JP4852239B2 - Slot machine using game balls - Google Patents

Description

  The present invention relates to a slot machine that can generate a predetermined winning according to a display result of a variable display device capable of variably displaying a plurality of types of symbols that can be distinguished from each other. In particular, the number of bets is set using game balls The present invention relates to a slot machine using a game ball capable of playing a game.

  Conventionally, slot machines that can play games using medals as game media are generally used. In recent years, these medal-type slot machines have also been installed on game islands where existing pachinko machines are installed. Since there is a desire to do so, some slot machines capable of playing games using game balls instead of medals as game media have been proposed (see, for example, Patent Document 1).

  A slot machine using a game ball includes a take-in device for taking in a game ball waiting on an upper plate or the like, for example. The take-in device takes a game ball into the inside, and a predetermined number of game balls are The game can be executed on the condition that it has been taken in, and a game ball is paid out according to the result of the game.

  Also, in general, game machines have a backup of the control state so that they can return to the control state before the power interruption even when the power interruption is restored, and control is also possible in the slot machine using game balls. A state backup can be considered.

  In gaming machines that perform backup of the control state in this manner, the control state that is backed up at the time of power interruption may be destroyed, and may not be recovered normally at the time of power failure recovery. For this reason, a power interruption detection means for detecting power interruption is provided, and when power interruption is detected by the power interruption detection means, data for checking whether the control state at that time is normal (for example, parity or the like) Have been proposed to perform a power interruption process for setting the calculation result of the backup data.

  On the other hand, the power interruption detection means sometimes picks up noise or the like and erroneously detects power interruption, and in this case, there is a problem that the control means is in a stopped state even though the power interruption is not performed. It will occur. For this reason, it is proposed to monitor the power interruption detection signal from the power interruption detection means after executing the power interruption processing, and to return to the original control state when the power interruption detection signal is not input. (For example, refer to Patent Document 2).

JP 2003-135671 A Published practical use Heisei 4-67733 gazette

  In the technique described in Patent Document 2, a power interruption detection signal from the power interruption detection means is monitored after the power interruption processing is executed, and when the power interruption detection signal is not input, the original control state is restored. Therefore, even if the power interruption detection means picks up noise or the like and erroneously detects power interruption, it is possible to return to the original control state. Since it is executed, the control is interrupted for a longer time than necessary, and the load is more than necessary.

  The present invention has been made paying attention to such problems, and when a power interruption is detected, a game ball that performs a power interruption process for returning to the control state before the power interruption at the time of power restoration It is an object of the present invention to provide a slot machine using a game ball that can prevent a power interruption process from being erroneously performed when a power interruption is erroneously detected.

In order to solve the above-mentioned problem, a slot machine using a game ball according to claim 1 of the present invention,
A game can be started by setting a predetermined number of bets for one game using a game ball, and a display result of a variable display device capable of variably displaying a plurality of types of identification information each identifiable A slot machine that uses a game ball that has been completed and one game is completed and a winning can be generated according to the display result of the variable display device,
A power interruption detection means for monitoring a state of predetermined power used in the slot machine using the game ball and outputting a power interruption signal when a power interruption condition related to the interruption of power supply is established; ,
A main control means for controlling a game, comprising a microcomputer having an interrupt input terminal for generating an external interrupt when a signal is input, and a normal input terminal;
A payout device for paying out the game ball based on the occurrence of a payout award with payout of the game ball;
A payout ball detecting means for detecting a game ball paid out by the payout device and outputting a detection signal each time the detected number of game balls reaches a predetermined number;
A payout ball number display means for displaying information relating to the number of payout balls paid out by the payout device based on the occurrence of the payout prize;
Sub-control means connected to the main control means for controlling the payout device;
With
The power interruption detection means outputs the power interruption signal to both an interrupt input terminal and a normal input terminal of the microcomputer,
The payout ball detection means outputs the detection signal to both the main control means and the sub control means,
The main control means includes
A power interruption interrupt process executing means for executing a power interruption interrupt process according to the external interrupt ;
An unpaid-out ball number storage means for storing an unpaid-out number of unpaid out of the number of game balls according to the payout prize;
Unpaid ball number setting means for setting the number of game balls corresponding to the payout prize when the payout / winning occurs, as an unpaid ball number in the unpaid ball number storage means;
A payout request signal output means for outputting, to the sub-control means, a payout request signal requesting payout of game balls having an unpaid-out number of balls set in the unpaid-out ball number storage means when the payout winning is generated. When,
Each time the detection signal is output from the payout ball detection means, a payout ball number display update means for updating and displaying information on the payout ball number displayed on the payout ball number display means;
Unpaid ball number update means for subtracting and updating the unpaid ball number stored in the unpaid ball number storage means each time the detection signal is output from the payout ball detection means;
Including
The interruption processing execution means at the time of power interruption
The power interruption signal determination means for monitoring the normal input terminal in the interruption processing at the time of power interruption and determining whether or not the power interruption signal is input,
When the power interruption signal determination means determines that the power interruption signal is input to the normal input terminal, the power interruption processing is executed to restore the control state before the power interruption when the power interruption is restored. Disconnection process execution means;
When the power interruption signal determining means determines that the power interruption signal is not input to the normal input terminal, the power interruption processing stopping means for returning to the interrupt source process without performing the power interruption process; ,
Only including,
The sub-control means includes
When detecting the payout request signal, the payout device starts payout control for paying out the number of game balls required by the payout request signal, and is specified by the detection signal output from the payout ball detecting means. Payout control means for ending the payout control when the number of game balls reaches the number of game balls requested by the payout request signal;
A payout control start signal output means for outputting a payout control start signal to the main control means when the payout control is started;
A payout control signal output means for outputting a payout control signal to the main control means during the payout control,
A payout control end signal output means for outputting a payout control end signal to the main control means when the payout control is completed;
Including
The unpaid ball count storage means can hold the memory of the unpaid ball count even when power supply is stopped,
The payout request signal output means requests payout of game balls having the remaining unpaid ball number when the unpaid ball number stored in the unpaid ball number storage means remains at the time of restoration of power interruption. A payout request signal is output to the sub-control means;
The main control means further includes a transition permitting means for allowing a transition to the next game on condition that the payout control signal is output after the payout request signal output means outputs the payout request signal.
It is characterized by that.
According to this feature, power interruption interrupt processing is executed in response to an external interrupt caused by the input of a power interruption signal to the interrupt input terminal. Before it is done, it is determined whether or not a power interruption signal is input to the normal input terminal, and when it is determined that a power interruption signal is input to the normal input terminal, power interruption processing is performed. When it is determined that the power interruption signal is not input to the normal input terminal, the process returns to the original process. In other words, the power interruption signal is input to the two terminals of the interrupt input terminal and the normal input terminal, and the interruption processing is executed when the power interruption signal is input to the interrupt input terminal. In addition, it is determined whether or not the power interruption signal is input to the normal input terminal before the power interruption processing is executed, and the power interruption processing is executed only when the power interruption signal is input to the normal input terminal. If the power interruption is detected by mistake, it is possible to prevent the power interruption processing from being performed. Can be prevented from being interrupted or being unnecessarily burdened.
Note that the predetermined number of bets is at least one bet number, and a game can be started by setting a bet number of two or more or setting a maximum bet number. good.
In a game in which a payout / winning has occurred, the main control means requests the payout of the number of game balls corresponding to the payout / winning, and then the payout is output when the payout control based on the payout request is completed from the sub-control means. Transition to the next game is allowed on condition that the control end signal is detected. In other words, the game balls are not paid out based on the occurrence of the payout prize because the transition to the next game is allowed by completing the payout of the number of game balls to be paid out based on the occurrence of the payout prize. Regardless, it is possible to prevent transition to the next game.
Further, since the information regarding the number of paid-out balls paid out by the pay-out device based on the occurrence of the pay-out / winning is displayed on the pay-out ball number display means, the number of game balls paid out due to the occurrence of the payout / winning prize is displayed. Can make it easy to recognize. Further, the main control means updates and displays information on the number of payout balls displayed on the payout ball number display means every time the payout ball detection means detects a predetermined number of game balls paid out by the payout device. It is possible to accurately notify the game ball payout status.
In addition, when power is cut off, the memory of unpaid balls is held only by the main control means, and when the power is restored, the number of unpaid balls held by the main control means remains. Further, the sub-control means is requested to pay out the game balls having the number of unpaid balls, and the sub-control means pays out the number of unpaid balls at the time of power interruption based on the request. Therefore, at the time of power failure recovery, the sub-control unit only needs to perform normal payout control based on the payout request information retransmitted from the main control unit, so the contents backed up by the main control unit and the sub-control unit respectively. Therefore, it is not necessary to make the adjustments consistent with each other, and the control at the time of power failure recovery is not complicated.
The sub-control unit may be directly connected to the main control unit, or may be connected via a relay board or the like.
The payout ball number display updating means detects the payout ball displayed on the payout ball number display means based on detecting a predetermined number of detection signals directly input from the payout ball detection means to the main control means. The information relating to the number may be updated and displayed, or when the sub control means detects a detection signal from the payout ball detection means, a detection signal indicating that is output to the main control means, and the sub control means Based on detecting a predetermined number of detection signals output from the control means, information relating to the payout ball number displayed on the payout ball number display means may be updated and displayed. Further, when the sub-control means detects a predetermined number of detection signals from the payout ball detection means, a detection signal indicating that is output to the main control means, and the detection signal output from the sub-control means is detected. Based on this, information regarding the number of payout balls displayed on the payout ball number display means may be updated and displayed.
Further, the information regarding the number of payout balls may be, for example, the number of payout balls, or may be a value obtained by dividing the number of payout balls by the number of unit balls necessary to set the bet number, In the former case, it is possible to accurately notify the number of payout balls, whereas in the latter case, the player can easily grasp the size of the bet number that can be set by the number of payout balls. . In addition, the predetermined number here corresponds to one ball in the former case, and corresponds to the number of unit balls in the latter case, and in the former case, the payout ball every time one payout ball is detected. In the latter case, the information on the number of payout balls is updated every time a payout ball of the number of unit balls is detected.
Further, the unpaid ball number updating means detects unpaid balls stored in the unpaid ball number storage means based on detecting a detection signal directly inputted from the payout ball detection means to the main control means. The number may be updated by subtraction, or when the sub control means detects a detection signal from the payout ball detection means, a detection signal indicating that is output to the main control means, and the sub control means The number of unpaid balls stored in the unpaid ball count storage means may be subtracted and updated based on detecting the detection signal output from.
The output form of the payout request signal by the payout request signal output means may be a pulse signal, a parallel signal or a serial signal.
The payout control start signal output means, the payout control signal output means, and the payout control end signal output means are configured to send a payout control start signal, a payout control signal, and a payout control end signal to one type of signal path (for example, 1-bit pulse signal or the like) or a signal path for each signal (for example, a 1-bit pulse signal or the like). Further, the output form of each signal may be a pulse signal, a parallel signal, or a serial signal, like the payout request signal.

A slot machine using the game ball according to claim 2 of the present invention is a slot machine using the game ball according to claim 1 ,
The main control means includes
A payout control abnormality determining means for determining an abnormality associated with the payout control on the sub-control means side;
A payout abnormality notifying means for notifying the abnormality when the payout control abnormality determining means determines an abnormality associated with the payout control;
Including
The main control means continues to detect the payout control start signal, the payout control in-progress signal and the payout control end signal output from the sub-control means even when the payout abnormality notifying means is notifying the abnormality. To do,
It is characterized by that.
According to this feature, even when the main control means determines an abnormality associated with the payout control and is informing that effect, the payout control start signal, the payout control in-progress signal, and the payout control end signal output from the sub-control means. Therefore, even in such a case, the main control means can grasp the state of the payout control by the sub control means.
The payout abnormality notification means may notify an abnormality associated with the payout control by a lighting state of a lamp, a display state of a display, an audio output, or the like, or a signal indicating an abnormality associated with the payout control may be called. You may make it alert | report the said abnormality by outputting to peripheral devices, such as a lamp | ramp and a hall computer.

A slot machine using the game ball according to claim 3 of the present invention is a slot machine using the game ball according to claim 2 ,
The main control means includes abnormality notification ending means for automatically ending abnormality notification by the payout abnormality notification means when the payout abnormality notification means detects the payout control end signal during the abnormality notification. ,
It is characterized by that.
According to this feature, when the main control means determines an abnormality associated with the payout control and detects a payout control end signal from the sub-control means during the notification to that effect, that is, the payout control by the sub-control means is normally completed. In such a case, since the abnormality notification by the payout abnormality notification means is automatically terminated, it is possible not only to prevent the game from being disturbed as much as possible, but also to save the trouble of performing the notification canceling operation.

A slot machine using the game ball according to claim 4 of the present invention is a slot machine using the game ball according to any one of claims 1 to 3 ,
The transition permitting means detects the payout control end signal from the sub-control means regardless of whether or not the number of game balls detected by the payout ball detection means has reached the number of game balls according to the payout prize. Allow the transition to the next game,
It is characterized by that.
According to this feature, the main control means detects a payout control end signal from the sub control means even when the payout of the number of game balls requested to the sub control means cannot be confirmed based on the detection of the payout ball detection means. Thus, it is allowed to shift to the next game. That is, even if the main control means misses the detection of the payout ball detection means, it is possible to proceed to the next game if the sub-control means that actually controls the payout has successfully completed the payout control. Therefore, the game can be progressed quickly.

A slot machine using the game ball according to claim 5 of the present invention is a slot machine using the game ball according to any one of claims 1 to 4 ,
Provided corresponding to a lending device that outputs the gaming ball lending request using the valuable value stored in the storage medium,
The sub-control means includes
A connection confirmation signal input means for inputting a connection confirmation signal output from the lending device;
Lending control for paying out the number of game balls required by the lending request by the paying device on condition that the connection confirmation signal is input to the connection confirmation signal input means when the lending request is detected Lending control means for
A connection specifying signal transmitting means for outputting to the main control means a connection specifying signal capable of specifying whether or not the connection checking signal is input to the connection checking signal input means;
Including
The main control means includes an intake control disable means for disabling the intake control when a connection specifying signal indicating that the connection confirmation signal is not input is input to the connection confirmation signal input means. Including,
It is characterized by that.
According to this feature, when the lending request is detected from the lending device, the lending device and the gaming machine are rented on the condition that the lending device and the slot machine using the gaming ball are connected. When a slot machine using a ball is not connected normally, it is possible to prevent a gaming ball from being rented, and when a lending device and a slot machine using a game ball are not connected Since the game ball take-in control is not performed to play a new game, the connection between the lending device and the slot machine using the game ball can be ensured when the game is played. Further, the main control means specifies whether or not the lending device and the slot machine using the game ball are connected based on the connection specifying signal output from the sub-control means, and the main control for controlling the game Since a signal from a lending device outside the slot machine using a game ball as a means is not directly input, an illegal signal is input from the outside to the main control means and affects the game control. Can be prevented.

A slot machine using the game ball according to claim 6 of the present invention is a slot machine using the game ball according to any one of claims 1 to 4 ,
Provided corresponding to a lending device that outputs the gaming ball lending request using the valuable value stored in the storage medium,
The sub-control means includes
First connection confirmation signal input means for inputting a connection confirmation signal output from the lending device;
When the lending request is detected, the number of game balls requested by the lending request is paid out by the paying device on condition that the connection confirmation signal is input to the first connection confirmation signal input means. A lending control means for performing lending control;
Including
The main control means includes
Second connection confirmation signal input means for inputting a connection confirmation signal output from the lending device;
An intake control disabling means for disabling the intake control when the connection confirmation signal is not input to the second connection confirmation signal input means;
including,
It is characterized by that.
According to this feature, when the lending request is detected from the lending device, the lending device and the gaming machine are rented on the condition that the lending device and the slot machine using the gaming ball are connected. When a slot machine using a ball is not connected normally, it is possible to prevent a gaming ball from being rented, and when a lending device and a slot machine using a game ball are not connected Since the game ball take-in control is not performed to play a new game, the connection between the lending device and the slot machine using the game ball can be ensured when the game is played. In addition, since the main control means and the sub control means are each input with a connection confirmation signal output from the lending device, it is specified whether or not the lending device and the slot machine using the game ball are connected. Both the main control means and the sub-control means can reliably determine whether the lending device is connected.

A slot machine using the game ball according to claim 7 of the present invention is a slot machine using the game ball according to any one of claims 1 to 6 ,
A game ball storage unit for storing game balls owned by the player;
An acquisition request operation unit operated when requesting the acquisition of the game balls stored in the game ball storage unit;
A take-in device for taking in a game ball stored in the game ball storage unit;
Incorporating game ball detecting means for detecting a game ball captured by the capturing operation of the capturing device;
With
The main control means includes
When the capture request operation unit is operated, capture control means for performing capture control for capturing a game ball by the capture operation of the capture device;
A bet number setting means for setting a bet number each time a game ball of a unit ball number necessary for setting a bet number of one unit by the take-in operation of the take-in device is taken in;
Including
The uptake control means includes
Capture that causes the capture device to perform a capture operation of a specified amount of motion regardless of whether or not a game ball is stored in the game ball storage unit by operating the capture request operation unit An operation control means;
Number of acquired game balls for determining whether or not the number of game balls corresponding to the number of acquisition requests by the operation of the acquisition request operation unit has been detected by the acquisition game ball detecting means after the acquisition operation is completed A determination means;
When it is determined that the number of game balls corresponding to the number of acquisition requests is not detected by the acquisition game ball detection means by the acquisition game ball number determination means, the acquisition operation of the specified operation amount Taking-in operation re-control means for causing the taking-in device to perform again,
When it is determined by the acquisition game ball number determination means that the number of game balls corresponding to the number of acquisition requests by the operation of the acquisition request operation unit is detected by the acquisition game ball detection means, or the acquisition Capture control end means for terminating capture control when the retry count of the capture operation by the operation recontrol means reaches a predetermined number;
including,
It is characterized by that.
According to this feature, when the take-in request operation unit is operated, the take-in operation of the specified operation amount is performed regardless of whether or not the game ball is stored in the game ball storage unit. As compared with a slot machine using game balls, it is possible to quickly take in game balls, and the game can proceed smoothly. In addition, after the completion of the capture operation, if the number of game balls corresponding to the number of capture requests is not captured, the capture operation of the specified operation amount is performed again, and the retry count of the capture operation is If the number of game balls corresponding to the number of acquisition requests is not acquired even if the predetermined number of times is reached, a series of acquisition control is completed, so that the inconvenience that the acquisition operation is performed endlessly can be prevented. .
Note that the operation amount of the capture operation corresponds to, for example, the number of steps of the motor when the capture operation of the capture device is executed in the stepping motor. Further, when the take-in operation of the take-in device is executed by driving the solenoid, the number of times of drive corresponds. Further, when the take-in operation of the take-in device is executed in a motor other than the stepping motor, the drive time of the motor corresponds.

A slot machine using the game ball according to claim 8 of the present invention is a slot machine using the game ball according to any one of claims 1 to 6 ,
A game ball storage unit for storing game balls owned by the player;
An acquisition request operation unit operated when requesting the acquisition of the game balls stored in the game ball storage unit;
A take-in device for taking in a game ball stored in the game ball storage unit;
Incorporating game ball detecting means for detecting a game ball captured by the capturing operation of the capturing device;
With
The main control means includes
When the capture request operation unit is operated, capture control means for performing capture control for capturing a game ball by the capture operation of the capture device;
A bet number setting means for setting a bet number each time a game ball of a unit ball number necessary for setting a bet number of one unit by the take-in operation of the take-in device is taken in;
Including
The uptake control means includes
Regardless of whether or not game balls are stored in the game ball storage unit due to the operation of the acquisition request operation unit, the amount of movement corresponding to the number of acquisition requests by the operation of the acquisition request operation unit Capture operation control means for causing the capture device to perform the capture operation of
An acquisition game ball number determination means for determining whether or not the number of game balls corresponding to the amount of operation is detected by the acquisition game ball detection means after the acquisition operation is completed;
When it is determined that the number of game balls corresponding to the movement amount is not detected by the capture game ball detection means by the capture game ball number determination means, the capture game balls are calculated from the capture request number. A take-in operation re-control unit that causes the take-in device to re-take the take-in operation of the operation amount corresponding to the shortage number obtained by subtracting the number of game balls detected by the detection unit;
When it is determined that the number of game balls corresponding to the amount of movement is detected by the acquisition game ball detection means by the acquisition game ball number determination means, or the acquisition operation re-control means restarts the acquisition operation. Capture control termination means for terminating capture control when the number of trials reaches a predetermined number of times;
including,
It is characterized by that.
According to this feature, when the acquisition request operation unit is operated, the number of acquisition requests according to the operation of the acquisition request operation unit is determined regardless of whether or not the game ball is stored in the game ball storage unit. Since the operation amount taking-in operation is performed, it is possible to take in the game ball quickly as compared with the conventional slot machine using the game ball, and the game can proceed smoothly. In addition, when the number of game balls corresponding to the operation amount is not acquired after the acquisition operation is completed, the operation amount acquisition operation corresponding to the shortage is performed again and the acquisition operation is retried. Even if the number of times reaches a predetermined number, if a number of game balls corresponding to the amount of movement are not taken in, a series of taking-in control is completed, so that it is possible to prevent inconvenience that the taking-in operation is performed endlessly. .
Note that the operation amount of the capture operation corresponds to, for example, the number of steps of the motor when the capture operation of the capture device is executed in the stepping motor. Further, when the take-in operation of the take-in device is executed by driving the solenoid, the number of times of drive corresponds. Further, when the take-in operation of the take-in device is executed in a motor other than the stepping motor, the drive time of the motor corresponds.

A slot machine using the game ball according to claim 9 of the present invention is a slot machine using the game ball according to claim 7 or 8 ,
The take-in control means is configured to respond to an operation of the take-in request operation unit when the take-in request operation unit is operated in a state where a game ball has been taken in by a take-in operation of the take-in device. Including an acquisition request number setting means for setting, as the acquisition request number, a number obtained by subtracting the number of game balls already acquired from a predetermined acquisition specified number;
It is characterized by that.
According to this feature, when a take-in request operation unit is operated in a state where a game ball has already been taken in by a take-in operation of the take-in device, a game that has already been taken in from the designated number of take-ins according to the operation Since the number obtained by subtracting the number of balls is set as the number of take-in requests, and the game ball is taken in based on the set number of take-in requests, the game balls can be taken in more quickly. .

Slot machine with game balls according to claim 1 0 of the present invention is a slot machine using the game ball according to any one of claims 1 to 9
The main control means includes
Data storage means for storing data relating to the control state of the main control means;
Initialization processing execution means for executing initialization processing for initializing at least part of data stored in the data storage means;
External interrupt processing prohibiting means for prohibiting the external interrupt during the initialization process;
including,
It is characterized by that.
According to this feature, even if a power interruption is detected during initialization of at least a part of the data related to the control state of the main control means stored in the data storage means, the interruption processing at the time of power interruption is executed. Therefore, for example, by performing the interruption processing at the time of power interruption at the stage before the initialization process is completely completed, the initialized data and the uninitialized data among the data to be initialized Therefore, it is possible to prevent problems such as being unable to normally return to the control state before power interruption when power is restored.
When there are a plurality of data to be initialized in the initialization process, the initialization processing means initializes the plurality of data in a predetermined order, and the external interrupt process prohibiting means should initialize the data. It is preferable to prohibit external interrupts during the period from the start of initialization of the first data of a plurality of data to the end of initialization of the last data. It is possible to reliably prevent problems that may occur at the time of disconnection recovery.
The data storage means may be built in a microcomputer constituting the main control means or may be provided outside the microcomputer.

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

  A gaming machine according to an embodiment to which the present invention is applied will be described with reference to the drawings. In the slot machine 1, which is a gaming machine according to the present embodiment, as shown in FIG. The reels 2L, 2C, and 2R are juxtaposed in the horizontal direction, and three consecutive symbols out of the symbols arranged on the reels 2L, 2C, and 2R can be seen from the see-through window 3 provided on the front surface of the slot machine 1. Are arranged as follows.

  The reels 2L, 2C, and 2R are rotated by reel motors 34L, 34C, and 34R (see FIG. 7) provided correspondingly, so that the symbols of the reels 2L, 2C, and 2R are continuous with the see-through window 3. In addition to the display being changed, the rotation of the reels 2L, 2C, and 2R is stopped so that three consecutive symbols are derived and displayed on the fluoroscopic window 3 as display results.

  In addition, an upper plate 12 for storing the pachinko balls used in the game and the pachinko balls paid out from the payout device 200 is provided below the fluoroscopic window 3, and the upper plate 12 is provided below the upper plate 12. A lower plate 11 for storing pachinko balls taken in and discharged (returned) by the loading device 100 is provided. An outlet 11a for taking out pachinko balls stored in the lower dish 11 is formed on the bottom surface of the lower dish 11, and the outlet is removed by a sliding operation of a lever 11b provided at the front of the lower dish 11. By opening the shutter 11c that closes 11a, the pachinko balls stored in the lower plate 11 flow out into a ball box or the like (not shown) disposed below the lower plate 11, and the pachinko balls stored in the lower plate 11 Can be taken out easily.

  Further, the slot machine 1 is allowed in one game from the 1BET switch 5 and the upper plate 12 which are operated when instructing to take in the number of pachinko balls necessary to set one bet from the upper plate 12. The maximum bet number (3 in the present embodiment) is set by the operation of the MAXBET switch 6 and the 1BET switch 5 and the MAXBET switch 6 which are operated when instructing to take in the number of pachinko balls necessary for setting. The number of used balls used for setting the number of bets and the number of bets that have been captured, but are still less than the number of unit balls (5 balls in this embodiment) required to set the minimum number of bets. The number of balls already taken out, which is the sum of the number of unused balls that are not used in the setting of the game, and the number of balls already paid out of the number of winning balls associated with the occurrence of winnings are displayed. / Discharged ball indicator 16 installed side by side The remaining value indicator 18 that displays the remaining value of the valuable value read from the prepaid card being accepted by the card unit 15 is displayed, and the operation is performed when a pachinko ball is lent within the range of the remaining value displayed on the remaining amount indicator 18. The ball lending switch 19, the return switch 20 operated when returning the prepaid card being received to the card unit 15 arranged side by side, and the total number of balls and errors in the big bonus and regular bonus described later are detected. A game auxiliary indicator 17 in which an error code indicating the type of the error is displayed, a pachinko ball stored in the upper plate 12 and a pachinko ball stored in the upper plate 12 when the collected balls are settled and returned to the upper plate 12 and Checkout switch 10 operated when returning the pachinko balls in the take-in device 100 to the lower plate 11, pachinko balls stored in the upper plate 12 A ball removal lever 21 that is operated when returning to the lower plate 11 via the ball removal passage 120 without going through a take-in device 100 described later, a start switch 7 that is operated when starting a game, a reel 2L, Stop switches 8L, 8C, 8R, etc., which are operated when stopping the rotation of 2C and 2R, respectively, are provided.

  These 1BET switch 5, MAXBET switch 6, start switch 7, checkout switch 10, balance display 18, ball lending switch 19, return switch 20, and upper plate 12, respectively, as shown in FIG. The stop switches 8L, 8C, and 8R are disposed on the front surface of the operation table 4 and are disposed on the upper surface of the operation table 4 that bulges forward from the lower position of the see-through window 3 in FIG. ing. The operation table 4 and the area from the operation table 4 to the lower plate 11 on the front surface of the slot machine 1 are configured by a cover panel 4a (cover member) made of a non-translucent synthetic resin material. Inside the cover panel 4a, various devices such as a capture device 100, which will be described later, and various ball passages such as a capture preparation ball passage 110 are disposed. That is, since the capture device 100 and the capture preparation ball passage 110 are covered with the cover panel 4a, foreign matter such as a wire is introduced into the capture device 100 and the capture preparation ball passage 110 from the front of the cover panel 4a. Since it becomes difficult to insert, a fraudulent act of inserting a foreign object to detect a ball illegally and setting the number of bets is effectively suppressed.

  The upper plate 12 is recessed on the upper surface of the operation console 4 and has a storage portion 12a for storing the pachinko balls to be charged and a belt-like shape for rectifying the pachinko balls flowing down from the storage portion 12a toward the capturing device 100. And a rectifying unit 12b. Further, as shown in FIGS. 2, 4, and 5, a take-in preparation ball passage 110 for guiding a pachinko ball flowing in from the downstream part of the rectifying unit 12 b, that is, the pachinko ball flowing from the upper plate 12 to the take-in device 100 and supplying it. Is formed with an outflow port 121 for allowing the pachinko balls flowing down the rectifying unit 12b to flow out into the ball extraction passage 120, and the outflow port 121 is used for sliding operation of the ball extraction lever 21. It is opened and closed by an open / close shutter 122 provided so as to be interlocked accordingly.

  Further, in this embodiment, as shown in FIG. 2, a storage unit 12 a is formed on one end in the longitudinal direction of the upper plate 12, so that, for example, a ball lending machine (illustrated on the side of the slot machine 1). For example, when the abbreviation) is arranged, a lending ball lent through a supply nozzle (not shown) extended from the ball lending machine can be directly received by the upper plate 12. Further, a storage portion 12a for storing pachinko balls is disposed at the left end portion in the longitudinal direction of the operation table 4, and a start switch 7 operated to start a game is disposed at the right end portion. ing. That is, since the storage unit 12a and the start switch 7 are separately provided on the left and right end sides of the front surface of the slot machine 1, respectively, the game start operation by the player and the pachinko to the storage unit 12a. Since the throwing operation of the ball can be efficiently performed with the left and right hands, the operability for proceeding with the game is effectively improved. The storage part 12a (game ball storage recess) and the start switch 7 (start operation means) are located on the left and right end sides of the front side of the slot machine 1 with respect to the center position in the left-right direction. If they are arranged separately, each is arranged on the end side in the left-right direction on the front surface of the slot machine 1.

  In addition, a take-in device 100 for taking in the pachinko balls supplied from the upper plate 12 is provided at the lower position of the upper plate 12 in the slot machine 1, and at an upper position of the upper plate 12. Is provided with a payout device 200 for paying out the pachinko balls supplied from a game island (not shown) or the like on which the slot machine 1 is installed to the upper plate 12. The pachinko balls paid out from the payout device 200 flow down the payout ball guide passage 208 extending downward from the payout device 200, and a communication port formed on the storage portion 12 a side of the upper plate 12. 13 is paid out to the upper plate 12. Further, the payout ball guide passage 208 extends from the communication port 13 toward the lower platen 11 below, and surplus balls overflowing from the upper plate 12 because the upper plate 12 is full are discharged ball guide passages 208. And is paid out to the lower plate 11.

  In the present embodiment, as shown in FIG. 2, the pachinko balls stored in the upper plate 12 are divided into three strips in the downstream rectifying unit 12b, and as shown in FIG. The sphere flows down the take-in preparation ball passage 110 and is supplied to the take-in device 100. Further, the upper plate 12 is formed in a plate shape with an upper surface open, so that the stored pachinko balls can be taken out from above by hand and flow down the rectifying unit 12b on the downstream side. The pachinko balls thus flowed down the take-in preparation ball passage 110 arranged inside the operation table 4 and are guided to the take-in device 100 which is also arranged inside the operation table 4. Therefore, the pachinko sphere that has flowed into the take-in preparation sphere passage 110 has a structure that is not visible from the outside of the cover panel 4a and cannot be taken out by hand, except for a remaining sphere transparent window 130 described later.

  As described above, in this embodiment, the pachinko balls stored in the upper plate 12 are divided into three strips on the downstream side and supplied to the capture device 100. Therefore, the pachinko balls from the upper plate 12 to the capture device 100 are supplied. It is possible to improve the supply speed, and thereby the pachinko ball uptake speed by the uptake apparatus 100 can also be improved.

  As shown in FIGS. 3 to 5, in the take-in device 100, three sprockets 106 for ball cutting are arranged in parallel in the horizontal direction corresponding to the respective strips of the take-in preparation ball passage 110. Two notches are formed on the outer periphery of the sprocket 106, and when the sprocket 106 is rotated by driving the take-in motor 101, pachinko balls that have entered the notch are discharged downward one by one. It has become. Further, the notches of the sprockets 106 corresponding to the respective strips are arranged so that the arrangement positions in the circumferential direction are different from each other (six notches of the three sprockets 106 are arranged at intervals of 60 degrees), As the three sprockets 106 rotate synchronously, pachinko balls are discharged for each sprocket 106.

  In particular, as shown in FIG. 5, pachinko balls supplied to the sprocket 106 from the two take-in preparation ball passages 110 out of the three take-in preparation ball passages 110 are discharged by the two sprockets 106 respectively. Then, they merge at the downstream side and flow down to a take-in ball guide passage 108 or a return ball guide passage 109 described later.

  In the present embodiment, the case preparation members constituting the external shape of the preparation preparation sphere passage 110 and the acquisition device 100 are all formed of a transparent synthetic resin material. The pachinko sphere flowing down in the device 100 is configured to be visible from the outside through a residual sphere transparent window 130 described later.

  Below the sprocket 106, it swings when the sorting solenoid 102 is excited or released, and the flow path of the pachinko sphere discharged by the rotation of the sprocket 106 is either the take-in ball guide passage 108 or the return ball guide passage 109. A flow path switching valve 107 for switching to one side is provided.

  The flow path switching valve 107 is composed of two flow path switching valves 107 and 107 arranged in two passages on the upstream side of the intake ball guiding path 108 and the return ball guiding path 109, respectively. The lower ends of the two flow path switching valves 107 and 107 are connected at one end to the lower end of the link member 124 whose center is pivotally supported at the tip of the telescopic shaft 102a of the sorting solenoid 102, and horizontally in the two passages. It is fixed to the extending swing shaft 107a. Therefore, as shown in FIGS. 3 and 4, the expansion and contraction shaft 102a expands and contracts by the excitation or release of the sorting solenoid 102, so that the link member 124 rotates about the shaft portion and the swing shaft 107a is centered. In order to rotate around, the flow path switching valves 107 and 107 swing around the swing shaft 107a. Further, since the telescopic shaft 102a of the sorting solenoid 102 is always urged in the extending direction by a coil spring (not shown) that is mounted around the telescopic shaft 102a in an unexcited state, the distal end of the telescopic shaft 102a. The flow path switching valve 107 connected to each other via the link member 124 is configured to remove the flow path of the pachinko balls taken in by the sprocket 106 when the sorting solenoid 102 is not excited (off state). It is always urged toward the position (see FIG. 3) on the side of the ball guiding passage 108.

  Further, the upper end of the link member 124 is, as shown in FIG. 4, when the flow path of the pachinko sphere is switched to the return ball guide path 109, that is, the flow path switching valves 107 and 107 are in the standing posture (standing position). When this happens, it is detected by a flow path detection switch 115 provided in the vicinity of the main body of the sorting solenoid 102. In this way, depending on the detection status of the link member 124 by the flow path detection switch 115, the flow path switching valve 107 determines whether the flow path of the pachinko sphere is on the intake ball guide path 108 side or the return ball guide path 109 side. That is, the actual flow path direction of the pachinko ball by the flow path switching valve 107 can be detected.

  Further, the pachinko sphere discharged by the rotation of the sprocket 106, that is, the captured pachinko sphere is detected by the first intake ball detection switch 104 on the upstream side disposed at substantially the same height as the sprocket 106. It has become.

  Specifically, the first take-in ball detection switch 104 is a switch that detects the passage of the pachinko sphere through a contact member 125 that is pivotally supported so as to rotate by contacting the falling pachinko sphere. As shown in FIGS. 3 to 5, the contact member 125 has a horizontal shaft 125 a extending in the horizontal direction over three passages, a base end fixed to the horizontal shaft 125 a, and a distal end freely retractable into the passage. It is composed of two provided withdrawal and withdrawal pieces 125b and a detection piece 125c whose base end is fixed to one end of the horizontal shaft 125a, so that the distal end of the withdrawal and withdrawal piece 125b always protrudes into the passage. It is urged by a coil spring (not shown).

  As shown in FIG. 3, the contact member 125 configured in this way is pushed by the contact with the pachinko ball and retracted from the passage, so that the tip of the detection piece 125 c is first removed. Since it is detected by the incoming ball detection switch 104, the passage state of the pachinko ball can be detected based on the detection state by the first incoming ball detection switch 104.

  Further, a second intake ball detection switch 105 is disposed below the flow path switching valve 107 and connected to the intake ball guiding passage 108, and is discharged by the rotation of the sprocket 106. Thus, the pachinko balls distributed to the take-in ball guiding passage 108 side are detected. On the other hand, a return ball detection switch 103 is arranged at a connection portion with the return ball guide passage 109, and is discharged by the rotation of the sprocket 106 and is assigned to the return ball guide passage 109 side by the flow path switching valve 107. A sphere is detected.

  As a result, the pachinko sphere taken into the take-in ball guide passage 108 is detected by two detection switches, the first take-in ball detection switch 104 on the upstream side and the second take-in ball detection switch 105 on the downstream side. Then, the pachinko ball taken into the return ball guide passage 109 side is detected by two detection switches, that is, the first take-in ball detection switch 104 on the upstream side and the return ball detection switch 103 on the downstream side. ing.

  In particular, the passage state of the pachinko sphere taken into the take-in ball guiding passage 108 side is determined based on the first take-in ball detection switch 104 arranged on the upstream side and the second take-in ball detection switch 105 arranged on the downstream side. For example, a pachinko ball discharged by the rotation of the sprocket 106 is detected by the first intake ball detection switch 104 on the upstream side, and then the second intake ball detection on the downstream side is detected. By monitoring the transit time until detection by the switch 105, it is possible to notify that there is a possibility that fraud due to radio waves or the like has been performed or that a ball clogging has occurred. By monitoring the detection order, it is possible to avoid unauthorized detection by causing the pachinko ball to flow backward.

  Further, as described above, the first take-in ball detection switch 104 is a switch that detects the passage of the pachinko sphere through the abutting member 125 that is pivotally supported so as to rotate by coming into contact with the falling pachinko sphere. On the other hand, the second take-in ball detection switch 105 is a switch that directly detects the passage of the pachinko ball, and it can be difficult to simultaneously perform an illegal act corresponding to each of the two detection switches. .

  Next, when the take-in device 100 takes in the pachinko balls supplied from the upper plate 12 to set the number of bets and discharges them to the game island without returning them to the player, the distribution solenoid 102 is excited. The state is stopped. In this state, since the flow path switching valve 107 is in the state (position) shown in FIG. 3, the pachinko ball discharged by the rotation of the sprocket 106 is detected by the first intake ball detection switch 104 and then taken in. After being guided to the ball guide passage 108 side and further detected by the second take-in ball detection switch 105, it flows down the take-in ball guide passage 108 to the rear side of the slot machine 1, and the inside of the game island (not shown) It is designed to be collected in the out ball tank.

  When the pachinko ball on the upper plate 12 is discharged (returned) to the lower plate 11, the sorting solenoid 102 is energized. In this state, since the flow path switching valve 107 swings against the urging force of the coil spring and enters the state shown in FIG. 4, the pachinko ball discharged by the rotation of the sprocket 106 is the first intake ball detection switch 104. Is detected by the return ball guide passage 109, and further detected by the return ball detection switch 103, then flows down the return ball guide passage 109 and is discharged from the payout opening 9 to the lower plate 11. , It is to be returned to the player. The sorting solenoid 102 is in a state where excitation is stopped except when the pachinko ball of the upper plate 12 is discharged (returned) to the lower plate 11. That is, except for the case where the pachinko balls on the upper plate 12 are discharged (returned) to the lower plate 11, the flow path switching valve 107 is in the state shown in FIG. 3, and the flow path direction of the pachinko balls discharged by the rotation of the sprocket 106 is The intake ball guide passage 108 is located on the side.

  Further, a return ball clogging detection switch 111 (see FIGS. 1 and 7) for detecting ball clogging in the passage is provided at a position near the lower plate 11 in the return ball guiding passage 109. For example, the lower plate 11 Since the tank is full, it can be detected that the return ball guiding passage 109 is clogged with a ball.

  The lower part of the above-described take-in device 100, take-in preparation ball passage 110, ball removal passage 120, take-in ball guide passage 108, return ball guide passage 109, and payout ball guide passage 208 is the operation table 4 and the operation table. 4 is covered with a cover panel 4a that forms the lower front surface of FIG. 4. In particular, pachinko balls that have flowed into the take-in preparation ball passage 110 and the take-in device 100 cannot be taken out. In the vicinity of the upper position of the loading device 100, pachinko balls remaining in the loading preparation ball passage 110 (including the loading preparation ball passage 110 formed in the loading device 100), Even after the lever 21 is operated and the pachinko balls on the upper plate 12 are removed through the ball removal passage 120, they remain in the take-in preparation ball passage 110 and enter the inside of the cover panel 4a for visual recognition. Residual sphere transparent window 130 is formed as a transparent portion made of a transparent panel for viewing the pachinko balls became capability.

  As described above, since the take-up preparation ball passage 110 and the case cover of the take-in device 100 are formed of a transparent resin material, the player passes through the remaining ball see-through window 130 to obtain the take-up preparation ball passage 110 (take-in. Whether or not the pachinko balls remain in the preparation preparation ball passage 110 formed in the loading device 100 can be visually confirmed from the outside of the slot machine 1. Therefore, the player can surely recognize when the pachinko ball remains in the capture preparation ball passage 110, so that the pachinko ball remains in the capture preparation ball passage 110. Regardless, the game can be terminated and the player can be prevented from suffering a disadvantage.

  Next, the pachinko balls supplied from the game island to each slot machine 1 are stored in the supply tank 204 provided at the upper back of the slot machine 1 as shown by the dotted line in FIG. The ball supply passage 210 flows down and is supplied to the dispensing device 200. The ball supply passage 210 includes three passages (not shown), and the pachinko balls flowing out from the replenishing tank 204 are supplied to the dispensing device 200 in a state of being divided into the three passages. . Further, a supply ball detection switch 205 (see FIG. 7) is provided at a predetermined height position above the payout device 200 in the ball supply passage 210, and the payout device 200 is provided by the supply ball detection switch 205. It is detected whether the pachinko ball supplied to is waiting. In the present embodiment, the supply ball detection switch 205 is provided at a position where it can be detected that 75 balls, which is the maximum number of winning balls to be paid out by the payout device 200 due to the occurrence of winning with a prize ball, are supplied. Whether or not a pachinko ball necessary for paying out the maximum number of winning balls is waiting is detected. Further, in the present embodiment, the maximum number of balls taken in by the take-in device 100 is 15, and a maximum of 15 pachinko balls are paid out by the pay-out device 200 based on the operation of the checkout switch 10. The supply ball detection switch 205 detects whether or not a pachinko ball necessary for paying out the number of balls to be paid out is waiting based on the checkout switch 10. Furthermore, in this embodiment, lending of 25 balls is requested by one lending request from the card unit 15, but even in this case, the supply ball detection switch 205 pays out the number of balls to be paid out based on the lending request. It is detected whether or not the pachinko balls necessary for the waiting are waiting.

  As shown in FIG. 6, the payout device 200 is provided with a sprocket 206 that rotates by driving of the payout motor 201 corresponding to each line of the ball supply passage 210. Also, below the sprocket 206, a payout ball detection switch 202 for detecting the passage of the pachinko ball discharged by the sprocket 206 based on payout of a prize ball or the like is provided, and is discharged by the rotation of the sprocket 206. After the pachinko ball is detected by the payout ball detection switch 202, it is discharged into a payout ball guide passage 208 extending from the lower portion of the payout device 200.

  The payout ball guide passage 208 extends to the lower plate 11, and the pachinko balls paid out from the payout device 200 flow down the payout ball guide passage 208 and are discharged from the communication port 13 to the upper plate 12. The surplus sphere overflowing from 12 is paid out to the lower plate 11 through the payout opening 9. Further, a payout ball clogging detection switch 112 (see FIGS. 1 and 7) for detecting a ball clogging in the passage is provided at a position in the vicinity of the lower platen 11 in the payout ball guiding passage 208. For example, the lower plate 11 Because of the full tank, it is possible to detect whether or not the payout ball guide passage 208 is clogged with a ball.

  As shown in FIG. 1, the slot machine 1 of the embodiment is arranged in parallel with a card unit 15 that accepts a prepaid card in which a valuable value is recorded. Upon request, pachinko balls can be lent using the valuable value recorded on the prepaid card being accepted.

  When a game is played in the slot machine 1 of the present embodiment, first, the number of bets is set using the pachinko balls stored in the upper plate 12. In order to set the bet number, the 1BET switch 5 or the MAXBET switch 6 may be operated. In the present embodiment, the number of pachinko balls necessary to set one bet number at that time is taken in from the pachinko balls stored in the upper plate 12 and when the MAXBET switch 6 is operated, the pachinko balls are stored in the upper plate 12. The number of pachinko balls necessary to set the maximum bet number allowed in one game at that time is taken in from the pachinko balls made.

  In addition, the pachinko balls taken in by the take-in device 100 to set the bet number according to the operation of the 1BET switch 5 or the MAXBET switch 6 in this way flow down the take-in ball guide passage 108 as described above. The inside of the slot machine 1, that is, the back side as viewed from the side facing the player in the slot machine 1, is taken into the back ball tank provided inside the gaming island (not shown) as described above.

  Next, when a predetermined number of bets are set, the winning lines L1, L2, L2 ′, L3, and L3 ′ (see FIG. 1) are enabled according to the set bets, and the operation of the start switch 7 is enabled. State, that is, a state where the game can be started. In this embodiment, the game can be started when the maximum bet number (3) is set as the bet number, that is, when 15 pachinko balls are taken in. In this embodiment, the game can be started when the maximum bet number (3) is set as the bet number, but at least when 1 or 2 is set as the bet number, that is, five balls or You may make it the state which can start a game, when 10 pachinko balls are taken in.

  When the start switch 7 is operated in a state where the game can be started, the reels 2L, 2C, and 2R rotate, and the symbols of the reels 2L, 2C, and 2R continuously vary. If any one of the stop switches 8L, 8C, 8R is operated in this state, the rotation of the corresponding reels 2L, 2C, 2R is stopped, and the display result is derived and displayed.

  Then, when all the reels 2L, 2C, 2R are stopped, one game is finished, and is determined in advance on any of the pay lines L1, L2, L2 ′, L3, L3 ′ activated according to the number of bets. When the given symbol combination is stopped as a display result of each reel 2L, 2C, 2R, a winning occurs, and a predetermined number of pachinko balls (principal balls) are paid out from the payout device 200 according to the winning. Then, it is paid out directly to the upper plate 12 through the payout ball guide passage 208 and given to the player.

  In the present embodiment, different numbers of prize balls are given according to the combination of symbols. In particular, the number of unit balls (5 balls) is required to set one bet, whereas the number of prize balls awarded in response to the occurrence of a prize is the number of unit balls (5 balls). It is possible to give pachinko balls of any number according to the winnings up to 75 balls as the upper limit, and the number of winning balls given when these winnings occur Can be set more finely according to each prize.

  FIG. 7 is a block diagram showing the configuration of the slot machine 1. As shown in FIG. 7, the slot machine 1 is provided with a game control board 40, an effect control board 90, and a power supply board 202. The game state is mainly controlled by the game control board 40, and the payout control board 60 The payout of the pachinko ball is controlled, the effect according to the game state is controlled by the effect control board 90, and the power of the game control board 40, the payout control board 60, and the effect control board 90 is supplied from the power supply board 202.

  A game control board 40 is connected to the power supply board 202, and a DC voltage necessary for driving electrical components constituting the slot machine 1 is generated on the basis of an AC 100 V power supply supplied from the outside. In addition, the payout control board 60 and the effect control board 90 connected via the game control board 40 are supplied. The power supply board 202 also has a setting key switch 36 for changing the setting of the payout rate when the power is turned on, a setting switch 37 for switching settings, a reset switch 38 for canceling errors, and a bonus. A stop switch 39 for setting whether or not to disable the progress of the game at the end is connected.

  The game control board 40 includes the 1BET switch 5, the MAXBET switch 6, the start switch 7, the checkout switch 10, the stop switches 8L, 8C, and 8R, the first capture ball detection switch 104, and the second capture ball detection switch 105. In addition to the return ball detection switch 103, the return ball clogging detection switch 111, the payout ball clogging detection switch 112, the flow path detection switch 115, the payout ball detection switch 202, and the supply ball detection switch 205, the reference of the reels 2L, 2C, 2R Various switches such as a reel sensor 35 for detecting the position are connected, and the setting key switch 36, the setting switch 37, the reset switch 38, and the stop switch 39 are connected via the power supply board 202. Detection signals from these connected switches and sensors are input. It has become.

  The game control board 40 has electrical components such as the reel motors 34L, 34C, 34R, the captured / paid-in ball display 16, the auxiliary game display 17, the intake motor 101, and the sorting solenoid 102. Are connected, and are driven based on the control of a game control unit 41 (described later) mounted on the game control board 40.

  The game control board 40 includes a CPU that performs calculations according to a predetermined procedure, a ROM that stores CPU control programs and various data tables, a RAM that writes and reads necessary data, and an I / O that inputs and outputs various signals. Game control unit 41 composed of a microcomputer having an O port, a switch connected to the game control board 40 directly or via the power supply board 202, a switch circuit 42 to which a detection signal inputted from the sensor is inputted, and a reel motor 34L , 34C, 34R, a first motor circuit 43 that controls the drive, a second motor circuit 44 that controls the drive of the take-in motor 101, a solenoid drive circuit 45 that controls the drive of the sorting solenoid 102, a taken-in ball / payout Display driving circuit 4 for controlling the driving of various displays including the finished ball display 16 and the auxiliary game display 17 and various LEDs. A power monitoring IC 47 that detects a drop in the power supply voltage supplied to the slot machine 1 is mounted, and the game control unit 41 is connected to the game control board 40 directly or via the power supply board 202. In response to the detection signal of the sensor, various controls are performed according to the progress of the game.

  As shown in FIG. 9B, the game control unit 41 includes a signal input terminal PORT. The signal input terminal PORT is one terminal of an input port provided in the microcomputer, and the signal input state of the signal input terminal PORT is monitored by the microcomputer. Further, an interrupt input terminal CLK / TRG is provided separately from the signal input terminal PORT. When a signal is input to the interrupt input terminal CLK / TRG, an external interrupt is generated. The CPU can execute the interrupt process 1 by interrupting the basic process that shifts in stages according to the detection of various switches according to the external interrupt. In addition, the game control unit 41 includes an internal timer (not shown), and the CPU of the game control unit 41 interrupts the interrupt process 2 and the interrupt process 3 into the basic process based on the output of the internal timer, and periodically It is possible to execute. In addition, the CPU of the game control unit 41 is set to execute interrupt process 1 with priority over interrupt process 2, and to execute interrupt process 2 with priority over interrupt process 3. When interrupt process 1 and interrupt process 2 or interrupt process 3 are requested at the same time, interrupt process 1 is executed with priority. When interrupt process 2 and interrupt process 3 are requested at the same time, The interrupt process 2 is executed with priority. Further, during execution of interrupt process 1, interrupt process 2 or interrupt process 3, other interrupt processes are prohibited.

  The RAM of the game control unit 41 is supplied with power from a backup power source even in the event of a power failure, and stores stored data.

  Connected to the payout control board 60 are the supply ball detection switch 205, the payout ball detection switch 202, the return ball clogging detection switch 111, and the payout ball clogging detection switch 112 described above, and detection signals from these connected switches are input. It has come to be. As described above, the supply ball detection switch 205, the payout ball detection switch 202, the return ball blockage detection switch 111, and the payout ball blockage detection switch 112 are connected to both the game control board 40 and the payout control board 60. The detection signals of the supply ball detection switch 205, the supply ball detection switch 205, the payout ball detection switch 202, the return ball clogging detection switch 111, and the payout ball clogging detection switch 112 are input to both the game control board 40 and the payout control board 60. It has come to be.

  Also, the payout control board 60 is connected to electrical components such as the payout motor 201 described above, and these electrical components are driven based on control by a payout control unit 61 (described later) mounted on the payout control board 60. It has become so.

  Similarly to the game control unit 41, the payout control board 60 includes a CPU, a ROM, a RAM, a payout control unit 61 including a microcomputer having an I / O port, and a detection input from a switch connected to the payout control board 60. A switch circuit 62 to which a signal is input, a motor circuit 63 that controls the driving of the payout motor 201, a display drive circuit 64 that controls the driving of various LEDs, and the like are mounted. The payout control for paying out the pachinko ball is performed in response to a signal output from the game control unit 41 mounted on 40 or a detection signal from the switch connected to the payout control board 60. Further, the payout control board 60 is connected to the card unit 15 arranged in parallel via the connection terminal board 70, and the payout control unit 61 receives a request from a control unit (not shown) mounted on the card unit 15. Lending control for lending pachinko balls according to the situation.

  The payout control unit 61 includes an internal timer (not shown) like the game control unit 41, and the CPU of the payout control unit 61 interrupts the interrupt process into the basic process based on the output of the internal timer and periodically It can be executed. Unlike the RAM of the game control unit 41, the RAM of the payout control unit 61 is not supplied with backup power and does not hold the stored data at the time of power failure.

  The production control board 90 is connected to electrical components such as a liquid crystal display 51 (see FIG. 1), production effect LEDs 52, speakers 53, 54, etc. arranged on the front surface of the slot machine 1, and these electrical components are It is driven based on control by an after-mentioned production control unit 91 mounted on the control board 90.

  The effect control board 90 has the same CPU, ROM, RAM and I / O ports as the game control part 41, the effect control part 91 composed of a microcomputer, and the drive of the liquid crystal display 51 connected to the effect control board 90. A liquid crystal drive circuit 92 that performs control, a lamp drive circuit 93 that performs drive control of the effect effect LED 52, a sound output circuit 94 that performs sound output control from the speakers 53 and 54, and the like are mounted. In response to a command transmitted from the game control unit 41 mounted on the game control board 40, various controls for performing an effect are performed.

  Like the game control unit 41, the effect control unit 91 includes a signal input terminal (not shown) and an interrupt input terminal (not shown) separately, and an internal timer (not shown). The CPU of the unit 91 can execute the interrupt process 1 by interrupting the basic process according to the external interrupt generated based on the signal input from the interrupt input terminal, and the interrupt process 2 based on the output of the internal timer. Can be executed periodically by interrupting the basic processing. Also, the CPU of the production control unit 91 is set to execute the interrupt process 1 with priority over the interrupt process 2, and when the interrupt process 1 and the interrupt process 2 are requested at the same time, The interrupt process 1 is executed with priority. The game control unit 41 is prohibited from interrupting the interrupt process 2 while the interrupt process 1 is being executed, whereas the effect control unit 91 is executing the interrupt process 2. In FIG. 5, interrupt of interrupt process 1 is enabled.

  Similar to the RAM of the game control unit 41, the RAM of the effect control unit 91 is supplied with electric power from a backup power source in the event of a power failure and holds stored data.

  As shown in FIG. 8, the game control unit 41 mounted on the game control board 40 confirms the connection check between the game control board 40 and the payout control board 60 on the payout control board 60 side with respect to the payout control board 60. To output a game control board connection confirmation signal. Then, the payout control unit 61 mounted on the payout control board 60 confirms the connection with the game control board 40 based on the detection of the game control board connection confirmation signal. In addition, the game control unit 41 gives the payout control board 60 a ball number signal indicating a value of 0 to 100 as the number of balls instructing payout by a settlement request or a payout request, Settlement request signal requesting the settlement of the number of used balls used for setting the number of bets and the number of used balls not yet used for setting the number of bets) A payout request signal for requesting is output. Then, when the payout control unit 61 detects the settlement request signal or the payout request signal, the payout control unit 61 performs payout control for paying out the number of pachinko balls indicated by the ball number signal at that time.

  On the other hand, the payout control unit 61 makes a payout control for the game control board 40 to check the connection between the game control board 40 and the payout control board 60 on the game control board 40 side. A board connection confirmation signal, a card unit connecting signal indicating that the card unit 15 is connected, a pachinko ball payout operation based on a settlement request or a payout request, and an in-operation signal indicating start and end of operation are output. Then, the game control unit 41 confirms the connection with the payout control board 60 based on the detection of the payout control board connection confirmation signal, and connects the payout control board 60 with the card unit 15 based on the detection of the card unit connection signal. Based on the detection of the in-operation signal, the start, operation, and end of the pachinko ball payout operation by the payout control unit 61 are confirmed.

  The card unit 15 includes a control unit equipped with a microcomputer. As shown in FIG. 8, the remaining amount indicator 18 provided in the slot machine 1 is connected to the card unit 15 via a connection terminal board 70, and the remaining amount is controlled by the microcomputer mounted on the control unit. The display 18 is driven. As shown in FIG. 8, the card unit 15 is connected to the above-mentioned ball rental switch 19 and return switch 20 provided in the slot machine 1 via a connection terminal plate 70, and detection signals of these switches are detected. Is input to the control unit.

  The card unit 15 also includes a card reader / writer that reads and writes the recorded information of the prepaid card inserted from the card insertion slot. The card reader / writer reads the recorded information read from the prepaid card as a control unit. And the record information of the prepaid card inserted is updated based on a command from the control unit.

  As shown in FIG. 8, the card unit 15 has a card unit connection signal (VL) indicating that the card unit 15 is normally connected to the payout control board 60 (the payout control unit 61) of the slot machine 1. The card unit READY signal (BRDY) indicating the start and end of the lending process by the card unit 15 and the lending request signal (BRQ) requesting the lending of the pachinko ball are output. The card unit connection signal is also a power source for communication between the control unit and the payout control board 60.

  On the other hand, the game control board 40 (game control unit 41) has a slot machine READY signal (SRDY) indicating a state in which a pachinko ball can be lent to the card unit 15, and a pachinko ball based on BRQ. A lending completion signal (EXS) indicating the start and completion of lending operation is output.

  Further, as described above, the remaining amount indicator 18, the return switch 20 and the ball lending switch 19 mounted in the slot machine 1 are connected to the card unit 15, and the remaining amount indicator 18 is output based on the control of the control unit. And the detection signal (return operation detection signal) of the return switch 20 and the detection signal (lending operation detection signal) of the ball lending switch 19 are input to the card unit 15. Then, the control unit mounted on the card unit 15 outputs the BRDY described above on the condition that the valuable value read from the prepaid card being accepted remains by detecting the ball lending switch 19. The above-mentioned BRQ is output, and the processing for requesting the lending unit for lending unit (25 balls in this embodiment) to the slot machine 1 is performed within the range of the remaining valuable value (in this embodiment, 10 times), and when the return switch 20 is detected, processing for returning the prepaid card being accepted is performed.

  FIG. 9A is a circuit diagram for explaining the configuration of the power supply board 202, and FIG. 9B is a circuit for explaining the configuration around the power supply to the game control unit 41 in the game control board 40. FIG.

  As shown in FIG. 9A, a rectifier circuit 302, a transformer 304, and voltage generation circuits 303, 305 to 308 are mounted on the power supply substrate 202. The rectifier circuit 302 converts an AC 100V AC voltage supplied from the outside into a DC voltage, and the transformer 304 transmits the DC voltage converted by the rectifier circuit 302 to an internal circuit. Then, the voltage generation circuit 303 generates a + 25V DC voltage from the DC voltage transmitted through the transformer 302 and outputs it to the connector 301 and the voltage generation circuits 305, 306, 307, and 308, respectively. The voltage generation circuits 305, 306, 307, and 308 generate +24 V, +12 V (VCC), +12 V, and +5 V DC voltages from the +25 V DC voltage generated by the voltage generation circuit 303 and output them to the connector 301. . The connector 301 is connected to the game control board 40 and the like, and the DC voltage generated by the voltage generation circuits 305, 306, 307, 308 is a device mounted on the game control board 40, the payout control board 60, and the effect control board 90, It is supplied as a power source for driving various electrical components connected to the game control board 40, the payout control board 60, and the effect control board 90. In other words, the + 25V DC voltage generated by the voltage generation circuit 303 is the various devices mounted on the game control board 40, the payout control board 60, and the effect control board 90, the game control board 40, the payout control board 60, and the effect control board 90. It serves as a power source for driving various electrical components connected to the.

  Among the DC voltages supplied from the power supply board 202, + 24V DC voltage is supplied to the game control board 40, supplied to the payout control board 60 via the game control board 40, and connected to the game control board 40. The reel motors 34L, 34C, 34R, the take-in motor 101, the sorting solenoid 102, and other electrical components, the payout motor 200, and other electrical components connected to the payout control board 60 are used as a drive power source. Further, the + 12V DC voltage is supplied to the game control board 40 and is also supplied to the payout control board 60 via the game control board 40, and is connected to the game control board 40, such as LEDs, indicators, sensors, switches, etc. The electric parts (including electric parts such as switches connected to the game control board 40 via the power supply board 202) and the driving power sources of the electric parts such as LEDs and switches connected to the payout control board 60 are used. In addition, a + 12V (VCC) DC voltage is supplied to the effect control board 90 via the game control board 40, and drives devices mounted on the effect control board 90 such as the effect control unit 91 and the backup RAM. Used as a driving power source for electric parts such as the liquid crystal display 51, LED, lamp, and fluorescent lamp connected to the effect control board 90. Further, the + 5V DC voltage is supplied to the game control board 40 and is also supplied to the payout control board 60 via the game control board 40, and is mounted on the game control board 40 such as the game control unit 41 and the power monitoring IC 47. It is used as a driving power source for the devices mounted on the payout control board 60 such as the payout control unit 61.

  Further, the + 5V DC voltage supply line in the game control board 40 branches on the game control board 40 to form a + 5V (VBB) DC voltage supply line, as shown in FIG. 9B. The + 5V (VBB) DC voltage supply line is connected to the memory backup power supply input terminal VBB via a backflow prevention diode 312 and, as shown in FIG. 9A, on the power supply board 202 side. Connected to the ground level, a large-capacitance capacitor 310 is provided between them. As a result, a DC voltage of +5 V (VBB) can be stored in the capacitor 310, and when the power supply to the slot machine 1 is cut off, the voltage stored in the capacitor 310 is a period until the voltage is completely discharged. The game control unit 41 can be supplied as a backup power source for maintaining the storage state of the RAM.

  In addition, among the DC voltages output from the power supply board 202, a DC voltage serving as a generation source of + 25V DC voltage, that is, + 24V, + 12V (VCC), + 12V, and + 5V DC is generated in the game control board 40 in FIG. As shown in (b), the pressure is reduced by the resistor 311 (about 6.6% in this embodiment), and is input to the monitoring voltage input terminal VSB provided in the power supply monitoring IC 47. The power monitoring IC 47 outputs a voltage drop signal from the voltage drop signal output terminal RESET when the voltage input to the monitor voltage input terminal VSB becomes a predetermined level (+1.2 V in this embodiment) or less. It is supposed to be configured. This voltage drop signal output terminal RESET is connected to the interrupt input terminal CLK / TRG of the game control unit 41, and when the voltage input to the monitoring voltage input terminal VSB becomes less than a predetermined level, The decrease signal is input to the interrupt input terminal CLK / TRG of the game control unit 41. That is, the game control unit 41 can detect the occurrence of power interruption based on the input of the voltage drop signal from the power monitoring IC 47 and execute the interrupt process. In the present embodiment, when the + 25V DC voltage becomes about + 18V or less, the voltage reduced by the resistor 311 becomes + 1.2V or less and a voltage drop signal is output. Therefore, the game control unit 41 outputs the voltage drop signal. Based on the input, it is possible to detect the occurrence of power interruption when the + 25V DC voltage becomes + 18V or less.

  Further, the voltage drop signal output terminal RESET branches in the middle and is also connected to the signal input terminal PORT of the game control unit 41, so that the voltage input to the monitoring voltage input terminal VSB is less than a predetermined level. In some cases, the voltage drop signal is input to the signal input terminal PORT in addition to the interrupt input terminal CLK / TRG of the game control unit 41. Further, the power monitoring IC 47 becomes inoperable or has a predetermined voltage after the voltage inputted to the monitoring voltage input terminal VSB becomes a predetermined level (+1.2 V) or less. The voltage drop signal is continuously output until the magnitude (+1.2 V) is exceeded. Therefore, the game control unit 41 can monitor the input state of the voltage drop signal even during the interrupt process based on the input of the voltage drop signal from the power monitoring IC 47.

  As described above, in this embodiment, the game control unit 41 and the power monitoring IC 47 are driven by the + 5V DC voltage generated by the voltage generation circuit 308, and the power monitoring IC 47 is driven by the voltage generation circuit 303. When the generated + 25V DC voltage becomes + 18V or lower, which is higher than + 5V for driving these devices, the occurrence of power interruption is detected and a voltage drop signal is output. Since the DC voltage of +5 V is supplied to the device such as the game control unit 41 for a while after the control unit 41 detects the occurrence of the power supply interruption, the game control unit 41 operates on the power supply described later based on the input of the voltage drop signal. It is possible to secure a sufficient amount of time necessary to perform interrupt interrupt processing.

  In this embodiment, the power monitoring IC 47 monitors the drop in the + 25V DC voltage generated by the voltage generation circuit 303 and is connected to various devices and game control boards 40 mounted on the game control board 40. Voltage generation circuit for generating a + 25V DC voltage monitored by the power supply monitoring IC 47 as a power supply voltage for driving the electrical components, various devices mounted on the presentation control board 90, and electrical components connected to the presentation control board 90 The voltage generation circuits 305, 306, 307, and 308 provided separately from the power generation circuit 303 generate a stable voltage compared to a power supply voltage that tends to drop depending on the driving conditions of these electrical components. Since monitoring is performed by the monitoring IC 47, it is determined that a power interruption has occurred due to a temporary voltage drop, and a power interruption interruption process described later is performed. Behavior can be prevented.

  Further, as shown in FIG. 9A, a capacitor 309 is provided on the + 25V DC voltage line input to the voltage generation circuit 306 in the power supply substrate 202, and the + 25V DC voltage is applied to the voltage generation circuit 306. Even when the supplied voltage can be stored and the power supply to the slot machine 1 is cut off and the supply of voltage from the voltage generation circuit 303 is interrupted, + 12V (VCC) is supplied to the voltage generation circuit 306 for a certain period of time. A voltage necessary for generation is supplied. Therefore, the voltage generation circuit 306 is a source of power for devices such as the effect control unit 91 mounted on the effect control board 90 for a certain time even when the supply of voltage from the voltage generation circuit 303 is interrupted during a power failure. The + 12V (VCC) DC voltage supply can be maintained, and the device mounted on the production control board 90 should be driven for a longer time than the device mounted on the game control board 40 during a power failure. Can be done. In this embodiment, as the capacitor 309, when the power monitoring IC 47 outputs a voltage drop signal at the time of a power failure, that is, when the + 25V DC voltage becomes + 18V or less, the production control unit is at least 20 ms or longer. A capacitor having a capacity capable of maintaining the drive of 91 is used.

  In addition, the effect control board 90 is provided with a voltage generation circuit that generates +5 V (VCC) from a +12 V (VCC) DC voltage supplied from the power supply board 202 via the game control board 40, although not particularly illustrated. The + 5V (VCC) DC voltage generated by the voltage generation circuit is supplied to various devices mounted on the effect control board 90, such as the effect control unit 91, and is used as a drive power source for these devices.

  The supply line of the +5 V (VCC) direct current voltage to the effect control unit 91 is connected to a memory backup power input terminal (not shown) of the effect control unit 91 via a backflow prevention diode (not shown). At the same time, it is connected to the ground level, and a large capacity capacitor (not shown) is provided between them. As a result, a DC voltage of +5 V (VCC) can be stored in the capacitor, and when the power supply to the slot machine 1 is cut off, the voltage stored in the capacitor is produced over a period until the voltage is completely discharged. It can be supplied as a backup power source for maintaining the storage state of the RAM of the control unit 91.

  Next, various control contents executed by the game control unit 41 mounted on the game control board 40 in the present embodiment will be described below with reference to FIGS.

  When the power is turned on and the CPU is reset, the game control unit 41 performs a power-on process (game) shown in the flowchart of FIG. In this embodiment, with respect to the CPU of the game control unit 41, the CPU of the payout control unit 61 mounted on the payout control board 60 and the CPU of the effect control unit 91 mounted on the effect control board 90 when the power is turned on. The reset signal is input for a period longer than the time until the power-on process is completed and communication with the game control unit 41 becomes possible. That is, when the game control unit 41 finishes the power-on process (game) and shifts to a normal process, the payout control unit 61 and the effect control unit 91 are in a state in which communication with the game control unit 41 is possible. It will be waiting.

  In the power-on process (game), first, the above-described game control board connection confirmation signal is set to on (Sa1). Note that the game control board connection confirmation signal is always kept on while power is supplied. Then, the RAM of the game control unit 41 is checked (parity check in this embodiment, where parity is the least significant bit of the sum total of the data strings) (Sa2, Sa3). Specifically, the current parity is created, and it is determined whether or not the data being backed up is normal depending on whether or not it matches the parity stored at the time of power interruption.

  If the check result is normal, the RAM diagnosis data created at the time of power interruption is confirmed (Sa4), and it is determined whether or not it is normal (Sa5). If the RAM diagnosis data is normal, it is checked whether the setting key switch 36 is on (Sa6). If the setting key switch 36 is not on, all the registers are restored (Sa7). Then, as described later, when the interruption prohibition is canceled and the process returns to the state before the power interruption, for example, a ball signal, a payment request signal, a payout request signal, etc. are output, and the payout control unit 60 is output. In order not to cause inconvenience such as processing based on the signal, data that does not need to include the output state of the ball signal, the settlement request signal, and the payout request signal among the data stored in the RAM is initialized. Initialization processing is performed (Sa8).

  Next, the value of the unpaid ball counter set in the RAM of the game control unit 41 (a counter for storing the number of unpaid balls that have not been paid out of the number of payout requests based on the payout request described later) is acquired. It is confirmed whether or not the value of the payout ball counter is 0, that is, whether or not the unpaid ball based on the payout request remains (Sa9). The value of the unsettled sphere counter (counter that stores the number of unsettled spheres not yet paid out of the number of settlement requests based on the settlement request described later) set in the RAM of It is confirmed whether it is 0, that is, whether or not an unsettled sphere based on the settlement request remains (Sa10). If the value of the unsettled ball counter is 0, the interrupt prohibition is canceled (Sa11), and the process before power interruption is returned to.

  If the value of the unpaid ball counter is not 0 in step Sa9, that is, if an unpaid ball based on the payout request remains, the prohibition of interruption is canceled (Sa12), and the top of the payout request process (described later) The process proceeds to step Sc101 in FIG. If the value of the unsettled sphere counter is not 0 in the step Sa10, that is, if unsettled spheres based on the settlement request remain, the prohibition of interruption is canceled (Sa13), and the top of the settlement request process (described later) The process proceeds to step Sb201 in FIG.

  Further, if the setting key switch 36 is in the on state in the step of Sa6, an all initialization process for initializing all the data stored in the RAM, that is, all the control states of the game control unit 41 is executed (Sa14). ). And after performing the setting change process which changes the setting of a payout rate (Sa15), interruption prohibition is cancelled | released (Sa16) and it transfers to a game control process.

  If the data check result is not normal in step Sa3 or if the RAM diagnosis data is not normal in step Sa5, the gaming state cannot be returned to the state at the time of power interruption. Set (Sa17). That is, the error code is displayed on the game auxiliary display 17 to notify a RAM abnormality error. Then, it is confirmed whether or not the setting key switch 36 is on (Sa18). If the setting key switch 36 is not on, the entire initialization process similar to the step of Sa14 is executed (Sa19), and interrupts are prohibited. Is released (Sa20), and error processing is performed to disable the progress of the game (Sa21). The error process is a process that is commonly executed when an error that needs to disable the progress of the game occurs, and the error state is canceled when the reset switch 38 is detected. . And if an error state is cancelled | released in the step of Sa21, it will transfer to a game control process.

  If the setting key switch is on in step Sa18, the process proceeds to step Sa14. After executing all initialization processing and setting change processing, the prohibition of interruption is canceled and the game control processing is performed. Transition.

  As described above, in the power-on process (game), when the backed up data is normal, it is determined whether the value of the unpaid ball counter or the unpaid ball counter is 0, and the unpaid ball counter Or, when the value of the unsettled ball counter is not 0, that is, when unsettled balls based on the withdrawal request or unsettled balls based on the settlement request remain, a withdrawal request process or a settlement request depending on the process at the time of power interruption Move to the top of the process. Then, in the payout request process and the checkout request process, as will be described later, a pachinko ball payout request for the value of the unpaid ball counter or an unpaid request for the value of the unpaid ball counter is performed. If the power is cut off during the payout request process or the checkout request process, and unpaid balls or unpaid balls remain at the time of the power outage, the payout request for unpaid or the unsettled payment will be made again when the power failure is restored. A request will be made, and unpaid or unpaid pachinko balls will be paid out.

  In addition, all interrupts are masked until the interrupt prohibition is canceled after the power is turned on, and all interrupt processes including the power interruption interrupt process described later are not performed. .

  In this embodiment, initialization processing is performed to initialize all the ball number signal, the settlement request signal, and the withdrawal request signal before confirming the value of the unpaid ball counter and the unpaid ball counter. The process for initializing the output state of the signal may be any time before canceling the prohibition of interruption. For example, regardless of whether the value of the unpaid ball counter or the unpaid ball counter is 0, After the confirmation, the corresponding signal may be initialized only when one of the signals is in the output state.

  FIG. 11 is a flowchart showing the control content of the game control process executed by the game control unit 41 as the basic process.

  In the game control process, a BET process (Sa101), an internal lottery process (Sa102), a reel rotation process (Sa103), a reel stop process (Sa104), a winning determination process (Sa105), a prize ball grant process (Sa106), and a game state update Processing (Sa107) is executed in order.

  In the BET process in the step of Sa101, the process waits in a state where the bet number can be set, and executes a process of determining the bet number when the bet number is set and the start switch 7 is operated. Further, when a replay winning is generated in the previous game, the same bet number as in the previous game is set.

  In the internal lottery process in the step of Sa102, a winning is generated based on a comparison result between a random value acquired simultaneously with the start of the game by the detection of the start switch 7 in the step of Sa101 and an internal winning probability table in which the winning probability of each winning is determined. Whether or not to allow is determined, and processing for setting an internal winning flag is executed according to the result.

  In the reel rotation process in step Sa103, a process of rotating each reel 2L, 2C, 2R is executed. In this reel rotation process, the operation of the stop switches 8L, 8C, 8R is validated when all the reels 2L, 2C, 2R rotate at a constant speed.

  In the reel stop process in step Sa104, the player's stop switches 8L, 8C, 8R are detected or the player's stop switches 8L, 8C, 8R are detected from the time when the reels 2L, 2C, 2R rotate at a constant speed. The processing for stopping the rotation of the corresponding reels 2L, 2C, 2R is executed in response to the fact that the automatic stop time has elapsed without detecting the operation, that is, the stop condition of each reel 2L, 2C, 2R is satisfied. To do.

  In the winning determination process in step Sa105, when it is determined in step Sa104 that the rotation of all the reels 2L, 2C, and 2R has been stopped, a winning is determined according to the display result derived for each reel 2L, 2C, and 2R. A process of determining whether or not it has occurred is executed.

  In the prize ball grant process in step Sa106, when it is determined in step Sa105 that a prize has been generated, a process for requesting payout of pachinko balls corresponding to the number of prize balls given in accordance with the prize is performed.

  In the game state update process in step Sa107, a process for setting the game state in preparation for the next game is executed.

  In the game state update process in step Sa107, data that does not need to be carried over to the next game among the data stored in the RAM, for example, an internal winning flag that does not carry over to the next game (allows the generation of a prize). An initialization process for initializing data such as a flag) is performed. In particular, at the end of the bonus, an initialization process for initializing data such as a bonus flag indicating that the bonus is being performed and various counter values used during the bonus is performed. That is, data unnecessary for the next game is initialized at the end of the game.

  Further, when an error occurs during execution of the game control process and the error control process described above is executed, the reset switch 38 is detected and the error state is restored when the error state is released. An initialization process is performed to initialize data that is not necessary when performing the initialization, for example, data such as a count value of a switch for which detection has not yet been determined and an output state of various signals.

  Initialization process that is performed when the game ends or when the error state is cleared, initialization process that is performed when all the registers are restored at the time of power failure recovery described above, or when a RAM abnormality is determined at the time of power failure recovery or setting In all initialization processes performed at the time of change, the data to be initialized differs depending on each situation.

  In these initialization processing and all initialization processing, the address where the data to be initialized is stored according to each situation among the data stored in the RAM is designated, and the head address among the designated addresses Are initialized sequentially from the data stored in, and when the data stored in all designated addresses are initialized, the initialization process is terminated.

  In addition, in the initialization process performed at the end of the game or when the error state is released, the period until the data to be initialized is initialized after the initialization process is started, that is, stored in all designated addresses. All the interrupts are masked over a period until the data being initialized is initialized, and all interrupt processes including the power interruption interrupt process described later are not performed.

  FIG. 12 is a flowchart showing the control contents of the BET process executed by the game control unit 41 in the step Sa101.

  In the BET process, first, it is confirmed whether or not the current game is a replay game (Sb1). If the game is a replay game, the start switch 7 is awaiting detection (Sb2). In this state, the start switch 7 is detected. Then, the game is started and the process proceeds to the internal lottery process shown in FIG. At this time, the bet number of the previous game is set as it is in the BET counter set in the RAM of the game control unit 41 (the counter for storing the value of the bet number set at that time). The game is started with the same number of bets as the game, and the internal lottery process shown in FIG. 11 is started. At this time, when the number of balls already paid out in the previous game is displayed on the taken-in / paid-out ball indicator 16, the display of the number of balls already paid out is cleared.

  If it is not a replay game in step Sb1, the value of the BET counter is cleared (Sb3), and whether or not the card unit connection signal on is detected, that is, the card unit 15 is connected to the payout control board 60. It is confirmed whether it is connected (Sb4).

  If the card unit connection signal on is detected in step Sb4, it is confirmed whether the settlement switch 10 is detected (Sb5), whether the value of the BET counter is 3, that is, the maximum bet number Is set (Sb6). If the value of the BET counter is less than 3, it is checked whether 1BET switch 5 is detected (Sb7), and if 1BET switch 5 is not detected. Further, it is confirmed whether or not the MAXBET switch 6 is detected (Sb8).

  If the 1BET switch 5 is not detected in the steps Sb7 and Sb8, and the MAXBET switch 6 is not detected, the process returns to the step Sb4.

  If the value of the BET counter is 3 in the step Sb6, it is confirmed whether or not the start switch 7 is detected (Sb9). If the start switch 7 is not detected, the process returns to the step Sb4.

  On the other hand, if the card unit connection signal on is not detected in step Sb4, a connection error flag indicating that the card unit 15 is not connected to the slot machine 1 is set (Sb10). When the error flag is set, an error code that can specify the type of the error flag is displayed on the gaming auxiliary display 17, and the error is notified outside the gaming machine. When the connection error flag is set, an error code indicating that the card unit 15 is not connected to the slot machine 1 is displayed on the gaming auxiliary display 17, so that an abnormal connection with the card unit 15 is detected outside the gaming machine. Be notified.

  Next, it is confirmed whether the settlement switch 10 is detected (Sb11). If the settlement switch 10 is not detected, it is confirmed whether the value of the BET counter is 3 (Sb12), and the value of the BET counter Is 3, that is, when the maximum bet number is set, it is confirmed whether or not the start switch 7 is detected (Sb13). If the value of the BET counter is less than 3 in step Sb13, or if the start switch 7 is not detected in step Sb14, whether or not the card unit connection signal on is detected, that is, the card It is confirmed whether or not the unit 15 and the payout control board 60 are in a connected state (Sb14). If the card unit connecting signal on is not detected, the process returns to the step Sb4. On the other hand, if the card unit connecting signal on is detected in step Sb14, the connection error flag set in step Sb10 is cleared (Sb15). Accordingly, the display of the error code displayed on the game auxiliary display 17 is also canceled. And it returns to the step of Sb4.

  If the settlement switch 10 is detected in the step Sb5 or Sb11, the process proceeds to the settlement control process shown in FIG. 13 (Sb16), and when the settlement control process ends, the process returns to the step Sb4.

  If the start switch 7 is detected in step Sb9 or step Sb13, the value of the BET counter is determined as the bet number (Sb17), the game is started and the internal lottery process shown in FIG. 11 is performed. To do. At this time, the display of the number of taken-in balls displayed on the taken-in / paid-out ball indicator 16 is cleared.

  Further, when the 1BET switch 5 is detected in the step of Sb7, the take-in ball counter set in the RAM of the game control unit 41 (the take-in number that is not yet taken out of the number of balls to be taken in) The value of the counter for storing the number of balls is set to {5-unused ball counter (a counter set in the RAM of the game control unit 41, which has already been captured but has not yet been used for setting the bet number). The value of the counter that stores the number of balls) is updated (Sb18). That is, the value of the take-in ball counter is updated to a value obtained by subtracting the number of unused balls not yet used for setting the bet number from the number of requested take-in balls instructed by operating the 1BET switch 5. At this time, if the number of balls that have been paid out for the previous game is displayed on the captured balls / paid-off balls indicator 16, the display of the number of balls that have been paid out is cleared, and the number of balls that have been taken in 0 is displayed as the value of. And it transfers to the acquisition control process shown in FIG. 15 (Sb20), and if an acquisition control process is complete | finished, it will return to the step of Sb4.

  If the MAXBET switch 6 has been detected in step Sb8, the value of the take-in ball counter is updated to (15-BET counter value × 5-unused ball counter value) (Sb19). In other words, the value of the take-in ball counter is determined from the take-in request ball number instructed by the operation of the MAXBET switch 6 and the used ball number that has already been used for setting the bet number and the unused ball number that has not been used for setting the bet number yet. Update the value by subtracting the number of balls. At this time, if the number of balls that have been paid out for the previous game is displayed on the captured balls / paid-off balls indicator 16, the display of the number of balls that have been paid out is cleared, and the number of balls that have been taken in 0 is displayed as the value of. And it transfers to the acquisition control process shown in FIG. 15 (Sb20), and if an acquisition control process is complete | finished, it will return to the step of Sb4.

  FIG. 13 is a flowchart showing the control content of the settlement control process executed by the game control unit 41 in step Sb16.

  In the settlement control process, first, it is confirmed whether or not the value of the unused sphere counter is 0 (Sb101). If the value of the unused sphere counter is 0, it is confirmed whether or not the value of the BET counter is 0 ( Sb102).

  If neither the value of the unused ball counter or the value of the BET counter is 0 in the steps of Sb101 and Sb102, the value of the unsettled ball counter is set to (the value of the unused ball counter + the value of the BET counter × 5 ), That is, the total value of the number of unused balls and the number of used balls (Sb103), and the values of the unused ball counter and the BET counter are cleared (Sb104). At this time, the number of captured balls displayed in the captured / paid-off ball counter is updated to zero. Then, the process proceeds to the settlement request process shown in FIG. 14 (Sb105), and when the settlement request process ends, the process returns to the step Sb4 shown in FIG.

  If the unused ball counter value and the BET counter value are both 0 in the steps of Sb101 and Sb102, it is determined whether the return ball clogging detection switch 111 is detected, that is, the return ball in the return ball guide passage 109. (Sb106). If the return ball clogging detection switch 111 is not detected, it is further determined whether or not the payout ball clogging detection switch 112 is detected, that is, in the payout ball guiding passage 208. It is confirmed whether or not the payout ball is clogged (Sb107). If the return ball clogging detection switch 111 is detected in the step of Sb106 or if the payout ball clogging detection switch 112 is detected in the step of Sb107, the process returns to the step of Sb4 shown in FIG.

  If neither the return ball clogging detection switch 111 nor the dispensing ball clogging detection switch 112 is detected in the steps of Sb106 and Sb107, the rotational drive amount of the take-in motor 101 is set to 100 balls (Sb108), and the sorting solenoid A drive signal for exciting (driving) 102 is output to the sorting solenoid 102 to turn on the sorting solenoid 102 (Sb109), and the flow direction of the captured pachinko sphere is set to the return ball guiding passage 109 side.

  Then, it is confirmed whether or not the actual flow path direction by the flow path switching valve 107 is the return ball guiding path 109 side, that is, whether or not the flow path detection switch 115 is on (Sb110). If the actual flow direction is on the return ball guiding passage 109 side, the setting of the take-in motor 101 is turned on and the take-in operation is started (Sb111). That is, based on the detection state of the flow path detection switch 115 that detects the flow path direction of the flow path switching valve 107, the drive of the take-in motor 101 is performed on the condition that the actual flow path direction faces the return ball guide path 109 side. To start.

  While the take-in motor 101 is being driven, it is confirmed whether or not the actual flow path direction by the flow path switching valve 107 is the return ball guiding path 109 side, that is, whether or not the flow path detection switch 115 is on (Sb112). ) If the flow path direction is on the return ball guiding passage 109 side, it is confirmed whether or not the drive stop condition for the take-in motor 101 is satisfied (Sb113 to Sb116). Specifically, in the step of Sb113, the detection status of the first capture ball detection switch 104 and the second capture ball detection switch 105 is checked, and the capture is performed for a specified time (for example, 3 seconds) after the last capture ball is detected. It is confirmed whether or not a trapped ball is detected, and whether or not the return ball clogging detection switch 111 is detected in the step of Sb114, that is, whether or not the return ball is clogged in the return ball guiding passage 109 is confirmed. In step Sb115, it is confirmed whether or not the payout ball clogging detection switch 112 is detected, that is, whether or not the payout ball is clogged in the payout ball guide passage 208. In step Sb116, the rotation drive is performed. It is confirmed whether or not the rotation for the amount, that is, 100 balls has been completed.

  If none of the conditions for stopping the driving of the take-in motor 101 is established in steps Sb113 to Sb116, the process returns to step Sb112. Further, when any one of the drive conditions of the take-in motor 101 is established in the steps Sb113 to Sb116, that is, when the take-in ball has not been detected for a specified time since the last take-in ball was detected. When the return ball clogging detection switch 111 is detected, when the payout ball clogging detection switch 112 is detected or when rotation for 100 balls is completed, the setting of the take-in motor 101 is turned off ( Sb117), in order to cancel the excitation (drive) of the distribution solenoid 102, the output of the drive signal to the distribution solenoid 102 is turned off, and the flow direction of the pachinko sphere taken in with the distribution solenoid 102 turned off is taken to guide the ball The passage 108 side is set (Sb118), and the process returns to the step Sb4 shown in FIG.

  Further, when the flow path direction is not on the return ball guiding passage 109 side in the step of Sb110 or Sb112, that is, the flow switching valve is switched to the return ball guiding passage 109 side with the sorting solenoid 102 turned on. When the flow direction by 107 is not switched to the return ball guide passage 109 side, or while the take-in motor 101 is being driven, the sorting solenoid 102 is in the on state, and the flow direction is at the return ball guide passage 109 side. In spite of this, when the flow path direction by the flow path switching valve 107 faces the take-in ball guide passage 108 side, the setting of the take-in motor 101 is turned off (Sb119), and the sorting solenoid 102 is turned off. (Sb120), a flow direction abnormality error flag indicating abnormality in the flow direction is set (Sb121). When the flow path direction abnormality error flag is set, an error code indicating the flow path direction abnormality is displayed on the game auxiliary display 17, so that the abnormality in the flow path direction is notified to the outside of the gaming machine. Next, an error process is executed to disable the various switches for detecting the player's operation and disable the progress of the game (Sb122). The error processing is canceled when the reset switch 38 is detected in a state in which the flow path detection switch 115 is turned off, that is, in a state in which the flow path direction by the flow path switching valve 107 coincides with the driving state of the sorting solenoid 102. Return to the step Sb4 shown in FIG.

  FIG. 14 is a flowchart showing the control content of the payment request process executed when the game control unit 41 executes an unsettled ball based on the payment request in the step Sb105 and the power-on process.

  In the settlement request processing, first, it is confirmed whether or not the payout control board connection confirmation signal “on” is detected, that is, whether or not the game control board 40 and the payout control board 60 are connected (Sb201), and the payout control board. If on of the connection confirmation signal is not detected, a payout control board connection error flag indicating that the payout control board 60 is not normally connected is set (Sb202). When the payout control board connection error flag is set, an error code indicating that the payout control board 60 is not normally connected is displayed on the gaming auxiliary display 17, so that this is notified to the outside of the gaming machine. It becomes like this. Next, the error process described above is executed (Sb203). When the reset switch 38 is detected during the execution of the error process and the error process is canceled, the process returns to the step of Sb201.

  Also, if the payout control board connection confirmation signal on is detected in step Sb201, the value of the ball count signal is updated to the value of the unsettled ball counter (Sb204) and set in the RAM of the game control unit 41. An initial value is set in the error determination timer counter (counter for counting the payout communication error determination time) (Sb205), and the settlement request signal is turned on (Sb206).

  Next, the output status of the operating signal is monitored until the on signal of the operating signal is detected (Sb207 to Sb209). In step Sb208, it is checked whether a payout communication error determination time (for example, 5 seconds) has elapsed, that is, whether the error determination timer counter is 0, and the payout communication error determination time has elapsed. In other words, if the start of the pachinko ball payout operation based on the checkout request cannot be confirmed even after the payout communication error determination time has elapsed since the checkout request is made, there is an abnormality associated with the payout on the payout control board 60 side. A payout communication error flag indicating the occurrence is set (Sb209), and the process returns to the step Sb207 again. When the payout communication error flag is set, an error code indicating that an abnormality associated with payout has occurred on the payout control board 60 side is displayed on the gaming auxiliary display 17, so that the fact is notified outside the gaming machine. It becomes like this.

  Next, in step Sb207, when the on-operation signal is detected, that is, when the start of the pachinko ball payout operation based on the payment request is confirmed, the in-operation signal is detected until the off-operation signal is detected. Are monitored (Sb210 to Sb214). In step Sb210, the detection status of the payout ball detection switch 202 is checked to determine whether or not a payout ball is detected. If a payout ball is detected, the value of the unsettled ball counter is set to 1. Subtract (Sb212) and return to step Sb210 again. In step Sb213, it is confirmed whether or not the payout communication error determination time has passed, that is, whether or not the error determination timer counter is 0 (Sb213). If the payout communication error determination time has passed, That is, if the end of the payout operation of the pachinko ball based on the payment request cannot be confirmed even after the payment communication error determination time has elapsed since the payment request is made, the above-mentioned payout communication error flag is set (Sb214), The process returns to step Sb210 again. When the payout communication error flag is set, an error code indicating that an abnormality associated with payout has occurred on the payout control board 60 side is displayed on the gaming auxiliary display 17 as described above, and this fact is notified outside the gaming machine. Will come to be.

  Next, in step Sb211, if the off-operation signal is detected, that is, if the completion of the pachinko ball payout operation based on the payment request is confirmed, it is confirmed whether or not the payout communication error flag is set. However, if the payout communication error flag is not set, the settlement request signal is cleared after clearing the value of the unsettled ball counter regardless of whether or not the value of the unsettled ball counter remains (Sb217). Is turned off (Sb218), and the process returns to the step Sb4 shown in FIG. If the payout communication error flag is set in step Sb215, the payout communication error flag is cleared (Sb216). In other words, even if the payout communication error determination time has elapsed from the time when the payment request is made and the error state is controlled, when the end of the pachinko ball payout operation based on the payment request is confirmed, the error state is automatically Has been released. Accordingly, the display of the error code displayed on the game auxiliary display 17 is also canceled. Then, regardless of whether or not the value of the unsettled sphere counter remains, after clearing the value of the unsettled sphere counter (Sb217), the settlement request signal is turned off (Sb218), and the step of Sb4 shown in FIG. 12 is performed. Return.

  FIG. 15 is a flowchart showing the control content of the capture control process executed by the game control unit 41 in step Sb20.

  In the take-in control process, first, 3 is set in the retry counter (counter that stores the retry count of the take-in operation) set in the RAM of the game control unit 41 (Sb301), according to the value of the take-in ball counter. Then, the rotation drive amount of the take-in motor 101, that is, the rotation drive amount necessary for taking in the number of balls set to the take-in ball counter is set (Sb302). In this state, the sorting solenoid 102 is in the off state, and the flow path direction by the flow path switching valve 107 is in the state facing the intake ball guiding path 108 side.

  Then, it is confirmed whether or not the actual flow path direction by the flow path switching valve 107 is on the intake ball guiding path 108 side, that is, whether or not the flow path detection switch 115 is in the off state (Sb303). If the actual flow path direction is based on the take-in ball guiding passage 108 side, the take-in motor 101 is set to on and the take-in operation is started (Sb304). That is, based on the detection state of the flow path detection switch 115 that detects the flow path direction of the flow path switching valve 107, the condition of the intake motor 101 is determined on the condition that the actual flow path direction faces the intake ball guide passage 108 side. Start driving.

  While the intake motor 101 is being driven, it is confirmed whether or not the actual flow path direction by the flow path switching valve 107 is on the intake ball guiding path 108 side, that is, whether or not the flow path detection switch 115 is in the off state ( Sb305), if the flow path direction is on the intake ball guide passage 108 side, the detection status of the first intake ball detection switch 104 and the second intake ball detection switch 105 is checked, and whether or not the intake ball is detected. Is confirmed (Sb306).

  When a captured ball is detected in step Sb306, the value of the captured ball counter is decremented by 1, and the value of the unused ball counter is incremented by 1 (Sb307). At this time, the number of taken-in balls displayed on the taken-in / paid-out ball indicator 16 is also incremented by one. Then, it is checked whether the value of the unused ball counter is 5, that is, whether the number of balls necessary to set the bet number is 1 (Sb308). If the value of the unused ball counter is less than 5, Sb305 Return to the step. If the value of the unused sphere counter is 5 in step Sb308, the value of the BET counter is incremented by 1 and the value of the unused sphere counter is cleared (Sb309), and the process returns to step Sb305.

  If no take-in ball is detected in step Sb306, it is checked whether the take-in motor 101 is on, that is, whether the take-in motor 101 is still being driven (Sb310). If 101 is on, it is checked whether or not the rotation for the rotational drive amount, that is, the value of the take-in ball counter has been completed (Sb311), and if the rotation for the rotational drive amount has not been completed, the process proceeds to Sb305. Returning to the step, if the rotation for the rotational drive amount has been completed, the setting of the take-in motor 101 is turned off (Sb312), and the process returns to the step of Sb305.

  In addition, if the take-in motor 101 is not on in step Sb310, the pachinko ball taken in by the rotation of the take-in motor 101 after the take-in motor 101 is turned off is detected by the second take-in ball detection switch 105. It is confirmed whether or not a detection waiting time that is a time required for detection has elapsed (Sb313), and if the detection waiting time has not elapsed, the process returns to step Sb305.

  If the detection waiting time has elapsed in the step of Sb313, whether or not the value of the take-in ball counter is 0, that is, whether or not all the balls requested by the operation of the 1BET switch 5 or the MAXBET switch 6 have been taken in. (Sb314), if the value of the take-in ball counter is not 0, it is checked whether the value of the retry counter is 0, that is, whether the take-in operation has been performed for the number of retries (Sb315). If the retry counter value is not 0, the retry counter value is decremented by 1 (Sb316), and the process returns to the step of Sb302.

  If the value of the take-in ball counter is 0 in step Sb314, the retry counter value is cleared (Sb317), and the process returns to step Sb4 shown in FIG. If the retry counter value is 0 in step Sb315, the value of the take-in ball counter is cleared (Sb318), and the process returns to step Sb4 shown in FIG.

  Further, in the step of Sb303 or Sb306, when the flow path direction is not on the intake ball guide passage 108 side, that is, the sorting solenoid 102 is in the off state, and the flow path direction is on the intake ball guide passage 108 side. In spite of this, when the flow path direction by the flow path switching valve 107 faces the return ball guide passage 109 or when the take-in motor 101 is driven, the sorting solenoid 102 is in the off state, and the flow path If the direction of the flow path by the flow path switching valve 107 faces the return ball guide path 109 side even though the direction is the intake ball guide path 108 side, the setting of the intake motor 101 is set to off ( Sb319) After clearing the values of the retry counter and the take-in ball counter (Sb320), a flow path direction abnormality error flag indicating a flow path direction abnormality is set (Sb3). 1). When the flow path direction abnormality error flag is set, an error code indicating the flow path direction abnormality is displayed on the game auxiliary display 17, so that the abnormality in the flow path direction is notified to the outside of the gaming machine. Next, an error process is executed to disable the various switches that detect the player's operation and disable the progress of the game (Sb322). The error processing is canceled when the reset switch 38 is detected in a state in which the flow path detection switch 115 is turned off, that is, in a state in which the flow path direction by the flow path switching valve 107 coincides with the driving state of the sorting solenoid 102. Return to the step Sb4 shown in FIG.

  As described above, in the BET process, when the settlement switch 10 is effectively received, the process proceeds to the settlement control process, and when the bet number of 1 or more has already been set or the value of the unused ball counter is not 0, that is, When the taken-in ball remains, a settlement request is made, and after performing a settlement request process for returning the captured ball to the player based on this, the settlement control process is terminated. On the other hand, when the number of bets is not set and the value of the unused ball counter is 0, the flow direction of the pachinko ball taken in by the take-in device 100 is set to the return ball guide passage 109 side. After the take-in motor 101 is driven in the state, control for returning the pachinko balls in the take-in device 100 is performed, and then the settlement control process is terminated.

  Also, in the settlement request process, even if the dispensing communication error determination time has elapsed from the time when the settlement request is made, the operation signal off is not detected, that is, the completion of the pachinko ball dispensing operation based on the settlement request is confirmed. If it cannot, the payout communication error flag is set and controlled to an error state. The error state is automatically canceled when the on-operation signal is detected to confirm the end of the pachinko ball payout operation based on the payment request.

  When the operation of the 1BET switch 5 is accepted effectively, the number of balls obtained by subtracting the number of unused balls (the value of the unused ball counter) from the number of balls required to set the bet number (5 balls), that is, At that time, the number of balls required to set one bet is set in the take-in ball counter, and the process shifts to the take-in control process. As for the take-in operation, the value of the take-in ball counter subtracted by detection of the take-in ball by the first take-in ball detection switch 104 and the second take-in ball detection switch 105 becomes 0, or the take-in operation is performed once. This process is repeated until the value of the retry counter that is subtracted every time becomes 0, or one of the conditions is satisfied, and the capture control process ends when one of the conditions is satisfied.

  When the operation of the MAXBET switch 6 is effectively accepted, the number of used balls (BET counter value × 5) and the number of unused balls (from the number of balls required to set the maximum bet number (15 balls)) The number of balls obtained by subtracting the value of the unused ball counter), that is, the number of balls required to set the maximum bet number at that time is set in the take-in ball counter and the process proceeds to the take-in control process. The value of the take-in ball counter obtained by subtracting the take-in operation for taking in the pachinko balls for the value of 0 by detecting the take-in ball with the first take-in ball detection switch 104 and the second take-in ball detection switch 105 is 0. Or the value of the retry counter that is subtracted every time the capture operation is performed is 0 until either of the conditions is satisfied, and either of the conditions is satisfied. The control process ends.

  Further, the operation of the 1BET switch 5 and the MAXBET switch 6 is effectively accepted on condition that the value of the BET counter is less than 3, that is, the maximum bet number has not yet been set, and the process proceeds to the take-in control process. . That is, in the state where the maximum bet number is set, the operation of the 1BET switch 5 and the MAXBET switch 6 is invalidated. Further, even when the value of the BET counter is less than 3, if the card unit connecting signal on is not detected, that is, if the card unit 15 is not normally connected, the operation of the 1BET switch 5 and the MAXBET switch 6 is performed. Is invalidated.

  Further, the operation of the start switch 7 is effectively accepted on the condition that the value of the BET counter is 3, that is, the maximum bet number is set, and the game starts. That is, if the number of bets is less than 3, the game start condition is not satisfied, and the operation of the start switch 7 is invalidated. If the value of the BET counter is 3, the operation of the start switch 7 is valid even when the card unit connection signal on is not detected, that is, even when the card unit 15 is not normally connected.

  Further, when the operation of the settlement switch 10 is effectively accepted and the process proceeds to the settlement control process, the 1BET switch until the settlement control process ends, that is, until the settlement control based on the operation of the settlement switch 10 ends. 5, the acceptance of each operation of the MAXBET switch 6, the start switch 7, and the settlement switch 10 is invalidated. Similarly, when the operation of the 1BET switch 5 or the MAXBET switch 6 is effectively accepted and shifts to the capture control process, the operation is performed until the capture control process is completed, that is, based on the operation of the 1BET switch 5 or the MAXBET switch 6. Until the take-in control is completed, the acceptance of each operation of the 1BET switch 5, the MAXBET switch 6, the start switch 7, and the settlement switch 10 is invalidated. Further, when the operation of the start switch 7 is effectively accepted, the 1BET switch 5, the MAXBET switch 6, the start switch 7, and the checkout switch 10 are finished until the game started based on the operation is completed and the BET processing of the next game is started. The reception of each operation is invalid. In addition, when the card unit connection signal on is not detected during the checkout control process or the acquisition control process, that is, when the connection with the card unit 15 is broken, Even after the control process is completed, the acceptance of each operation of the 1BET switch 5 and the MAXBET switch 6 is invalidated. Also, even when the card unit connection signal on is not detected during the game execution, the operation of each of the 1BET switch 5 and the MAXBET switch 6 is continued when the BET processing of the next game is started after the game ends. The reception is invalid.

  FIG. 16 is a flowchart showing the control contents of the prize-ball giving process executed by the game control unit 41 in step Sa106.

  In the winning ball awarding process, first, it is confirmed whether or not a winning accompanied by awarding of a winning ball has occurred (Sc1). If no winning accompanied by awarding of a winning ball has occurred, Sa107 shown in FIG. The game state update process is shifted to.

  In addition, when a winning with awarding of a winning ball has occurred in the step of Sc1, the number of winning balls to be awarded when the winning is generated is determined by an unpaid ball counter (set in the RAM of the game control unit 41). A counter that stores the number of unpaid balls based on the payout request is set (Sc2). At this time, 0 is displayed on the taken-in / paid-out ball display 16 as the paid-out ball. Then, the process shifts to the payout request process shown in FIG. 17, and when the payout request process ends, the process shifts to the game state update process of Sa107 shown in FIG.

  FIG. 17 is a flowchart showing the control content of the payout request process executed when the game control unit 41 performs an unpaid ball based on the payout request in the step of Sc3 and the power-on process.

  In the payout request process, first, it is checked whether or not the payout control board connection confirmation signal “on” is detected, that is, whether or not the game control board 40 and the payout control board 60 are connected (Sc101), and the payout control board. If on of the connection confirmation signal is not detected, a payout control board connection error flag indicating that the payout control board 60 is not normally connected is set (Sc102). When the payout control board connection error flag is set, an error code indicating that the payout control board 60 is not normally connected is displayed on the gaming auxiliary display 17, so that this is notified to the outside of the gaming machine. It becomes like this. Next, the error process described above is executed (Sc103). When the reset switch 38 is detected during the execution of the error process and the error process is canceled, the process returns to the step of Sc101.

  If the payout control board connection confirmation signal on is detected in step Sc101, the value of the ball signal is updated to the value of the unpaid ball counter (Sc104), and the error determination timer counter described above is set to the initial value. Is set (Sc105), and the payout request signal is turned on (Sc106).

  Next, the output status of the operating signal is monitored until the on signal of the operating signal is detected (Sc107 to Sc109). In step Sc108, it is checked whether a payout communication error determination time (for example, 5 seconds) has elapsed, that is, whether the error determination timer counter is 0, and the payout communication error determination time has elapsed. In other words, if the start of the pachinko ball payout operation based on the payout request cannot be confirmed even after the payout communication error determination time has elapsed since the payout request is made, the above-described payout communication error flag is set (Sc109). ), And returns to the step of Sc107 again. When the payout communication error flag is set, an error code indicating that an abnormality associated with payout has occurred on the payout control board 60 side is displayed on the gaming auxiliary display 17 as described above. Will be notified.

  Next, in the step of Sc107, when the on signal of the operation is detected, that is, when the start of the payout operation of the pachinko ball based on the payout request is confirmed, the operation signal is output until the off of the operation signal is detected. Is output (Sc110 to Sc115). In the step of Sc110, the detection status of the payout ball detection switch 202 is checked to confirm whether or not a payout ball is detected. If a payout ball is detected, the value of the unpaid ball counter is set to 1. Subtracting (Sc112), the number of paid-in balls displayed on the taken-in / paid-out ball indicator 16 is (the number of winning balls-the value of the unpaid-off ball counter), that is, the number of winning balls at that time. The number of balls already paid out is updated (Sc113), and the process returns to the step of Sc110 again. Further, in the step of Sc114, it is confirmed whether or not the payout communication error determination time has elapsed, that is, whether or not the error determination timer counter is 0 (Sc114), and if the payout communication error determination time has passed, That is, if the end of the pachinko ball payout operation based on the payout request cannot be confirmed even after the payout communication error determination time has elapsed from the time when the payout request is made, the aforementioned payout communication error flag is set (Sc115), The process returns to the step of Sc110 again. When the payout communication error flag is set, an error code indicating that an abnormality associated with payout has occurred on the payout control board 60 side is displayed on the gaming auxiliary display 17 as described above, and this fact is notified outside the gaming machine. Will come to be.

  Next, in the step of Sc111, when the off-operation signal is detected, that is, when the completion of the pachinko ball payout operation based on the payout request is confirmed, it is confirmed whether or not the payout communication error flag is set. If the payout communication error flag is set (Sc116), the payout communication error flag is cleared (Sc117). In other words, even when the payout communication error determination time has elapsed from the time when the payout request is made and the error state is controlled, when the end of the payout operation of the pachinko ball based on the payout request is confirmed, the error state is automatically Has been released. Accordingly, the display of the error code displayed on the game auxiliary display 17 is also canceled.

  Next, it is confirmed whether or not the value of the unpaid ball counter is 0 (Sc118). If the value of the unpaid ball counter is 0, the payout request signal is turned off (Sc120), and the game of Sa107 shown in FIG. Transition to status update processing. If the value of the unpaid ball counter is not 0 in the step of Sc118, the value of the unpaid ball counter is cleared and the number of paid balls displayed on the taken-in / paid-off ball display 16 is displayed. The value is updated to the value of the number of winning balls (Sc119). Then, the payout request signal is turned off (Sc120), and the process proceeds to the game state update process of Sa107 shown in FIG.

  As described above, in the prize ball giving process, when a prize accompanied by a prize ball is generated, a payout request process for making a payout request for the number of prize balls given by the prize is performed.

  In the payout request process, the payout ball is detected after the on-operation signal is detected until the off-operation signal is detected, that is, during the payout operation based on the payout request. Each time the value of the unpaid ball counter is subtracted and the value of the unpaid ball counter is subtracted, the number of balls that have been paid out displayed on the taken-in / paid-off ball display 16 It is to be added.

  Also, in the payout request process, even if the payout communication error determination time elapses from the time when the payout request is made, if the operation signal off is not detected, that is, the end of the pachinko ball payout operation based on the payout request is confirmed. If it cannot, the payout communication error flag is set and controlled to an error state. The error state is automatically canceled when the on-operation signal is detected to confirm the end of the pachinko ball payout operation based on the payout request.

  18 and 19, the game control unit 41 interrupts the basic process (game control process in this embodiment) as the above-described interrupt process 3 based on the output from the internal timer, and periodically (0.56 ms in this embodiment). It is a flowchart which shows the control content of the timer interruption process (A) performed every time.

  In the timer interrupt process (A), first, interrupt prohibition is set (Sd1). That is, the execution of another interrupt process is prohibited with the start of the timer interrupt process. Then, the basic process register is saved in the RAM (Sd2), and after the timer interrupt process (A) is completed, the process before the interrupt can be restored.

  Next, the branch counter set in the RAM of the game control unit 41 is advanced by 1 to identify the timer interrupt to be executed in the timer interrupt process from the four types of timer interrupts 1 to 4 (Sd3). In step Sd3, 1 is added when the branch counter value is 0 to 2, and is updated to 0 when the counter value is 3. That is, the branch counter value loops in the order of 0 → 1 → 2 → 3 → 0... Each time the timer interrupt process (A) is executed.

  Next, referring to the counter value for branching, it is determined whether it is 2 or 3, ie, timer interrupt 3 or timer interrupt 4 (Sd4), and if it is not timer interrupt 3 or timer interrupt 4, that is, timer interrupt In the case of 1 or timer interrupt 2, it is confirmed whether or not the reel motors 34L, 34C, 34R are starting or rotating at a constant speed, and whether the reel motors 34L, 34C, 34R are starting or rotating at a constant speed. For example, the motor phase signal output process for outputting the phase signal data changed in the motor step process of Sd8 described later and the phase signal data changed in the final stop process of Sd23 described later is executed (Sd5).

  Next, it is determined whether or not it is 1 (ie, timer interrupt 2) by referring to the minute counter value (Sd6). If it is not timer interrupt 2 (ie, timer interrupt 1), the reel motor Reel start processing (Sd7) for controlling the step time interval when starting 34L, 34C, 34R, motor step processing (Sd8) for changing phase signal data of reel motors 34L, 34C, 34R, reel motors 34L, 34C , 34R, a motor phase signal standby process (Sd9) for changing the phase signal to one-phase excitation after a lapse of a certain time, and an intake motor control process (Sd10) for updating the rotational drive amount of the intake motor 101, etc. After the sequential execution, the saved register in Sd2 is restored (Sd22), the interrupt prohibition is canceled (Sd23), and the process before the interruption is returned.

  In the case of timer interrupt 2 in step Sd6, LED dynamic display processing (Sd11) for dynamically lighting various indicators, and a control signal for outputting data such as lighting signals for various lamps and external output signals to the port An equal output process (Sd12), a random number update process for updating various software random numbers (Sd13), a time counter update process for updating various time counters (Sd14), and a command set in the basic process are transmitted to the effect control unit 91 The command transmission process (Sd15) and the external output signal update process (Sd16) for updating the external output signal are sequentially executed, the register saved in Sd2 is restored (Sd22), and the interrupt inhibition is canceled (Sd23). Return to the process before interrupt.

  If it is timer interrupt 3 or timer interrupt 4 in step Sd4, it is further determined by referring to the counter value for wake-up, whether it is 3, ie, timer interrupt 4 (Sd17). If it is not interrupt 4, that is, timer interrupt 3, port input processing (Sd18) for inputting detection data of various switches (including a voltage drop signal input from power supply monitoring IC 47) from the input port; The origin passage process (Sd19) for checking the origin passage of the reels 2L, 2C, and 2R rotating at a constant speed, based on the detection signals of the various switches, whether or not these various switches satisfy the detection conditions, If the detection condition is satisfied, a switch input determination process (Sd20) for setting a switch-on flag indicating the detection condition, and an intake motor control process similar to the step of Sd10 (SD21) was sequentially executes, returning the registers saved in Sd2 (SD22), to release the interrupt disabled (SD23), the flow returns to the process before the interrupt process.

  If the timer interrupt is 4 at the step Sd17, the stop position is determined when the detection of the effective stop switches 8L, 8C, and 8R is determined, and the number of steps after which the stop is calculated is calculated. The number of steps until the stop calculated in the switch process (Sd24) and the stop switch process is counted, and when it is time to stop, the stop process (Sd25) starts the brake by the two-phase excitation, and the brake is started in the stop process. After executing a final stop process (Sd26) for three-phase excitation after a certain period of time, the saved register is restored in Sd2 (Sd22), the interrupt inhibition is canceled (Sd23), and the process before the interrupt Return to.

  In this embodiment, the timer interrupt process (A) as described above is performed at an interval of 0.56 ms, so that the process unique to timer interrupts 1 to 4 is 2.24 ms as shown in FIG. It is done at intervals. In particular, in this embodiment, as the interval of the timer interrupt 2 in which the command transmission process is performed, the command is received on the effect control unit 91 side, and the received command is buffered, and this command is detected even if a new command is detected. The time (2.24 ms) that can sufficiently secure the time required for reliable buffering is set. Further, as will be described in detail later, in the effect control unit 91, the timer interrupt process (effect) is executed every 1.12 ms, and backup is performed in the timer interrupt process (effect). Even when commands are continuously transmitted to the control unit 91, it is possible for the effect control unit 91 to reliably receive the command and to secure time for backing up the received command.

  In this embodiment, every time the timer interrupt process (A) is performed, the branch counter value is updated, and the processes of timer interrupts 1 to 4 corresponding to the branch counter value are performed. Timer interrupts 1 to 4 are performed in order according to the number of times of timer interrupt processing (A), so that timer interrupts 1 to 4 are performed at the same interval (2.24 ms), respectively. However, for example, these timer interrupts 1 to 4 may be performed at different intervals determined according to the execution frequency.

  FIG. 21 is a diagram illustrating an example of a command transmitted from the game control unit 41 mounted on the game control board 40 to the effect control unit 91 of the effect control board 90.

  Of the commands transmitted to the effect control unit 91 of the effect control board 90, the BET command is a command that can specify that one bet has been set, and pachinko balls corresponding to the number of unit balls are captured. Sent when a wager is set.

  The internal winning command is a command that can specify the winning status of the internal winning flag and the type of the internal winning flag that has been established, and is transmitted when the game is started, that is, when the start switch 7 is operated.

  The reel rotation start command is a command for notifying the start of reel rotation, and is transmitted when the rotation of each reel is started.

  The reel stop command is a command that can specify whether the reel to be stopped is a left reel, a middle reel, or a right reel, or a symbol that stops on the corresponding reel, and each time a stop operation of each reel is detected. Sent to.

  The winning determination command is a command that can specify the presence / absence of winning, the type of winning, and the number of payout balls at the time of winning, and is transmitted after all the reels are stopped and the winning determination is performed.

  The payout start command is a command for notifying the start of paying out pachinko balls due to winning or the like, and is transmitted when the payout of pachinko balls is started. The payout end command is a command for notifying the end of payout of the pachinko balls, and is transmitted when the payout of the pachinko balls is finished.

  The game state command is a command that can specify the game state of the next game (whether it is a normal game or BB), and is transmitted at the end of the game.

  The initialization command is a command indicating that the gaming state is initialized, and is transmitted when the gaming state is initialized by the above-described initialization process.

  Of these commands, commands other than the initialization command are generated according to the progress of the game in the above-described game control process, and then temporarily stored in the command queue provided in the RAM of the game control unit 41. It is transmitted to the effect control unit 91 in the command transmission process (A) of interrupt 2. Note that the initialization command is temporarily stored in the command queue in the above-described initialization process, and after that, the prohibition of the interrupt is released and the timer interrupt 2 command transmission process (A) executed first is then sent to the effect control board 90. Sent to.

  FIG. 22 is a diagram showing the configuration of the command queue described above. The command queue is provided with an area capable of storing a maximum of 16 commands so that a plurality of commands can be accumulated. Also, in the area for storing each command, a numerical value (0 to 15) indicating the serial number of the area is set in association with the area identification number. Furthermore, a transmission pointer indicating a serial number of an area in which a command to be transmitted next is stored and a storage pointer indicating a serial number of an area in which a command is to be stored next are set in the command queue. The transmission pointer is incremented by 1 every time an unsent command stored in the command queue is transmitted, and the storage pointer is incremented by 1 when storing the command. The serial number indicated by the transmission pointer and the serial number of the storage pointer are the same number when transmitted and when all areas of the command queue are full due to an untransmitted command. If an unsent command is stored, the unsent flag is set. Therefore, if the serial number indicated by the transmission pointer is the same as the serial number of the stored pointer, the unsent flag is set. If the command queue is full of untransmitted commands, the command queue is full. If the untransmitted flag is not set, the command queue is empty.

  FIG. 23 is a flowchart showing the control contents of a command storage process executed when a command is generated and stored in the command queue in the game control process or initialization process of the game control unit 41.

  The command transmitted from the game control unit 41 is composed of 2 bytes. The first byte represents MODE (command classification), and the second byte represents EXT (command content). Further, the form of the command shown in this embodiment is an example, and other data forms may be used. In this embodiment, the command is composed of a 2-byte signal, but these commands may be composed of a 1-byte signal or a 3-byte or more signal.

  In the command storing process, first, MODE and EXT composing a command to be transmitted are generated (Se1).

  Next, after storing the generated command in the serial number area indicated by the storage pointer, that is, in the empty area of the command queue (Se2), 1 is added to the serial number indicated by the storage pointer (Se3). Since the serial number is a numerical value in the range of 0 to 15, when the serial number indicated by the storage pointer is 15, 1 is added and updated to 0 when it becomes 16.

  Next, it is confirmed whether or not the untransmitted flag is set (Se4). If the untransmitted flag is not set, the untransmitted flag is set (Se5).

  Next, check whether the serial number indicated by the storage pointer matches the serial number indicated by the transmission pointer, that is, whether all areas of the command queue are full with unsent commands. Waits until an untransmitted command stored in the command queue is transmitted and the serial number indicated by the storage pointer does not match the serial number indicated by the transmission pointer, and the serial number indicated by the storage pointer and the serial number indicated by the transmission pointer are The command storage process is terminated when there is no match, that is, when the command queue is empty (Se6).

  FIG. 24 is a flowchart showing the control contents of the command transmission process executed by the game control unit 41 in the timer interrupt 2 of the timer interrupt process (A) described above.

  In the command transmission process, first, it is determined whether or not the delay counter for setting the command transmission delay time is greater than 0, that is, whether or not the command is waiting to be transmitted in the command queue (Sf1). ).

  If it is determined in Sf1 that the command is not waiting for transmission, it is determined whether or not the aforementioned untransmitted flag indicating that an untransmitted command is stored in the command queue is set (Sf2).

  If the untransmitted flag is not set in Sf2, no command to be transmitted is stored, and the process is terminated.

  Further, when the untransmitted flag is set in Sf2, that is, when an untransmitted command is stored in the command queue, a random number value that is randomly generated in the range of 0 to 15 is acquired from the random number counter ( Sf3), 2 is added to the obtained random number value to correct it to a value of 2 to 17 and set in the delay counter (Sf4).

  Next, 1 is subtracted from the delay counter value (Sf5), whether or not the delay counter value is greater than 0, that is, whether or not the transmission delay time of the command stored in the area indicated by the transmission pointer value of the command queue has elapsed, (Sf6), and when the delay counter value is larger than 0, that is, when the transmission delay time has not elapsed, the process is terminated.

  If the delay counter value is 0 in step Sf6, that is, if the transmission delay time has elapsed, the command stored in the area indicated by the transmission pointer value of the command queue is transmitted to the effect control unit 91 ( Sf7 to Sf10). Specifically, first, the MODE composing the command stored in the area indicated by the transmission pointer value of the command queue is output (Sf7), and a strobe signal for notifying the effect control unit 91 that the command has been output is output for a predetermined time. (In this embodiment, 10 μs) is output (Sf8). Then, EXT constituting the command stored in the area indicated by the transmission pointer value is output (Sf9), and the strobe signal is output again for a predetermined time (Sf10).

  Next, 1 is added to the serial number indicated by the transmission pointer (Sf11). Since the serial number is a numerical value in the range of 0 to 15, when the serial number indicated by the transmission pointer is 15, 1 is added and updated to 0 when it becomes 16.

  Next, it is confirmed whether or not the serial number indicated by the transmission pointer matches the serial number indicated by the storage pointer, that is, whether or not the command to be transmitted is stored in the command queue (Sf12). The unsent flag is cleared and the process ends (Sf13).

  If it is determined in Sf1 that the delay counter value is greater than 0, that is, it is in a transmission waiting state, the process proceeds to Sf5, and when the transmission delay time has elapsed, the command queue transmission pointer value indicates the area. The stored command is transmitted, and when an untransmitted command becomes empty, a process such as clearing an untransmitted flag is performed, and the process ends (Sf5 to Sf13).

  FIGS. 25A and 25B are timing charts showing an example of command transmission status in this embodiment.

  In this embodiment, as shown in FIG. 25A, commands are generated in the command storage process during the game control process or the initialization process, stored in the command queue, and the timer interrupt process (A). When an unsent command stored in the command queue is detected in the command transmission process in timer interrupt 2, a delay time is set, and when the set delay time elapses, the unsent command stored in the command queue Command is sent.

  Specifically, when an unsent command stored in the command queue is detected in the command transmission process, the random number for delay set in the range of 0 to 15 is acquired, and the acquired value is corrected to 2 to 17 The range value (L) is set in the delay counter.

  At this time, in the command transmission process in which the delay counter value (L) is set and the command transmission process executed in the timer interrupt 2 thereafter, the delay counter value is decremented by 1, and the delay counter value becomes 0. At that time, the command stored in the command queue is transmitted.

  That is, the command detected in the command transmission process is a time corresponding to a multiple of the command transmission process execution interval (2.24 ms), more specifically, a value obtained by subtracting 1 from the delay counter value (L) acquired at that time ( (L-1) multiplied by the execution interval (2.24 ms) of command transmission processing {(L is a value of 2 to 17, so 2.24 to 35.84 ms} has passed, and then the transmission is performed. .

  Further, in this embodiment, an area capable of storing a plurality of commands is provided in the command queue, and a command newly generated in the game control process is not waited for transmission of the command stored in the command queue. It is possible to store in the free space. That is, a plurality of commands can be accumulated. For this reason, it can be avoided that the progress of the game control process is stopped due to the delay of the command transmission. Note that this is not the case when the command queue is full of unsent commands.

  In the command storage process, when a plurality of commands are stored in the command queue, these commands are stored in the order of generation, and in the command transmission process, the commands are transmitted in the order stored in the command queue. That is, commands stored in the command queue are always transmitted in the order in which they are generated.

  In addition, when a plurality of unsent commands are stored in the command queue, after the first generated command is transmitted, the unsent commands are stored in the command queue again in the command transmission process to be executed next. If the command is stored, the delay time (delay counter value) of the command is set at that time, and the command is transmitted when the delay time has elapsed. Therefore, when a plurality of commands are stored in the command queue, even if each transmission interval is the shortest (when 2 is determined as the delay counter value), as shown in FIG. .48 ms (2.24 × 2 ms) are transmitted at intervals. In other words, transmission of a new command is prohibited until 4.48 ms elapses after the command is transmitted.

  In the slot machine 1 of the present embodiment, the number of symbols arranged on the reels 2L, 2C, and 2R is 21, and the rotation speed is 750 ms and the rotation is 1 rotation (80 rotations per minute). The time required for each reel 2L, 2C, 2R to move one symbol is 35.7 ms (= 750/21 ms).

  Further, in order to prevent the production control unit 91 from performing an effect that assists the eye-opening, when various commands are transmitted from the game control unit 41 to the production control unit 91, the delay time is reduced. It is necessary to set a time longer than the time required for the reels 2L, 2C, and 2R to move one symbol as the maximum value. That is, in this embodiment, it is necessary to set a time of 35.7 ms or more as the maximum delay time.

  On the other hand, in order to prevent the difference between the effect produced by the effect control unit 91 and the control performed by the game control unit 41 and causing a sense of discomfort, it is preferable to shorten the maximum delay time in the command transmission process as much as possible. . That is, in the case of the present embodiment, it is preferable that the maximum value of the delay time is set to 35.7 ms or more and as close as possible to 35.7 ms. In the present embodiment, as described above, the delay time in the command transmission process can be set only for a time corresponding to a multiple of the execution interval (2.24 ms) of the command transmission process. Since the minimum value among the values of 35.7 ms or more is 2.24 ms × 16 = 35.84 ms, the optimum maximum delay time is 35.84 ms in the slot machine 1 of the present embodiment.

  For this reason, it is only necessary to set 17 as the upper limit value of the delay counter value (L), and in this way, the maximum value of the delay time is prevented in order to prevent the effect of assisting in the present embodiment. It is possible to set the minimum value among the values that are equal to or greater than the maximum value of the minimum delay time required.

  Further, in this embodiment, as shown in FIG. 25B, a power failure occurs before the delay time {2.24 × (La−1) ms} set when an untransmitted command is detected. Occurs, and when a power interruption interrupt process to be described later is executed, the command stored in the command queue in the power interruption interrupt process, the serial number of the stored area, the value of the transmission pointer and the storage pointer, While the unsent flag is backed up, the value of the delay counter, that is, the delay time is not backed up. If untransmitted commands remain before power interruption in the command transmission process of timer interrupt process 1 that is executed first after interruption of power is restored and interruption prohibition is released, a delay counter Is set again, and when the delay counter value set here becomes 0, an untransmitted command is transmitted. That is, an untransmitted command is transmitted when a delay time {2.24 × (La′−1) ms} reset after the restoration of power interruption has elapsed.

  In FIG. 26, the game control unit 41 interrupts the basic process (game control process in the present embodiment) as the above-described interrupt process 3 based on the output from the internal timer and periodically (every 0.4 ms in the present embodiment). It is a flowchart which shows the control content of the timer interruption process (B) to perform.

  In the timer interrupt process (B), first, interrupt prohibition is set (Sg1). That is, the execution of another interrupt process is prohibited with the start of the timer interrupt process. Then, the basic process register is saved in the RAM (Sg2), and after the timer interrupt process (B) is completed, the process before the interrupt can be restored.

  Next, it is confirmed whether or not the drive state of the take-in motor 101 is set to on (Sg3). If the drive state of the take-in motor 101 is set to on, it is set in the RAM of the game control unit 41. The value of the processed execution counter is updated (Sg4). In the step of Sg4, 20 is set as an initial value, and 1 is subtracted for each update. When the updated counter value becomes 0, 20 is set again as the initial value.

  Next, it is confirmed whether it is time to perform processing based on the processing execution counter value (Sg5). In the step of Sg5, first, it is determined whether the driving is based on the capturing operation or the driving based on the returning operation. If the driving is based on the capturing operation, the process execution counter value is a multiple of 5, That is, it is determined whether the value is any one of 5, 10, 15, and 20. If the process execution counter value is a multiple of 5, it is determined that the process is to be performed. On the other hand, if the driving is based on the return operation, it is further determined whether or not the process counter value is 20, and if the process execution counter value is 20, it is determined that the process is to be performed.

  If it is determined that it is time to perform the process in step Sg5, a capture motor phase signal for outputting the phase signal of the capture motor 101 is output (Sg6), and then the capture motor position signal is input from the input port. (Sg7), the register saved in Sg2 is restored (Sg8), the prohibition of interrupt is canceled (Sg9), and the process before the interruption is returned.

  Also, if the on state is not set as the drive state of the take-in motor 101 in step Sg3, or if it is determined that it is not time to perform processing in step Sg5, the saved register in Sg2 is restored. (Sg8), the prohibition of interruption is canceled (Sg9), and the processing before the interruption is returned.

  As described above, in the timer interrupt process (B), it is determined whether the drive of the take-in motor 101 is due to the take-in operation or the return operation, and the execution interval differs accordingly. Specifically, in the case of driving of the take-in motor 101 based on a take-in operation that requires more accuracy, the take-in is performed based on a return operation that is executed at a short interval and does not require accuracy as compared with the take-in operation. In the case of driving the motor 101, it is executed at long intervals.

  FIG. 27 shows a power interruption interrupt process executed by the game control unit 41 by interrupting the basic process (game control process in this embodiment) as the interrupt process 1 based on the detection of the voltage drop signal from the power monitoring IC 47. It is a flowchart to show.

  In the power interruption interrupt processing, first, interrupt prohibition is set. That is, the execution of other interrupt processes is prohibited with the start of the power interruption interrupt process (Sh1). Next, all registers that may be in use are saved in the RAM (Sh2), so that the original processing can be restored when the power interruption process is stopped or when the power interruption is restored.

  Next, port input processing for inputting detection data of the voltage drop signal from the input port is executed (Sh3), and it is confirmed whether or not the voltage drop signal is inputted (Sh4). At this time, if the voltage drop signal is not inputted, the register saved in Sh2 is restored (Sh5), the prohibition of interruption is canceled (Sh6), and the processing before the interruption is returned.

  If a voltage drop signal is input in step Sh4, RAM diagnostic data is set (Sh7), and all output ports are initialized (Sh8). Next, RAM parity data is calculated and set so that the exclusive OR of all bytes in the RAM area becomes 0 (Sh9), and RAM access is prohibited (Sh10).

  Then, except for the determination of whether or not the voltage drop signal is input (Sh11, Sh12, where Sh11 and Sh12 are the same processes as Sh3 and Sh4), a loop process in which no process is performed is entered. . That is, when the voltage decreases as it is, the operation is stopped internally. Therefore, the game control unit 41 reliably stops operation when power is interrupted. In this loop process, when the voltage recovers and the voltage drop signal is not input, the above power-on process (game) is executed, and if the parity check and the RAM diagnosis data are normal, the original It will return to processing.

  In the present embodiment, after the access to the RAM is prohibited, the output state of the voltage drop signal is monitored, and when the voltage drop signal is not inputted, the recovery of the voltage is determined, and the power-on process (game) For example, if a reset circuit (so-called watchdog timer) that outputs a reset signal when time is up without being cleared for a predetermined period, any processing is performed in the loop processing. Instead, the process may be shifted to a power-on process (game) based on the input of the reset signal while the loop process is being performed.

  Next, various control contents executed by the effect control unit 91 mounted on the effect control board 90 in the present embodiment will be described based on the flowcharts of FIGS. 28 to 30.

  When the power is turned on and the CPU is reset, the effect control unit 91 performs a power-on process (effect) shown in FIG.

  In the power-on process (effect), first, a RAM data check (parity check in this embodiment) of the effect control unit 91 is performed (Sj1, Sj2). Specifically, the current parity is created, and it is determined whether or not the data being backed up is normal depending on whether or not it matches the parity stored before power interruption.

  If the check result is normal, the RAM diagnosis data created before power interruption is confirmed (Sj3), and it is determined whether or not it is normal (Sj4). If the RAM diagnosis data is normal, all the registers are restored (Sj5), and the prohibition of interrupt is released (Sj6). That is, it returns to the effect state at the time of power interruption.

  If the result of the data check is not normal in step Sj2 or if the data for RAM diagnosis is not normal in step Sj4, the effect state cannot be returned to the state at the time of power interruption, so it is stored in the RAM. Data, that is, the effect initialization process for initializing the control state of the effect control unit 91 is executed (Sj7), and the prohibition of interruption is canceled (Sj6).

  FIG. 29 is a flowchart showing the control content of the command reception interrupt process executed by the effect control unit 91 by interrupting and executing another process as the interrupt process 1 based on the detection of the strobe signal output from the game control unit 41. . The strobe signal is a signal that is input to the interrupt input terminal of the effect control unit 91 when a command is transmitted.

  In the command reception interrupt processing, first, interrupt prohibition is set (Sk1). Then, the register is saved in the RAM (Sk2), and after the command reception interrupt process is completed, the process before the interrupt can be restored.

  Next, the MODE output from the game control unit 41 is acquired (Sk3), and it waits until the strobe signal is detected again (Sk4). When the strobe signal is detected again, the EXT output from the game control unit 41 is obtained. Obtain (Sk5). And the command comprised from MODE and EXT is stored in the buffer provided in RAM of the production | generation control part 91 (Sk6).

  Next, the saved register is restored in Sk2 (Sk7), the interrupt prohibition is canceled (Sk8), and the process before the interruption is returned.

  FIG. 30 is a flowchart showing the control content of the timer interrupt process (effect) as the interrupt process 2 that the effect control unit 91 executes periodically (every 1.12 ms in this embodiment) based on the output from the internal timer. It is.

  In the timer interrupt process (effect), first, the register is saved in the RAM (Sm1), and after the timer interrupt process (effect) ends, the process before the interrupt can be restored.

  Next, it is confirmed whether or not a command is stored in the buffer (Sm2). If stored, the command is acquired from the buffer (Sm3), and it is determined whether or not the acquired command is an initialization command (Sm4). If the acquired command is an initialization command, the above-described effect initialization process is executed (Sm5), the register saved in Sm1 is restored (Sm10), and the process before the interruption is returned.

  Further, in Sm4, when it is determined that the acquired command is not an initialization command, an effect setting process for setting control contents of the effect peripheral device according to the contents of the command (Sm6), and the set control contents By performing the effect control process for controlling the peripheral device for the effect according to (Sm7), the control state is changed to the effect state according to the command, and the counter update process for updating various counters is performed (Sm8).

  Next, the content of the RAM of the effect control unit 91, that is, the process for normally backing up the effect state, specifically, confirms whether the data backed up in the power-on process (effect) described above is normal. Backup processing for creating and saving parity and RAM diagnostic data for this purpose (Sm9), restoring the saved register in Sm1 (Sm10), and then returning to the processing before the interrupt.

  Next, operation states of the game control unit 41 and the effect control unit 91 during a power failure will be described based on the timing chart of FIG.

  First, the power monitoring IC 47 outputs a voltage drop signal (on) to the game control unit 41 when the + 25V DC voltage (hereinafter referred to as the power monitoring voltage) becomes + 18V or less (ta1). If the game control process 41 is executing the game control process when the game control unit 41 detects the voltage drop signal, the game control process 41 is interrupted to execute the power interruption interrupt process. In addition, when the game control unit 41 detects a voltage drop signal at the same time as the request for the timer interrupt process, the interrupt interrupt process is executed in preference to the interrupt interrupt process over the timer interrupt process (A). . Further, when the game control unit 41 detects a voltage drop signal during the execution of the timer interrupt process (A), the power interruption interrupt process is executed when the timer interrupt process (A) being executed is completed. (Ta2). In this embodiment, the power monitoring voltage becomes +18 V at which the voltage drop signal is output, rather than the sum of the maximum time required for the timer interrupt process (A) and the maximum time required for the power interruption interrupt process. Since the time to drop to the voltage (+ 5V) (ta3) that can drive the game control unit 41 is longer, even if the game control unit 41 is executing the timer interrupt process (A) at the time of power failure, Time that can perform interrupted interrupt processing reliably is secured.

  In addition, +12 V (VCC), which is the source of the power supply voltage {+5 V (VCC)} of the production control unit 91, is delayed in voltage drop by the capacitor 309 mounted on the power supply board 202 even during a power failure. Until a sufficient time has passed to receive the command transmitted in the timer interrupt process (A) at the time of a power failure and to reflect the received command in the backup process in the subsequent timer interrupt process (effect) ( ta4) Since the voltage (+ 7V) that can drive the effect control unit 91 is maintained, even when a command is received from the game control unit 41 at the time of a power failure, the time for ensuring that the command is reflected in the backup process It has come to be secured. In this embodiment, the voltage at which the effect control unit 91 can be driven is maintained until a time of 20 ms or longer has elapsed from the time when the power monitoring voltage becomes +18 V or less. It is only necessary to maintain a voltage capable of driving the effect control unit 91 for at least the execution interval of the timer interrupt 1 (a time sufficient for the effect control unit 91 to reliably receive the command).

  Next, various control contents executed by the payout control unit 61 mounted on the payout control board 60 in the present embodiment will be described with reference to FIGS.

  When the power is turned on and the CPU is reset, the payout control unit 61 performs a power-on process (payout) shown in the flowchart of FIG.

  In the power-on process (payout), the payout control unit 61 first sets the above-described payout control board connection confirmation signal to on (Sp1). Note that the payout control board connection confirmation signal is always kept on while power is supplied. Then, after executing an initialization process for initializing the data stored in the RAM, that is, the control state of the payout control unit 61 (Sp2), the prohibition of interruption is canceled (Sp3), and the process proceeds to a loop process.

  FIG. 33 is a flowchart showing the control contents of the interrupt process (payout) that is periodically executed based on the output of the internal timer after the payout control unit 61 cancels the prohibition of interrupt.

  In the interrupt process (payout), the switch detection process (Sq1), the connection confirmation process (Sq2), the main board communication process (Sq3), the lending control process (Sq4), the payout control process (Sq5), and the motor control process (Sq6). Are executed sequentially.

  In the switch detection process in the step of Sq1, a process of acquiring detection states of various sensors, switches, and signals is executed. In the connection confirmation process in step Sq2, a process for confirming the connection status with the card unit 15 is executed. In the main board communication process in step Sq3, a process for exchanging signals with the game control board 40 is executed. In the lending control process in step Sq4, a process for exchanging signals with the card unit is executed. In the payout control process in step Sq5, a process for setting the drive state of the payout motor 201 is executed. In the motor control process of Sq6, a process for controlling the output of the phase signal of the payout motor 201 based on the driving state of the payout motor 201 set in the step of Sq5 is executed.

  FIG. 34 is a flowchart showing detailed control contents of the connection confirmation process executed by the payout control unit 61 in step Sq2.

  In the connection confirmation process, first, it is confirmed whether or not VL on is detected, that is, whether or not it is connected to the card unit 100 (Sr1). If VL on is detected in step Sr1, the card unit connecting signal is turned on. On the other hand, if VL on is not detected in step Sr1, the card unit connecting signal is turned off (Sr3).

  FIG. 35 is a flowchart showing detailed control contents of the main board communication process executed by the payout control unit 61 in step Sq3.

  In the main board communication process, first, the main board communication process selection flag (0 to 2) indicating the type of the main board communication process is confirmed (Ss1). If the main board communication process selection flag is 0, the main board communication process 1 is performed. If the main board communication processing selection flag is 1, main board communication processing 2 is executed (Ss3), and if the main board communication processing selection flag is 2, main board communication processing 3 is executed (Ss2). Ss4).

  FIG. 36 is a flowchart showing detailed control contents of the main board communication process 1 executed by the payout control unit 61 in step Ss2.

In the main board communication process 1, first, it is checked whether or not the game control board connection confirmation signal “on” is detected, that is, whether or not the game control board connection confirmation signal is connected to the game control board 40 (Ss11). If the signal on is not detected, the process returns to the original process. Ss11
If the game control board connection confirmation signal “on” is detected in step, whether or not the payout request signal or the payment request signal is “on” is detected, that is, the award of the award ball from the game control board 40 or the captured ball (Ss12, Ss13), and if neither the payment request signal on nor the payment request signal on is detected, the process returns to the original process. Further, if the payout request signal or the payment request signal on is detected in steps Ss12 and Ss13, it is confirmed whether or not payout is possible (Ss14 to Ss16). Specifically, it is confirmed whether or not the supply ball detection switch 205 is detected, that is, whether or not a payout ball is secured, and whether or not the return ball clogging detection switch 111 is detected, that is, the return ball guide passage 109. It is confirmed whether or not the return ball is clogged, and whether or not the payout ball clogging detection switch 112 is detected, that is, whether or not the payout ball is clogged in the payout ball guide passage 208 is confirmed. If the payout is not possible, the process returns to the original process. Further, in the steps of Ss14 to Ss16, if the payout is possible, that is, if the supply ball detection switch 205 is detected and neither the return ball blockage detection switch 111 nor the discharge ball blockage detection switch 112 is detected. The main board communication process selection flag is set to 1 (Ss17), and the process returns to the original process.

  FIG. 37 is a flowchart showing detailed control contents of the main board communication process 2 executed by the payout control unit 61 in step Ss3.

  In the main board communication process 2, first, it is checked whether or not the game control board connection confirmation signal “on” is detected, that is, whether or not the game control board connection confirmation signal is connected to the game control board 40 (Ss21). If the signal on is not detected, the main board communication process selection flag is set to 0 (Ss22), and the process returns to the original process. If the game control board connection confirmation signal on is detected in step Ss21, whether or not EXS is on, that is, whether or not the lending control based on the lending request from the card unit 100 is being executed. (Ss23), and if EXS is on, the process returns to the original process. Also, if EXS is on in step Ss23, the value indicated by the ball number signal is read (Ss24), and the value of the read payout number signal is set to the payout counter (game) set in the RAM of the payout control unit 61. (Ss25), which is stored in a counter that stores the number of balls that have not been paid out out of the number of balls to be paid out based on the payout request and settlement request from the control board 40 and the lending request from the card unit 100. The signal is turned on (Ss26). Then, the main board communication process selection flag is set to 2 (Ss27), and the process returns to the original process.

  FIG. 38 is a flowchart showing detailed control contents of the main board communication process 3 executed by the payout control unit 61 in step Ss4.

  In the main board communication process 3, first, it is checked whether or not the game control board connection confirmation signal “on” is detected, that is, whether or not the game control board connection confirmation signal is connected to the game control board 40 (Ss31). If the signal on is not detected, the process returns to the original process. If the game control board connection confirmation signal on is detected in step Ss31, it is checked whether the value of the payout counter is 0 and whether payout for the payout counter is completed (Ss32). If the counter value is 0, the in-operation signal is turned off (Ss33), the main board communication process selection flag is set to 0 (Ss34), and the process returns to the original process. If the value of the payout counter is not 0 in step Ss32, the process returns to the original process.

  FIG. 39 is a flowchart showing detailed control contents of the lending control process executed by the payout control unit 61 in step Sq4.

  In the lending control process, first, the lending process selection flag (0 to 3) indicating the type of the lending control process is confirmed (St1). If the lending process selection flag is 0, the lending communication process 1 is executed (St2). If the lending process selection flag is 1, execute the lending communication process 2 (St3), if the lending process selection flag is 2, execute the lending communication process 3 (St4), and lend if the lending process selection flag is 3. The communication process 4 is executed (St5).

  FIG. 40 is a flowchart showing detailed control contents of the lending communication processing 1 executed by the payout control unit 61 in the step St2.

  In the lending communication processing 1, first, it is confirmed whether or not VL on is detected, that is, whether or not it is connected to the card unit 100 (St11). Return to processing. In addition, if VL on is detected in the step of St11, it is confirmed whether or not the game control board connection confirmation signal on is detected, that is, whether or not the game control board 40 is connected (St12). ), If the game control board connection confirmation signal on is not detected, the process returns to the original process. Further, if the game control board connection confirmation signal on is detected in the step of St12, whether or not BRDY is detected, that is, whether or not the card unit 100 notifies that the lending operation has been performed. (St13), if BRDY on is not detected, the process returns to the original process. Also, if BRDY on is detected in step St13, the lending process selection flag is set to 1 (St14), and the process returns to the original process.

  FIG. 41 is a flowchart showing detailed control contents of the lending communication processing 2 executed by the payout control unit 61 in the step St3.

  In the lending communication process 2, first, it is confirmed whether or not VL on is detected, that is, whether or not it is connected to the card unit 100 (St21). If VL on is not detected, the lending process is selected. The flag is set to 0 (St22), and the process returns to the original process. Also, if the VL on is detected in the step of St21, it is confirmed whether or not the game control board connection confirmation signal on is detected, that is, whether or not the game control board 40 is connected (St23). ) If the game control board connection confirmation signal on is not detected, the lending process selection flag is set to 0 (St22), and the process returns to the original process. Further, if the game control board connection confirmation signal on is detected in the step of St23, whether or not BRDY is on, that is, whether or not the card unit 100 has notified that the lending operation has been performed. (St24), if BRDY on is not detected, the lending process selection flag is set to 0 (St22), and the process returns to the original process. Also, if BRDY on is detected in the step of St24, it is confirmed whether BRQ on is detected, that is, whether pachinko ball lending is requested (St25). If not detected, the process returns to the original process. Further, if BRQ on is detected in the step of St25, it is confirmed whether or not payout is possible (St26 to St28). Specifically, it is confirmed whether or not the supply ball detection switch 205 is detected, that is, whether or not a payout ball is secured, and whether or not the return ball clogging detection switch 111 is detected, that is, the return ball guide passage 109. It is confirmed whether or not the return ball is clogged, and whether or not the payout ball clogging detection switch 112 is detected, that is, whether or not the payout ball is clogged in the payout ball guide passage 208 is confirmed. If the payout is not possible, the process returns to the original process. Further, in the steps of St26 to St28, if payout is possible, that is, if the supply ball detection switch 205 is detected and the return ball clogging detection switch 111 and the payout ball clogging detection switch 112 are not detected. Then, the lending process selection flag is set to 2 (St29), and the process returns to the original process.

  FIG. 42 is a flowchart showing detailed control contents of the lending communication process 3 executed by the payout control unit 61 in the step St4.

  In the lending communication processing 3, first, it is confirmed whether or not VL on is detected, that is, whether or not it is connected to the card unit 100 (St31), and if VL on is not detected, lending processing is selected. The flag is set to 0 (St32), and the process returns to the original process. Also, if VL on is detected in the step of St31, it is confirmed whether or not the game control board connection confirmation signal on is detected, that is, whether or not it is connected to the game control board 40 (St33). ) If the game control board connection confirmation signal on is not detected, the lending process selection flag is set to 0 (St32), and the process returns to the original process. If the game control board connection confirmation signal on is detected in step St33, it is determined whether or not BRDY is on, that is, whether or not the card unit 100 has notified that the lending operation has been performed. (St34), if BRDY on is not detected, the lending process selection flag is set to 0 (St32), and the process returns to the original process. Further, if BRDY on is detected in the step of St34, it is confirmed whether or not the value of the payout counter is 0, that is, whether or not payout for the payout counter is completed (St35). If it is not 0, the process returns to the original process. If the value of the payout counter is 0 in the step of St35, EX is turned on to notify the start of the lending operation (St36). Then, the lending unit ball number (25 in this embodiment) that is lent by one lending request is stored in the payout counter (St37), the lending process selection flag is set to 3 (St38), Return to processing.

  FIG. 43 is a flowchart showing detailed control contents of the lending communication processing 4 executed by the payout control unit 61 in step St5.

  In the lending communication process 4, first, it is confirmed whether or not the VL is detected, that is, whether or not the VL is connected (St41). If the VL is not detected, the lending process is selected. The flag is set to 0 (St42), and the process returns to the original process. In addition, if VL on is detected in the step of St41, it is confirmed whether or not the game control board connection confirmation signal on is detected, that is, whether or not it is connected to the game control board 40 (St43). If the game control board connection confirmation signal “on” is not detected, the lending process selection flag is set to 0 (St42), and the process returns to the original process. Further, if the game control board connection confirmation signal on is detected in the step of St43, whether or not BRDY is on is detected, that is, whether or not the card unit 100 is notified that the lending operation is performed. (St44), if BRDY on is not detected, the lending process selection flag is set to 0 (St42), and the process returns to the original process. Further, if BRDY on is detected in the step of St44, it is confirmed whether or not the value of the payout counter is 0, that is, whether or not payout for the payout counter is completed (St45). If it is not 0, the process returns to the original process. If the value of the payout counter is 0 in the step of St45, EXS is turned off to notify the completion of the lending operation (St46), the lending process selection flag is set to 2 (St47), and the process returns to the original process.

  FIG. 44 is a flowchart showing detailed control contents of the payout control process executed by the payout control unit 61 in step Sq5.

  In the payout control process, first, the detection status of the payout ball detection switch 202 is checked to check whether or not a payout ball has been detected (Su1). If a payout ball is detected, 1 is determined from the value of the payout counter. Is subtracted (Su2).

  Next, the payout control process selection flag (0 to 2) indicating the type of payout control process is confirmed (Su3). If the payout control process selection flag is 0, the payout start waiting process is executed (Su4), and the payout control process is performed. If the selection flag is 1, a payout stop waiting process is executed (Su5), and if the payout control process selection flag is 2, a payout waiting process is executed (Su6).

  FIG. 45 is a flowchart showing detailed control contents of the payout start waiting process executed by the payout control unit 61 in step Su4.

  In the payout start waiting process, first, it is confirmed whether or not the value of the payout counter is 0, that is, whether or not an unpaid ball remains (Su11). If the value of the payout counter is 0, the process returns to the original process. Return. If the value of the payout counter is not 0 in step Su11, the rotational drive amount of the payout motor 201 corresponding to the value of the payout counter, that is, the rotation required to pay out the number of balls set in the payout counter. A drive amount is set (Su12). Then, the setting of the dispensing motor 201 is turned on and the driving of the dispensing motor 201 is started (Su13). Then, the payout control process selection flag is set to 1 (Su14), and the process returns to the original process.

  FIG. 46 is a flowchart showing the detailed control contents of the payout stop waiting process executed by the payout control unit 61 in step Su5.

  In the payout stop waiting process, first, it is confirmed whether or not the rotation corresponding to the rotational drive amount, that is, the value of the payout counter has been completed (Su21). Return to the process. If rotation for the value of the payout counter has been completed in the step of Su21, the setting of the payout motor 201 is turned off and the drive of the payout motor 201 is stopped (Su22). Then, a passage waiting timer counter set in the RAM of the payout control unit 61 (in order to measure the waiting time required for the pachinko ball paid out by the rotation of the payout motor 201 to be detected by the payout ball detection switch 202). Is set to the initial value (Su23), the payout control process selection flag is set to 2 (Su24), and the process returns to the original process.

  FIG. 47 is a flowchart showing detailed control contents of the payout passing waiting process executed by the payout control unit 61 in step Su6.

  In the payout passage waiting process, first, the value of the passage waiting timer counter is decremented by 1 (Su31), and it is confirmed whether or not the value of the passage waiting timer counter is 0, that is, whether the passage waiting time has elapsed (Su32). If the value of the passage waiting timer counter is not 0, the process returns to the original process. If the value of the passing waiting timer counter is 0 in step Su32, the payout process selection flag is set to 0 (Su33), and the process returns to the original process.

  Next, the operation state of the slot machine 1 based on the control of the game control unit 41 and the payout control unit 61 described above will be described based on the timing charts of FIGS.

  FIG. 48 is a timing chart showing an operation state when a winning with a winning ball occurs or when an operation of the settlement switch 10 is accepted in a state where a captured ball remains.

  When a winning with a winning ball occurs or when an operation of the settlement switch 10 is accepted in a state where a captured ball remains, the game control unit 41 requests a payout by a payout request for the value of the ball number signal. The value is updated to a value indicating the number of balls (the number of payout requests) or the number of balls requested to be paid out (the number of payment requests) according to the payment request (tb1), and the payout request signal or the payment request signal is turned on (tb2). When the payout control unit 61 detects that the payout request signal or the checkout request signal is on, the game control unit 41 is notified of the start of the pachinko ball payout operation based on the payout request or the checkout request by turning on the operation signal (tb3). ). Then, a payout operation for paying out the number of pachinko balls indicated by the ball number signal is started (tb4), and when the payout operation is completed (tb5), the payout operation of the pachinko ball based on the payout request or the settlement request is made with the in-operation signal turned off. Is notified to the game control unit 41 (tb6). Next, when the game control unit 41 detects the off-operation signal, it confirms the end of the payout operation, and sets the payout request signal or the settlement request signal to off (tb7). In addition, the game control unit 41 validates the detection of the payout ball by the payout ball detection switch 202 only during the period (tb3 to tb6) from when the on-operation signal is detected to when off is detected. Each time a payout ball is detected, the value of the unpaid ball counter or the value of the unpaid ball counter set in the RAM of the game control unit 41 is subtracted and updated. Further, during the payout request, a payout ball is detected, and every time the value of the unpaid ball counter is decremented by 1, the value of the payout ball number displayed on the taken-in / paid-off ball display 16 is displayed. One by one is added and updated.

  FIG. 49 is a timing chart showing an operation state when an error occurs during a payout request or a settlement request.

  The game control unit 41 starts counting the payout communication error determination time from the time (tc1) when the payout request signal or the payment request signal is turned on. As shown in FIG. 49 (a), when the on-operation signal cannot be detected even after the payout communication error determination time has elapsed from the time when the payout request signal or the payment request signal is turned on (tc1) (tc2). In other words, when the start of the pachinko ball payout operation based on the payout request or the payment request cannot be confirmed, it is determined as a payout communication error, the error control is performed, and an error code indicating the payout communication error is displayed on the game auxiliary display 17. Display and inform. Even if the payout communication error is controlled to an error state, the payout request signal or the payment request signal is kept on, and the monitoring of the operating signal is continued. In this state, when the on signal of the operating signal is detected and then the off signal of the operating signal is detected (tc3), that is, when the end of the pachinko ball payout operation based on the payout request or the payment request is confirmed. Automatically cancels the error state (tc4).

  Further, as shown in FIG. 49 (b), the on signal of the operating signal is detected before the payout communication error determination time has elapsed from the time (tc1) when the payout request signal or the settlement request signal is turned on. Pachinko ball payout based on payout request or settlement request, ie, when the operation signal off cannot be detected (tc5) even after the payout communication error determination time has elapsed since the request signal or settlement request signal was turned on (tc1) Even when the end of the operation cannot be confirmed, it is determined that the payout communication error has occurred, the state is controlled to an error state, and an error code indicating the payout communication error is displayed on the game auxiliary display 17 and notified. Even in this case, the payout request signal or the settlement request signal is kept on, and the monitoring of the operating signal is continued. In this state, when the on signal of the operating signal is detected and then the off signal of the operating signal is detected (tc6), that is, when the end of the pachinko ball payout operation based on the payout request or the payment request is confirmed. Automatically cancels the error state (tc7).

  Thus, in this embodiment, after the game control unit 41 makes a payout request or a payment request, regardless of whether or not the start of the pachinko ball payout operation based on the payout request or the payment request is confirmed, Even if the payout communication error determination time elapses from the time when the checkout request is made, if the end of the payout operation of the pachinko ball based on the payout request or the checkout request cannot be confirmed, it is determined as a payout communication error. . That is, the payout communication error is determined based only on the payout communication error determination time counted from the time when the payout request or the settlement request is made. Even when it is determined as a payout communication error and controlled to an error state, communication with the payout control unit 61 continues and when the end of the payout operation of the pachinko ball based on the payout request or the payment request can be confirmed. The error state is automatically cleared.

  In the present embodiment, as described above, even if the payout communication error determination time has elapsed from the time when the payout request signal or the checkout request signal is turned on, the pachinko ball payout operation based on the payout request or the checkout request is performed. When the end cannot be confirmed, a payout communication error is determined. However, the present invention is not limited to this.

  FIG. 50 is a timing chart showing a modified example of the operation status when an error occurs during a payout request or a settlement request.

  In this modified example, as shown in FIG. 50A, the game control unit 41 starts counting the first payout communication error determination time from the time (td1) when the payout request signal or the payment request signal is turned on. When the on-operation signal cannot be detected (td2) even after the first payout communication error determination time has elapsed from the time when the payout request signal or the checkout request signal is turned on (td1), that is, the payout request or the checkout request. If the start of the pachinko ball payout operation cannot be confirmed, it is determined as a payout communication error, and the error state is controlled. Even in this case, while the payout communication error is controlled based on the payout communication error, the payout request signal or the payment request signal is kept on, and the in-operation signal is continuously monitored. In this state, when the on signal of the operation is detected (td3), that is, when the start of the pachinko ball payout operation based on the payout request or the payment request is confirmed, the error state is automatically canceled ( td4).

  Further, as shown in FIG. 50B, the game control unit 41 starts counting the second payout communication error determination time from the time (td5) when the on-operation signal is detected, and the on-operation signal is turned on. When the operation signal off cannot be detected even after the second payout communication error determination time has elapsed from the time of detecting (td5) (td6), that is, the pachinko ball payout operation based on the payout request or the payment request is terminated. If it cannot be confirmed, it is determined as a payout communication error, and the error state is controlled. Even in this case, while the payout communication error is controlled based on the payout communication error, the payout request signal or the payment request signal is kept on, and the in-operation signal is continuously monitored. In this state, when the off-operation signal is detected (td7), that is, when the completion of the pachinko ball payout operation based on the payout request or the payment request is confirmed, the error state is automatically canceled ( td8).

  As described above, in this modification, even if the first payout communication error determination time has elapsed after the game control unit 41 makes a payout request or a payment request, a payout operation of a pachinko ball based on the payout request or the payment request. If the second payout communication error determination time has elapsed after confirming the start of the payout operation of the pachinko ball based on the payout request or the payment request, even if the second payout communication error determination time has elapsed, When the end of the ball payout operation cannot be confirmed, a payout communication error is determined. In other words, the payout communication error occurs when the first payout communication error determination time has elapsed in the period from when the payout request or settlement request is made until the start of the payout operation is confirmed, and after the start of the payout operation is confirmed. The determination is made separately when the second payout communication error determination time elapses until the end of the payout operation is confirmed. Further, even when the payout communication error is determined and controlled to the error state, communication with the payout control unit 61 is continued, and the start or end of the pachinko ball payout operation based on the payout request or the payment request can be confirmed. At this point, the error state is automatically cleared.

  FIG. 51 is a timing chart showing an operation state when a lending process is performed by the card unit 15 when the ball lending switch 19 is detected.

  When the operation of the ball lending switch 19 is detected, the control unit of the card unit 15 turns on BRDY and notifies the payout control unit 61 of the start of the lending process (te1). Further, the BRQ is turned on to request the lending of pachinko balls of the number of lending units (te2). When the payout control unit 61 detects that BRQ is on, it checks whether VL is on, that is, whether it is normally connected to the card unit 15, and on condition that VL is on. Turn on EXS and notify the card unit 15 of the start of a pachinko ball lending operation based on BRQ (te3). Then, a lending operation for lending a pachinko ball of the number of lending units is started (te4), and when the lending operation ends (te6), the end of the lending operation of the pachinko ball based on BRQ is notified to the card unit 15 with EXS off. (Te7). Even if BRQ is detected to be on, if VL is not on, EXS is not turned on, and pachinko ball lending operation based on BRQ is not performed. Further, the payout control unit 61 can perform a lending operation by detecting BRQ on regardless of whether the game control unit 41 is in the BET process. On the other hand, when the control unit of the card unit 15 turns BRQ on, when it detects that EXS is on, it confirms that the lending operation has started, turns BRQ off (te5), detects EXS on, When off is detected, it is confirmed that the lending operation has been completed, and if the specified number of lending requests are not completed within the range of the remaining valuable value, BRQ is turned on again and lending of pachinko balls of the number of lending units is requested. (Te8). Also, when it is confirmed that the lending operation has been completed by detecting the EXS off, if the valuable value required for the lending request does not remain or if the specified number of lending requests have been completed, lending BRDY as off The end of the process is notified to the payout control unit 61 (te9).

  FIG. 52 is a timing chart showing an operation state when a winning with a winning ball occurs during execution of the lending operation.

  When the payout control unit 61 detects that the payout request signal is on during the lending operation (tf1), the payout control unit 61 waits until the lending operation for the lending unit number of balls is completed, and when the lending operation is completed (tf2), the BRQ is turned on again. In other words, even when a lending request is made, the game control unit 41 is notified of the start of the pachinko ball payout operation based on the payout request by turning on the operation signal (tf3). Then, a payout operation for paying out the number of pachinko balls indicated by the ball number signal is started (tf4), and when the payout operation is completed (tf5), the pachinko ball payout operation based on the payout request is ended with the in-operation signal turned off. The game control unit 41 is notified (tf6). At this time, if BRQ on is detected, EXS is turned on to notify the card unit 15 of the start of the pachinko ball lending operation based on the lending request (tf7), and the number of lending unit balls is pachinko ball The lending operation for lending is started (tf8).

  As described above, when a winning with a prize ball occurs during the lending operation, the payout operation based on the generation of the prize ball is performed more than the lending operation based on the lending request from the card unit 15 after the lending operation ends. Priority is given.

  FIG. 53 is a timing chart showing an operation situation when a lending process is performed by the card unit 15 in response to the detection of the ball lending switch 19 during the award ball payout operation.

  Even if the payout control unit 61 turns on the BRQ during the award ball payout operation, the payout operation is given priority and waits until the payout operation ends. When the payout operation ends (tg1), the game control unit 41 is notified of the end of the payout operation of the pachinko ball based on the payout request by setting the in-operation signal to off (tg2). At this time, if BRQ is detected to be on, EX is turned on to notify the card unit 15 of the start of a pachinko ball lending operation based on the lending request (tg3), and the number of lending unit balls is pachinko ball The lending operation for lending is started (tg4).

  The payout control unit 61 performs the lending control based on the lending request when the lending request is always detected regardless of the control state of the game control unit 41 except during the period during which the award ball is being paid out. Is possible. That is, it is possible to receive a pachinko ball even while the game is running.

  In FIG. 54, when the operation of the 1BET switch 5 or the MAXBET switch 6 is accepted and the capture control (acquisition control processing) is performed, the operation of the settlement switch 10 is accepted, and the settlement control (accounting control processing) is performed. It is a timing chart which shows the operation condition at the time of being performed.

  When the operation of the 1BET switch 5 or the MAXBET switch 6 is effectively accepted (th1), the game control unit 41 invalidates the acceptance of the operations of the 1BET switch 5, the MAXBET switch 6, and the checkout switch 10. Further, if the maximum bet number is set and the acceptance of the operation of the start switch 7 is valid, the acceptance of the operation of the start switch 7 is also invalidated. When the capture control based on the acceptance of the operation of the 1BET switch 5 or the MAXBET switch 6 is completed (th2), the acceptance of the operation of the settlement switch 10 is enabled and the maximum bet number is not yet set. In other words, if the number of captured pachinko balls is less than the 15 balls necessary to set the maximum bet number, the acceptance of the operation of the 1BET switch 5 and the MAXBET switch 6 is validated. When the take-in control based on the acceptance of the operation of the 1BET switch 5 or the MAXBET switch 6 is completed (th2), if the maximum bet number is set, the acceptance of the operation of the start switch 7 is also effective. To do.

  Further, when the operation of the settlement switch 10 is effectively accepted (th1), the game control unit 41 invalidates the acceptance of the operation of the 1BET switch 5, the MAXBET switch 6, and the settlement switch 10. Further, if the maximum bet number is set and the acceptance of the operation of the start switch 7 is valid, the acceptance of the operation of the start switch 7 is also invalidated. Then, when the settlement control based on the acceptance of the operation of the settlement switch 10 is finished (th2), the acceptance of the operation of the settlement switch 10 is validated, and the maximum bet number has not yet been set, that is, taken in If the number of pachinko balls is less than the 15 balls required to set the maximum bet number, the acceptance of the operation of the 1BET switch 5 and the MAXBET switch 6 is validated. Further, when the settlement control based on the acceptance of the operation of the settlement switch 10 is completed (th2), if the maximum bet number is set, the acceptance of the operation of the start switch 7 is also validated.

  As described above, in this embodiment, when the capture control is performed based on the reception of the operation of the 1BET switch 5 or the MAXBET switch 6, or the settlement control is performed based on the reception of the operation of the settlement switch 10, these captures are performed. Until the control and settlement control are completed, the acceptance of each operation of the 1BET switch 5, the MAXBET switch 6, the settlement switch 10, and the start switch 7 is invalidated.

  55 and 56 are timing charts showing an operation state when the connection between the card unit 15 and the payout control board 60 is cut off during the BET process.

  As shown in FIG. 55, when the connection between the card unit 15 and the payout control board 60 is cut off and VL cannot be detected (ti1), the payout control unit 61 prohibits the loan control and connects the card unit. The game control unit 41 is notified that the middle signal is off and the card unit 15 is not connected. When the game control unit 41 detects that the card unit connection signal is off and confirms that it is not connected to the card unit 15, the operation of the 1BET switch 5 and the MAXBET switch 6 is invalidated, and the 1BET switch 5 and the MAXBET Taking-in control based on acceptance of the operation of the switch 6 is prohibited. Then, an error code indicating that the card unit 15 is not connected to the slot machine 1 is displayed on the captured ball display 16 to notify the connection error.

  In addition, as shown in FIG. 56, when the game control unit 41 detects the off of the card unit connection signal during the capture control and the settlement control (tj1), At the time when the control and the settlement control are finished (tj2), the reception of the operation of the 1BET switch 5 and the MAXBET switch 6 that have been invalidated along with the execution of the capture control and the settlement control is continuously invalidated. While taking-in control based on acceptance of the operation of the MAXBET switch 6 is prohibited, an error code indicating that the card unit 15 is not connected to the slot machine 1 is displayed on the taken-in ball display 16 to indicate a connection error. Inform.

  Thereafter, as shown in FIG. 55, when the connection between the card unit 15 and the payout control board 60 is restored and VL is detected on (ti2), the payout control unit 61 permits the prohibited loan control. Then, the game unit 41 is notified that the card unit connection signal is turned on and connected to the card unit 15. When the game control unit 41 detects that the card unit connection signal is on and confirms that the card unit 15 is connected, the game control unit 41 validates the detection of the 1BET switch 5 and the MAXBET switch 6 and permits the capture control. Then, the notification of the connection error is canceled.

  In the state where the maximum bet number has already been set, the connection between the card unit 15 and the payout control board 60 is cut off, and the game control unit 41 detects the off of the card unit connection signal and is connected to the card unit 15. Even if it is confirmed that the operation of the start switch 7 has not been confirmed, the operation of the start switch 7 is still valid, and even when the operation of the start switch 7 is accepted in such a state, the game is effectively started. That is, if the maximum bet number is already set and the game start condition is satisfied, the start switch 7 is always accepted regardless of the connection state between the card unit 15 and the payout control board 60. It is possible to start the game effectively. In addition, even if the connection between the card unit 15 and the payout control board 60 is broken and the game control unit 41 detects that the card unit connection signal is off and confirms that the card unit 15 is not connected to the checkout switch, The acceptance of the operation 10 is effective, and the settlement control is effectively performed even when the operation of the settlement switch 10 is accepted in such a state. That is, regardless of the connection state between the card unit 15 and the payout control board 60, it is possible to always perform the payment control based on the reception of the operation of the payment switch 10.

  As described above, in the slot machine 1 according to the present embodiment, in a game in which a winning with a winning ball has occurred, the game control unit 41 requests the paying out of the number of pachinko balls corresponding to the paying-out winning, Is detected, that is, on the condition that the payout control unit 61 has notified that the payout operation based on the payout request has ended, the transition to the next game is allowed. In other words, the completion of payout of the number of pachinko balls to be paid out based on the occurrence of a winning will allow the transition to the next game, so the payout of pachinko balls based on the occurrence of winning is not completed , It is possible to prevent transition to the next game.

  In addition, the captured / paid-off ball display 16 displays the number of paid-out balls that have already been paid out of the number of winning balls based on the occurrence of the winning when a winning with a winning ball occurs. Therefore, it is possible to make the player easily recognize the number of pachinko balls paid out as a result of winning. Further, every time the payout ball detection switch 202 detects a payout ball, the game control unit 41 adds and updates the number of payout balls displayed on the taken-in ball / paid-out ball indicator 16. It is possible to accurately notify the ball payout status.

  In this embodiment, the game control unit 41 can detect the payout ball by directly inputting the detection signal of the payout ball detection switch 202 to the game control unit 41. The detection signal of the switch 202 is input only to the payout control unit 61, and when the payout control unit 61 detects a payout ball or when a predetermined number of payout balls are detected, a payout ball signal indicating that fact is sent. While outputting to the game control part 41, the game control part 41 may enable it to detect a payout ball | bowl by detecting the payout ball signal output from the payout control part 61.

  In addition, after the game control unit 41 makes a prize ball payout request based on the occurrence of a prize, it is detected that the in-operation signal is on, that is, the payout control unit 61 determines that the pachinko ball is based on the payout request. Every time the payout ball detection switch 202 detects a payout ball, it is a period of time until the end of the payout operation is notified after notifying the start of the payout operation. 16 is added and updated, so that noise or the like is detected in the detection signal of the payout ball detection switch 202 when the payout control unit 61 is not performing the payout operation of the pachinko ball based on the payout request. Even if it is mixed, not only will the number of paid-in balls displayed on the taken-in / paid-out ball indicator 16 be updated by mistake, but the payment will be made by the lending control based on the lending request from the card unit 15. Out Even when a pachinko ball is detected by the paid-out ball detection switch 202, the number of paid-in balls displayed on the taken-in / paid-out ball indicator 16 is not updated. The payout status can be notified more accurately.

  In this embodiment, as the number of paid-out balls displayed on the taken-in / paid-out ball indicator 16, a value obtained by subtracting the number of unpaid balls from the number of prize balls is used. A paid-out ball counter for storing the number of balls is set in the RAM of the game control unit 41, and the value of the paid-out ball counter is added each time a payout ball paid out by a payout operation based on a payout request is detected. The value of the paid-out ball counter may be used as the number of paid-out balls displayed on the loaded / paid-out ball indicator 16.

  Further, in the present embodiment, the number of balls that have been paid out is displayed on the taken-in / paid-out ball indicator 16 and the number of balls that have been paid out is updated and displayed every time one ball is detected. For example, a value obtained by dividing the number of balls that have been paid out by the number of unit balls (5 balls) is displayed on the captured ball / paid-off ball indicator 16, and the number of balls that have been paid out is equal to the number of unit balls ( 5 balls) Each time it is detected, the value displayed on the taken-in / paid-out ball indicator 16 may be updated by 1. In this way, It is possible to easily grasp the number of bets that can be set by using.

  In addition, after making a payout request to the payout control unit 61, the game control unit 41 does not detect an off-operation signal until the payout communication error determination time has elapsed, that is, based on the payout request. When the end of payout of the pachinko ball cannot be confirmed, it is determined that there is an abnormality associated with the payout operation on the payout control unit 61 side, and the payout communication error is notified by controlling to an error state. The period from when the signal is turned on to when the on signal is detected, that is, the period until the start of payout of the pachinko ball based on the payout request is confirmed, and the signal during operation after the on signal is detected. It is necessary to determine the payout communication error by separately measuring two periods, i.e., the period until off is detected, i.e., after confirming the start of the payout operation and after confirming the end of the payout operation. After the payout request is made, it is possible to measure only the period until the end of payout of the pachinko ball based on the payout request is confirmed, and it is possible to determine the payout communication error based on the time period. Control for determining an abnormality on the part 61 side can be simplified.

  Further, even when the game control unit 41 determines that the payout communication error has occurred and is informing the fact, the operation signal is continuously monitored. That is, since communication with the payout control unit 61 is continuously performed, the game control unit 41 can grasp the state of the payout operation by the payout control unit 61 even in such a case. Further, even when the game control unit 41 determines that a payout communication error has occurred and is informing the fact that the payout ball detection switch 202 detects a pachinko ball paid out by the payout device 200, an unpaid ball counter Is updated, and the number of paid-out balls displayed on the taken-in / paid-out ball indicator 16 is also added and updated accordingly, so that the number of paid-out balls can be accurately notified.

  In this embodiment, an error code indicating a payout communication error is displayed on the game auxiliary display 17, that is, the payout communication error is reported in the display form of the display, but the lighting state of the lamp and the sound The payout communication error may be notified by output or the like, or the payout communication error may be notified by outputting a signal indicating the payout communication error to a peripheral device such as a call lamp or a hall computer. .

  In addition, even when the game control unit 41 determines that a payout communication error has occurred and is informing that it has been detected, when the operation signal off is detected and the end of the payout operation based on the payout request is confirmed, that is, by mistake. When the error state is controlled, or when the payout control unit 61 side is resolved and the payout operation is normally completed while the error state is controlled, the error state is automatically canceled and the payout is performed. Since the communication error notification is also automatically ended, it is determined that the communication error is a payout communication error. Even during the notification to that effect, not only can the game be prevented as much as possible, but also the notification release operation can be performed. You can save time and effort. When the game control unit 41 determines that the payout communication error is detected and is controlled to be in an error state, that is, when a payout communication error is notified, a predetermined reset operation (for example, operation of the reset switch 38). Thus, the error state (notification of payout communication error) may be canceled, and in this way, a game shop clerk or the like can surely recognize that a payout communication error has occurred.

  Further, in this embodiment, when the game control unit 41 cannot confirm the payout of the number of pachinko balls requested by the payout request based on the detection of the payout ball by the payout ball detection switch 202, that is, the RAM of the game control unit 41. Even when the value of the unpaid ball counter set in FIG. 1 remains, the payout control indicating that the operation end signal is off, that is, the payout control unit 61 side has finished the pachinko ball payout operation based on the payout request. By receiving the end information, it is allowed to move to the next game. That is, even if the game control unit 41 side misses the detection of the payout ball by the payout ball detection switch 202, it is confirmed that the payout control unit 61 side that actually controls the payout operation has successfully paid out. Then, since it is possible to move to the next game, the game can be progressed quickly.

  Further, in this embodiment, the unpaid-out number of winning balls due to the occurrence of winning is backed up only by the game control unit 41 at the time of power interruption, and the game control is performed at the time of power restoration. When the number of unpaid balls that have been backed up by the unit 41 remains, the payout control unit 61 is again requested to pay out the unpaid balls, and the unpaid balls at the time of power interruption are paid out. It has become. For this reason, at the time of power failure recovery, the payout control unit 61 only needs to perform a normal payout operation based on the payout request made again from the game control unit 41, so that the game control unit 41 and the payout control unit 61 each There is no need to match backed up contents, and control during power failure recovery is not complicated.

  In the present embodiment, the game control unit 41 interrupts the process being executed and executes the power interruption interrupt process when the voltage drop signal is input to the interrupt input terminal CLK / TRG. In the interrupt processing, a voltage drop signal is input to the signal input terminal PORT before performing processing for returning to the control state before power interruption at the time of power restoration such as setting of RAM diagnosis data and parity data. If the voltage drop signal is also input to the signal input terminal PORT, the process for returning to the control state before the power interruption or the initialization of the output port is performed. On the other hand, if no voltage drop signal is input to the signal input terminal PORT, the process returns to the original process. In other words, even if the voltage drop signal is input to the two systems of input units and the voltage drop signal is input to one of the input units and the power interruption interrupt process is executed, the game control unit 41 is turned on when the power interruption is restored. Before executing the process for returning to the control state before the disconnection, it is determined again whether the voltage drop signal is input to the other input unit, and the voltage drop signal is also input to the other input unit. For the first time, when power is restored, processing to return to the control state before power interruption and output port initialization are executed. Since it is possible to prevent the process to return to the control state before the power interruption and the initialization of the output port at the time of power failure recovery, it is longer than necessary due to erroneous detection of power interruption. The control of the intergame control unit 41 is interrupted, or the load is more than necessary. Possible to prevent the Tsu.

  Further, in this embodiment, the game control unit 41 masks all interrupts during the period from when the power is turned on until the interrupt prohibition is released, including all initialization processing and initialization processing. During this time, all interrupt processing including power interruption interrupt processing is not performed. In addition, after the transition to the game control process, all interrupts are masked even during the initialization process that is performed at the end of the game or when the error state is cleared. All interrupt processing including interrupt processing is not performed. For this reason, even if a power interruption is detected during initialization of the data stored in the RAM of the game control unit 41, the interruption processing at the time of power interruption is not executed. By performing the interruption processing at the time of power interruption at the stage before the initialization process is completely completed, among the data to be initialized, the initialized data and the uninitialized data are mixed, It is possible to prevent problems such as failure to return to the control state before power interruption.

  In these initialization processing and all initialization processing, the address where the data to be initialized is stored according to each situation among the data stored in the RAM is designated, and the head address among the designated addresses After initializing the data stored in the, and initializing the data stored in all the specified addresses, after finishing the initialization process and starting the initialization process All the interrupts are masked and interrupt processing is performed until all data to be initialized is initialized, that is, until the data stored at all specified addresses is initialized. This is not performed, and it is possible to reliably prevent the above-described problems that may occur when the power interruption is restored.

  Further, in the slot machine 1 of the present embodiment, when the operation of the 1BET switch 5 or the MAXBET switch 6 is accepted (detected), the process proceeds to take-in control, and the 1BET switch 5 and the MAXBET switch 6 are taken until the take-in control ends. Until the acceptance of each operation of the start switch 7 and the settlement switch 10 is invalid and the capture control is finished, the respective operations are controlled so as not to be accepted. That is, when each of these operations is performed during the execution of the capture control, the control based on each of these operations is not performed, and with each of these operations being received during the execution of the capture control, Since the take-in control is not interrupted or a plurality of controls are not performed repeatedly, the control of the game control unit 41 can be simplified, and the control of the game control unit 41 becomes complicated. Can be prevented.

  Further, when the operation of the settlement switch 10 is accepted (detected), the operation shifts to the settlement control, and the acceptance of each operation of the 1BET switch 5, the MAXBET switch 6, the start switch 7 and the settlement switch 10 is invalid until the settlement control is finished. Until the settlement control ends, the control is performed so that these operations are not accepted. In other words, when each of these operations is performed during the settlement control, the control based on each of these operations is not performed. The game control unit 41 can be simplified, and the control of the game control unit 41 can be prevented from becoming complicated. .

  In this embodiment, the detection of each operation of the 1BET switch 5, the MAXBET switch 6, the start switch 7, and the adjustment switch 10 is invalidated during the execution of the acquisition control and the adjustment control. Even if each of these operations is performed during the execution of the control, the control based on each of these operations is not performed. However, the 1BET switch 5, the MAXBET switch 6, and the start are started during the execution of the capture control and the settlement control. Each operation of the switch 7 and the settlement switch 10 is detected, but control based on detection of these operations may not be performed, and each operation of the 1BET switch 5, the MAXBET switch 6, the start switch 7, and the settlement switch 10 may be performed. When this occurs, the control based on each of these operations may be performed on condition that the capture control and the settlement control are not performed. Even in these cases, in response to accepting these operations during execution of acquisition control or settlement control, the acquisition control or settlement control being executed is interrupted, or multiple controls are performed in duplicate. Therefore, the control of the game control unit 41 can be simplified, and the control of the game control unit 41 can be prevented from becoming complicated.

  Further, in this embodiment, when the capture control is performed based on the reception of the operation of the 1BET switch 5 or the MAXBET switch 6, or the settlement control is performed based on the reception of the operation of the settlement switch 10, these capture control is performed. Until the payment control is completed, the acceptance of each operation of the 1BET switch 5, the MAXBET switch 6, the payment switch 10, and the start switch 7 is invalidated. Until the operation is completed, when each operation of the 1BET switch 5, the MAXBET switch 6, the checkout switch 10, and the start switch 7 is received, the received operation is stored, and the fetch control and the checkout control being executed are stored. If reception of the operation is stored at the time of completion, control according to the stored operation may be performed at that time. Even when the acquisition control or the settlement control is not executed, new control is not executed. Therefore, as each operation is performed during the execution of the capture control or the settlement control, It is possible to prevent the control from becoming complicated.

  Further, in this embodiment, when the 1BET switch 5 or the MAXBET switch 6 is operated, the acquisition request by the operation of the 1BET switch 5 or the MAXBET switch 6 regardless of whether pachinko balls are stored in the upper plate 12 or not. The number of pachinko balls to be taken in is the same as in the past. As a result, the game can be performed quickly and the game can proceed smoothly. If the number of pachinko balls corresponding to the amount of motion is not captured after the capture operation is completed, the capture operation corresponding to the shortage is performed again and the capture operation is retried. If the number of pachinko balls corresponding to the amount of motion is not captured even if the number of times reaches a predetermined number (in this embodiment, the first capture operation is also counted by the retry counter, 2 times), Since the capture control ends, it is possible to prevent the inconvenience that the capture operation is performed endlessly.

  In this embodiment, when the 1BET switch 5 or the MAXBET switch 6 is operated, regardless of whether pachinko balls are stored in the upper plate 12, the take-in device 100 uses the 1BET switch 5 or the MAXBET switch. The number of balls corresponding to the operation of 6 (if 1 BET switch 5 is operated, the number of balls necessary to set the bet number at that time, if the MAX BET switch 6 is operated, at that time The number of balls required to set the maximum bet number) is taken in at once, but the number of pachinko balls is taken in at a predetermined number (for example, one ball). Are repeated, and the number of balls to be captured is captured according to the operation of the 1BET switch 5 or the MAXBET switch 6, or a predetermined number of times (for example, 1BET switch 5 or XBET it may be terminated intake control on condition that enough times to capture the number of balls to be fetched in response to the operation of the switch 6) has been performed.

  In addition, when the operation of the 1BET switch 5 is effectively accepted, the number of balls required for setting one bet (5 balls) has already been taken in, but is less than the number of unit balls (5 balls). The number of balls that have not yet been used to set the number of bets (the value of the unused ball counter) is set in the ball counter and the pachinko for the value of the ball counter is set by the capture control. When the operation of taking in the movement amount for taking in the ball is performed and the operation of the MAXBET switch 6 is effectively accepted, the number of bets already taken in from the number of balls (15 balls) necessary for setting the maximum bet number. Subtract the number of used balls (BET counter value x 5) used to set the number and the number of unused balls (value of unused ball counter) that have already been captured but have not yet been used to set the number of bets Set the number of balls taken in the ball counter and At, and it performs the operation amount of the capture operation for capturing the value amount of pachinko balls of the take ball counter. In other words, when the operation of the 1BET switch 5 or the MAXBET switch 6 is accepted effectively, only the number of balls necessary for setting the number of bets corresponding to the operation of the 1BET switch 5 or the MAXBET switch 6 at that time is acquired. Thus, pachinko balls can be taken up more quickly.

  In addition, since the number of balls taken in by the take-in device 100, that is, the number of used balls obtained by adding the number of used balls and the number of unused balls is displayed on the fetched ball display unit 16, The number can be easily confirmed from the outside.

  Further, in this embodiment, even when the operation of the settlement switch 10 is effectively received, the return ball clogging detection switch 111 and the payout ball clogging detection switch 112 are supplied to the take-in device 100 in a state where the return ball clogging detection switch 111 and the payout ball clogging detection switch 112 are detected. The pachinko ball is not returned, and the pachinko ball is not returned to the lower plate 11 even though the lower plate 11 is full. It is possible to prevent the pachinko balls from being clogged inside.

  Further, in the present embodiment, the card based on the output status of the card unit connection confirmation signal (VL) output from the card unit 15 when the lending request is detected from the card unit 15, that is, when BRQ is turned on. It is determined whether or not the unit 15 and the slot machine 1 are connected, and the pachinko balls are rented on condition that the card unit 15 and the slot machine 1 are normally connected. It is possible to prevent the pachinko balls from being rented although the slot machine 1 is not normally connected.

  When the card unit 15 and the slot machine 1 are not connected, the acceptance of the operation of the 1BET switch 5 and the MAXBET switch 6 is invalidated, and the take-in control is prohibited. That is, since it becomes impossible to set the bet amount for newly playing a game, the connection between the card unit 15 and the slot machine 1 can be secured when the game is played.

  Further, when the connection with the card unit 15 is disconnected during execution of the capture control and the VL cannot be detected, after the capture control during the execution is completed, the 1BET switch 5 and the MAXBET switch 6 Since the acceptance of the operation of (2) is invalidated and the take-in control for newly setting the bet number is prohibited, the connection with the card unit 15 is disconnected during the take-in control and the take-in is performed. It is possible to prevent the control from becoming complicated due to the control being interrupted in the middle.

  Further, in this embodiment, when the maximum bet number is set and the game start condition is satisfied, regardless of whether or not the card unit 15 and the slot machine 1 are normally connected, Since it is possible to play the game for the minute, the connection between the card unit 15 and the slot machine 1 is cut off even though the number of pachinko balls necessary for starting the game has already been captured. This prevents the game from starting.

  Further, in this embodiment, the settlement control can be performed by always accepting the operation of the settlement switch 10 regardless of whether the card unit 15 and the slot machine 1 are normally connected or not. It is possible to prevent the player from suffering a disadvantage because the ball or the pachinko ball remaining in the capture device 100 cannot be returned.

  Further, in this embodiment, when it is determined that the card unit 15 and the slot machine 1 are not connected, an error code indicating that fact is displayed on the game auxiliary display 17 so that a connection error is notified. Thus, it can be easily recognized from the outside that the card unit 15 and the slot machine 1 are not connected.

  In the present embodiment, a connection error is reported by displaying an error code on the game auxiliary display 17, but from other notification means such as the liquid crystal display 51, the production effect LED 52, and the speakers 53, 54. You may alert | report using audio | voice output etc.

  In this embodiment, the game control board 40 for controlling the game and the payout control board 60 for controlling the payout and lending are provided separately, and the card unit 15 and the payout control board 60 provide the connection terminal board 70. The VL output from the card unit 15 is input only to the payout control board 60, and whether or not the card unit 15 and the slot machine 1 are connected is mounted on the payout control board 60. The payout control unit 61 determines, a card unit connecting signal indicating the determination result is output to the game control board 40, and the game control unit 41 mounted on the game control board 40 receives the card unit from the payout control board 60. 1BET switch 5 and MAXBET switch 6 by detecting the off of the card unit connection signal indicating that 15 is not connected. To disable the acceptance of the operation, so as to prohibit the capture control. For this reason, the game control board 40 that controls the game does not need to be directly connected to the card unit 15 outside the slot machine 1, so that an illegal signal is input from the outside to the game control board 40 and affects the game control. It can prevent giving.

  In this embodiment, the payout control unit 61 mounted on the payout control board 60 determines whether or not the card unit 15 and the slot machine 1 are connected, and a card unit connecting signal indicating the determination result is a game. The card unit connection signal (VL) indicating that the card unit 15 is normally connected is output to the control board 40, as shown in FIG. The payout control board 60 branches and inputs to both the payout control board 60 and the game control board 40, and the payout control part 61 mounted on the payout control board 60 and the game control part 41 mounted on the game control board 40 are provided. It is determined whether or not the card unit 15 and the slot machine 1 are connected, and the payout control unit 61 determines whether the card unit 15 and the slot machine 1 are connected. If the game control unit 41 determines that the card unit 15 and the slot machine 1 are not connected, the 1BET switch 5 and the MAXBET switch 6 are lent out. It is possible to invalidate the acceptance of the operation and prohibit the take-in control. By doing so, the control load of the game control means can be distributed and reduced, and the game control unit 41 and the payout control unit In both cases, it is possible to reliably determine whether the card unit 15 is connected. In this case, the two card unit connection signals indicating that the card unit 15 is normally connected are separately output from the card unit 15, and one signal is input to the game control board 40. May be input to the payout control board 60.

  Further, in this embodiment, when the ball lending switch 19 is detected, a lending request is repeatedly made a plurality of times, and when a payout occurs and a payout request is detected during the lending operation, the lending is Even if a lending request is made again when the operation is completed, the lending operation based on the lending request is executed prior to the lending operation based on the lending request, and the lending operation based on the lending request is performed after the lending operation is completed. In order to proceed to the next game promptly, the game can proceed promptly.

  Also, in this embodiment, even if a lending request is made by the card unit 15 during execution of a payout operation based on a payout request, priority is given to the payout operation based on the payout request, and after the payout operation ends, Since the lending operation based on the payout request is executed and the payout operation based on the payout request is not interrupted by the lending request, the game can be further advanced more quickly.

  Further, in the slot machine 1 of the present embodiment, the transmission timing of the command transmitted from the game control unit 41 to the effect control unit 91 changes randomly within a predetermined time range (2.24 to 35.84 ms). In addition, it is possible to prevent the production control unit 91 from performing a production that assists in the pressing based on the reception timing of the command transmitted from the game control unit 41, and a plurality of commands are transmitted continuously. Even when the commands are transmitted, each command is transmitted in the order in which it is generated, that is, in the order in which the commands should be transmitted. Therefore, the effect control unit 91 grasps the control state of the game control unit 41 in the correct order and performs the effect. This can be performed, and it is possible to prevent the player from feeling uncomfortable due to a discrepancy in the order of the production.

  In this embodiment, the command transmission timing is delayed in the range of 2.24 to 35.84 ms. At least the symbol of the reels 2L, 2C, and 2R has a maximum delay time of 1 symbol. Anything that exceeds the time required for movement is sufficient.

  In addition, in the game control unit 41 of the present embodiment, other interrupt processing is performed during execution of any one of the power interruption interrupt processing, the timer interrupt processing (A), and the timer interrupt processing (B). Since interrupts are prohibited, even if a voltage drop signal is detected during execution of the timer interrupt process (A) or timer interrupt process (B), that is, even when a power interruption is detected, double interrupts are generated. It does not occur, and it is possible to prevent the control load of the game control unit 41 from increasing or data consistency from being lost. In particular, the transmission can be normally completed before the game control unit 41 stops without interrupting the transmission of the command during the transmission of the command and inhibiting the transmission of the command.

  If the interrupt timing of power interruption interrupt processing and the interrupt timing of timer interrupt processing (A) or timer interrupt processing (B) are simultaneous, give priority to power interruption interrupt processing. When power interruption is detected during execution of the timer interrupt process (A) or the timer interrupt process (B), the timer interrupt process (A) and the timer interrupt process (B) The interruption interrupt process is executed after waiting for the end, and since the interruption interrupt process is performed as early as possible while preventing multiple interruptions, the driving of the game control unit 41 is stopped. The power interruption interruption process can be reliably performed before.

  Further, in this embodiment, the control state of the effect control unit 91 is periodically backed up without depending on the command from the game control unit 41. It is possible to reliably back up the control state of the effect control unit 91 without causing the effect control unit 91 to be backed up by delaying the transmission of the command shown.

  Further, in this embodiment, after the game control unit 41 transmits a command, transmission of a new command is prohibited for a minimum of 4.48 ms, so that the production control unit 91 reliably receives the command, and Time to back up the received command can be secured. In the present embodiment, 4.48 ms is applied as a time during which transmission of a new command is prohibited, but at least the effect control unit 91 receives the command and is sufficient to back up the received command. If it is time, a time shorter than 4.48 ms (for example, 2.24 ms) may be applied.

  In the present embodiment, the voltage monitored by the power monitoring IC 47, various devices mounted on the game control board 40, electrical components connected to the game control board 40, various devices mounted on the presentation control board 90, presentation control. The power supply voltage for driving the electrical components connected to the substrate 90 is generated by a voltage generation circuit provided separately, and the power supply voltage is likely to drop depending on the driving status of these electrical components. In comparison, a stable voltage is monitored by the power supply monitoring IC 47, so that it is determined that a power interruption has occurred due to a temporary voltage drop, and malfunctions such as a power interruption interruption process described later are prevented. it can.

  In this embodiment, +12 V (VCC), which is the source of the power supply voltage {+5 V (VCC)} of the production control unit 91, is delayed by the capacitor 309 mounted on the power supply board 202 even during a power failure. The voltage that can drive the effect control unit 91 until a sufficient time (20 ms in this embodiment) has passed to reliably receive the command transmitted in the timer interruption process (A) at the time of a power failure. (+ 7V) is maintained, and even when a power interruption is detected during command transmission, the effect control unit 91 ensures that the command transmitted when the power interruption is detected is stopped before the drive is stopped. The voltage (+ 7V) that can drive the effect control unit 91 is maintained longer than the interval at which the effect control unit 91 executes backup. It is also possible to reliably back the received command because the.

  As mentioned above, although the Example of this invention has been described based on drawing, this invention is not limited to this Example, Even if there is a change or addition in the range which does not deviate from the main point of this invention, it is in this invention. Needless to say, it is included.

  For example, in the above-described embodiment, the game control board 40 for controlling the game and the payout control board 60 for controlling the payout and the lending are separately provided, but all the controls are performed on the game control board 40 side. May be. Alternatively, the take-out control board 60 side may control take-in, or a board for take-in control may be provided separately so that the board controls the take-in.

  In the embodiment, the payout control board 60 and the card unit 15 are connected via the connection terminal board 70, but the game control unit 41 mounted on the game control board 40 pays out in addition to the game control. The game control board 40 and the card unit 15 may be connected directly or via the connection terminal board 70 or the like.

  In the embodiment, the game control board 40 and the payout control board 60 and the effect control board 90 are directly connected, but may be connected via a relay board or the like. In particular, when connecting to the effect control board 90, the connection between the game control board 40 and the effect control board 90 is facilitated by connecting via the relay board, and from the effect control board 90 to the game control board 40. On the other hand, it is possible to suppress an illegal signal or the like from being directly input.

  Further, in the embodiment, the game control unit 41 updates the value indicated by the ball number signal to the number of unpaid balls, and turns on the payout request signal so that the number of unpaid balls for the payout control unit 61. However, a payout request signal corresponding to the number of unpaid balls may be output by a serial signal. In addition, when the game control unit 41 updates the value indicated by the ball number signal to the number of unsettled balls, the settlement request signal is turned on, so that a payment request for the number of unsettled balls is sent to the payout control unit 61. However, it is also possible to output settlement requests for the number of unsettled balls by serial signals in the same manner.

  In the embodiment, the payout control unit 61 turns on the operation signal to notify the game control unit 41 of the start of the payout operation (payout control) based on the payout request (payment request). While the operation is in progress, the on-operation signal is kept on to notify the game control unit 41 that the payout operation (payout control) is in progress, and the in-operation signal is turned off to pay out. The game control unit 41 is notified that the operation (payout control) has ended. That is, the payout control start signal, the payout control in-progress signal, and the payout control end signal in the present invention are output as one type of pulse signal, but the pulse signals corresponding to each signal may be output separately. However, these signals may be output as parallel signals. Further, each of these signals may be output as a serial signal. For example, when a payout operation (payout control) is started, information indicating that the payout operation (payout control) is started is output as a serial signal. Sends out information indicating that the payout operation (payout control) is in progress periodically by a serial signal during the payout operation (payout control), and when the payout operation (payout control) ends, the payout operation Information indicating that (payout control) has ended may be transmitted as a serial signal.

  In the embodiment, the card unit 15 that accepts a prepaid card storing a valuable value as a storage medium and causes the gaming machine to lend a pachinko ball using the valuable value read from the accepted prepaid card is provided. Although it is applied as a lending device, for example, it accepts money, and a storage medium provided in the device with a valuable value based on the received money amount (for example, a recording medium enclosed so that a player cannot take it out) It is also possible to apply a lending device that allows a gaming machine to lend a pachinko ball using a valuable value stored in a memory (a built-in lending device such as a RAM) and stored in a storage medium in the device.

  In the above embodiment, a slot machine is applied as a gaming machine. However, any gaming machine that plays a game by taking in a game ball by a take-in device can be applied regardless of the type thereof. The present invention can also be applied to a sparrow ball game machine, an arrangement ball game machine, or the like that plays a game by driving a number of game media into the game area. In this case, in order to receive a game medium for driving into the game area prior to the game, any game ball may be taken in by the take-in device. The game medium to be driven into the game area may be a game ball taken in by the take-in device, or may be a game medium for driving prepared separately from the game ball taken in by the take-in device.

  Each element in the embodiment corresponds to the present invention as follows.

A slot machine using the game ball according to claim 1 of the present invention,
The game can be started by setting a predetermined number (15 balls) of bets for one game using game balls (pachinko balls), and a plurality of types of identification information (designs) that can be identified by each other. By deriving the display result of the variable display device (reels 2L, 2C, 2R) that can be displayed in a variable manner, one game is completed, and a game ball that can be awarded according to the display result of the variable display device is displayed. The slot machine (1) used,
When a predetermined power state (+ 25V) used in the slot machine using the game ball is monitored and a power interruption condition related to the power supply being cut off is satisfied (when the voltage drops to + 18V or lower) ) A power interruption detection means (power monitoring IC 47) for outputting a power interruption signal (voltage drop signal) to
It is composed of a microcomputer having an interrupt input terminal (interrupt input terminal CLK / TRG) that generates an external interrupt when a signal is input, and a normal input terminal (signal input terminal PORT). Main control means (game control unit 41) for controlling,
A payout device for paying out the game ball based on the occurrence of a payout award with payout of the game ball;
A payout ball detecting means for detecting a game ball paid out by the payout device and outputting a detection signal each time the detected number of game balls reaches a predetermined number;
A payout ball number display means for displaying information relating to the number of payout balls paid out by the payout device based on the occurrence of the payout prize;
Sub-control means connected to the main control means for controlling the payout device;
With
The power interruption detection means outputs the power interruption signal to both an interrupt input terminal and a normal input terminal of the microcomputer,
The payout ball detection means outputs the detection signal to both the main control means and the sub control means,
The main control means includes
Power interruption interrupt processing execution means {game control unit 41 (power interruption interrupt processing)} for executing power interruption interrupt processing (power interruption interrupt processing) in response to the external interrupt ;
An unpaid-out ball number storage means for storing an unpaid-out number of unpaid out of the number of game balls according to the payout prize;
Unpaid ball number setting means for setting the number of game balls corresponding to the payout prize when the payout / winning occurs, as an unpaid ball number in the unpaid ball number storage means;
A payout request signal output means for outputting, to the sub-control means, a payout request signal requesting payout of game balls having an unpaid-out number of balls set in the unpaid-out ball number storage means when the payout winning is generated. When,
Each time the detection signal is output from the payout ball detection means, a payout ball number display update means for updating and displaying information on the payout ball number displayed on the payout ball number display means;
Unpaid ball number update means for subtracting and updating the unpaid ball number stored in the unpaid ball number storage means each time the detection signal is output from the payout ball detection means;
Including
The interruption processing execution means at the time of power interruption
In the power interruption interruption process, the normal input terminal is monitored, and a power interruption signal determination means for determining whether or not the power interruption signal is input {game control unit 41 (Sh4 in power interruption interruption process)} When,
When the power interruption signal determination means determines that the power interruption signal is input to the normal input terminal, the power interruption processing is executed to restore the control state before the power interruption when the power interruption is restored. Disconnection process execution means {game control unit 41 (Sh7 to 10 in the power interruption process)},
When the power interruption signal determination means determines that the power interruption signal is not input to the normal input terminal, the power interruption processing stop means {returns to the interrupt source processing without performing the power interruption processing { Game control unit 41 (Sh5-6 in the power interruption processing)},
Only including,
The sub-control means includes
When detecting the payout request signal, the payout device starts payout control for paying out the number of game balls required by the payout request signal, and is specified by the detection signal output from the payout ball detecting means. Payout control means for ending the payout control when the number of game balls reaches the number of game balls requested by the payout request signal;
A payout control start signal output means for outputting a payout control start signal to the main control means when the payout control is started;
A payout control signal output means for outputting a payout control signal to the main control means during the payout control,
A payout control end signal output means for outputting a payout control end signal to the main control means when the payout control is completed;
Including
The unpaid ball count storage means can hold the memory of the unpaid ball count even when power supply is stopped,
The payout request signal output means requests payout of game balls having the remaining unpaid ball number when the unpaid ball number stored in the unpaid ball number storage means remains at the time of restoration of power interruption. A payout request signal is output to the sub-control means;
Said main control means, after the payout request signal output means outputs the payout request signal, on condition that it has detected the payout control completion signal, further including a transition permitting means for permitting the shift to the next game ,
It is characterized by that.

A slot machine using the game ball according to claim 2 of the present invention is a slot machine using the game ball according to claim 1 ,
Payout control abnormality determining means {game control unit 41 (Sc108, 114 in payout request process)} for determining an abnormality (payout communication error) associated with the payout control on the sub-control means side;
When the payout control abnormality determining means determines an abnormality associated with the payout control, the abnormality is notified (an error code indicating that an abnormality associated with payout has occurred on the payout control board 60 side on the game auxiliary display 17). A payout abnormality notifying means {game control unit 41 (Sc109, 115 in the payout request process)},
Including
The main control means may be configured so that the payout abnormality notifying means {game control unit 41 (Sc109, 115 in the payout request process)} is notifying the abnormality (payout communication error) while the sub control means (payout control unit 61). ), The payout control start signal (operation signal: on), the payout control signal (operation signal: on), and the payout control end signal (operation signal: off) are continuously detected. ,
It is characterized by that.

A slot machine using the game ball according to claim 3 of the present invention is a slot machine using the game ball according to claim 2 ,
The main control means (game control unit 41) is configured to notify the payout control end signal (game control unit 41 (Sc109, 115 in the payout request process)} while notifying the abnormality (payout communication error). Including an abnormality notification ending means {game control unit 41 (Sc117 in the payout request process)} that automatically terminates the notification of the abnormality by the payout abnormality notification means when the in-operation signal (off) is detected.
It is characterized by that.

A slot machine using the game ball according to claim 4 of the present invention is a slot machine using the game ball according to any one of claims 1 to 3 ,
The transition permitting means {game control unit 41 (Sc111 in the payout request process)} is configured so that the number of game balls detected by the payout ball detecting means (payout ball detection switch 202) corresponds to the payout prize (award). Regardless of whether or not the number of balls has been reached, transition to the next game is permitted when the payout control end signal (in-motion signal: off) is detected from the sub-control means (payout control unit 61). ,
It is characterized by that.

A slot machine using the game ball according to claim 5 of the present invention is a slot machine using the game ball according to any one of claims 1 to 4 ,
Provided corresponding to a lending device (card unit 15) that outputs a lending request {lending request signal (BRQ)} of the game ball (pachinko ball) using the valuable value stored in the storage medium (prepaid card),
The sub-control means (payout control unit 61)
A connection confirmation signal input means {payout control unit 61 (switch detection process)} to which a connection confirmation signal {card unit connection confirmation signal (VL)} output from the lending device is input;
When the lending request is detected, the number of game balls requested by the lending request is paid out by the paying device (200) on the condition that the connection confirmation signal is input to the connection confirmation signal input means. Lending control means {payment control unit 61 (lending control processing)} for performing lending control (lending operation) to be performed;
Connection specification for outputting to the main control means (game control unit 41) a connection specification signal (card unit connection signal) capable of specifying whether or not the connection confirmation signal is input to the connection confirmation signal input means Signal transmission means {payout control unit 61 (connection confirmation processing)};
Including
The main control means disables the take-in control when a connection specifying signal (card unit connecting signal: off) indicating that the connection confirmation signal is not inputted is inputted to the connection confirmation signal input means. Including the take-in control disablement means {game control unit 41 (Sb4, 10-14 in BET processing)},
It is characterized by that.

A slot machine using the game ball according to claim 6 of the present invention is a slot machine using the game ball according to any one of claims 1 to 4 ,
Provided corresponding to a lending device (card unit 15) that outputs a lending request {lending request signal (BRQ)} of the game ball (pachinko ball) using the valuable value stored in the storage medium (prepaid card),
The sub-control means (payout control unit 61)
A connection confirmation signal {card unit connection confirmation signal (VL)} output from the lending device, and a first connection confirmation signal input means {payout control unit 61 (switch detection process)};
When the lending request is detected, on the condition that the connection confirmation signal is input to the first connection confirmation signal input means, the number of game balls requested by the lending request is paid out to the payout device (200). Lending control means {payout control unit 61 (lending control processing)} for performing lending control (lending operation) to be paid out by,
Including
The main control means includes
A second connection confirmation signal input means {game control unit 41 (port input processing)} to which a connection confirmation signal {card unit connection confirmation signal (VL)} output from the lending device is input;
When the connection confirmation signal is not inputted to the second connection confirmation signal input means, the intake control disable means {game control unit 41 (BET process Sb4, 10-14) }When,
including,
It is characterized by that.

A slot machine using the game ball according to claim 7 of the present invention is a slot machine using the game ball according to any one of claims 1 to 6 ,
A game ball storage section (top plate 12) for storing game balls (pachinko balls) owned by the player;
A take-in request operation unit (1BET switch 5, MAXBET switch 6) operated when requesting the take-in of game balls stored in the game ball storage unit;
A take-in device (100) that performs a take-in operation to take in game balls stored in the game ball storage unit;
An incoming game ball detecting means (first incoming ball detection switch 104, second incoming ball detection switch 105) for detecting a game ball taken in by the take-in operation of the take-in device;
With
The main control means (game control unit 41)
A take-in control means {game control unit 41 (take-in control process)} that performs take-in control for taking in a game ball by a take-in operation of the take-in device when the take-in request operation unit is operated; ,
A betting number setting means for setting a betting amount each time a game ball of a unit ball number (5 balls) necessary for setting a betting number of one unit by taking-in operation of the taking-in device is taken in {game control unit 41 (Sb309 in the capture control process)},
Including
The uptake control means includes
Regardless of whether or not game balls are stored in the game ball storage unit due to the operation of the acquisition request operation unit, a specified operation amount (operation amount for acquiring a predetermined number of balls) is acquired. Take-in operation control means {game control unit 41 (Sb 302 to 313 in the take-in control process)} for causing the take-in device to perform an action;
Number of acquired game balls for determining whether or not the number of game balls corresponding to the number of acquisition requests by the operation of the acquisition request operation unit has been detected by the acquisition game ball detecting means after the acquisition operation is completed Determination means {game control unit 41 (Sb314 in the capture control process)},
When it is determined that the number of game balls corresponding to the number of acquisition requests is not detected by the acquisition game ball detection means by the acquisition game ball number determination means, the acquisition operation of the specified operation amount Taking-in operation re-control means {game control unit 41 (Sb 314 to 316 in the taking-in control process)}
When it is determined by the acquisition game ball number determination means that the number of game balls corresponding to the number of acquisition requests by the operation of the acquisition request operation unit is detected by the acquisition game ball detection means, or the acquisition Capture control ending means for terminating the capture control when the retry count of the capture operation by the motion re-control means reaches a predetermined number (2 times) (when the value of the retry counter is 0) {game Control unit 41 (Sb318 in the capture control process)},
including,
It is characterized by that.

A slot machine using the game ball according to claim 8 of the present invention is a slot machine using the game ball according to any one of claims 1 to 6 ,
A game ball storage section (top plate 12) for storing game balls (pachinko balls) owned by the player;
A take-in request operation unit (1BET switch 5, MAXBET switch 6) operated when requesting the take-in of game balls stored in the game ball storage unit;
A take-in device (100) that performs a take-in operation to take in game balls stored in the game ball storage unit;
An incoming game ball detecting means (first incoming ball detection switch 104, second incoming ball detection switch 105) for detecting a game ball taken in by the take-in operation of the take-in device;
With
The main control means (game control unit 41)
A take-in control means {game control unit 41 (take-in control process)} that performs take-in control for taking in a game ball by a take-in operation of the take-in device when the take-in request operation unit is operated; ,
A betting number setting means for setting a betting amount each time a game ball of a unit ball number (5 balls) necessary for setting a betting number of one unit by taking-in operation of the taking-in device is taken in {game control unit 41 (Sb309 in the capture control process)},
Including
The take-in control means {game control unit 41 (take-in control process)}
Regardless of whether or not game balls are stored in the game ball storage unit due to the operation of the acquisition request operation unit, the amount of movement corresponding to the number of acquisition requests by the operation of the acquisition request operation unit Take-in operation control means {game control unit 41 (Sb 302 to 313 in the take-in control process) that causes the take-in device to perform a take-in operation of an operation amount for taking in a pachinko ball corresponding to the value of the take-in ball counter }When,
The number-of-ingestion game ball determination means {game control unit 41 (intake control) that determines whether or not the number of game balls corresponding to the amount of operation has been detected by the ingestion game ball detection means after the acquisition operation has been completed. Sb 314)} in processing,
When it is determined that the number of game balls corresponding to the movement amount is not detected by the capture game ball detection means by the capture game ball number determination means, the capture game balls are calculated from the capture request number. Capture operation re-control means {game control unit 41 (in the capture control process) in which the capture device again performs the capture operation of the motion amount corresponding to the shortage obtained by subtracting the number of game balls detected by the detection means Sb314-316)},
When it is determined that the number of game balls corresponding to the amount of movement is detected by the acquisition game ball detection means by the acquisition game ball number determination means, or the acquisition operation re-control means restarts the acquisition operation. Capture control termination means {game control unit 41 (Sb318 in capture control processing) Sb318 in which capture control is terminated when the number of trials (retry) reaches a predetermined number (2) (when the value of the retry counter is 0) )}When,
including,
It is characterized by that.

A slot machine using the game ball according to claim 9 of the present invention is a slot machine using the game ball according to claim 7 or 8 ,
The take-in control means {game control unit 41 (take-in control process)} performs the take-in request operation in a state where a game ball (pachinko ball) has already been taken in by the take-in operation of the take-in device (100). Unit (1BET switch 5, MAXBET switch 6), the specified number of acquisitions determined for the operation of the acquisition request operation unit (1BET switch 5: 5 balls, MAXBET switch 6:15 balls) The number obtained by subtracting the number of game balls already taken in (when 1 BET switch 5 is operated: value of unused ball counter, when MAX BET switch 6 is operated: number of BET × 5 + value of unused ball counter) Including the acquisition request number setting means {game control unit 41 (Sb18, 19 in the acquisition control process)} for setting the acquisition request number (value of the acquisition ball counter),
It is characterized by that.

Slot machine with game balls according to claim 1 0 of the present invention is a slot machine using the game ball according to any one of claims 1 to 9
The main control means (game control unit 41)
Data storage means (RAM of the game control unit 41) for storing data relating to the control state of the main control means;
Initialization processing execution means for executing initialization processing for initializing at least part of data stored in the data storage means {game control unit 41 (initialization processing of Sa8 in power-on processing, Sa13, 18 All initialization processing, initialization processing at the end of the game and error cancellation)},
External interrupt process prohibition means {game control unit 41 (prohibit interrupt until power-on process is completed, prohibit interrupt during initialization process)} for prohibiting the external interrupt during the initialization process} ,
including,
It is characterized by that.

It is a front view of a slot machine as an embodiment to which the present invention is applied. FIG. 2 is a plan view of an upper plate provided in the slot machine of FIG. 1. FIG. 2 is a cross-sectional view showing a take-in device provided in the slot machine of FIG. 1. FIG. 2 is a cross-sectional view showing a take-in device provided in the slot machine of FIG. 1. It is AA sectional drawing of the taking-in apparatus of FIG. FIG. 2 is a cross-sectional view showing a dispensing device provided in the slot machine of FIG. 1. FIG. 2 is a block diagram showing a configuration of the slot machine of FIG. 1. FIG. 2 is a diagram showing signals exchanged between a game control board and a payout control board and a payout control board and a card unit of the slot machine of FIG. 1. (A) is a circuit diagram for explaining the configuration of the power supply board 202, and (b) is a circuit diagram for explaining the configuration around the power supply to the game control unit 41 in the game control board 40. It is a flowchart which shows the detailed control content of the power-on process which a game control part performs at the time of power-on. It is a flowchart which shows the control content of the game control process which a game control part performs as a basic process. It is a flowchart which shows the control content of the BET process which a game control part performs in the step of Sa101. It is a flowchart which shows the control content of the adjustment control process which a game control part performs in the step of Sb16. It is a flowchart which shows the control content of the payment request | requirement process performed when the game control part performs in the step of Sb105 and the unsettled ball based on the payment request in the process at power-on. It is a flowchart which shows the control content of the taking-in control process which a game control part performs in the step of Sb20. It is a flowchart which shows the control content of the prize ball provision process which a game control part performs in the step of Sa106. It is a flowchart which shows the control content of the payout request process which a game control part performs when the unpaid ball based on the payout request remains in the step of Sc3 and the power-on process. It is a flowchart which shows the control content of the timer interruption process (A) which a game control part interrupts in a basic process as the interruption process 3 mentioned above based on the output from an internal timer, and is performed regularly. It is a flowchart which similarly shows the control content of the timer interruption process (A) which a game control part interrupts in a basic process as the interruption process 3 mentioned above based on the output from an internal timer, and is performed regularly. It is a timing chart which shows the operation condition of timer interruption processing (A). It is a figure which shows an example of the command transmitted with respect to an effect control part from a game control part. It is a figure which shows the structure of a command queue. It is a flowchart which shows the control content of the command storage process performed when producing | generating a command in the game control process and initialization process of a game control part, and storing in a command queue. It is a flowchart which shows the control content of the command transmission process performed in the timer interruption 2 of the timer interruption process (A) which the game control part mentioned above. (A) (b) is a timing chart which shows an example of the transmission condition of the command in a present Example. It is a flowchart which shows the control content of the timer interruption process (B) which a game control part interrupts in a basic process as the interruption process 3 mentioned above based on the output from an internal timer, and is performed regularly. It is a flowchart which shows the power interruption interruption process which a game control part interrupts and performs as a interruption process 1 based on the detection of the voltage drop signal from IC47 for power monitoring. It is a flowchart which shows the process at the time of power activation (effect) which an effect control part performs. It is a flowchart which shows the control content of the command reception interruption process which an effect control part interrupts and performs another process as the interruption process 1 based on the detection of the strobe signal output from the game control part. It is a flowchart which shows the control content of the timer interruption process (effect) as the interruption process 2 which an effect control part performs periodically based on the output from an internal timer. It is a timing chart which shows the operation condition of the game control part at the time of a power failure, and an effect control part. It is a flowchart which shows the power-on process (payout) which a payout control part performs at the time of power activation. It is a flowchart which shows the control content of the interruption process (payout) performed regularly based on the output of an internal timer, after a payment control part cancels | releases interruption prohibition. It is a flowchart which shows the detailed control content of the connection confirmation process which a payout control part performs in the step of Sq2. It is a flowchart which shows the detailed control content of the main board | substrate communication process which a payout control part performs in the step of Sq3. It is a flowchart which shows the detailed control content of the main board | substrate communication process 1 which a payout control part performs in the step of Ss2. It is a flowchart which shows the detailed control content of the main board | substrate communication process 2 which a payout control part performs in the step of Ss3. It is a flowchart which shows the detailed control content of the main board | substrate communication process 3 which a payout control part performs in the step of Ss4. It is a flowchart which shows the detailed control content of the lending control process which a payout control part performs in the step of Sq4. It is a flowchart which shows the detailed control content of the lending communication process 1 which a payout control part performs in the step of St2. It is a flowchart which shows the detailed control content of the lending communication process 2 which a payout control part performs in the step of St3. It is a flowchart which shows the detailed control content of the lending communication process 3 which a payout control part performs in the step of St4. It is a flowchart which shows the detailed control content of the lending communication process 4 which a payout control part performs in the step of St5. It is a flowchart which shows the detailed control content of the payout control process which a payout control part performs in the step of Sq5. It is a flowchart which shows the detailed control content of the payout start waiting process which a payout control part performs in the step of Su4. It is a flowchart which shows the detailed control content of the payout stop waiting process which a payout control part performs in the step of Su5. It is a flowchart which shows the detailed control content of the payout passage waiting process which a payout control part performs in the step of Su6. It is a timing chart which shows the operation | movement condition when the operation | movement of the adjustment switch 10 is received when the prize accompanying a prize ball generate | occur | produces, or the state where a taken-in ball remains. It is a timing chart which shows the operation | movement condition when an error generate | occur | produces during a payout request or a payment request. It is a timing chart which shows the modification of the operation | movement condition when an error generate | occur | produces during a payout request or a payment request. It is a timing chart which shows the operation | movement condition when a lending process is performed by the card unit 15 in connection with the detection of the ball lending switch 19. It is a timing chart which shows the operation | movement condition when the winning with a prize ball generate | occur | produces during execution of a lending operation | movement. 10 is a timing chart showing an operation state when a lending process is performed by the card unit 15 in response to the detection of a ball lending switch 19 during execution of a prize ball payout operation. When the operation of the 1BET switch 5 or the MAXBET switch 6 is accepted and the capture control (acquisition control processing) is performed, or when the operation of the settlement switch 10 is accepted and the settlement control (accounting control processing) is performed It is a timing chart which shows the operation | movement condition. It is a timing chart which shows the operation | movement condition at the time of the connection between the card unit 15 and the payout control board 60 being cut off during BET processing. Similarly, it is a timing chart showing an operation state when the connection between the card unit 15 and the payout control board 60 is cut off during the BET processing. FIG. 8 is a view showing signals exchanged between the game control board and the payout control board, and between the payout control board and the card unit in the modification of the slot machine of FIG. 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Slot machine 2L, 2C, 2R Reel 5 1BET switch 6 MAXBET switch 7 Start switch 10 Settlement switch 11 Lower plate 12 Upper plate 15 Card unit 16 Captured ball / dispensed ball display 40 Game control board 41 Game control unit 60 Dispensing control board 61 Dispensing control unit 100 Capture device 200 Dispensing device

Claims (10)

A game can be started by setting a predetermined number of bets for one game using a game ball, and a display result of a variable display device capable of variably displaying a plurality of types of identification information each identifiable A slot machine that uses a game ball that has been completed and one game is completed and a winning can be generated according to the display result of the variable display device,
A power interruption detection means for monitoring a state of predetermined power used in the slot machine using the game ball and outputting a power interruption signal when a power interruption condition related to the interruption of power supply is established; ,
A main control means for controlling a game, comprising a microcomputer having an interrupt input terminal for generating an external interrupt when a signal is input, and a normal input terminal;
A payout device for paying out the game ball based on the occurrence of a payout award with payout of the game ball;
A payout ball detecting means for detecting a game ball paid out by the payout device and outputting a detection signal each time the detected number of game balls reaches a predetermined number;
A payout ball number display means for displaying information relating to the number of payout balls paid out by the payout device based on the occurrence of the payout prize;
Sub-control means connected to the main control means for controlling the payout device;
With
The power interruption detection means outputs the power interruption signal to both an interrupt input terminal and a normal input terminal of the microcomputer,
The payout ball detection means outputs the detection signal to both the main control means and the sub control means,
The main control means includes
A power interruption interrupt process executing means for executing a power interruption interrupt process according to the external interrupt ;
An unpaid-out ball number storage means for storing an unpaid-out number of unpaid out of the number of game balls according to the payout prize;
Unpaid ball number setting means for setting the number of game balls corresponding to the payout prize when the payout / winning occurs, as an unpaid ball number in the unpaid ball number storage means;
A payout request signal output means for outputting, to the sub-control means, a payout request signal requesting payout of game balls having an unpaid-out number of balls set in the unpaid-out ball number storage means when the payout winning is generated. When,
Each time the detection signal is output from the payout ball detection means, a payout ball number display update means for updating and displaying information on the payout ball number displayed on the payout ball number display means;
Unpaid ball number update means for subtracting and updating the unpaid ball number stored in the unpaid ball number storage means each time the detection signal is output from the payout ball detection means;
Including
The interruption processing execution means at the time of power interruption
The power interruption signal determination means for monitoring the normal input terminal in the interruption processing at the time of power interruption and determining whether or not the power interruption signal is input,
When the power interruption signal determination means determines that the power interruption signal is input to the normal input terminal, the power interruption processing is executed to restore the control state before the power interruption when the power interruption is restored. Disconnection process execution means;
When the power interruption signal determining means determines that the power interruption signal is not input to the normal input terminal, the power interruption processing stopping means for returning to the interrupt source process without performing the power interruption process; ,
Only including,
The sub-control means includes
When detecting the payout request signal, the payout device starts payout control for paying out the number of game balls required by the payout request signal, and is specified by the detection signal output from the payout ball detecting means. Payout control means for ending the payout control when the number of game balls reaches the number of game balls requested by the payout request signal;
A payout control start signal output means for outputting a payout control start signal to the main control means when the payout control is started;
A payout control signal output means for outputting a payout control signal to the main control means during the payout control,
A payout control end signal output means for outputting a payout control end signal to the main control means when the payout control is completed;
Including
The unpaid ball count storage means can hold the memory of the unpaid ball count even when power supply is stopped,
The payout request signal output means requests payout of game balls having the remaining unpaid ball number when the unpaid ball number stored in the unpaid ball number storage means remains at the time of restoration of power interruption. A payout request signal is output to the sub-control means;
The main control means further includes a transition permitting means for allowing a transition to the next game on condition that the payout control signal is output after the payout request signal output means outputs the payout request signal.
A slot machine using game balls characterized by this. The main control means includes
A payout control abnormality determining means for determining an abnormality associated with the payout control on the sub-control means side;
A payout abnormality notifying means for notifying the abnormality when the payout control abnormality determining means determines an abnormality associated with the payout control;
Including
The main control means continues to detect the payout control start signal, the payout control in-progress signal and the payout control end signal output from the sub-control means even when the payout abnormality notifying means is notifying the abnormality. To do,
A slot machine using the game ball according to claim 1 . The main control means includes abnormality notification ending means for automatically ending abnormality notification by the payout abnormality notification means when the payout abnormality notification means detects the payout control end signal during the abnormality notification. ,
A slot machine using the game ball according to claim 2 . The transition permitting means detects the payout control end signal from the sub-control means regardless of whether or not the number of game balls detected by the payout ball detection means has reached the number of game balls according to the payout prize. Allow the transition to the next game,
Slot machine with game balls according to any one of claims 1-3. Provided corresponding to a lending device that outputs the gaming ball lending request using the valuable value stored in the storage medium,
The sub-control means includes
A connection confirmation signal input means for inputting a connection confirmation signal output from the lending device;
Lending control for paying out the number of game balls required by the lending request by the paying device on condition that the connection confirmation signal is input to the connection confirmation signal input means when the lending request is detected Lending control means for
A connection specifying signal transmitting means for outputting to the main control means a connection specifying signal capable of specifying whether or not the connection checking signal is input to the connection checking signal input means;
Including
The main control means includes an intake control disable means for disabling the intake control when a connection specifying signal indicating that the connection confirmation signal is not input is input to the connection confirmation signal input means. Including,
Slot machine with game balls according to any one of claims 1 to 4. Provided corresponding to a lending device that outputs the gaming ball lending request using the valuable value stored in the storage medium,
The sub-control means includes
First connection confirmation signal input means for inputting a connection confirmation signal output from the lending device;
When the lending request is detected, the number of game balls requested by the lending request is paid out by the paying device on condition that the connection confirmation signal is input to the first connection confirmation signal input means. A lending control means for performing lending control;
Including
The main control means includes
Second connection confirmation signal input means for inputting a connection confirmation signal output from the lending device;
An intake control disabling means for disabling the intake control when the connection confirmation signal is not input to the second connection confirmation signal input means;
including,
Slot machine with game balls according to any one of claims 1 to 4. A game ball storage unit for storing game balls owned by the player;
An acquisition request operation unit operated when requesting the acquisition of the game balls stored in the game ball storage unit;
A take-in device for taking in a game ball stored in the game ball storage unit;
Incorporating game ball detecting means for detecting a game ball captured by the capturing operation of the capturing device;
With
The main control means includes
When the capture request operation unit is operated, capture control means for performing capture control for capturing a game ball by the capture operation of the capture device;
A bet number setting means for setting a bet number each time a game ball of a unit ball number necessary for setting a bet number of one unit by the take-in operation of the take-in device is taken in;
Including
The uptake control means includes
Capture that causes the capture device to perform a capture operation of a specified amount of motion regardless of whether or not a game ball is stored in the game ball storage unit by operating the capture request operation unit An operation control means;
Number of acquired game balls for determining whether or not the number of game balls corresponding to the number of acquisition requests by the operation of the acquisition request operation unit has been detected by the acquisition game ball detecting means after the acquisition operation is completed A determination means;
When it is determined that the number of game balls corresponding to the number of acquisition requests is not detected by the acquisition game ball detection means by the acquisition game ball number determination means, the acquisition operation of the specified operation amount Taking-in operation re-control means for causing the taking-in device to perform again,
When it is determined by the acquisition game ball number determination means that the number of game balls corresponding to the number of acquisition requests by the operation of the acquisition request operation unit is detected by the acquisition game ball detection means, or the acquisition Capture control end means for terminating capture control when the retry count of the capture operation by the operation recontrol means reaches a predetermined number;
including,
Slot machine with game balls according to any one of claims 1-6. A game ball storage unit for storing game balls owned by the player;
An acquisition request operation unit operated when requesting the acquisition of the game balls stored in the game ball storage unit;
A take-in device for taking in a game ball stored in the game ball storage unit;
Incorporating game ball detecting means for detecting a game ball captured by the capturing operation of the capturing device;
With
The main control means includes
When the capture request operation unit is operated, capture control means for performing capture control for capturing a game ball by the capture operation of the capture device;
A bet number setting means for setting a bet number each time a game ball of a unit ball number necessary for setting a bet number of one unit by the take-in operation of the take-in device is taken in;
Including
The uptake control means includes
Regardless of whether or not game balls are stored in the game ball storage unit due to the operation of the acquisition request operation unit, the amount of movement corresponding to the number of acquisition requests by the operation of the acquisition request operation unit Capture operation control means for causing the capture device to perform the capture operation of
An acquisition game ball number determination means for determining whether or not the number of game balls corresponding to the amount of operation is detected by the acquisition game ball detection means after the acquisition operation is completed;
When it is determined that the number of game balls corresponding to the movement amount is not detected by the capture game ball detection means by the capture game ball number determination means, the capture game balls are calculated from the capture request number. A take-in operation re-control unit that causes the take-in device to re-take the take-in operation of the operation amount corresponding to the shortage number obtained by subtracting the number of game balls detected by the detection unit;
When it is determined that the number of game balls corresponding to the amount of movement is detected by the acquisition game ball detection means by the acquisition game ball number determination means, or the acquisition operation re-control means restarts the acquisition operation. Capture control termination means for terminating capture control when the number of trials reaches a predetermined number of times;
including,
Slot machine with game balls according to any one of claims 1-6. The take-in control means is configured to respond to an operation of the take-in request operation unit when the take-in request operation unit is operated in a state where a game ball has been taken in by a take-in operation of the take-in device. Including an acquisition request number setting means for setting, as the acquisition request number, a number obtained by subtracting the number of game balls already acquired from a predetermined acquisition specified number;
A slot machine using the game ball according to claim 7 or 8 . The main control means includes
Data storage means for storing data relating to the control state of the main control means;
Initialization processing execution means for executing initialization processing for initializing at least part of data stored in the data storage means;
External interrupt processing prohibiting means for prohibiting the external interrupt during the initialization process;
including,
Slot machine with game balls according to any one of claims 1-9.

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