JP2010201275A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine capable of eliminating fraudulent game practices even when a jackpot value is known. <P>SOLUTION: This game machine includes a jackpot lottery processing (ST34) for determining whether or not a profit state advantageous to a game player is generated, a random number generation processing (ST21) for generating random numbers to be used for the lottery processing (ST34) and an annunciator configured to inform the game player of the game state, wherein when the game control operation of a main control board 1 is forcibly returned to the initial state, occurrence of the exceptional case is announced with a lamp and in voice. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a gaming machine such as a pachinko machine, an arrangement ball machine, a sparrow ball game machine, and a revolving game machine, and more particularly to a gaming machine that effectively eliminates illegal games.

  A ball game machine such as a pachinko machine has a symbol start opening provided on the game board, a symbol display section for stopping a plurality of symbols after changing for a predetermined time, and a grand prize opening for opening and closing the opening and closing plate. Configured. When the detection switch provided at the symbol start port detects the passing of the game ball, the symbol display unit fluctuates the display symbol for a predetermined time, and then when the special symbol is aligned and stopped, the big prize opening is opened. A profit state advantageous to the player is generated.

  In this type of gaming machine, the jackpot counter CT is realized by software, and when the jackpot probability is 1 / N, the jackpot counter CT is circulated within a numerical range of 0 to N−1. One of the numerical ranges is set to the big hit winning value Hit. Then, when the detection switch provided at the symbol start port detects the passing of the game ball, the value of the big hit counter CT at that time is acquired and compared with the big hit winning value Hit. We are shifting to a profit state. The big hit counter CT is cleared to zero by an initial process after power-on, and then updated by an increment (+1) process in response to an interrupt signal issued every predetermined cycle.

  By the way, the jackpot winning value Hit can be grasped only by obtaining the gaming machine and analyzing the program. Therefore, if an illegal circuit is attached to the gaming machine configured as described above and the interrupt signal after power-on is counted, the jackpot timing at which the value of the jackpot counter CT matches the jackpot winning value Hit can be found. Become. Moreover, since the big hit timing comes regularly corresponding to the Nth interrupt signal, if the ON signal of the detection switch of the symbol start opening is generated by an illegal circuit in accordance with the big hit timing, A big hit state can be realized arbitrarily.

  Therefore, in order to deal with such illegal actions, an attempt has been made to make the value of the jackpot counter CT irregular by using the sub-counter BGN in addition to the jackpot counter CT. In this case, the sub-counter BGN circulates starting from 0 in the numerical range of 0 to N-1. The big hit counter CT circulates in the numerical range of 0 to N−1 starting from the initial value START determined by the subcounter BGN.

  Then, when the big hit counter CT goes around the numerical value range N, the value of the sub-counter BGN at that time is acquired, and the circulation operation is repeated again by using it as a new initial value START. If the initial value START of the jackpot counter CT is changed at random in this way, the jackpot timing will not come regularly corresponding to the Nth interrupt signal, which has a great effect on eliminating fraud. .

  However, even in the above countermeasure, only the initial initial value after the CPU is reset as after the power is turned on must be determined uniformly in software (usually zero). If an illegal circuit is attached and the CPU is forcibly reset at an appropriate timing, the big hit timing can be grasped only in the first round after the reset.

  In addition, it is anticipated that fraudulent attempts to generate a profitable state advantageous to the player by forcibly changing the operating state of the gaming machine by some method, and there is a gaming machine that can effectively cope with such fraudulent behavior It is requested.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a gaming machine that can effectively eliminate fraudulent gaming acts.

  In order to solve the above-mentioned problem, the invention according to claim 1 is a gaming machine in which a first lottery process for determining whether or not to generate a profit state advantageous to a player is provided in the first control unit, An informing means for informing the change of the operation state of the first control unit when necessary is provided. The invention according to claim 4 is a first lottery process for determining whether or not to generate a profit state advantageous to the player, and a second lottery process for determining whether or not to notify the generated profit state. And a notification means for notifying the change of the operation state of the control unit that executes the second lottery process when necessary.

  Here, when necessary, the first and second lottery processes are determined in advance as an update process for updating random number data, an acquisition process for acquiring the random number data as a random value, and an acquired random value. In the case where the determination process for determining based on the winning value is provided, typically, the random number data is changed without using the update process described above.

  Further, in the present invention, “change of operation state” is not particularly limited, but typically, first, (1) a case where a reset signal is added to the CPU and the CPU is initially set corresponds. The case where the reset signal is applied to the CPU may be caused by the operation of a dedicated illegal circuit, as well as the following various cases. For example, a circuit configuration that resets the CPU when the watchdog timer times out due to an infinite loop processing of the program or a circuit that monitors the contents of the address bus is provided, and the CPU is reset when an unnatural address is accessed In some cases, a circuit configuration is provided. In the case of such a gaming machine, there is a concern about an act of misusing this reset operation to generate a profit state, but according to the present invention, such a reset state of the CPU is reliably notified.

  In addition, when the CPU is reset, a clock monitoring circuit that monitors the decrease in clock frequency or the stop of clock oscillation is provided due to fetching of undefined opcodes. There may be a case where the CPU is forcibly reset. Even when a CPU having the above-described forced reset function is used or when a clock monitoring circuit is provided, these operations may be abused. Can also be notified.

  (2) A case where the value of the RAM work area used for the lottery process related to the player's profit state is forcibly changed is also a typical example of “change of operation state” in the present invention. As the RAM work area, for example, <1> a work area that stores random number data for lottery that determines whether to notify the number of winning combinations that have already been established, or <2> already established. Work area storing random number data for lottery for determining whether or not to notify the execution time of a winning combination, <3> Work area storing data for specifying winning probabilities set in a plurality of stages And so on.

  The work area unique to the pachinko machine stores random data used by the lottery process that determines whether to generate a profit state for the player, such as <1>, big hit, medium hit, and small hit. Working area, <2> working area storing random data for lottery that determines whether or not to execute a navigation function for teaching or supporting an appropriate game operation (operation timing, etc.) of the player and so on.

  In addition, as a work area unique to the slot machine (cylinder-type game machine), <1> a lottery process for determining whether or not to generate a profit state for the player, such as a BIG bonus, a REG bonus, and a small role Work area storing random number data to be used, <2> For lottery to decide whether or not to execute navigation functions such as notification of winning combination, notification of reel rotation stop timing, notification of reel rotation stop order A work area that stores random number data may be considered.

  The notification means is preferably provided in the second control unit so as to function based on a control command from the first control unit. When the notification means functions, the notification means is adapted to the notification operation. 2 It is comprised so that operation | movement of a control part may be returned to an initial state. Preferably, the notification unit is provided in the second control unit so as to function based on a control command from the first control unit, and when the notification unit functions, processing corresponding thereto is completed. Until then, an operation based on a control command received thereafter is not performed.

  The present invention provides a lottery means for determining whether or not a profit state advantageous to a player is generated by lottery, a random number generating means for generating a random value used by the lottery means, and a game state to the player. In a gaming machine provided with notification means configured to be notified, the notification means may notify the occurrence of this exceptional situation when the gaming state is forcibly changed. FIG. 15 is a diagram corresponding to this configuration, but is not intended to limit the present invention.

  However, as shown in FIG. 15, it is preferable that the lottery means starts a function based on a lottery command resulting from the gaming state, and performs a lottery operation by comparing the random number value of the random number generating means with the winning value data. . The random number generation means preferably updates the random value every predetermined time, and the random number value is preferably generated by combining the main counter and the sub-counter. The generation method is not particularly limited, but it is easy to change the initial value in the circulation operation of the main counter based on the value of the sub-counter every time the main counter circulates within a predetermined numerical range once or a plurality of times. It is. The main counter and the sub-counter can be realized in software and hardware, but a software counter is suitable for realizing the present invention.

  In the present invention, it is preferable that an external device control unit that controls an external device by transmitting a control command is provided, and that the lottery unit, the random number generation unit, and the external device control unit are realized on the same circuit board. . Furthermore, the control targets of the external device control means are an image display unit, a sound output unit, and a lamp lighting unit, and each external device typically operates by receiving a control command.

  The manner of notifying the occurrence of an exceptional situation in the notification means is not particularly limited, but if an exceptional situation occurs, the processing related to accepting a game operation and paying out game media (such as a game ball or game medal) is continued. However, it is preferable to notify the occurrence of an exceptional situation. By adopting such an operation, even if an exceptional situation due to a technical trouble occurs, the player is not disadvantaged. On the other hand, in the case of an exceptional situation caused by fraudulent gaming, it is necessary to take a brilliant response. Therefore, after returning the game control operation to the initial state in the audio output unit and the lamp lighting unit excluding the image display unit, It is preferable to always execute a proper notification operation for a predetermined time. In this case as well, processing related to accepting game operations and paying out game media is executed as usual.

  The notification means is configured to operate based on the received control command, and is configured to return to the operation in the initial state when receiving the control command indicating that the gaming state has been forcibly changed. Is preferred. Further, when a control command indicating that the gaming state has been forcibly changed is received, it is also preferable that the operation based on the subsequent control command is not performed until the processing corresponding thereto is completed. It is. In this case, the corresponding process may be terminated based on a control command instructing the end of the operation.

  The lottery means and the random number generation means are provided on a plurality of control boards, respectively, and a part of the control board is configured to forcibly change the winning probability of the lottery process by the lottery means. It is also preferable that the notification means notifies the user of a specific change, and a detection means for detecting that the gaming state is forcibly returned to the initial state is provided, and the exceptional situation is based on the detection result. It is also preferable to notify the occurrence of the occurrence by the notifying means.

  In a gaming machine including a main control unit that mainly controls gaming operations and a sub control unit that operates based on a control command from the main control unit, the operation of the main control unit or the sub control unit is When returning to the initial state, a determination means for determining whether or not it is at the start of business, and when it is determined that it is not at the start of business, an abnormal situation occurs in a state in which a game medium is not dispensed or a game operation is not prohibited. A gaming machine provided with notifying means for notifying occurrence is also suitable. With such a configuration, it is possible to effectively cope with occurrence of an abnormal situation that may cause a technical trouble without causing distrust to the general player.

  The case where the operation of the main control unit or the sub control unit is returned to the initial state is typically a case where the CPU is reset. Note that the determination means for determining whether or not the operation has started is based on a counter that counts the number of times the main control unit is returned to the initial state, data indicating the completion of the initial operation at power-on (flag value) Realized. The determination unit may be provided in the main control unit or the sub control unit, but in the embodiment, it is provided in the sub control unit.

  As described above, according to the present invention, it is possible to realize a gaming machine that can eliminate fraudulent gaming acts in advance even if the jackpot winning value is known.

It is a block diagram which shows the whole structure of the pachinko machine which concerns on an Example. It is a block diagram which shows the structure of a main control board. It is a flowchart which shows the system reset process in a main control board. It is a flowchart which shows the timer interruption process in a main control board. It is a flowchart which shows the update process of the big hit counter or the win counter. It is a flowchart which shows the MNI interruption process in a main control board. It is a flowchart which shows the data reception interruption process in a sub control board. It is a time chart explaining the operation | movement content of the apparatus which concerns on an Example. It is a perspective view of the pachinko machine concerning an example. It is a side view of the pachinko machine of FIG. It is a front view of the game board of the pachinko machine of FIG. It is a rear view of the pachinko machine of FIG. It is a block diagram explaining 2nd Example. It is a block diagram explaining the other example of a board | substrate structure. It is a claim correspondence figure.

  Hereinafter, the gaming machine of the present invention will be described in more detail based on examples. FIG. 1 is a block diagram illustrating an overall configuration of a pachinko machine according to an embodiment.

The illustrated pachinko machine includes a main control board 1 that mainly controls game operations, a symbol control board 2 that controls the operation of the display device 8, a voice control board 3 that realizes a voice game effect, and lamps. Lamp control board 4 for flashing operation, payout control board 5 for paying out game balls, launch control board 7 controlled by the payout control board 5 for launching game balls, and receiving 24V AC and applying DC voltage to each part of the device The power supply board 6 is mainly configured to be supplied.

  The main control board 1, the symbol control board 2, the voice control board 3, the lamp control board 4, and the payout control board 5 are each configured by a computer circuit having a one-chip microcomputer, and the sub control boards 2 to 5 are the main control boards. Individual control operations are realized based on control commands from the substrate 1. In addition, the symbol control board 2 is connected to the hall computer that centrally manages the game halls through the external connection terminals together with the main control board 1. Each time the RAM clear process occurs in the main control board 1, the symbol control board 2 notifies the hall computer of the situation. For this reason, an abnormal situation in which RAM clear processing occurs during business can be centrally managed on the hall computer side.

  FIG. 2 is a block diagram showing a circuit configuration of the main control board 1. As shown in the figure, the main control board 1 includes a CPU circuit 1a composed of a one-chip microcomputer, a system clock generator 1b that generates a clock signal Φ0 that is an integer multiple of the CPU operating clock CLK, and an address signal from the CPU. A decoding circuit 1c for generating a chip select signal for each part, an output port circuit 1d for outputting data from the CPU, an input port circuit 1e for the CPU to take in external data, and the sub-control boards 2 to 5 The output drive circuit 1f for outputting a control command to the controller and the switch input circuit 1g for inputting the ON / OFF state of switches of each part of the game board are mainly configured. The CPU circuit 1a incorporates a CPU core equivalent to Z80CPU (Zilog).

  3 to 5 are flowcharts showing a control program for the main control board 1. The control program for the main control board 1 is a system reset processing program (FIG. 3) that is executed after the power is turned on and normally ends with an interrupt permission process (ST13), and a timer interrupt process (Maskable Interrupt disableable interrupts) that is started every predetermined time. ) Program (FIG. 4) and an NMI processing program (FIG. 6) that is driven by an NMI (Non Maskable interrupt) signal to back up the register value of the CPU when the power supply voltage falls below a predetermined value.

  The system reset processing program (main routine) will be described below with reference to FIG. This main routine is started not only when the power is turned on, but also when the count value of the watchdog timer reaches a predetermined value due to a program runaway and the CPU is reset. Note that there is a possibility that the CPU may be illegally reset due to the mounting of an illegal circuit. In addition, there are two patterns when the power is turned on, and it can be considered that the power supply is restored from a power outage and the pachinko hall is opened.

  In the main routine shown in FIG. 3, first, the Z80 CPU sets itself to an interrupt disabled state, and initializes each part of the one-chip microcomputer including the Z80 CPU core (ST1). The CPU sets itself to interrupt mode 2 (ST2), and then checks the RAM clear switch (ST3).

  The RAM clear switch is a switch for clearing the RAM area at the time of business end or business start. Assuming the start of business, the gaming state of the previous day is saved by the NMI processing program (FIG. 6) unless special processing is performed, and the contents of the RAM are held by a backup power source. Therefore, for example, if the previous day's business end was in the middle of a big hit game, the staff would turn on the RAM clear switch and turn on the RAM clear switch at the start of business. . However, since it is usually complicated, the RAM clear switch is not operated, and the power is turned on in the OFF state.

Therefore, normally, the content of the backup flag BFL is determined following the determination in step ST3 (ST4). The backup flag BFL is data indicating whether or not the backup data saved in the NMI process has been restored to the original state. In this embodiment, the backup flag BFL is set in the process of step ST74 in FIG. 5AH, and is cleared to zero in the process of step ST11 of FIG.

  At the time of normal power-on without turning on the RAM clear switch or at the time of recovery from the power failure state, since the backup flag BFL = 5AH, checksum processing is performed next (ST5). The sum value (SUM address value) to be checked here is calculated and stored in the NMI processing (FIG. 6) (ST75), and is held by the backup power source even after the power is shut off. Therefore, unless the power supply voltage drops abnormally fast, the total value obtained by adding 8 bits of data in the RAM area again in the process of step ST5 matches the value of the SUM address. Become.

  If the recalculated total value (8-bit addition) matches the value of the SUM address, the 16-bit data read from the SP storage area (FIG. 6B) is written to the stack pointer SP of the CPU. (ST6). Next, the RAM area data backed up in the NMI process at the time of a power failure is read out, and a backup restoration command is created (ST7 to ST9).

  The payout control board backup return command creation process shown in step ST7 means a preparation operation for rechecking the error signal and outputting a control command according to the current state of the gaming machine to the payout control board 5. For example, if there is an error condition that the lower plate is full before the power failure, the error state is saved by the backup data, but it is highly possible that the player collects the game balls due to the power failure. The current situation is being confirmed.

  In addition, the backup return command creation process (ST8, ST9) for the symbol control board and the lamp control board is a so-called probabilistic state in which the gaming machine before the power failure is in a big hit state or the winning probability is increased. In such a case, the background color of the display device 8 is set in accordance with the operation state, or a sound effect can be generated.

  When the processes of steps ST8 to ST9 are completed, the POP instruction is executed to restore the value of each register from the stack area (ST10). As a result of this processing, the return processing from the time of power-off is completed for the time being, so the backup flag BFL is cleared to zero to indicate that (ST11). Finally, it is checked based on the restored AF register value whether or not the interrupt was prohibited before the power was cut off (ST12), and the processing is finished in the interrupt disabled state or the interrupt enabled state. After returning to (ST13), the process is terminated. When the RET instruction is executed, the value of the PC (program counter) at the time of the PUSH process in the stack area is restored, and the process returns to the process before the power shutdown.

  On the other hand, if the RAM clear switch is in the ON state, the backup flag BFL = 0, or the checksum process indicates an abnormality, the RAM area built in the one-chip microcomputer is cleared to zero (ST14). . The process of step ST14 is executed when the RAM clear switch is turned on, when the SUM address value does not match the recalculated value due to some trouble, or when the CPU runs out of control. A case where the CPU is forcibly reset due to the operation of the watchdog timer or a case where the CPU is forcibly reset due to an illegal action can be considered.

In any of the above cases, the game state until then (or the previous day) disappears by the operation of step ST14. Therefore, even when the CPU runs away or the game hall is closed during the big hit game yesterday. The game is started in a state where the initial state is restored.

  However, in this embodiment, since the value of a specific CT address is used as a big hit counter, this big hit counter CT is also forcibly cleared to zero regardless of the previous value. For this reason, there is a possibility of an illegal game in which the CPU is illegally reset in order to execute this RAM clear process during the game hall operation. In such a case, since the RAM clear switch = OFF and the backup flag BFL = 0, the RAM clear process is performed as intended by the unauthorized player (ST14). However, in this embodiment, thereafter, the sub-board is notified by the control command (RAM clear command) that the main control board 1 has performed the RAM clear process (ST15), and the sub-board is countered. By performing the process, it is possible to prevent an unauthorized player from gaining an unfair advantage. This point will be further described later.

  In any case, after transmitting the RAM clear command, the main control board 1 sets the CPU to the interrupt disabled state (DI) (ST16) and updates the value of the sub-counter BGN that determines the initial value of the big hit counter CT. (ST17). The value of the sub-counter BGN is updated so as to circulate in the same numerical range (0 to MAX-1) as the big hit counter CT. Further, since the update of the sub-counter BGN is performed in a state where the CPU does not accept an interrupt (DI), the sub-counter BGN is being updated and the sub-counter BGN value is used in the timer interrupt process. It will not be done.

  Next, the value of the off symbol counter is updated in a state where the CPU is returned to the interrupt permission state (EI). The out symbol counter determines what kind of out game will be produced when the dismissal state is reached in the jackpot determination in the special symbol processing (ST44) of FIG. In addition, since the update of the off symbol counter and the update of the sub-counter BGN are executed in an infinite loop as shown in FIG. 3, the value of each counter can be used as a random value having sufficient randomness.

FIG. 4 is a flowchart showing the contents of an interrupt processing program of a timer interrupt INT (Maskable Interrupt disabled interrupt) that occurs every 2 msec during the infinite loop processing (ST8) of the main routine shown in FIG. When a timer interrupt occurs, the contents of each register are saved in the stack area (ST20), and then random number generation processing is first performed (ST21). The random number generation processing includes update processing of the winning counter RG and the big hit counter CT used in the lottery operation in the normal symbol processing ST29 and the special symbol processing ST34.

  FIG. 5 illustrates the specific contents of this random number generation process. As shown in FIG. 5 (a), the random number generation process (ST21) includes a hit counter RG update process (ST40) that functions as a hit determination random number and a hit symbol random number generation process for determining a hit symbol. (ST41), update processing (ST42) of the subcounter BGN that functions as an initial value random number, update processing (ST43) of the big hit counter CT that functions as a big hit determination random number, and a big hit symbol for determining the big hit symbol Random number generating process (ST44).

  The sub-counter BGN functioning as an initial value random number is updated in an infinite loop in step ST17 of FIG. 3, but after incrementing (+1) again in the timer interrupt process, the incremented value is in the numerical range (0 to MAX). If it exceeds -1), it is corrected and kept within a predetermined numerical range (ST42). In the big hit determination random number generation process, as shown in FIG. 5C, first, after the big hit counter CT is incremented (ST50), it is determined whether or not a predetermined numerical range is exceeded (ST51). When the value of the big hit counter CT coincides with MAX (CT = MAX), the value is returned to zero (ST52).

  Next, it is determined whether or not the value of the big hit counter CT has reached the initial value START (ST53), and if it has reached the initial value START after going around the numerical value range, it is updated in the process of step ST22. The value of the sub-counter BGN is written to the big hit counter CT (ST54). Further, the value of the sub-counter BGN is written in the START address as a new initial value, and the process ends (ST55). The winning determination random number generation processing is as shown in FIG. 5B (ST60 to ST62). The value of the winning counter RG is the normal symbol processing (ST29) when the game ball passes the gate. ) Used in the lottery operation.

  When the random number generation process (ST21 in FIG. 4) is completed as described above, the timer subtraction process is performed for the timer that manages the time of each game operation (ST22), and then the symbol start port and gate detection switch The signals of various switches including are input and stored (ST23). In addition, each timer subtracted by the process of step ST22 is for managing the opening time of an electric tulip or a special winning opening and other game effect times.

  Subsequently, after the command generated at this stage is transmitted to the corresponding sub-control board (ST24), error management processing is performed (ST25). The error management process is a determination as to whether or not an abnormality has occurred inside the device, such as whether or not the supply of game balls has stopped or the game balls are clogged. Next, after creating a control command for the payout control board (ST26), the control command generated in each of the above processes is transmitted to the corresponding sub-control board (ST27).

  Next, normal symbol processing is performed on the condition that the current operation mode is not the hit mode (ST29). The normal symbol processing means determination as to whether or not to operate an ordinary electric accessory such as an electric tulip. Specifically, when it is determined from the switch input result of step ST23 that the game ball has passed through the gate, the winning counter RG updated in the random number generation process (ST21) is compared with the winning winning value. Done. If the comparison result is a winning state, the operation mode is changed to the winning operation mode. Also, if it is hit, processing for the operation of the ordinary electric accessory such as an electric tulip is performed (ST31).

  Subsequently, necessary control commands are transmitted to the corresponding sub control board (ST32), and special symbol processing is performed on the condition that the current operation mode is not a big hit (ST34). The special symbol process is a determination as to whether or not to operate the first type special electric accessory such as a big prize opening. Specifically, when it is determined from the switch input result of step ST23 that the game ball has passed the symbol start port, the big hit counter CT updated in the random number generation process (ST21) is used as the big win winning value Hit. In contrast to. Then, if the comparison result is a winning state, the operation mode is changed to the big hit mode. Also, if it is a big hit, processing for the operation of the first type special electric accessory such as a big prize opening is performed (ST36).

  Thereafter, the control command generated in each of the above processes is transmitted to the corresponding sub control board. For example, when the special symbol process (ST34) is executed, the symbol changing operation is started in the display device 8 triggered by transmission of the control command regardless of the lottery result. In any case, when the process of step ST37 is finished, the register saved in the process of step ST20 is restored (ST38), and the interrupt process is finished. As a result, normally, the routine returns from the interrupt processing routine to the infinite loop processing (ST16 to ST19) of the main routine.

FIG. 6 is a flowchart showing the contents of an NMI interrupt processing program that occurs when the power supply voltage drops due to a power failure or the like. In this interrupt processing, first, the contents of each register (AF, I, BC, DE, HL) are pushed to the stack area (ST70). Next, the value of the stack pointer SP after execution of the PUSH instruction in step ST70 is stored in the SP storage area of the RAM (ST71). FIG. 6B shows the SP storage area.

  Subsequently, since there is a case where a prize ball is currently being paid out, the state of the prize ball counting switch is detected and stored (ST72). Note that waiting for a predetermined time (ST73) takes into account the time during which the prize ball being paid out moves. Thereafter, after storing the flag value 5AH in the RAM area of the backup flag BFL (ST74), the 8-bit addition operation is sequentially performed on the used area of the RAM, and the addition result (sum value) is stored in the SUM address (ST75). .

  Then, access to the RAM is prohibited, and the CPU waits for the power supply voltage to drop and the CPU to become inoperative (ST76). After that, the CPU becomes non-operating, but since the backup power is supplied to the RAM, the backed up data continues to be stored as it is. That is, the contents of the RAM area are maintained as they are even after the power is completely shut off. Whether or not the data backup process is normally completed and is maintained in a normal state is confirmed by comparing the sum value of the SUM address with the recalculation result of the sum value after power-on. (See ST5 in FIG. 3).

FIG. 7A is a flowchart for explaining control command reception processing in the lamp control board and the voice control board among the sub-control boards. Note that a strobe signal STB is additionally transmitted to each sub-control board when a control command is transmitted. With the transmission of the strobe signal STB, a data reception interrupt process (IRQ INT) shown in FIG. ) Is started.

  In the reception interrupt, the control command is input from the command input port after the register is saved (STIN1). Next, the input control command is analyzed to determine whether it is a RAM clear command (STIN2). The RAM clear command is a control command indicating that the RAM is cleared on the main control board, and is transmitted at the timing of step ST15 in FIG.

If it is determined in step STIN2 that the command is not a RAM clear command, the input control command is stored in the reception buffer (STIN8). The reception buffer has a ring buffer structure, and stores a control command at a location indicated by the write pointer WR POINT. Then, the value of the write pointer WR POINT is updated so as to circulate like a ring buffer (STIN 9). On the other hand, if it is determined in step STIN2 that the RAM clear command has been received, first, an initial value (for example, zero) is set in the RAM area of the sub control board (STIN3).

  In the conventional gaming machine, there was no idea of clearing the RAM area in synchronization with the main control board 1 and a specific sub-control board, so a reset operation based on a watchdog timer occurs in the main control board 1 and game control Even if the operation returns to the initial state, the game state up to that time is maintained in the sub-control board, and as a result, there is a possibility that inconsistency occurs in the game control.

  However, according to the configuration of the present embodiment, when the game control operation of the main control board 1 returns to the initial state, the RAM control processing is performed on the lamp control board and the voice control board, so that no game control mismatch occurs. However, since the RAM clear command is not transmitted to the payout control board 5 and the RAM clear process is not performed, the launch of the game ball is prohibited, or the winning ball action during operation is performed by the CPU of the main control board 1. There is no danger of disappearing due to runaway.

As described above, in the lamp control board 4 and the voice control board 3, the RAM area is cleared based on the reception of the RAM clear command (STIN3), and then the number of times of reception of this control command NUM is incremented (STIN4). If the number of receptions NUM after the increment is NUM = 1, RAM clear notification processing is performed (STIN6), and if NUM> 1, exception notification processing is performed (STIN7). Here, NUM> 1 means that the CPU of the main control board 1 is forcibly runaway by an illegal action in addition to the CPU runaway of the main control board 1 that is hardly possible in technical terms. This is considered to be the case where the CPU is forcibly reset by another method. Of course, the variable NUM is set to zero when the sub control board is powered on.

  The contents of the RAM clear notification process in step STIN6 are set as appropriate, but in this embodiment, the lamp control board 4 and the voice control board 3 are output to the “customer waiting state lamp” in which the gaming machine is output to the unused state. The operations of “display” and “voice output in waiting for customer (including mute)” are started. Note that, regardless of the specific contents of the RAM clear notification process, the process of step STIN6 is immediately terminated, and the original operation in the sub-control board is restored. Further, the operation of the RAM clear notification process started in the process of step STIN6 ends when a predetermined time elapses or the next control command is received.

  Although the specific content of the exception notification process (STIN7) is not particularly limited, for example, it can be considered that the lamp is turned off and the sound is muted. However, since it is highly likely that NUM> 1 is caused by an illegal act, it is conceivable that the lamp blinks flashingly and loudly outputs “Abnormal!”. Regardless of the specific contents of the exception notification process, it is preferable that the exception notification state (STIN 7) be maintained for about 30 seconds. As a result, the occurrence of an abnormal state is well-known and the staff can appropriately respond. Become. Thus, the control command transmitted from the main control board 1 until the execution of the exception notification process is completed is ignored. Instead of the configuration in which the exception notification state (STIN7) is continued for a predetermined time, the processing in step STIN7 may be stopped at the notification operation start processing and immediately shifted to the next processing. However, in this case, it is necessary to take a measure such as transmitting a control command for terminating the notification operation after a predetermined time.

In the above description, the RAM clear state of the sound control board 3 and the lamp control board 4 is notified, but it goes without saying that this operation may be omitted. In the above example, the counter is used. However, instead of the counter, a RAM cleared flag indicating that the RAM has already been cleared may be provided. In this case, the RAM clear flag is set to ON on the condition that the RAM area is cleared (STIN3). Each time a RAM clear command is received, the RAM clear flag is checked. If the flag is already turned on, an exception notification process (STIN 7) is performed. On the other hand, if it is off, a RAM clear notification process ( It is conceivable to perform STIN6). At this time, the RAM cleared flag is set to a plurality of bits (for example, 8 or 1).
6 bits) is preferable, and the setting value set to ON is preferably configured so that the flag contents are not changed by an exceptional situation such as a momentary power failure or noise.

  It is also preferable to change the contents of notification depending on the value of the number of receptions NUM. For example, if 1 <NUM <predetermined value 1, the first exception notification process is executed. If the predetermined value 1 <NUM <predetermined value 2, the second exception notification process is executed, and the predetermined value 2 < In the case of NUM, it may be stepwise so that the third exception notification process is executed. Further, an external signal may be output when an exceptional situation occurs. In this case as well, the type of signal to be output, the output time, and the like may be varied depending on the value of the number of receptions NUM.

Note that whether or not to execute the exception notification process may be determined from the history of received control commands. For example, after the RAM clear command, when the variation pattern command received first is a command for designating a big hit variation pattern (a state in which the big hit lottery on the main control board is won), or the first received stop symbol designation command When it is determined that the game is a big hit (when it is determined that the big win lottery on the main control board is won), the exception notification process may be performed.

  FIG. 7B is a flowchart for explaining control command reception processing in the symbol control board 2 among the sub-control boards. When the symbol control board 2 receives the RAM clear command, the RAM clear notification processing operation is started (STIN 3 '). Further, after the number of receptions NUM is incremented (STIN 4 '), if NUM> 1, the fact is notified to the hall computer and the interrupt process is terminated (STIN 6'). In any case, since the reception interrupt process is immediately terminated, the subsequent control command from the main control board 1 is not missed. The operation of the RAM clear notification process started in step STIN3 'is terminated when a predetermined time elapses or a new control command is received thereafter.

  Subsequently, based on the operation contents of FIGS. 3 to 7, the operation when the RAM of the main control board is illegally cleared is confirmed. FIG. 8 is a time chart for explaining this operation. When the CPU is forcibly reset (t1), the RAM clear process in step ST14 of FIG. 3 is executed (t2 to t3), and then the RAM clear command is sent to the symbol control board 2, the lamp control board 4, and the voice control. It is transmitted to the substrate 3 (t4).

  Then, the RAM clear notification process is started in the symbol control board 2 (STIN3 '), and the RAM clear process (STIN3) and the exception notification process (STIN7) are executed in the lamp control board and the voice control board. The abnormality notification operation in FIG. 8 includes a RAM clear process and an exception notification process.

  During such an operation, the illegal player seems to generate a winning state of the symbol start opening at an optimal timing (t4). Then, since the main control board 1 wins the big win lottery in the special symbol process (ST34), the corresponding control command is transmitted to the sub-control board (ST37).

  In FIG. 8, the transmitted control command is described as a variation pattern command. However, when receiving the control command, the symbol control board 2 interrupts the RAM clear notification operation and starts the symbol variation operation. This is because, in rare cases, the CPU of the main control board runs out of control during a healthy game, and a RAM clear operation occurs. This is because of consideration. That is, even if the game is sound, if the symbol variation is not started after winning the symbol start opening, the sound player is distrusted.

  As described above, the symbol variation operation is started even by an illegal action. On the other hand, the lamp control board and the symbol control board are in the exception notification process at this stage (STIN 7 in FIG. 7), and are transmitted because of the interrupt disabled state. Control commands are ignored. That is, the occurrence of an exceptional condition is still reported. In addition, since the occurrence of an abnormal situation is notified to the hall computer that manages the game hall at the timing t1, the staff can take appropriate measures based on the information. Therefore, no profit can be gained from illegal games.

  The symbol control board 2 determines that the first received variation pattern command is a command that specifies the big hit variation pattern after receiving the RAM clear command, or the first received stop symbol designation command is a big hit. In some cases, exception notification processing may be performed.

Subsequently, a bullet ball game machine to which the present invention is preferably applied will be described for confirmation. FIG.
FIG. 10 is a perspective view showing the pachinko machine 22 of the present embodiment, and FIG. 10 is a side view of the pachinko machine 22. A plurality of pachinko machines 21 are arranged in the length direction of the island structure of the pachinko hall while being electrically connected to the card-type ball lending machine 22.

  The illustrated pachinko machine 21 includes a rectangular frame-shaped wooden outer frame 23 that is detachably mounted on an island structure, and a front frame 24 that is pivotably mounted via a hinge H fixed to the outer frame 23. It consists of A game board 25 is detachably attached to the front frame 24 from the back side, and a glass door 26 and a front plate 27 are pivotally attached to the front side so as to be freely opened and closed.

  The front plate 27 is provided with an upper plate 28 for storing game balls for launch. A lower plate 29 for storing game balls overflowing from or extracted from the upper plate 28 and a launch handle 30 are disposed below the front frame 24. And are provided. The launch handle 30 is linked to a launch motor, and a game ball is launched by a striking rod 31 (see FIG. 12) that operates according to the rotation angle of the launch handle.

  On the right side of the upper plate 28, an operation panel 32 for lending the ball to the card-type ball lending machine 22 is provided, and on this operation panel 32, a card remaining amount display unit 32a for displaying the remaining amount of the card with a three-digit number. A ball lending switch 32b for instructing lending of game balls for a predetermined amount, and a return switch 32c for instructing to return the card at the end of the game. On the upper part of the glass door 26, a big hit LED lamp P1 indicating a big hit state is arranged. In addition, in the vicinity of the big hit LED lamp P1, abnormality notification LED lamps P2 and P3 are provided to indicate a replenishment state or a full state of the lower plate.

  As shown in FIG. 11, the game board 25 is provided with a guide rail 33 formed of a metal outer rail and an inner rail in an annular shape, and the display device 8 (for example, Liquid crystal color display, CRT display, dot matrix, 7 segment LED, etc. are used. In addition, at a suitable place in the game area 25a, a symbol start opening 35, a big winning opening 36, a plurality of normal winning openings 37 (four on the right and left of the big winning opening 36), and a gate 38 which is two passage openings are arranged. Has been. Each of these winning openings 35 to 38 has a detection switch inside, and can detect the passage of a game ball.

  The display device 8 is a device that variably displays a specific symbol related to the big hit state and displays a background image and various characters in an animated manner. The display device 8 has special symbol display portions Da to Dc in the center portion and a normal symbol display portion 39 in the upper right portion. The normal symbol display unit 39 displays a normal symbol. When a game ball that has passed through the gate 38 is detected, the displayed normal symbol fluctuates for a predetermined time and is extracted when the game ball passes through the gate 38. The stop symbol determined by the random number for lottery is displayed and stopped.

  For example, the symbol start opening 35 is configured to be opened and closed by an electric tulip having a pair of left and right opening and closing claws 35a. When the stop symbol after fluctuation of the normal symbol display unit 39 displays a winning symbol, the symbol start port 35 is opened and closed. The claw 35a is opened only for a predetermined time. When a game ball wins the symbol start opening 35, the display symbols of the special symbol display portions Da to Dc change for a predetermined time, and are determined based on a lottery result corresponding to the winning timing of the game ball to the symbol start opening 35. Stop at the stop symbol.

  The big winning opening 36 is controlled to open and close by, for example, an opening / closing plate 36a that can be opened forward, but when the stop symbol after the symbol change of the special symbol display portions Da to Dc is a big hit symbol such as “777”, “big hit” Is started, and the open / close plate 36a is opened. There is a specific area 36b inside the big winning opening 36, and when the winning ball passes through the specific area 36b, a special game advantageous to the player is continued.

  After the opening / closing plate 36a of the big winning opening 36 is opened, the opening / closing plate 36a is closed when a predetermined time elapses or when a predetermined number (for example, 10) of game balls wins. At this time, if the game ball does not pass through the specific area 36b, the special game ends, but if it passes through the specific area 36b, the special game is continued up to, for example, 15 times, which is advantageous to the player. To be controlled. Furthermore, when the stop symbol after the change is a special state occurrence symbol among the special symbols, a special state is generated.

Any of the following is suitable as an example of the special state. That is, (1) a special symbol high probability state in which the probability that the stop symbol after the symbol change in the special symbol display section is a big hit symbol such as “777” is higher than that in the case of the non-special state, Compared to the special state, the extra prize opening opening time is extended so that more game balls are easier to win, and (3) the non-special state game balls. In order to make it easier for more game balls to win, it is easier to win more game balls than when the number of times of opening of the big prize opening is increased to increase the number of opening of the big prize opening or (4) non-special conditions. Normal symbols that increase the probability that a stop symbol after symbol variation in the normal symbol display section will be a winning symbol compared to the state where the amount of opening of the big prize opening that increases the mouth opening amount or (5) non-special state Compared to the high probability state and (6) non-special state, Increase the number of times the electric tulips are opened to increase the number of game balls that can be won more easily than in the non-special state (7). Compared to the state or (8) non-special state, the electric tulip opening amount increase state that increases the opening amount of the electric tulip so that more game balls can be won easily, or (9) in the non-special state Compared to the special symbol fluctuation shortened state that shortens the variation time of the special symbol, compared to (10) non-special state, the effective stop line increased state that increases the effective stop line of the special symbol, (11) non- Compared to the special state, a normal symbol variation shortened state in which the variation time of the normal symbol is shortened can be considered.

  Any of these may be combined, and the generated special state is preferably terminated when a predetermined condition is satisfied. Here, the predetermined condition is a predetermined pattern change of the special symbol display part, a predetermined fluctuation of the normal symbol display part, a lapse of a predetermined time, a predetermined symbol after the fluctuation of the normal symbol display part, Typically, when a predetermined symbol is stopped and displayed after the symbol change in the special symbol display unit, a game ball wins a predetermined winning opening, a game ball passes through a predetermined gate, and the like.

  As shown in FIG. 12, on the back side of the front frame 24, a back mechanism plate 40 for holding the game board 25 from the back side is detachably mounted. An opening 40a is formed in the back mechanism plate 40, and a prize ball tank 41 and a tank rail 42 extending therefrom are provided on the upper side thereof. A payout device 43 connected to the tank rail 42 is provided on the side of the back mechanism plate 40, and a passage unit 44 connected to the payout device 43 is provided below the back mechanism plate 40. The game ball paid out from the payout device 43 is paid out to the upper plate 28 from the upper plate discharge port 28a (FIG. 9) via the passage unit 44.

  The opening 40a of the back mechanism plate 40 is fitted with a back cover 45 mounted on the back side of the game board 25 and a winning ball discharge basket (not shown) for discharging the game balls won in the winning holes 35 to 37. Has been. The main control board 1 is disposed inside the case CA1 attached to the back cover 45, and the symbol control board 2 is disposed on the front side thereof (see FIG. 23). Below the main control board 1, the lamp control board 4 is provided in the case CA2 attached to the back cover 45, and the sound control board 3 is provided in the adjacent case CA3.

Below these cases CA2 and CA3, a power supply board 6 and a payout control board 5 are provided in a case CA4 mounted on the back mechanism plate 40. A power switch 53 and a RAM clear switch 54 are disposed on the power board 6. The parts corresponding to both the switches 53 and 54 are notched, and both switches can be operated simultaneously with a finger. Inside the case CA5 attached to the rear side of the firing handle 30, a firing control board 7 is provided. And these circuit boards 1-7 are each comprised independently, and the computer circuit provided with the one-chip microcomputer is mounted in the control boards 2-6 except the power supply board 6 and the launch control board 7. FIG.

  As mentioned above, although one Example of this invention was described concretely, the game machine of this invention can be suitably changed not only in the structure of each above-mentioned Example. For example, in the above embodiment, the main control board and the plurality of sub-control boards are set as different board configurations, and the control command from the main control board is transmitted by one-way communication. For example, the configuration of FIG. Any combination configuration is possible. In FIG. 14, an arrow indicates a transmission direction of a signal such as a control command. For example, an acknowledgment signal (ACK) may be returned as shown in FIG. Further, the voice control board does not need to be configured as an independent circuit board, and may be a composite board with another control unit as shown in FIGS.

  The application of the present invention is not limited to the pachinko machines having the above-described configurations. For example, the present invention can be suitably applied to a spinning game machine that includes a main control board and a sub control board and has a navigation function. Here, the navigation function is a function that correctly teaches the stop operation timing of the rotating reel of the spinning cylinder machine and the rotating reel to be stopped. This navigation function is realized by a sub-control board, and whether or not to perform navigation is randomly determined by the navigation lottery unit 60.

  More specifically, in relation to the navigation lottery unit 60, a random number generation unit 61 that generates a random number sequence, a plurality (= N) lottery tables 62 in which the winning probability is divided into a plurality of stages (= N), And a table selection unit 63 for determining which of a plurality of lottery tables to use. In general, the portion excluding the random number generation unit 61 is configured by software so as to exhibit the above-described functions.

  In the spinning cylinder machine having the above-described configuration, the table selection unit 62 is set so that the lottery table 63 having the highest winning probability is selected in the power reset state of the CPU after the power is turned on. After that, the predetermined lottery table is selected again by a control command transmitted from the main control board. By such an operation, the winning probabilities on the main control board and the sub control board are matched, and in a gaming machine in which a big hit state is likely to occur, the navigation function is also frequently executed, which gives a great benefit to the player.

  However, there are also concerns about illegal games that illegally forcibly reset the CPU of the sub-control board by exploiting the above operation. Therefore, in this embodiment, the occurrence of the reset signal is counted, and when the count value is not 1 (> 1), the occurrence of the abnormal situation is visually and audibly notified by the operation of the drive control unit 65. I have to. By performing such an abnormality notification, illegal activities can be detected immediately. In order to realize the count operation, it is easy to provide a hardware count 64 or to use a register that is not used in a program (for example, index registers IX and IY in the case of Z80 CPU. Needless to say, the operation is not limited to the count operation, but may be a storage unit (such as a flip-flop or a register) that stores a specific value at the first CPU reset.

In addition, the present invention is intended to provide effective notification without prohibiting game operation or payout operation even in the occurrence of an abnormal situation greatly related to the profit of the player. Embodiments are also conceivable. In addition to the above-mentioned examples, the ratio of determining whether or not to enter the probability variation mode after the jackpot game ends, and the opening time of the electric tulip and the big prize opening are extended as much to relate to the profit of the player The determination ratio of whether or not, the determination ratio of whether or not to increase the number of times of opening of the big winning opening in the big hit game, etc. can be considered, and even when these determination ratios are changed unnaturally during the game operation, a notification is also given It is effective. As a notification means, an appropriate display device may be used in addition to the voice notification and the lamp notification as described in the embodiments. For example, it is not limited to a liquid crystal display or a plasma display, but may be a belt, a chain, a rotating body, or the like.

  Regardless of the above-described embodiments, it is also preferable to make the payout control board 5 that greatly affects the player's profit function more effectively. First, the operation of the payout control board 5 will be described in relation to the operation of the main control board 1. When the power is turned on, a payout operation start command is always transmitted from the main control board 1 to the payout control board 5. This payout operation start command allows the payout control board 5 to permit the payout operation, and thereafter waits for either the payout operation stop command or the payout operation start command to be transmitted from the main control board 1. become. On the other hand, the main control board 1 always manages what is the last command sent to the payout control board 5.

  In the gaming machine that realizes such an operation, it is preferable that the payout control board 5 manages the history of the received control command, and returns a confirmation signal to the main control board 1 after receiving the control command. It is. In the case of such a configuration, when a control command that is not likely to be received by the payout control board 5 is received, it can be notified to the main control board 1. In this case, a control command to that effect can be transmitted from the main control board 1 to the sub control board. Note that a control command for notifying the sub-control board directly may be transmitted from the payout control board 5.

ST34 Lottery means (big hit lottery process)
ST21 Random number generation means (random number generation processing)

Claims (6)

  A gaming machine in which a first lottery process for determining whether or not a profit state advantageous to a player is generated is provided in a first control unit, and a change in the operating state of the first control unit is notified when necessary. A gaming machine characterized in that a notification means is provided.   The notification unit is provided in the second control unit so as to function based on a control command from the first control unit. When the notification unit functions, the second control unit is synchronized with the notification operation. The gaming machine according to claim 1, wherein the game machine is configured to return the operation to the initial state.   The notification unit is provided in the second control unit so as to function based on a control command from the first control unit, and when the notification unit functions, the corresponding process is completed thereafter. The gaming machine according to claim 1, wherein the gaming machine is configured not to perform an operation based on the received control command.   A first lottery process for determining whether or not to generate a profit state advantageous to a player and a second lottery process for determining whether or not to notify the generated profit state are provided, and the second lottery process is executed. A gaming machine comprising a notification means for notifying a change in the operating state of the control unit when necessary.   A detection means for detecting that the operation state of the first control unit and / or the second control unit is returned to the initial state is provided, and the notification means is configured to function based on the detection result. The gaming machine according to any one of claims 1 to 4.   The gaming machine according to any one of claims 1 to 5, wherein the informing means functions in a state in which gaming operation and payment of gaming media are not prohibited.

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