that is elastically deformed is formed at the right end of the mounting base 150, and an engagement protrusion 154 that engages with the locking hole 120 on the box body 110 side is formed in the vicinity of the release lever 153. Has been. Further, a stop hole 155 for screwing the mounting base 150 to a mounting boss (not shown) on the mechanism plate 53 side is formed in the board surface of the mounting base 150.
[0083]
The mounting base 150 is attached to a predetermined part on the mechanism plate 53 by being screwed to the mechanism plate 53 via the stop hole 155. Further, when the game control board box 87b is attached to the mount 150, the game control board box 87b is slid from the left side with respect to the mount 150. At this time, the engagement rail 151 on the mounting base 150 side is engaged with the engagement piece 118 (see FIG. 7) on the game control board box 87b side, and the guide piece 152 slides on the game control board box 87b. Guide the move. After that, the slide lever 153 on the mounting base 150 side is elastically deformed downward by such sliding movement of the game control board box 87b, and finally, the locking hole 120 on the game control board box 87b side is engaged with the engaging base 150 side. The game control board box 87b is mounted by engaging with the mating protrusion 154.
[0084]
Next, referring to FIG. 12, the game control board box 87b is opened for inspection of the game control board 87a (inspecting whether the ROM is genuine after delivery), and then restored to the closed state again. The procedure to do is explained. First, in the closed state of the game control board box 87b shown in FIG. 12 (A), the hologram seal 105 attached to the one-way screw 140 stop portion of the mounting piece 80a is peeled off, and each mark “1” is used as a mark. The connecting portions 93a and 94a are cut with a cutting tool such as a nipper. Then, the attachment piece 80 a is completely separated from the lid 90 while being fixed to the box body 110 by the one-way screw 140. Thereby, the fixation of the lid 90 to the box body 110 is all released, and the game control board box 87b can be opened. Then, as shown in FIG. 12B, the lid 90 is removed from the box body 110, and the game control board 87b is inspected. In addition, by removing the lid 90 (cutting the connecting portions 94a and 93a), the one-way screw 140 inserted into each of the equipment holes 135 to 137 can be taken out, and of these, it is inserted into the equipment hole 135. The one-way screw 140 is taken out for restoration of the game control board box 87b. Thereafter, when the game control board box 87b is closed, as shown in FIG. 12C, the removed one-way screw 140 with the lid 90 placed on the box body 110 as shown in FIG. Screwed into the mounting hole 95b of the portion 80b. As a result, the mounting hole 95b of the mounting piece 80b and the mounting hole 132 of the main body frame 99 corresponding thereto are fastened together by the one-way screw 140, and the lid 90 and the box main body 110 are in an irreversible fixed state. Become. The game control board box 87b is restored to the closed state again by attaching a new hologram seal 105 to the one-way screw 140 stop portion of the mounting piece 80b.
[0085]
Thereafter, when the game control board box 87b is inspected again (second inspection), the connecting portions 93b and 94b are cut using the marking “2” as a mark. Thereby, the attachment piece 80b is separated from the lid 90, and the game control board box 87b is opened. Thereafter, similarly, the one-way screw 140 (one-way screw 140 of the equipment hole 136) taken out along with the cutting of each of the connecting portions 93b and 94b is screwed into the mounting hole 95c of the mounting piece 80c with the mark "3" as a mark. Then, a new hologram seal 105 is attached. Thereby, the game control board box 87b is restored to the closed state again. Thereafter, when the game control board box 87b is inspected (third inspection), the attachment piece 80c is separated from the lid 90 by cutting the connecting portions 93c and 94c with the mark “3” as a mark. Then, the game control board box 87b is opened. Further, when the game control board box 87b is restored, the one-way screw 140 (one-way screw 140 of the equipment hole 137) taken out along with the cutting of each of the connecting portions 93c, 94c is screwed into the last remaining mounting hole 95d and is replaced with a new one. A hologram seal 105 is attached.
[0086]
By the way, in the above-mentioned closed state of the game control board box 87b, unless the connection portions 93a to 93c and 94a to 94c are cut and the connection between the attachment pieces 80a to 80c and the upper plate 92 (see FIG. 4) is released. The game control board box 87b cannot be opened. Therefore, when the connecting portions 94a to 94c and 93a to 93c are disconnected other than the inspection of the game control board 87, it is possible to immediately and reliably determine that the game control board 87 has been cheated by this disconnection. Therefore, the crime prevention effect of the game control board box 87b can be enhanced. Further, in the configuration of the game control board box 87b, even if the welding protrusion 92e of the upper plate 92 is cut off, the conductive plate 100 falls on the game control board 87a, so that the work control board 87a is crafted from the gap where the welding protrusion 92e is cut off. Even if it is going to do, the conductive plate 100 prevents it. Further, when the hologram sticker 105 is peeled off, a trace of the hologram sticker 105 remains firmly, so that it is immediately known that fraud has been performed.
[0087]
Next, a control circuit used for controlling the pachinko gaming machine 1 will be described. 13 and 14 are block diagrams showing configurations of various control circuits provided on the game control board 87a.
[0088]
13 and 14, the control circuit includes a basic circuit 200, an address decoding circuit 201, an input circuit 202, an LED circuit 203, an information output circuit 204, an initial reset circuit 205, a periodic reset circuit 206, and an illumination signal circuit. 207, solenoid circuit 208, setting switch 209, CRT circuit 210, prize ball number signal output circuit 211, lamp circuit 212, speech synthesis circuit 213, volume amplification circuit 214, and power supply circuit 215.
[0089]
The basic circuit 200 controls various devices of the pachinko gaming machine 1 according to the game control program. Inside the basic circuit 200, a microcomputer (microcomputer) 200a is provided. The microcomputer 200a includes a ROM 200c (Read Only Memory) storing a game control program, a CPU (Central Processing Unit) 200b for performing a control operation in accordance with the game control program, and a RAM (Random) functioning as a work memory for the CPU. (Access Memory) 200d and other I / O (Input / Output) ports, a clock generation circuit, etc. are provided, although not shown.
[0090]
The input circuit 202 includes a start ball detector 9a for detecting a hit ball that has won a start at the start port 9, and a specific ball detection switch 61c for detecting a hit ball that has won a specific win area of the variable winning ball apparatus 10. A ball number detection switch 61b for detecting a hit ball that has won a big winning opening of the variable winning ball apparatus 10, and a passing ball detector 23a for detecting a hit ball that has passed through the normal symbol starting gate 23, respectively. Connected. The input circuit 202 transmits a detection signal output from each detector, such as a start winning signal output from the start ball detector 9a, to the basic circuit 200.
[0091]
Further, the input circuit 202 receives the winning ball signals A and B from the winning ball processing device 72 (see FIG. 2). The winning ball signals A and B are signals that are output based on the detection of a winning ball by the winning ball processing device 72. In this pachinko machine 1, two types of prize balls to be paid out are determined according to the winning position of the pachinko ball, so that the hit signal is A or B to specify the number of prize balls to be paid out, respectively. There are two types. The input circuit 202 outputs hitting ball signals A and B to the basic circuit 200.
[0092]
The LED circuit 203 is connected to the number display LED 63 of the normal symbol display 17, the LED of the start memory display 6, the LED for displaying the normal symbol of the normal symbol display 17, and the LED of the passing storage display 18. . The LED circuit 203 controls the lighting state of each LED according to the control signal output from the basic circuit 200.
[0093]
The initial reset circuit 205 is a circuit for resetting the basic circuit 200 when power is turned on. In response to the initial reset pulse sent from the initial reset circuit 205, the basic circuit 200 initializes the pachinko gaming machine 1.
[0094]
The periodic reset circuit 206 is a circuit for giving a reset pulse to the basic circuit 200 periodically (for example, every 2 msec) and repeatedly executing the game control program stored in the ROM 200c from the top.
[0095]
In this type of pachinko gaming machine 1, whether or not to generate a jackpot is determined by the counter value of a jackpot determination counter configured in the RAM 200 d of the basic circuit 200. The counter value of the jackpot determination counter is repeatedly updated within a predetermined value range every time a reset pulse is given from the periodic reset circuit 206 (for example, every 2 msec). The basic circuit 200 refers to the counter value of the jackpot determination counter at the timing when the start winning signal is input from the input circuit 202, and determines whether or not the counter value is a predetermined hit determination value. If the value is a hit determination value, it is determined in advance that a jackpot will be generated.
[0096]
The solenoid circuit 208 is a circuit for controlling the solenoid 20 a for driving the movable piece 20 of the start port 9 and the solenoid 61 a for driving the opening / closing plate 61 of the variable winning ball apparatus 10. In response to the control signal output from the basic circuit 200, the solenoid circuit 208 operates the solenoid 20a and the solenoid 61a at a predetermined timing.
[0097]
The address decoding circuit 201 decodes an address signal sent from the microcomputer 200a in the basic circuit 200, and outputs a signal for selecting one of the ROM 200c, the RAM 200d, etc. included in the microcomputer 200a. Circuit.
[0098]
Based on the data signal given from the basic circuit 200, the information output circuit 204 outputs various game information such as jackpot information, symbol determination information, probability variation information, etc. to a hall management computer which is a host computer. Here, the jackpot information is information for indicating the occurrence of the jackpot, and the symbol confirmation information is the variable of the symbol in the variable display device 4 among the number of winning balls hit at the start port 9 or 15. This is information for indicating the number used for starting the display, and the probability variation information is information relating to the occurrence of a high probability state (probability improvement state).
[0099]
The setting switch 209 is a switch for setting a jackpot probability.
The electric decoration signal circuit 207 transmits lamp control data D0 to D3 to an electric decoration board 64 (see FIG. 16) that controls lighting states of a plurality of types of electric decorations provided in the gaming machine. The lamp control data D0 to D3 are data for controlling the lighting state of the electric decoration, and designate the lighting state of the electric decoration in a big hit or a high probability state. The lamp control data common is a common line signal.
[0100]
The CRT circuit 210 is a circuit for driving and controlling the CRT display (variable display device) 4 in accordance with a control signal output from the basic circuit 200. The signals transmitted from the CRT circuit 210 to the CRT display 4 include CD0 to CD7 as command signals and INT as a display control communication trigger signal (interrupt signal). Furthermore, signal lines connecting the CRT circuit 210 and the CRT display 4 include a + 5V line for supplying power, a + 12V line, and a GND line as a ground signal line. The basic circuit 200 sends an interrupt signal to the image display control board (sub-board) 216 (see FIG. 15) of the CRT display 4 via the CRT circuit 210 at the timing when the periodic reset signal from the periodic reset circuit 206 is input. (INT) and image display control signals (command signals CD0 to CD7) are output.
[0101]
The lamp circuit 212 is connected to the frame lamp 22. The lamp circuit 212 controls the lighting state of each of the lamps according to the control signal output from the basic circuit 200.
[0102]
The power supply circuit 215 is connected to an AC 24V AC power supply and supplies a plurality of types of DC voltages of + 30V, + 21V, + 12V, and + 5V to each circuit. The + 30V DC voltage generated from the power supply circuit 215 is output to the CRT display 4.
[0103]
The voice synthesis circuit 213 synthesizes sound effect data according to the voice generation command signal output from the basic circuit 200, and provides the synthesized sound effect data to the volume amplification circuit 214. The volume amplification circuit 214 amplifies the sound effect and outputs it to the electrical decoration board 64 (see FIG. 16).
[0104]
The basic circuit 200 outputs prize ball number data, which is the number data of prize balls to be paid out, according to the type (A, B) of the winning ball signal to the prize ball number signal output circuit 211. In response to this, the prize ball number signal output circuit 211 outputs prize ball number signals 0 to 3 for specifying the number of prize balls to be paid out to the prize ball board 69 (see FIG. 17). The prize ball number signal common is a common line signal.
[0105]
FIG. 15 is a block diagram showing a configuration of a circuit formed on the image display control board (sub board) 216. The image display control board 216 controls the display state of the variable display device 4 in accordance with a control signal from the game control board (control board) 87a.
[0106]
The image display control board 216 is provided with a CRT control circuit 217, a VDP (Video Display Processor) 218, a reset circuit 219, an oscillation circuit 220, a VRAM 221, a character ROM 222, an ID transmitter 224, and a DA conversion circuit 225.
[0107]
As described above, in this type of pachinko gaming machine 1, a big hit is generated when a hit determination is made by referring to the counter value of the jackpot determination counter at the timing when the start winning signal is input to the basic circuit 200. Is pre-determined. However, in recent years, fraudulent acts have been frequently occurring in which such operation control is misused to replace the image display control board 216 with an illegally modified one and to reliably generate a jackpot. The principle of this unauthorized modification is as follows.
[0108]
The counter value of the jackpot determination counter in the game control board 87a is periodically updated every time a periodic reset signal is input. On the other hand, if a periodic reset signal is input to the basic circuit 200 of the game control board 87a, the basic circuit 200 sends an interrupt signal (INT) and an image display control signal (command signals CD0 to CD7) to the image display control board 216 at that timing. ) Is output. Therefore, if the interrupt signal (INT) input to the image display control board 216 side is captured, the update timing of the jackpot determination counter can be grasped. Therefore, the image display control board 216 is provided with the same counter as the jackpot determination counter, and the counter is updated at the timing when the interrupt signal (INT) is input to the image display control board 216 side. Thus, the counter can be updated at the same cycle as the jackpot determination counter on the game control board 87a side. Further, the start winning signal that should be directly input to the input circuit 202 (see FIG. 13) of the game control board 87a is processed so as to be input to the image display control board 216, and the start winning signal is input to the image display control board 216. If the start winning signal is input to the input circuit 202 of the game control board 87a after waiting for the counter provided on the image display control board 216 to reach the hit judgment value from the time of input, the game control board 87a determines the big hit As a result, a start winning signal is input at a timing when the counter value of the counter for use is a winning determination value, and it is determined in advance that a jackpot will be generated.
[0109]
Based on the above principle, a signal processing machine is manufactured that inputs a start winning signal to the game control board 87a at the timing when the jackpot judgment counter reaches the winning judgment value, and the unauthorized board provided on the image display control board is properly used. The act of switching to the image display control board 216 is performed. In this signal processing machine, a counter that is updated within the same counter value range as the jackpot determination counter is stored, and an interrupt signal input unit to which an interrupt signal (INT) is input, a start ball detector 9a and an input A start winning signal input unit for receiving a start winning signal from the starting ball detector 9a and a start winning signal output unit for outputting the start winning signal to the input circuit 202, an interrupt signal. The counter is updated every time (INT) is input, and the start prize signal is output from the start prize signal output section at the timing when the counter value is updated to the winning judgment value after the start prize signal is input to the start prize signal input section. A control unit is provided.
[0110]
In order to prevent such an illegal act, the ID transmitter 224 is provided on the image display control board 216 in the pachinko gaming machine 1 of the present embodiment. The ID transmitter 224 performs a control operation independent of the CRT control circuit 217 and, as described above with reference to FIG. 2, the ID stored in response to a transmission request from the ID identification device 250 (see FIG. 18). The code is transmitted to the ID identification device 250. The state of attachment of the ID transmitter 224 to the image display control board 216 is as described above with reference to FIG. 27 or FIG.
[0111]
The CRT control circuit 217 is connected to a game control board (control board) 87a on which the circuits shown in FIGS. 13 and 14 are formed. The CRT control circuit 217 periodically receives command data CD0 to CD7 and an INT signal for image display from the game control board 87a. Further, the CRT control circuit 217 is supplied with two types of power supply voltages of + 12V and + 5V. The image display control board 216 is grounded by a GND line extending from the game control board 87a.
[0112]
The CRT control circuit 217 controls the entire circuit formed on the image display control board 216 in response to the received command data CD0 to CD7. The CRT control circuit 217 sends an address signal, a data signal, and a control signal to the VDP 218, and transmits / receives a data signal between the VDP 218 and the CRT control circuit 217. Then, the CRT control circuit 217 controls the entire circuit formed on the image display control board 216 based on the received data.
[0113]
The VDP 218 operates in response to the clock signal supplied from the oscillation circuit 220, and the operation is reset in response to the reset signal supplied from the reset circuit 219. The VDP 218 generates image data in response to a control signal from the CRT control circuit 217. The VDP 218 transmits signals such as a VRAM address signal, a VRAM data signal, and a VRAM control signal to the VRAM 221. A signal such as a VRAM data signal is returned from the VRAM 221 to the VDP 218. VDP 218 transmits a character ROM address signal, a character ROM data signal, and a character ROM control signal to character ROM 222. A signal such as a character ROM data signal is returned from the character ROM 222 to the VDP 218.
[0114]
The VDP 218 generates image data for configuring an image displayed on the variable display unit 5 in response to a control signal output from the CRT control circuit 217. The VRAM 221 temporarily stores the image data generated by the VDP 218. The image data generated by the VDP 218 and stored in the VRAM 221 is a character identification number with a set of a predetermined number of dots as a unit.
[0115]
The image data includes the identification numbers of a plurality of characters according to the displayed arrangement relationship. This is called map data. The identification number of each character is stored in the CRT control circuit 217 in advance. Character identification numbers necessary for configuring the screen displayed on the variable display unit 5 are read from the CRT control circuit 217, and stored in the VRAM 221 as map data for indicating the positional relationship of the characters on the display screen by the VDP 218. Is done.
[0116]
The character ROM 222 stores dot data corresponding to the character identification number in advance. The VDP 218 reads map data from the VRAM 221 at a predetermined timing, and reads dot data of each character based on the identification number of each character included in the map data. The VDP 218 generates an image display signal based on the read dot data. The generated signal is converted into an analog RGB (RED, GREEN, BLUE) signal by the DA conversion circuit 225 and input to the display device 223. Further, the VDP 218 supplies the composite synchronization signal SYNC to the display device 223. The display device 223 displays an image on the variable display unit 5 based on the transmitted RGB signal and composite synchronization signal SYNC. The display device 223 is grounded by a GND line extending from the game control board 87a.
[0117]
FIG. 16 is a block diagram illustrating a configuration of various control circuits provided on the electrical decoration board 64. Referring to FIG. 16, the control circuit includes a basic circuit 64a, a reset circuit 64b, a switch circuit 64c, a lamp control data input circuit 64d, an LED signal input circuit 64e, an LED circuit 64f, a lamp circuit 64g, a power circuit 64h, and a volume switching. A circuit 64i and an ID transmitter 245 are included.
[0118]
The basic circuit 200 controls lighting states of various LEDs and lamps provided in the pachinko gaming machine 1 according to a control program stored therein, and also controls output sound to the speakers 81 and 81.
[0119]
The reset circuit 64b is a circuit for resetting the basic circuit 64a when the power is turned on. The switch circuit 64c is a circuit to which an opening detection signal of a door switch 266 provided on the front surface of the pachinko gaming machine 1 is input. The lamp control data input circuit 64d is a circuit to which the lamp control data D0 to D3 output from the electrical signal circuit 207 (see FIG. 13) of the game control board 87a are input. The LED signal input circuit 64e is a circuit to which the award ball LED signal and the out of ball LED signal output from the LED circuit 69e (see FIG. 17) of the award ball substrate 69 are input. The basic circuit 64a receives these signals via the LED signal input circuit 64e and appropriately outputs control signals to the LED circuit 64f. The LED circuit 64f is a circuit for lighting the ball break LED 260, the payout LED 261, and the decoration LED 262 in accordance with the control signal of the basic circuit 64a. The lamp circuit 64g is a circuit for lighting the decorative fluorescent lamps 263, 264, and 265 in accordance with a control signal input from the LED circuit 64f. The power supply circuit 64h is connected to an AC 24V AC power supply, and is a circuit for transforming a plurality of types of DC voltages of + 30V, + 21V, and + 5V into an AC voltage and supplying them to each circuit. The volume switching circuit 64i inputs the stereo sound signal (L, R) output from the volume amplification circuit 214 (see FIG. 14) of the game control board 87a, switches the volume, and outputs the sound signal (L , R).
[0120]
The ID transmitter 245 performs a control operation independent of the basic circuit 64a, and as described above with reference to FIG. 2, the ID code stored therein in response to a transmission request from the ID identification device 250 (see FIG. 18). Is transmitted to the ID identification device 250. The state of attachment of the ID transmitter 245 to the illumination board 64 is as described above with reference to FIG. 27 or FIG.
[0121]
FIG. 17 is a block diagram showing the configuration of various control circuits and the like provided on the prize ball substrate 69. Referring to FIG. 17, the control circuit includes a basic circuit 69a, a reset circuit 69b, a switch circuit 69c, a buzzer and LED circuit 69d, an LED circuit 69e, an error display circuit 69f, a card reader signal circuit 69g, a prize ball number circuit 69h, It includes a sensor circuit 69i, winning ball signal circuit 69j, motor circuit 69k, solenoid circuit 69l (69L), information and lending signal circuit 69m, power supply circuit 69n, and ID transmitter 246.
[0122]
The basic circuit 200 controls various LEDs and prize ball payout devices 59 provided in the pachinko gaming machine 1 in accordance with a control program stored therein, and exchanges control signals with the prepaid card unit 35 to exchange the balls. Control lending.
[0123]
The reset circuit 69b is a circuit for resetting the basic circuit 69a when the power is turned on. The switch circuit 69 c is a circuit to which detection signals from the winning ball detection switch 74, the upper tray ball detection switch 268, the ball shortage switch 269, the full tank switch 270, and the automatic ball lending switch 271 are input. The ball break switch 269 is provided on the ball alignment rail 55 (see FIG. 2), and detects that there is no stored ball in the ball tank 54 (see FIG. 2). The upper plate ball detection switch 268 is provided inside the upper plate 87 (see FIG. 1), and detects that the stored balls in the upper plate 87 have run out. The full tank switch 270 is provided inside the lower plate 86 (see FIG. 1), and detects that the lower plate 86 is full with the stored balls. The automatic ball lending switch 271 is provided on the upper plate 87 (see FIG. 1) and detects a change in the ball lending mode (automatic ball lending mode or manual ball lending mode).
[0124]
The buzzer and LED circuit 69d is a circuit for outputting a buzzer sound signal or outputting a display signal to the automatic ball lending display LED in accordance with the control signal of the basic circuit 69a. The LED circuit 69e is a circuit that outputs a prize ball LED signal and a ball-out LED signal to the LED signal input circuit 64e (see FIG. 16) of the decoration board 64 in accordance with the control signal of the basic circuit 69a. The error display circuit 69f is a circuit that outputs an error display signal to the error indicator 273 in accordance with the control signal of the basic circuit 69a. The error indicator 273 is attached to a prize ball board box 77 containing the prize ball board 69.
[0125]
The card reader signal circuit 69g is a circuit that exchanges control signals with the prepaid card unit 35 in accordance with the control signals of the basic circuit 69a. The control signals include PRDY (P machine operation signal) and EXS (ball lending completion signal) output from the card reader signal circuit 69g to the prepaid card unit 35, and BRDY output from the prepaid card unit 35 to the card reader signal circuit 69g. (Unit operation signal) and BRQ (ball lending request signal) are included. The winning ball number circuit 69h is a circuit to which the winning ball number signals 0 to 3 output from the winning ball number signal output circuit 211 (see FIG. 14) of the game control board 87a are input. The sensor circuit 69i is a circuit to which a detection signal of the prize ball sensor 59a is input. The winning ball signal circuit 69j is a circuit that outputs a winning ball signal to the game control board 87a in response to detection of a winning ball by the winning ball detection switch 74.
[0126]
The motor circuit 69k is a circuit that drives the hit ball motor 71a and the prize ball payout device 59 in accordance with the control signal of the basic circuit 69a. The solenoid circuit 69l (69L) is a circuit for exciting a prize ball payout solenoid provided in the prize ball payout device 59 in accordance with a control signal of the basic circuit 69a. The information and lending signal circuit 69m is a circuit that receives a detection signal from the ball lending switch 272 and outputs a prize ball signal and a ball lending signal to a hall management computer or the like via an external output terminal. The power supply circuit 69n is connected to an AC power supply and is a circuit for supplying a plurality of types of DC voltages of + 30V, + 21V, + 12V, and + 5V to each circuit.
[0127]
The ID transmitter 246 performs a control operation independent from the basic circuit 69a, and as described above in the description of FIG. 2, the ID code stored therein in response to a transmission request from the ID identification device 250 (see FIG. 18). Is transmitted to the ID identification device 250. The state of attachment of the ID transmitter 246 to the prize ball substrate 69 is as described above with reference to FIG. 27 or FIG.
[0128]
FIG. 18 is a system block diagram showing a connection configuration of the pachinko gaming machine 1, the ID identification device 250, and the management device 300.
[0129]
A communication line extending from the management device 300 is laid on the back surface of the pachinko gaming machine 1, and the ID identification device 250 is connected to each pachinko gaming machine 1 in a one-to-one correspondence. The ID identification device 250 includes ID transmitters 224 provided on the image display control board 216, the game control board box 87b, the middle plate 310, the game board 3, the illumination board 64, and the prize ball board 69 of the pachinko gaming machine 1, respectively. 231, 235, 240, 245, 246 (hereinafter collectively referred to as an ID transmitter (ID chip) 230), for example, periodically or irregularly transmitting radio waves of a predetermined frequency to each inside Request transmission of stored ID code. And if ID code is obtained, this will be transmitted to the management apparatus 300. FIG.
In the management device 300, ID codes of all pachinko gaming machines 1 installed in the game hall are stored, for example, for various boards, game boards, and middle plates. The management device 300 prompts each ID identification device 250 to collect ID codes by polling, for example, at predetermined intervals. For example, each ID identification device 250 collects ID codes from various ID transmitters 230 in response to polling of the management device 300 and transmits the collected ID codes to the management device 300. The management device 300 determines whether or not a predetermined ID code has been transmitted from each ID identification device 250.
[0130]
If the ID code does not match the predetermined code, or if the ID code is not transmitted even after a predetermined waiting time has elapsed, an illegal replacement is performed on the board corresponding to the ID code. It is determined that the action is being performed, and the fact is stored together with the type of the board and the installation position of the pachinko gaming machine 1, displayed on a monitor as necessary, and notified to the game hall manager and the like. It should be noted that the ID identification device 250 may be configured to be portable so that a game hall staff or a third-party management organization staff visits the game hall and visually recognizes the pachinko gaming machines 1 one by one.
[0131]
FIG. 19 is a block diagram for explaining the configuration of an IC chip (ID transmitter) 230 used as the ID transmitters 224, 231, 235, 240, 245, 246. The IC chip 230 is the same type of IC chip as that used for a non-contact type IC card, and uses one or more frequency signals received from an ID identification device 250 as an example of an interrogator. Power supply and information transmission / reception. As this type of IC chip, it is conceivable to employ a chip that uses a radio wave of a predetermined frequency as a communication medium, and a chip that uses a magnetic field of a predetermined frequency as a communication medium.
[0132]
The IC chip 230 includes a microcomputer 231, an antenna 233 including coils, an information transmission / reception unit 232, and a power supply unit 234. The microcomputer 231 includes a CPU, a ROM in which a control program is stored, a RAM, an EEPROM that functions as a memory for storing an ID code, a unique address for identifying the IC chip 230, and the like. Yes. The information transmitting / receiving unit 232 includes a tuning circuit, a modem circuit, an amplifier circuit, a rectifier circuit, and the like.
[0133]
A signal having a predetermined frequency received by the antenna 233 is rectified in the information transmission / reception unit 232 to generate power, and is supplied to the power supply unit 234. This electric power activates the microcomputer 231 and other circuits. Further, the information transmitting / receiving unit 232 generates power from the received signal, amplifies and demodulates the data, and outputs the amplified data to the microcomputer 231. The microcomputer 231 compares the transmission destination address in the input data with the address unique to the IC chip 230 stored in the EEPROM, and the transmission destination address in the input data matches the address stored in the EEPROM. It is determined whether or not it is done. If they match, the ID code stored in the EEPROM and the address unique to the IC chip 230 are output to the information transmitting / receiving unit 232. The information transmitting / receiving unit 232 modulates and amplifies these pieces of information and outputs them from the antenna 233. The output information is conveyed by radio waves and received by the corresponding ID identification device 250.
[0134]
Since each ID transmitter is composed of such an IC chip, the ID transmitter can be manufactured at a relatively low cost. Further, since it is small in size, it does not take a place, and if there is a space for installing a conventional pachinko gaming machine, it is possible to install a pachinko gaming machine to which these ID transmitters are installed. Furthermore, since the power for operating the ID transmitter is supplied by the radio wave output from the ID identification device 250 provided outside, it is not necessary to provide power supply wiring to the ID transmitter. It does not take time and can prevent the wiring of the pachinko gaming machine 1 from becoming complicated. Further, there is no need to provide a battery in which power is stored in advance, and the ID transmitter can be further reduced in size.
[0135]
Each ID transmitter outputs an ID code externally on the condition that there is a transmission address that designates itself in the data in the received radio wave, and the ID code is received in response to a request from a predetermined ID identification device 250. In order to output the ID code to the outside, it is possible to prevent the ID code from being output externally and being disclosed to a third party.
[0136]
FIG. 20 is a block diagram for explaining the configuration of the ID identification device 250. The ID identification device 250 includes a control microcomputer 250a, an information transmission / reception unit 250b for transmitting / receiving information to / from the management device 300, an ID transmitter 114, and an ID transmitter 224. Includes an information transmission / reception unit 250b including an antenna for transmitting / receiving information, an operation unit 250d, a display unit 250e, and a power supply unit 250f.
[0137]
Although not shown, the control microcomputer 250a includes a CPU, a ROM storing a control program, a RAM, an EEPROM storing a transmission destination address for designating a corresponding ID transmitter, and the like. Has been.
[0138]
By operating the operation unit 250d, the transmission destination address stored in the EEPROM can be changed, and the ID transmitter 230 of the pachinko gaming machine 1 corresponding to the ID identification device 250 can be set. Further, by operating the operation unit 250d, the pachinko gaming machine 1 (ID transmitter 230, image display board 216, game control board 87a, electrical decoration board 64, prize ball board 69, which is associated with the ID identification device 250. The game board 3 and the middle plate 310) can be displayed on the display unit 250e for confirmation.
[0139]
The information transmitting / receiving unit 250b is connected to the management apparatus 300 via a communication line. For example, a polling signal is input to the information transmitting / receiving unit 250b from the management apparatus 300 at a predetermined cycle. In response to this polling, the control microcomputer 250a generates ID transmission request information, conveys it to a radio wave of a predetermined frequency, and outputs it from the antenna of the information transmission / reception unit 250c. The ID transmission request information includes, for example, the above-described transmission destination address that can identify the ID transmitter 230 provided in the corresponding pachinko gaming machine 1.
[0140]
When a radio wave of a predetermined frequency is input to the antenna of the information transmitting / receiving unit 250c, the data is amplified and demodulated by the amplifier circuit and the modem circuit of the information transmitting / receiving unit 250c, and then output to the control microcomputer 250a. The control microcomputer 250a compares the source address included in the input data with the destination address unique to the IC transmitter 230 stored in the EEPROM, and determines whether or not they match. If they match, it is determined that information has been returned from the corresponding ID transmitter of the pachinko gaming machine 1, and the input data is output to the information transmitting / receiving unit 250b. The output data includes an ID code stored in the ID transmitter 230 and an address (source address) unique to the IC transmitter 230.
[0141]
Information output from the information transmitting / receiving unit 250b is input to the management apparatus 300. The management apparatus 300 searches the information about the ID transmitter 230 with the same address from the database inside the management apparatus 300 using the transmission source address in the input information as a clue, and stores the ID code and input information stored in the database. It is determined whether or not the ID code matches.
[0142]
FIG. 21 is a timing chart for explaining the start and stop timings of the IC chip (ID transmitter) 230. When transmission of radio waves from the ID identification device 250 to the IC chip 230 is started (the ID identification device is ON in the figure), radio waves are received in the IC chip 230 and power is generated, whereby radio waves from the ID identification device 250 are generated. The IC chip 230 changes from the stopped state to the activated state with a slight delay from the start of the transmission. Thereafter, information including an ID code is output from the IC chip 230 to the ID identification device 250 (ID ON in the figure). After a predetermined time has elapsed after the output of the information has been completed, transmission of radio waves from the ID identification device 250 is stopped. At the same time, the control operation of the IC chip 230 is stopped. Note that an IC chip unit 239, which will be described later with reference to FIG.
[0143]
FIG. 22 is a block diagram showing another embodiment of the configuration of various control circuits provided on the game control board 87a. In this alternative embodiment, since the circuit configuration shown in FIG. 13 such as the basic circuit 200 is applied as it is, the circuit configuration overlapping with FIG. 13 is omitted. FIG. 22 shows an embodiment in which an ID transmitter 231 is provided on the game control board 87a itself instead of providing the ID transmitter 231 (see FIG. 8) on the upper plate 92 of the game control board box 82b. Yes. This ID transmitter 231 is inside the printed wiring board (in parentheses in FIG. 27) that forms the game control board 87a in the manner shown in FIG. 27 or FIG. Alternatively, it is provided on the surface (in parentheses in FIG. 28). According to this embodiment, it is possible to easily grasp the presence or absence of an illegal act of replacing the game control board 87a. In particular, by providing the ID transmitter 231 in the mode shown in FIG. 27, it is possible to make it difficult for a third party who intends to cheat the ID transmitter 231 from the outside. By providing, the ID transmitter 231 can be easily attached to the game control board 87a and can be easily implemented. 22 is the same as that shown in FIG. 14, and a detailed description thereof will be omitted.
[0144]
FIG. 23 is a diagram showing still another embodiment relating to a method of attaching an ID transmitter to the game control board 87a. In this other embodiment, the microcomputer inside the basic circuit 200 (see FIG. 13) of the game control board 87a is constituted by a one-chip (one-chip) microcomputer (microcomputer) 200a ′, and this one-chip microcomputer 200a ′ includes The game control microcomputer (microcomputer) 200e and the IC chip 239 are inseparably configured. The game control microcomputer unit 200e is provided with a storage unit that stores a game control program, a CPU that executes the game control program, a RAM that functions as a work memory for the CPU, and the like. On the other hand, the IC chip unit 239 has the same configuration as the IC chip 230 shown in FIG. 19 and has the same function as the ID transmitter 231.
[0145]
FIG. 24 is a diagram for explaining an ID code checking operation performed between the one-chip microcomputer (microcomputer) 200a ′ and the ID identification device 250 shown in FIG. 23 as another embodiment. FIG. 24 shows a cross section of the game control board box 87b in which the game control board 87a provided with the one-chip microcomputer 200a 'shown in FIG. 23 is accommodated.
[0146]
As shown in the figure, a game control board 87a in which a one-chip microcomputer 200a 'is assembled on a board by its lead pins is housed in a main body frame 99, and a lid 90 including a lid frame 96 and an upper plate 92 (see FIG. 4) and provided in the game control board box 87b. As described above, the one-chip microcomputer 200a ′ includes the IC chip part 239 functioning as the ID transmitter 231 described above, which is inseparably packaged with the game control microcomputer part 200e. The pachinko gaming machine 1 In response to an ID code transmission request from an ID identification device 250 disposed outside the ID identification device 250, the ID code stored in the IC chip portion 239 is conveyed to a radio wave of a predetermined frequency and the ID identification device 250 Send to.
[0147]
According to another embodiment shown in FIGS. 23 and 24, the IC chip unit 239 that functions as the ID transmitter 231 is inseparably integrated with the game control microcomputer unit 200e by the one-chip microcomputer 200a ′. In the game control board 87a of the embodiment shown in FIG. 22, the ROM 200c (see FIG. 13) in which the game control program is stored is removed and the unauthorized modification program is stored without touching the ID transmitter 231. It is possible to prevent any acts such as switching to a ROM.
[0148]
Next, modifications and feature points of the embodiment described above will be listed below.
(1) In each embodiment, the ID code stored in the various ID transmitters 230 is a specific identification code that is different depending on the type of substrate on which each ID transmitter 230 is provided. However, instead of this, although the ID code is a specific code that is different for each pachinko gaming machine 1, the codes of the various ID transmitters 230 provided in each pachinko gaming machine 1 may all be the same. Good. If it is determined in this way, it is impossible to know directly from the ID code which type of board is being fraudulent, but it is possible to know at least which pachinko gaming machine 1 is fraudulent. Moreover, it may be a specific identification code that is different for each model of the pachinko gaming machine 1, or may be a specific identification code that is different for each gaming machine manufacturer.
[0149]
(2) Identification means for identifying whether or not the correspondence relationship between the control board attached to the gaming machine and the gaming machine is correct based on the identification information transmitted from the identification information sending means by the management apparatus 300 Is configured. The ID identification device 250 constitutes a relay unit that relays the identification information transmitted from the identification information transmission unit and transmits it to the identification unit.
[0150]
(3) The ID code determination performed by the management apparatus 300 may be performed by the ID identification apparatus 250. By doing in this way, the management apparatus burden of the management apparatus 300 can be reduced. In the case of such a configuration, it is necessary to store ID codes of various ID transmitters 230 in the control microcomputer 250a of the ID identification device 250. In that case, it can be considered that an ID code can be input by operating the operation unit 250d. In this case, the ID identifying device 250 identifies whether the correspondence relationship between the control board and the gaming machine to which the control board is attached is correct based on the identification information transmitted from the identification information transmitting means. Means are configured.
[0151]
(4) Identification information provided on the image display control board that controls the image display of the gaming machine by the ID transmitter 224, and for identifying whether the correspondence between the image display control board and the gaming machine is correct. The identification information transmitting means is configured to be able to transmit to the outside of the gaming machine. An image display control board (sub-board) 216 constitutes an image display control board that performs image display control of the gaming machine.
[0152]
Identification information transmission provided on the gaming board of the gaming machine by the ID transmitter 240 and capable of transmitting identification information for identifying whether or not the correspondence between the gaming board and the gaming machine is correct to the outside of the gaming machine Means are configured
Identification information for identifying whether or not the correspondence relationship between the electric circuit board and the gaming machine is correct is provided on the electric circuit board for performing the electric lighting control of the gaming machine by the ID transmitter 245. The identification information transmitting means that can transmit to is configured.
[0153]
An ID transmitter 246 is provided on a prize ball board for performing a prize ball payout control of the gaming machine, and identification information for identifying whether or not the correspondence relation between the prize ball board and the gaming machine is correct. Identification information transmitting means that can be transmitted to the outside is configured.
[0154]
(5) As shown in FIG. 8, the ID transmitter 231 is configured to be visible from the outside via a transparent upper plate 92 (see FIG. 4). With this configuration, it is shown that the resin surface of the housing portion is configured so that at least the identification information transmitting unit provided between the layers is visible.
[0155]
(6) Although FIG. 8 shows an embodiment in which the ID transmitter 231 is attached to the surface of the upper plate 92 (the surface of the upper plate surface portion 92a), the ID transmitter 231 is replaced with the upper plate 92 instead. You may affix on the back side (surface of the upper-plate back surface part 92b).
[0156]
(7) Although the embodiments in which the ID transmitters 245 and 246 are provided on the surface of the interior of the electric decoration board 64 and the prize ball board 69 or inside the board are shown, the electric decoration board box 65 and the prize ball board box 77 are further provided. It is also conceivable to provide a configuration in such a manner. In this case, it is conceivable to employ the two types of attachment methods shown in FIGS.
[0157]
(8) Similarly to the game control board box 87b, the illumination board box 65 and the prize ball board box 77 are provided with mounting pieces 80a to 80c, etc., and the lid body and the box body are in an irreversibly fixed state. You may comprise so that an assembly | attachment is possible, and it may comprise so that a third party cannot open the electrical decoration board box 65 and the prize ball board box 77 for an unjust purpose. In this case, the electric decoration board box 65, the prize ball board box 77, and the game control board box 87b contain a base body that contains a control board for controlling the gaming machine and a lid body that covers the base body. In the state where the base body in which the control board is accommodated is closed with the lid body by the mounting piece portions 80a to 80c and the one-way screw 140 provided in each box, the base body and the lid body are not sealed. An assembly fixing means for reversibly fixing is configured.
[0158]
[Specific examples of means for solving the problems]
The pachinko gaming machine 1 constitutes a gaming machine provided with a control board for controlling the gaming machine. The game control board 87a constitutes the control board.
[0159]
The game control board box 87b constitutes a housing part including a base body that houses the control board and a lid that covers the base body. The box body 110 constitutes the base body, and the lid body 90 constitutes the lid body.
[0160]
Assembly fixing in which the base and the lid are irreversibly fixed in a state where the base containing the control board is closed by the lid by the mounting pieces 80a to 80c and the one-way screw 140. Means are configured.
[0161]
In order to identify whether or not the correspondence relationship between the control board provided in the storage unit and stored in the storage unit and the gaming machine is correct by the ID transmitter 231 shown in FIGS. The identification information transmitting means is configured to transmit the identification information to the outside of the gaming machine. The identification information is constituted by an ID code transmitted from the ID transmitter 231.
[0162]
The ID transmitter 231 shown in FIG. 22 and the ID transmitter 239 shown in FIGS. 23 and 24 provide a correspondence relationship between the control board and the gaming machine to which the control board is attached. The identification information transmitting means is configured to transmit the identification information for identifying whether or not is correct to the outside of the gaming machine.
[0163]
The timing chart shown in FIG. 21 shows that the identification information transmitting means transmits the identification information to the external device in response to a request from a predetermined external device. The ID device 250 constitutes the predetermined external device.
[0164]
The ID transmitter composed of the ID chip 230 shown in FIG. 19 stores the identification information storage unit storing the identification information and the identification information storage unit on condition that a predetermined electromagnetic wave is received from the external device. The identification information transmitting means includes control means for performing control to transmit the identification information. The identification information storage unit is configured by an EEPROM in the microcomputer 231. The microcomputer 231 constitutes the control means.
[0165]
The information transmission / reception unit 232 constitutes a power generation unit that generates power using the predetermined electromagnetic wave transmitted from the external device. The power supply unit 234 and the microcomputer 231 constitute the control means that receives the supply of power generated by the power generation means and performs the control.
[0166]
The game control board 87a including the upper plate 92 composed of the upper plate surface portion 92a, the upper plate rear surface portion 92b, and the electric protection mesh 92c constitutes the housing portion including at least a part of the resin surface of the multilayer structure. . The ID transmitter 231 shown in FIG. 29 constitutes the identification information transmitting means provided between the layers of the resin surface.
[0167]
The ID transmitter 231 shown in FIG. 30 constitutes the identification information transmitting means pasted on the surface of the housing portion.
[0168]
The game control board 87a shown in FIGS. 27 and 28 constitutes the control board having a multilayer structure in which at least a part thereof is laminated with a plurality of layers. The ID transmitter 231 shown in FIG. 27 constitutes the identification information transmitting means provided between the plurality of layers.
[0169]
The game control microcomputer unit 200e of the one-chip microcomputer 200a 'shown in FIG. 23 constitutes a storage unit that stores a control program for controlling the gaming machine. The IC chip unit 239 constitutes the identification information transmitting unit that is inseparably configured with the storage unit.
[0170]
[Effects of specific examples of means for solving the problems]
  With respect to the first aspect, the base body and the lid body are irreversibly fixed in a state in which the base body in which the control board is accommodated is closed with the lid body.substrateContainmentboxUnauthorized opening, and the control boardsubstrateContainmentboxThus, it is possible to prevent the illegality of switching to an illegally modified control board whose correspondence with the gaming machine is incorrect.Further, by cutting the connection portion and the attachment connection portion provided in the cutting portion, the first attachment piece portion can be separated from the lid body and the fixed state between the base body and the lid body can be released. Thereafter, the base and the lid can be fixed again by attaching the fixing means to the second mounting piece provided on the lid so as to be juxtaposed with the first mounting piece. Become.further,substrateContainmentboxBecause identification information for identifying whether or not the correspondence between the control board accommodated in the game machine and the gaming machine is correct is transmitted to the outside of the gaming machine by the identification information transmitting means provided in the housing unit, In the unlikely event that the control board issubstrateContainmentboxEven if a fraudulent act that replaces them is performed, it can be easily detected.
[0171]
  With respect to the second aspect, the base body and the lid body are irreversibly fixed in a state in which the base body in which the control board is accommodated is closed with the lid body.substrateContainmentboxIt is possible to prevent an unauthorized act of opening the control board and an illegal act of replacing the control board with an illegally modified control board that has an incorrect correspondence with the gaming machine.Further, by cutting the connection portion and the attachment connection portion provided in the cutting portion, the first attachment piece portion can be separated from the lid body and the fixed state between the base body and the lid body can be released. Thereafter, the base and the lid can be fixed again by attaching the fixing means to the second mounting piece provided on the lid so as to be juxtaposed with the first mounting piece. Become.Further, identification information for identifying whether or not the correspondence between the control board and the gaming machine to which the control board is attached is correct is transmitted to the outside of the gaming machine by the identification information transmitting means provided on the control board. Therefore, even if an illegal act of replacing the control board with an illegally modified one is performed, this can be easily detected.
[0172]
  Regarding claim 3, in addition to the effect of claim 1,substrateContainmentboxIncludes at least a part of the resin surface having a multilayer structure, and the identification information transmitting means is provided between the resin surfaces, making it difficult to modify the identification information transmitting means from the outside. For this reason, it is possible to prevent the identification information transmitting means from being illegally modified.
[0173]
  With regard to claim 4, in addition to the effect of claim 1, the identification information transmitting meanssubstrateContainmentboxBecause it is affixed to the surface of thesubstrateContainmentboxThe identification information transmitting means can be provided in the apparatus. For this reason, it becomes easy to implement.
[0174]
With respect to claim 5, in addition to the effect of claim 2, the identification information transmission means is inseparably integrated with the storage unit of the control board, so that the identification information transmission means is touched. Therefore, it is possible to prevent any action such as removing only the storage unit storing the control program and replacing it with the storage unit storing the unauthorized modification program.
[0175]
With respect to claim 6, in addition to the effect of claim 2, the control board has a multilayer structure in which at least a part thereof is laminated with a plurality of layers, and the identification information transmitting means is provided between the layers. Since it is provided, it becomes difficult to modify the identification information transmitting means from the outside. For this reason, it is possible to prevent the identification information transmitting means from being illegally modified.
[0176]
With respect to claim 7, in addition to the effect related to claim 1 or claim 2, since the identification information is transmitted to the external device in response to a request from a predetermined external device, the identification information is irrelevant. It is possible to prevent the content of the identification information from being transmitted to a third party by being transmitted.
[0177]
With respect to claim 8, in addition to the effect of claim 7, the identification information transmitting means includes an identification information storage unit storing the identification information and a control means, and has received a predetermined electromagnetic wave from the external device. In order to transmit the identification information stored in the identification information storage unit on the condition, there is no need to provide a wiring between the external device and the identification information transmission means, and the configuration is relatively easy and inexpensive. It becomes possible.
[0178]
  Regarding claim 9,Claim 8In addition to the above-described effects, power is generated by the power generation unit using the predetermined electromagnetic wave transmitted from the external device, and the power is used for control by the control unit. There is no need to connect the wiring to the identification information transmitting means, and the wiring configuration of the gaming machine can be prevented from becoming complicated. Further, it is not necessary to provide a power source for the identification information transmission means, and the identification information transmission means can be downsized.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko gaming machine.
FIG. 2 is a rear view of the pachinko gaming machine.
FIG. 3 is a perspective view showing a game control board box and a mounting base.
FIG. 4 is an exploded perspective view showing a lid.
FIG. 5 is an explanatory view showing a welding state of welding protrusions.
FIG. 6 is an explanatory view showing a welding state of welding protrusions.
FIG. 7 is an exploded perspective view showing a game control board and a box body.
FIG. 8 is a plan view showing a game control board box.
FIG. 9 (A) is a cross-sectional view showing a state in which the mounting piece of the lid is screwed to the box body, and FIG. 9 (B) is a one-way screw for equipment in the game control board box. It is a fragmentary sectional view which shows the state accommodated.
10A is a plan view of the one-way screw 140, and FIG. 10B is a perspective view of the one-way screw 140. FIG.
11A is a plan view of the one-way screw special driver as viewed from the front end side, and FIG. 11B is a partial plan view of the one-way screw special driver as viewed from the direction a. It is.
FIGS. 12A to 12C are side views showing a restoration procedure of the game control board box, respectively.
FIG. 13 is a block diagram showing a configuration of a circuit formed on the game control board.
FIG. 14 is a block diagram showing a configuration of a circuit formed on the game control board.
FIG. 15 is a block diagram showing a configuration of a circuit formed on the image display control board.
FIG. 16 is a block diagram showing a configuration of a circuit formed on the electrical decoration board.
FIG. 17 is a block diagram showing a configuration of a circuit formed on a prize ball substrate.
FIG. 18 is a diagram showing a connection configuration of a management device, an ID identification device, and an ID transmitter.
FIG. 19 is a block diagram showing a configuration of an IC chip used as an ID transmitter.
FIG. 20 is a block diagram illustrating a configuration of an ID identification device.
FIG. 21 is a timing chart for explaining start and stop timings of an IC chip (ID transmitter).
FIG. 22 is a block diagram showing a configuration of a circuit formed on the game control board.
FIG. 23 is a plan view of a one-chip microcomputer provided on the game control board.
24 is a cross-sectional view of a game control board box in which a game control board provided with the one-chip microcomputer shown in FIG. 23 is accommodated.
FIG. 25 is a partial cross-sectional view of a middle plate provided at the lower back of the pachinko gaming machine.
FIG. 26 is a partial cross-sectional view of the game board.
FIG. 27 is a cross-sectional view of various substrates (image display control board, electrical decoration board, prize ball board, game control board) provided with an ID transmitter.
FIG. 28 is a cross-sectional view of various substrates (image display control board, electrical decoration board, prize ball board, game control board) provided with an ID transmitter.
FIG. 29 is a cross-sectional view of an upper plate constituting a part of the game control board box.
FIG. 30 is a cross-sectional view of an upper plate constituting a part of the game control board box.
[Explanation of symbols]
1 is a pachinko machine, 3 is a game board, 4 is a variable display device (CRT display), 53 is a mechanism board, 64 is an electric board, 69 is a prize ball board, 80a to 80c are mounting pieces, and 87a is a game Control board (control board), 87b is a game control board box, 90 is a lid made of an upper plate 92, a lid frame 96 and a conductive plate 100, 92 is an upper plate, 92a is an upper plate surface portion, and 92b is an upper plate rear surface , 92e is a welding projection, 93a to 93c and 94a to 94c are connecting parts, 95a to 95d are mounting holes, 96 is a lid frame, 99 is a main body frame, 100 is a conductive plate, 104 and 105 are hologram seals, and 110 is a main body Box body composed of frame 99 and bottom plate 111, 111 is a bottom plate, 113 is a transparent plate, 116 is a body frame, 130 is a mounting piece, 131 to 134 are mounting holes, 135 to 137 are mounting pieces, 140 is a one-way screw, 45 is a special minus driver, 150 is a mounting base, 187a is a substrate surface portion, 187b is a substrate back surface portion, 200 is a basic circuit, 200a is a microcomputer, 200a 'is a one-chip (one-chip) microcomputer, 200b is a CPU, and 200e is Game control microcomputer unit, 216 is an image display control board (sub-board), 230 is an IC chip, 224, 231, 235, 239, 240, 245, 246 are ID transmitters composed of the IC chip 230, 232 is an information transmission / reception unit Reference numeral 233 denotes an antenna, 239 denotes an IC chip unit (ID transmitter), 250 denotes an ID identification device, and 310 denotes a middle plate.

Claims (9)

A gaming machine provided with a control board for controlling the gaming machine,
A substrate storage box comprising a base for storing the control substrate in a sealed state and a lid for covering the base;
Provided in front Symbol substrate storage box, correspondence can be transmitted identification information to the outside of the gaming machine identification information for identifying whether correct or not and the control substrate accommodated in the substrate housing box said gaming machine look including a transmission means,
The substrate storage box is
A first mounting piece provided on the lid, for fixing the base and the lid;
A fixing means attached to the first mounting piece for fixing the base and the lid;
A base-side mounting hole provided in the base and to which the fixing means is attached;
A lid-side mounting hole provided in the mounting piece portion and used when the first fixing piece portion is fastened to the base by the fixing means;
A cutting portion that is cut to separate the first attachment piece from the lid and to release the fixed state between the base and the lid;
The lid is provided on the lid so as to be juxtaposed with the first mounting piece, and the base and the lid are separated from the lid by cutting the cutting portion. A second mounting piece for fixing the base and the lid again by attaching a fixing means even if the fixed state is released.
The cutting part is
A connecting portion that connects the first mounting piece and the lid;
An attachment connecting portion for connecting the first attachment piece portion and the second attachment piece portion;
By cutting the connection portion and the attachment connection portion, the fixed state of the first attachment piece portion can be released,
A state in which the fixing means used when fixing the base and the lid using the second mounting piece can be taken out by releasing the fixing of the base and the lid by cutting the cutting portion. A gaming machine characterized by A gaming machine provided with a control board for controlling the gaming machine,
A substrate storage box comprising a base for storing the control substrate in a sealed state and a lid for covering the base;
Provided in front Symbol control board, the control board and該制transmittable identification information transmitting unit identification information for correspondence between the game machine control board is attached to identify the correct or not the gaming machine to the outside viewing including the door,
The substrate storage box is
A first mounting piece provided on the lid, for fixing the base and the lid;
A fixing means attached to the first mounting piece for fixing the base and the lid;
A base-side mounting hole provided in the base and to which the fixing means is attached;
A lid-side mounting hole provided in the mounting piece portion and used when the first fixing piece portion is fastened to the base by the fixing means;
A cutting portion that is cut to separate the first attachment piece from the lid and to release the fixed state between the base and the lid;
The lid is provided on the lid so as to be juxtaposed with the first mounting piece, and the base and the lid are separated from the lid by cutting the cutting portion. A second mounting piece for fixing the base and the lid again by attaching a fixing means even if the fixed state is released.
The cutting part is
A connecting portion that connects the first mounting piece and the lid;
An attachment connecting portion for connecting the first attachment piece portion and the second attachment piece portion;
By cutting the connection portion and the attachment connection portion, the fixed state of the first attachment piece portion can be released,
A state in which the fixing means used when fixing the base and the lid using the second mounting piece can be taken out by releasing the fixing of the base and the lid by cutting the cutting portion. A gaming machine characterized by The substrate storage box includes a resin surface having a multilayer structure in at least a part thereof,
The gaming machine according to claim 1, wherein the identification information transmitting unit is provided between layers of the resin surface. The gaming machine according to claim 1, wherein the identification information transmitting unit is attached to a surface of the substrate storage box . The control board includes a storage unit that stores a control program for controlling the gaming machine,
The gaming machine according to claim 2, wherein the identification information transmitting unit is inseparably integrated with the storage unit. The control board has a multilayer structure in which at least a part thereof is laminated with a plurality of layers,
The gaming machine according to claim 2, wherein the identification information transmitting unit is provided between the plurality of layers.   The gaming machine according to claim 1 or 2, wherein the identification information transmitting means transmits the identification information to the external device in response to a request from a predetermined external device. The identification information transmitting means includes
An identification information storage unit storing the identification information;
8. The game according to claim 7, further comprising control means for performing control to transmit identification information stored in the identification information storage unit on condition that a predetermined electromagnetic wave is received from the external device. Machine. The identification information transmitting means includes power generating means for generating power using the predetermined electromagnetic wave transmitted from the external device,
The gaming machine according to claim 8 , wherein the control unit performs the control by receiving the supply of power generated by the power generation unit.

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