JP2004350924A - Drum type game machine and external concentration terminal board provided to drum type game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a drum type game machine having a function of preventing fraudulent actions, or the like, and an external concentration terminal board provided to the drum type game machine. <P>SOLUTION: Various kinds of signals are inputted to a main control board 700 for generally managing the operation of the drum type game machine through a sub control board 300, a drum device board 600, a central display board 400 and a power unit board 500. A signal suitable for detecting the occurrence of the fraudulent action among these signals is outputted from the main control board 700 and is sent out through the external concentration terminal board 800 to a computer for management. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a spinning-type gaming machine such as a slot machine, and more particularly to a spinning-type gaming machine having a function of preventing fraud and the like and an external concentrated terminal board provided in the spinning-type gaming machine.
[0002]
[Prior art]
As schematically shown in FIG. 7, in a game arcade where a number of slot machines are installed, an “external centralized terminal board” or “external centralized terminal board” or “ A management computer called a hall computer is connected to a so-called interface unit (hereinafter referred to as an “external centralized terminal board”) called a “terminal board”, and the management computer uses predetermined information provided from each slot machine. Business management is based on this.
[0003]
That is, the external centralized terminal board built in each slot machine is provided to connect only the management computer, and only a plurality of service information that is commercially useful for a company operating a game arcade is slotted. Since it is provided for sending from the machine to the management computer, an environment is provided for businesses and the like in which business management can be performed by the management computer.
[0004]
Specifically, when the player gives a game start instruction and the slot machine wins a special role called a big bonus (BB) or a regular bonus (RB) in response to the instruction, the above-mentioned business useful As the service information, a signal indicating the winning result is transmitted to the external central terminal board.
[0005]
Then, the management computer receives and detects the signal indicating the winning result as service information, and performs business management to provide the player with a game environment without any delay. Each time a role is won, the above signals sent from each slot machine are totaled, and the totaled result (that is, the history of the winning result for each slot machine) is collected by an information terminal installed in the game hall. By displaying the information, a business service is provided to a player who is going to select a slot machine.
[0006]
As described above, the conventional slot machine is provided with the external centralized terminal board so that only the management computer can be connected, and only the commercially useful service information is transmitted to the management computer via the external centralized terminal board. Thus, a service of providing information to a business entity or the like is provided while ensuring an appropriate game environment for a player.
[0007]
[Problems to be solved by the invention]
By the way, in recent years, fraudsters who perform fraudulent acts on slot machines have become a problem, and this is only one example, but by actually opening the slot machine casing and illegally operating the internal system, Will be able to receive a large amount of game medals by playing games without inserting game medals or by illegally operating the internal system by inserting tools such as wires in the housing The existence of fraudulent actors such as alteration has become a major problem.
[0008]
In order to discover such wrongdoing and wrongdoers, businesses on the amusement arcade take measures to prevent fraud by patroling the inside of the amusement arcade. Therefore, a sufficient effect has not always been obtained.
[0009]
In addition, as described above, the slot machine is connected to the management computer, and the management computer performs management based on service information provided from the slot machine. Since only the management computer is provided, only countermeasures against fraud using the management computer have not been taken.
[0010]
The present invention has been made in view of such a conventional problem, and is provided for a spinning-type gaming machine and a spinning-type gaming machine that provide an information providing service capable of taking more effective fraud prevention measures. An object is to provide an external centralized terminal board.
[0011]
[Means for Solving the Problems]
The invention according to claim 1 is a spinning-type gaming machine connected to a management computer, wherein the main control board for integrally managing the operation of the spinning-type gaming machine is connected to the management computer, An external centralized terminal board for sending a fraud prevention signal output from the main control board to the management computer.
[0012]
According to the spinning-type gaming machine of the first aspect, by supplying the fraud prevention signal from the main control board to the management computer via the external centralized terminal board, the management computer detects or analyzes the fraud prevention signal. This allows fraudulent activities to be discovered more quickly and accurately.
[0013]
The invention according to claim 14 is an external centralized terminal board which connects a management computer arranged outside the spinning-type gaming machine and the spinning-type gaming machine and is provided in the spinning-type gaming machine, The system is characterized in that a fraud prevention signal output from a main control board that integrally controls the operation of the spinning-type gaming machine is transmitted to the management computer.
[0014]
According to the external centralized terminal board according to the fourteenth aspect, a fraud prevention signal output from the main control board is supplied to the management computer, and the fraud prevention signal is detected or analyzed by the management computer to detect fraudulent activity. Is performed more quickly and accurately.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, as an embodiment of the present invention, a slot machine and an external concentrated terminal board provided in the slot machine will be described with reference to FIGS.
[0016]
1 is a plan view showing an external structure of the slot machine 100, FIG. 2 is a plan view showing an internal structure of the slot machine 100, and FIG. 3 is a configuration of a control system provided in the slot machine 100. It is a block diagram showing.
[0017]
First, referring to FIG. 1, an outline of an external structure of the slot machine 100 will be described. The slot machine 100 includes a front door 101 facing a player, and a casing 102 described later to which the front door 101 is attached so as to be openable and closable. It is comprised including.
[0018]
The front door 101 includes an upper panel portion 103, a middle panel portion 104, and a lower panel portion 105, which are formed of mechanically strong hard plastic.
[0019]
The upper panel 103 is provided with an effect lamp 103a called an upper lamp, sound emitting units 103b and 103c to which speakers are attached, and an effect display device 103d formed of a liquid crystal display or the like.
[0020]
A substantially rectangular transmission window WD formed of a transparent hard plastic plate and effect lamps 104 a and 104 b are provided in the middle panel portion 104, and the rotation of the reel device 200 provided in the housing 102 is performed. A player can see the body reels R1, R2, R3 through the transparent window WD.
[0021]
Further, at the lower end of the middle panel section 104, an operation section 104c for a player to operate is provided, and the operation section 104c has a medal insertion section for inserting game medals necessary for playing a slot machine game. The MD, the bet buttons B1, B2, B3 for presenting the number of medals per game, the start lever ST for instructing the start of one game, and the spinning reels R1, R2, R3 during rotation are individually provided. Buttons SP1, SP2, SP3 for stopping the game, and a settlement button MR for instructing the payout of the game medals obtained by the player.
[0022]
Further, a keyhole KY for unlocking the front door 101 is provided near the medal insertion portion MD. Then, when a company or an administrator at the amusement arcade inserts a regular key into the keyhole KY and performs an unlocking operation, a locking mechanism LK described later is released, and the front door 101 can be opened from the housing 102. Has become.
[0023]
An image (not shown) for introducing the contents of the game of the slot machine 100 is drawn on the lower panel unit 105, and further, an outlet 105a for paying out the number of game medals obtained by the player, and A receiving tray 105b and a sound emitting unit 105c to which a speaker is attached are provided.
[0024]
Next, with reference to FIG. 2, the back structure of the front door 101 and the internal structure of the housing 102 will be outlined. FIG. 2 shows a state where the front door 101 is unlocked and opened from the housing 102.
[0025]
In the figure, speakers SR and SL constituting the sound emitting units 103b and 103c are provided on the upper rear surface of the front door 101, and an effect display device 103d is provided between the speakers SR and SL.
[0026]
Further, a sub-control board 300 formed of an electric circuit board is attached to the back side of the effect display device 103d.
[0027]
That is, the sub-control board 300 is a so-called electric circuit board in which electronic components such as an integrated circuit device (IC), a transistor, a resistor, and a capacitor are mounted on an insulative resin substrate on which a conductive wiring pattern is formed and connected by wiring. And is attached so as to overlap the back side of the effect display device 103d.
[0028]
Below the effect display device 103d and the sub-control board 300, a substantially rectangular frame 104d formed with the above-described transmission window WD and the panel surface of the middle panel 104 is attached.
[0029]
Below the frame 104d, a selection mechanism G0 for discriminating the input material inserted from the medal insertion unit MD as a regular game medal or a foreign substance and sorting the medal, and a game medal sorted by the select mechanism G0 to the housing 102 side. A guide member G1 for guiding to the provided hopper device HP, a guide member G2 for guiding the foreign matter sorted by the selection mechanism G0 to the discharge port 105a, and a payout medal output from the hopper device HP for the discharge port 105a. A guide member G3 that guides the sound output section 105 is provided, and a speaker SW that constitutes the sound emitting section 105c is attached near the discharge port 105a.
[0030]
A central display substrate 400 formed of a long electric circuit substrate is attached between the above-described frame 104d and the selection mechanism G0. One end of the central display substrate 400 is formed of a light emitting diode. A setting display element CT for performing segment display and a setting button CS are provided.
[0031]
That is, similarly to the sub-control board 300, the central display board 400 is mounted on an insulating resin substrate on which a conductive wiring pattern is formed, and electronic components such as integrated circuits (ICs), transistors, resistors, and capacitors are mounted and wired. It is formed as a connected so-called electric circuit board, and further has a setting display element CT and a setting button CS mounted thereon and connected by wiring.
[0032]
Further, the above-described locking mechanism LK is provided on the side of the select mechanism G0, and the lock member LO is fixed to one end of the housing 102. When the front door 101 is closed on the housing 102 side, the locking mechanism LK locks the front door 101 by being fitted to the lock member LO. On the other hand, when the unlocking operation is performed with the regular key as described above, the locking is performed. When the mechanism LK is disengaged from the lock member LO, the front door 101 can be unlocked.
[0033]
Next, in the housing 102, a main power supply device PWU and an auxiliary storage portion SHP for accommodating game medals overflowing from the hopper device HP are provided, and also the reel drum R1 facing the above-mentioned transmission window WD. , R2, R3, and an electric motor (not shown) that rotationally drives these reels R1, R2, R3.
[0034]
Further, a power supply device substrate 500 is provided on a side surface of the main power supply device PWU, a rotation device substrate 600 is provided at an upper end of the rotation device reel device 200, a main control board 700 is provided above the rotation device reel device 200, and an inner wall of the housing 102 is provided. An external central terminal board 800 as an external central terminal board is attached to one end.
[0035]
That is, the power supply device substrate 500, the body device substrate 600, the main control substrate 700, and the external centralized terminal substrate 800 are also insulated with a conductive wiring pattern, similarly to the sub-control substrate 300 and the central display substrate 400 described above. An integrated circuit device (IC) and electronic components such as transistors, resistors, and capacitors are mounted on a conductive resin substrate, and are formed as a so-called electric circuit substrate which is connected by wiring.
[0036]
However, the sub-control board 300 and the main control board 700 each have a unit structure individually housed in a hard plastic storage case.
[0037]
Next, the configuration of the control system will be described with reference to the block diagram of FIG.
[0038]
The above-described main control board 700 is provided for centrally managing the operation of the slot machine 100, and the sub-control board 300, the central display board 400, the power supply board 500, and the spinning apparatus board 600 centered on the main control board 700. The external centralized terminal boards 800 are connected to each other via predetermined wiring cables (not shown).
[0039]
Here, a semiconductor memory (ROM) and a microprocessor (MPU) are mounted on the main control board 700, and the microprocessor includes a system program and a program for a slot machine game stored in the semiconductor memory in advance. By controlling the respective boards 300, 400, 500, 600, 800, the operation status of the slot machine 100 and the progress of the game are generally managed.
[0040]
Further, to the sub-control board 300, effect speakers SR, SL, SW, effect lamps 103a, 104a, 104b, and effect display device 103d are respectively wired and connected via predetermined wiring cables (not shown). The electric circuit provided on the sub-control board 300 drives these production speakers SR, SL, SW, the production lamps 103a, 104a, 104b, and the production display device 103d in accordance with an instruction from the main control board 700, The production is designed to appeal to the player's vision and hearing.
[0041]
The spinning device substrate 600 is connected to the spinning reel device 200, and controls the driving power and the driving timing of the electric motor in accordance with the instruction of the motor driving instruction signal MTS supplied from the main control substrate 700, thereby turning the spinning device substrate 600. The rotation, braking and stopping of the body reels R1, R2, R3 are controlled.
[0042]
That is, the microprocessor (MPU) in the main control board 700 turns on the start lever ST after the player has turned on one of the bet switches B1, B2, and B3 to indicate the number of medals per game. Then, a role lottery is performed to rotate the spinning reels R1, R2, R3 at a predetermined speed, and then the player turns on the stop buttons SP1, SP2, SP3 in an appropriate order. The reels R1, R2, R3 are sequentially braked and finally stopped. Then, when the patterns drawn on the spinning reels R1, R2, R3 are arranged in a combination corresponding to the above-mentioned winning combination, a winning is determined. A microprocessor (MPU) in the main control board 700 detects such a series of ON operations by the player, and issues a motor drive instruction to perform control from the start of rotation of the reels R1, R2, R3 to the final stop. The signal MTS is supplied to the spinning device substrate 600. On the other hand, by controlling the drive of the electric motor by the rotating body substrate 600 in accordance with the supplied motor drive instruction signal MTS, the rotation, braking and stopping of the rotating reels R1, R2, R3 are controlled.
[0043]
When the motor drive instruction signal MTS is supplied, the rotating body substrate 600 is driven by the electric motor during the period from when the rotating reels R1, R2, R3 start rotating and finally stop. A motor drive signal MTD indicating a period during which power is supplied is returned to the microprocessor (MPU) in the main control board 700.
[0044]
The above-described setting display element CT and the setting button CS are connected to the central display substrate 400. Further, the selection mechanism G0, the bet buttons B1, B2, B3, the start lever ST, the stop buttons SP1, SP2, SP3, and the settlement button MR. The locking mechanism LK is wired and connected via a predetermined wiring cable (not shown).
[0045]
The central display board 400 sends an operation signal SG indicating that the bet buttons B1, B2, B3, the start lever ST, and the stop buttons SP1, SP2, SP3 have been turned on or off, respectively, to the microprocessor in the main control board 700. (MPU) to control the progress of the game.
[0046]
When the settlement button MR is turned on, the central display board 400 transfers a settlement signal MRS indicating that the turn-on operation has been performed to the microprocessor (MPU) in the main control board 700. When the microprocessor (MPU) receives the settlement signal MRS, the microprocessor (MPU) instructs the hopper device HP through the power supply device substrate 500 to pay out the number of game medals obtained by the player.
[0047]
Further, the select mechanism G0 is provided with an optical sensor, a mechanical sensor, or a magnetic sensor for detecting whether the input object inserted from the medal insertion unit MD is a game medal or a foreign object, and the input object detection output from these sensors. The central display board 400 transfers the signal SLG to a microprocessor (MPU) in the main control board 700.
[0048]
Then, when the microprocessor (MPU) inputs the inserted object detection signal SLG indicating that a gaming medal has been inserted, the number of inserted medals is counted. On the other hand, when the input object detection signal SLG indicating that a foreign object has been input is input, it is determined that an abnormality has occurred, and an instruction is issued to the above-described sub-control board 300 to generate an alarm sound to the production speakers SR, SL, and SW. Or display an alarm using the effect lamps 103a, 104a, 104b.
[0049]
Further, the locking mechanism LK is provided with a detection sensor such as a microswitch for detecting the direction in which the key inserted into the keyhole KY is rotated, and an unlock signal is issued when the key is rotated clockwise. When the OPN is rotated in the counterclockwise direction, an error release signal RST is output.
[0050]
Then, the central display board 400 transfers the unlock signal OPN and the error release signal RST to the microprocessor (MPU) in the main control board 700, and when the microprocessor (MPU) inputs the unlock signal OPN, It is determined that the door 101 has been opened.
[0051]
Further, when the microprocessor (MPU) inputs the error release signal RST, it instructs the sub-control board 300 to stop the above-described alarm sound and alarm display for the occurrence of the abnormality. In other words, the microprocessor (MPU) generates an alarm sound on the production speakers SR, SL, and SW or makes an alarm display on the production lamps 103a, 104a, and 104b in response to the occurrence of the above-described abnormality. When a person or an administrator inserts a legitimate key into the keyhole KY and rotates in the counterclockwise direction, it is determined that the countermeasure against the occurrence of the abnormality has been completed, the alarm sound and the alarm display are released, and the normal game operation is performed. Return to.
[0052]
The setting button CS is provided for a business or an administrator to change the payout rate, and the setting display element CT displays any number from 1 to 6 by segment display. The payout rate changed by the setting button CS is displayed in stages.
[0053]
That is, when the setting button CS is turned on, the central display board 400 transfers the setting signal CSS to the microprocessor (MPU) in the main control board 700 every time the setting button CS is turned on, and the microprocessor (MPU) Every time the setting signal CSS is input, the payout rate predetermined in six stages is changed in order, and a setting display signal CTS indicating a number corresponding to the changed payout rate is returned to the central display substrate 400. I do. Then, the central display substrate 400 causes the setting display element CT to display a segment on the basis of the setting display signal CTS, thereby notifying a business or an administrator of the information on the changed payout rate.
[0054]
Next, as shown in FIG. 2, a main power switch BP, a system power switch BQ, a setting switch BO, and a system reset switch RO are mounted on the power supply device board 500. Further, a power distribution circuit for distributing various power supply voltages generated by the power supply device PWU to the hopper device HP and other places is formed on the power supply device substrate 500, and a system necessary for the operation of the slot machine 100 from the power distribution device is provided. Power is supplied.
[0055]
The main power switch BP is provided to supply or cut off commercial power to the power supply device PWU. When the main power switch BP is turned on, the main power switch BP supplies commercial power to the power supply device PWU. Cut off the supply of commercial power. That is, the main power switch BP is provided to turn on or off the original power supply (supply of commercial power) to the slot machine 100. Further, when the main power switch BP is turned on / off, the power supply board 500 transfers a main power operation signal BPS indicating that the main power switch BP is turned on / off to a microprocessor (MPU) in the main control board 700.
[0056]
The system power switch BQ is provided to supply or shut off system power required for the operation of the slot machine 100 while the power supply device PWU is operated. That is, unlike the main power switch BP that controls on or off the main power supply, the control system is powered on or off by controlling the supply of the system power output from the power supply device PWU to the control system. It is provided for ON reset. When the system power switch BQ is turned on and off, the power supply board 500 transfers a system power operation signal BQS indicating that the power switch is turned on and off to the microprocessor (MPU) in the main control board 700, and A process for resetting the entire power on is performed.
[0057]
The setting switch BO is provided with a keyhole for inserting the same key as that inserted in the keyhole KY, and the key is inserted and operated clockwise or returned counterclockwise. A setting operation signal BOS indicating the fact is output. Then, the power supply device board 500 transfers the setting operation signal BOS to the microprocessor (MPU) in the main control board 700.
[0058]
When the microprocessor (MPU) receives the setting operation signal BOS indicating that the key has been operated clockwise, the microprocessor (MPU) determines that an instruction to start changing the payout rate has been given, When the setting operation signal BOS indicating that the setting has been returned in the counterclockwise direction is input, it is determined that an instruction to end the change of the setting of the payout rate has been issued.
[0059]
More specifically, after the microprocessor (MPU) inputs the setting operation signal BOS indicating that the key has been operated clockwise, the system power switch BQ further performs a power-on reset operation. Then, it is determined that the setting change of the payout rate should be started, and the input of the setting signal CSS from the setting button CS provided on the central display substrate 400 is started. Then, as described above, each time the setting button CS is turned on, a numeral is displayed on the setting display element CT as a segment, and when the start lever ST is turned on, the payout rate changed last is fixed. When a setting operation signal BOS indicating that the above-mentioned key has been operated in the counterclockwise direction is input, it is determined that the operation of changing the setting of the payout rate has been completed, and based on the confirmed payout rate. Restart game operation.
[0060]
Further, when the above-described settlement button MR is turned on, the power supply device substrate 500 controls the hopper device HP in accordance with an instruction from the microprocessor (MPU) in the main control substrate 700, and pays out game medals. Let Then, the medal detection signal MRSS output from the medal detection sensor provided in the medal output unit of the hopper device HP is returned to the microprocessor (MPU). Note that the medal detection sensor outputs a medal detection signal MRSS indicating that game medals output from the medal output unit of the hopper device HP are detected one by one.
[0061]
The system reset switch RO is provided for returning the slot machine 100 to the original normal operation when any system error occurs in the slot machine 100. That is, when the business operator or the administrator turns on the system reset switch RO, the power supply substrate 500 supplies the system reset signal ROS to the microprocessor (MPU) in the main control substrate 700 to perform a predetermined error check. Return to normal operation.
[0062]
As described above, with reference to FIG. 3, various signals transferred between the main control board 700 and the sub-control board 300, the spinning device board 600, the center display board 400, and the power supply board 500 have been described. Among the signals, signals related to the countermeasures for preventing impropriety, which is the object of the present embodiment, are enumerated as shown in FIG.
[0063]
Next, the external centralized terminal board 800 includes a plurality of input terminals P1 to P6 to which signals S1 to S6 output from the microprocessor in the main control board 700 can be input in parallel, and the signals S1 to S6. A plurality of output terminals Q1 to Q6 capable of parallel transfer to the management computer side, an input terminal P7 for inputting a signal IN supplied from the management computer side, and an output for transferring to the microprocessor. A signal transmission circuit, which is configured to include the terminal Q7 and transfers signals S1 to S6 and IN only in one direction, is provided.
[0064]
That is, by connecting the output terminals Q1 to Q6 and the input terminal P1 to the input / output interface provided in the management computer with a wiring cable such as a flat cable, the main control board 700 The signals S1 to S6 can be transferred to the computer, and the signal IN can be transferred from the management computer to the main control board 700.
[0065]
Further, as shown in the circuit diagram of FIG. 5, the above-described signal transmission circuit is formed by a relay circuit provided with relays RY1 to RY7 between input terminals P1 to P7 and output terminals Q1 to Q7.
[0066]
The exciting coils L provided in the relays RY1 to RY6 are connected to the microprocessor in the main control board 700 via the input terminals P1 to P6, and the movable pieces c provided in the relays RY1 to RY6 are provided. , And the output terminals Q1 to Q6 formed on the connector 800a.
[0067]
Also, the exciting coil L provided in the relay RY7 is connected to the input terminal P7 formed in the connector 800a, and the movable piece c is connected to the microprocessor in the main control board 700 via the output terminal Q7. Have been.
[0068]
Further, the connector 800a is connected to a relay common terminal RM1 connected to one switching contact (common contact) a provided in each of the relays RY1 to RY6, and to one end of an exciting coil L provided in the relay RY7. A relay common terminal RM2 is provided, and these relay common terminals RM1 and RM2 are set to a predetermined common potential (for example, a ground potential).
[0069]
As is clear from FIG. 5, since the output terminals Q1 to Q6 are in an open state, in an actual specification, for example, a pull-up resistor is connected to each of the output terminals Q1 to Q6, By connecting a pull-up resistor to the provided input port side, each of the output terminals Q1 to Q6 is set to a predetermined potential in advance.
[0070]
In the external central terminal board 800 having such a configuration, when signals S1 to S6 are supplied to the input terminals P1 to P6 from the microprocessor provided on the main control board 700, the voltage changes of the signals S1 to S6 occur. Accordingly, the electromagnetic force generated in each of the exciting coils L of the relays RY1 to RY6 changes, and the movable piece c of each of the relays RY1 to RY6 switches to the switching contact a or b according to the change in the electromagnetic force. .
[0071]
Therefore, if the movable piece c of each of the relays RY1 to RY6 is switched to the switching contact a side, the potential of the output terminals Q1 to Q6 becomes the potential of logic "H" by the above-described pull-up resistor. If the movable piece c of RY6 switches to the switching contact b side, the potentials of the output terminals Q1 to Q6 become the potential of the relay common terminal RM1 (ground potential), that is, the logic "L" potential.
[0072]
As described above, each of the relays RY1 to RY6 outputs an output signal whose logic changes in accordance with a voltage change of each of the signals S1 to S6 supplied from the main control board 700 through the output terminals Q1 to Q6. Transfer to That is, the output signals that are temporally synchronized with the respective signals S1 to S6 and do not impair the information of the respective signals S1 to S6 are transferred via the output terminals Q1 to Q6. The signals S1 to S6 can be transferred as they are.
[0073]
Further, when the external stop release signal IN is supplied between the input terminal P7 and the relay common terminal RM2 from the management computer side, the electromagnetic force generated in the exciting coil L of the relay RY7 according to the voltage change of the release signal IN. As the force changes, the movable piece c switches to the switching contact a or b. Therefore, it is possible to transfer the information of the external hit release signal IN supplied from the management computer to the main control board 700 side substantially as it is without damaging the information.
[0074]
The above-mentioned external centralized terminal board 800 includes the relays RY1 to RY7 to transfer the signals S1 to S6 in one direction from the main control board 700 side to the management computer side, and also to transmit the signal IN to the management computer side. A signal transmission circuit for transferring data in one direction from the control circuit 700 to the main control board 700 side is realized. As a modified example, signal transmission is performed by combining light emitting diodes PD1 to PD7 and phototransistors Tr1 to Tr7 as shown in FIG. A circuit may be configured.
[0075]
That is, the light emitting diodes PD1 to PD7 are respectively connected to the input terminals P1 to P7, the phototransistors Tr1 to Tr7 are connected to the output terminals Q1 to Q7, and the light emitting surfaces of the light emitting diodes PD1 to PD7 are connected to the phototransistors Tr1 to Tr7. By opposing the light receiving surfaces to each other, a so-called photocoupler is formed.
[0076]
According to the signal transmission circuit having such a configuration, since there is no mechanical movable mechanism such as the relays RY1 to RY7, it is possible to electrically transfer signals, so that signal transfer can be performed at higher speed. Further, signal transfer can be performed in one direction. Further, it is possible to reduce the size of the external centralized terminal substrate 800, reduce the number of components, reduce power consumption, and the like.
[0077]
Here, the signals S1 to S5 of the signals S1 to S6 output from the microprocessor provided on the main control board 700 shown in FIG. 5 or FIG. The signal S6 is a fraud prevention signal newly output by the slot machine of the present embodiment.
[0078]
That is, the microprocessor provided on the main control board 700 is configured to control any one of the signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS listed in FIG. Are always supplied to the input terminal P6 as a fraud prevention signal, and are connected to the output terminal Q6 via the above-mentioned relay RY6 or a signal transmission circuit including a light-emitting diode PD6 and a photocoupler formed by a phototransistor Tr6. It is sent to the management computer.
[0079]
In other words, the external centralized terminal board 800 uses the signal MTS, MTD, SLG, MRS described above by the input terminal P6 and the output terminal Q6 and the signal transmission circuit provided between the input terminal P6 and the output terminal Q6. , OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS are always sent to the management computer as a fraud prevention signal.
[0080]
As described above, since the slot machine 100 of the present embodiment always supplies the fraud prevention signal from the main control board 700 to the management computer via the external centralized terminal board 800, the slot machine 100 detects the fraud prevention signal to the management computer. Alternatively, by performing the analysis, it is possible to more quickly and accurately detect a fraudulent activity.
[0081]
For example, if the motor drive instruction signal MTS is transmitted as a fraud prevention signal, when the management computer detects the motor drive instruction signal MTS having a waveform that is originally impossible, there is a possibility that an illegal act has been performed. It can be determined to be high.
[0082]
In addition, when the motor drive signal MTD is transmitted as a fraud prevention signal, the management computer side may determine that there is a high possibility that a fraudulent act has been performed, for example, when the motor drive signal MTD having an originally impossible waveform is detected. It is possible to judge.
[0083]
Also, if the input detection signal SLG is transmitted as a fraud prevention signal, the management computer may detect that the input detection signal SLG indicating that a foreign object has been input, etc. Can be determined to be high.
[0084]
Further, if the settlement signal MRS is transmitted as a fraud prevention signal, the management computer can detect that a fraudulent operation has been carried out frequently at an impossible number of times. Can be determined to be high.
[0085]
Further, if the unlocking signal OPN is transmitted as a fraud prevention signal, the management computer may determine that the front door 101 is opened during business hours of the amusement arcade, and that there is a high possibility that a fraud has been committed. It is possible.
[0086]
If an error release signal RST is transmitted as a fraud prevention signal, the management computer may detect that the slot machine 100 itself has detected a fraudulent activity and illegally release the detection result. It is possible to determine that it is highly probable.
[0087]
Further, if the setting signal CSS is transmitted as the fraud prevention signal, the management computer can determine that there is a high possibility that the setting of the payout rate is illegally changed during the operation of the game arcade. .
[0088]
Also, when the setting operation signal BOS is transmitted as a fraud prevention signal, the management computer can determine that there is a high possibility that the setting of the payout rate is illegally changed during the operation of the game arcade. is there.
[0089]
Also, when the system power supply operation signal BQS is transmitted as a fraud prevention signal, the management computer can determine that there is a high possibility that the setting of the payout rate is illegally changed during the operation of the game arcade. It is.
[0090]
If the main power supply operation signal BPS is transmitted as a fraud prevention signal, the management computer replaces, for example, a semiconductor memory (ROM) provided on the main control board 700 during business hours of the amusement arcade, and changes the slot. It is possible to determine that there is a high possibility that the operation of the machine 100 has been tampered with.
[0091]
If the system reset signal ROS is transmitted as a fraud prevention signal, the management computer replaces, for example, a semiconductor memory (ROM) provided on the main control board 700, and illegally alters the operation of the slot machine 100. It is possible to determine that it is highly probable that they have done so.
[0092]
Further, if the medal detection signal MRSS is transmitted as a fraud prevention signal, the management computer may have detected that the medal detection signal MRSS has been continuously detected over a long period of time. It can be determined to be high.
[0093]
By transmitting the fraud prevention signal in this way, it is possible to provide not only the above-mentioned business useful service information, but also useful information for fraud prevention measures to the management computer side as service information. .
[0094]
In the above description, the input / output terminals P6 and Q6 for transmitting only one fraud prevention signal and the signal transmission circuit are provided on the external centralized terminal board 800. An output terminal and a signal transmission circuit are provided, and at least one of the signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS from the main control board 700 side. May be always sent to the management computer as a fraud prevention signal.
[0095]
Further, one or more or all of the above-mentioned signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, MRRS are always transmitted to the management computer side as a fraud prevention signal. You may do so. In such a case, a plurality of signals to be simultaneously transmitted as an anti-fraud signal are converted into binary data in synchronization with a predetermined period, and the converted binary data is converted to external centralized terminal boards in bit units. 800 in parallel.
[0096]
Assuming that the data is converted into binary data and transmitted as described above, the case where all of the 12 signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS are transmitted In addition, since twelve input / output terminals and a signal transmission path are not required and only four input / output terminals and a signal transmission circuit are provided on the external centralized terminal board 800, binary data can be transmitted in parallel. In addition, it is possible to transmit a large number of fraud prevention signals while reducing the size of the external centralized terminal board 800.
[0097]
In the above description, the case where the twelve signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS are transmitted as they are is described. Microprocessor analyzes in advance two or more combinations of these signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS, and it is highly likely that a fraud has occurred. May be sent to the management computer via the external centralized terminal board 800 as a fraud prevention signal.
[0098]
Further, these signals MTS, MTD, SLG, MRS, OPN, RST, CSS, BOS, BQS, BPS, ROS, and MRRS are encrypted and transmitted by the microprocessor in the main control board 700, and decrypted on the management computer side. You may make it do.
[0099]
Further, a storage medium such as a CD-ROM in which a computer program for analyzing fraudulent activity is recorded in accordance with the type of a fraud prevention signal transmitted from the slot machine 100 to the management computer is provided. The recorded computer program may be installed and executed on a management computer. As described above, when the predetermined computer program is installed on the management computer and executed, it is possible to more accurately analyze the fraudulent activity corresponding to the characteristics of the slot machine 100 on the management computer side. .
[0100]
【The invention's effect】
As described above, according to the spinning-type gaming machine and the external centralized terminal board provided in the spinning-type gaming machine of the present invention, since the anti-fraud signal is supplied from the main control board to the management computer, the management computer By detecting or analyzing the fraud prevention signal, it is possible to more quickly and accurately detect a fraudulent activity.
[Brief description of the drawings]
FIG. 1 is a plan view schematically showing an external structure of a slot machine according to an embodiment of the present invention.
FIG. 2 is a plan view schematically showing an internal structure of the slot machine shown in FIG.
FIG. 3 is a block diagram showing a configuration of a control system provided in the slot machine shown in FIGS. 1 and 2.
FIG. 4 is a diagram summarizing and listing signals related to countermeasures against fraud.
FIG. 5 is a circuit diagram showing a configuration of a main part of an external central terminal board.
FIG. 6 is a circuit diagram illustrating a configuration of a modification of the external central terminal board.
FIG. 7 is a diagram for explaining a problem to be solved by the present invention.
[Explanation of symbols]
100 ... slot machine
700: Main control board
800 ... external centralized terminal board
BQ: Power switch
BO… Setting switch

Claims (14)

A spinning game machine connected to a management computer,
A main control board that oversees the operation of the spinning machine,
An external centralized terminal board connected to the management computer and transmitting a fraud prevention signal output from the main control board to the management computer. The said fraud prevention signal is a motor drive instruction | indication signal which controls the electric motor which the said main control board rotates the rotation reel provided in the rotation type game machine, and is characterized by the above-mentioned. A toy machine. The said fraud prevention signal is a motor drive signal which shows that the electric motor which rotationally drives the spinning reel provided in the spinning-type gaming machine is rotating. A toy machine. 2. The round according to claim 1, wherein the fraud prevention signal is an inserted object detection signal output from a detection sensor that detects a game medal inserted when playing a game with a spinning-type gaming machine. 3. Torso gaming machine. 2. The turning-type gaming machine according to claim 1, wherein the fraud prevention signal is a payment signal output when a payment button provided on the turning-type gaming machine is turned on. 3. 2. The turning-type gaming machine according to claim 1, wherein the fraud prevention signal is an unlocking signal output when a locking mechanism provided on the turning-type gaming machine is unlocked. . 2. The turning-type gaming machine according to claim 1, wherein the fraud prevention signal is an error releasing signal generated when an abnormal state of the turning-type gaming machine is released. 3. The spinning-type gaming machine according to claim 1, wherein the fraud prevention signal is a setting signal output when a setting button for changing a setting of the payout rate is operated. 2. The turning drum according to claim 1, wherein the fraud prevention signal is a setting operation signal output from a setting switch provided for performing start and end operations of changing the setting of the payout rate. 3. Type gaming machine. 2. The turning drum according to claim 1, wherein the fraud prevention signal is a system power operation signal output from a system power switch that supplies and shuts off system power necessary for the operation of the turning game machine. 3. Type gaming machine. 2. The game machine according to claim 1, wherein the fraud prevention signal is a main power operation signal output from a main power switch provided for power-on resetting the game machine. Machine. 2. The system according to claim 1, wherein the fraud prevention signal is a system reset signal output from a system reset switch provided to reset a control system provided in the spinning-type gaming machine. A toy machine. The spinning drum according to claim 1, wherein the fraud prevention signal is a medal detection signal output from a detection sensor that detects a gaming medal paid out from a hopper device provided in the spinning-type gaming machine. Type gaming machine. Connecting the management computer and the spinning-type gaming machine arranged outside the spinning-type gaming machine, an external centralized terminal board provided in the spinning-type gaming machine,
An external centralized terminal board, which sends a fraud prevention signal output from a main control board that integrally controls the operation of the spinning-type gaming machine to the management computer.

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