JP4524986B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to gaming machines such as pachinko machines and slot machines.
[0002]
[Prior art]
  A gaming machine represented by a pachinko machine or a slot is a thing that gives a player a predetermined game value when a predetermined display result is derived. In such a gaming machine, in order to enhance the interest of the player,The performance in the normal gaming state and the performance in the gaming state that is more advantageous to the player than the normal gaming state are executed in the same or similar manner.There is a gaming machine that makes it difficult for a player to recognize (see Patent Document 1)..
[0003]
[Patent Document 1]
      JP 2001-149593 A.
[0004]
[Problems to be solved by the invention]
  However, the gaming machine is electrically controlled. Therefore, if a power interruption occurs during a game for some reason, the game is interrupted. Here, if the gaming state before the power is cut off (when the power is turned off) is a big hit state or a prize ball payout state, when the power is turned on again, the big hit state is canceled or the prize ball payout is stopped. This is detrimental to the player. Therefore, when the power is turned off, it is necessary to back up the gaming state before the power is turned off (when the power is turned off), and to restore the gaming machine state to the backed up gaming state in the power recovery process at the time of turning on the power (backup). function).
[0006]
  But,The performance in the normal gaming state and the performance in the gaming state that is more advantageous to the player than the normal gaming state are executed in the same or similar manner., Directing the game so that it is difficult for the player to recognizePlayIn technical machines,When power is turned on again,It is not possible to distinguish which gaming machine is in a gaming state advantageous to the player according to the aspect of the effect.WhenThere was a problem.
[0007]
  The present invention has been made to solve the above-described problems,The performance in the normal gaming state and the performance in the gaming state that is more advantageous to the player than the normal gaming state are executed in the same or similar manner.In case,Than the normal gaming stateEasily identify gaming machines that are in a gaming state advantageous to the playerTheIt aims at providing the game machine which can be used.
[0008]
[Means for Solving the Problems]
  In order to achieve this object, the gaming machine according to claim 1 is based on detection means for detecting the entry of a game ball into a specific area, and detection of the entry of the game ball by the detection means. And a control means for performing control based on the lottery result, and whether or not to transition to a special gaming state advantageous to the player, the gaming machine in the normal gaming state An effect unit is provided that executes an effect and an effect in a gaming state that is more advantageous to the player than the normal gaming state in the same or similar manner, and the control means stores the data of the control means even after the power is turned off. The storage means that can be held, the power recovery process executed when the power is turned on, the state return means for returning to the gaming state before power-off based on the data stored in the storage means, and the state return means Ru When the state before the interruption is determined to be a game state advantageous to the player, and the determination unit determines that the state is advantageous to the player, An informing means for informing that the game state is advantageous to the player, a prohibition signal input means for inputting a notice prohibition signal for notifying the notice by the notice means in accordance with the operation of the operator, and the prohibition signal input And a non-notification means for notifying the notification by the notification means when a notification prohibition signal is input by the means.
  According to a second aspect of the present invention, there is provided a gaming machine comprising: a front frame that is opened to the front side based on an unlocking operation with a key; a detecting unit that detects a game ball entering a specific area; A lottery to determine whether or not to change to a special gaming state advantageous to the player based on the detected entry, and a control means for performing control based on the lottery result, The gaming machine includes an effect unit that executes an effect in a normal game state and an effect in a game state that is more advantageous to the player than the normal game state in the same or approximate manner, and the control unit includes: Storage means capable of holding data used for control of the control means even after power is turned off, state return means for returning to a gaming state before power is turned off based on the data stored in the storage means, and the storage Memorized by meansPlayA determination means for determining whether or not the gaming state is a gaming state advantageous to the player; and a notification means for notifying that the gaming state is a gaming state advantageous to the player, wherein the gaming machine further includes And an operation means that can be operated when the front frame is opened to the front side based on the unlocking operation, and when the operation means is operated, the storage means when the operation is performed. Remembered inin frontA notifying state is discriminated by the discriminating means, and when the discriminated gaming state is a gaming state advantageous to the player, a predetermined informing is performed by the informing means.
  The gaming machine according to claim 3 is the gaming machine according to claim 1 or 2, wherein the normal gaming state has a predetermined first probability as to whether or not to transition to a special gaming state advantageous to the player. The game state that is advantageous to the player is drawn with a second probability higher than the predetermined first probability as to whether or not to transition to the special game state advantageous to the player. It is a gaming state to play.
[0010]
【The invention's effect】
  Claims 1 and 2According to the gaming machineWhen the effect in the normal gaming state and the effect in the gaming state advantageous to the player over the normal gaming state are executed in the same or similar manner, the player is more advantageous than the normal gaming state. There is an effect that the gaming machine in the gaming state can be easily identified.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this embodiment, a pachinko machine that is a kind of a ball game machine, in particular, a first type pachinko game machine will be described as an example of the game machine. Note that it is naturally possible to use the present invention for the third kind pachinko gaming machine and other gaming machines. FIG. 1 is a front view of a pachinko machine 1 according to a first embodiment. A front frame 2 is disposed on the front surface of the pachinko machine 1, and a substantially rectangular opening 2a is formed in a substantially central portion thereof, and a metal frame 3 is provided around the inner periphery of the opening 2a. Yes. A glass door frame 4 on which two glass plates can be mounted is disposed so as to be openable and closable above the inside of the metal frame 3, and a game board 5 is disposed behind the glass door frame 4.
[0013]
  A substantially arc-shaped outer rail 6 is planted on the front surface of the game board 5, and an arc-shaped inner rail 7 is planted at an inner position of the outer rail 6. A game area 8 into which a ball is driven is formed on the front surface of the game board 5 surrounded by the inner rail 7 and the outer rail 6, and five pieces are obtained by winning the ball in the game area 8. Are provided with a plurality of normal winning openings 9 through which 15 balls are paid out as prize balls. A variable display device 11 having a liquid crystal display (LCD) 10 for variably displaying symbols as a plurality of types of identification information is disposed at a substantially central portion of the game area 8. A center frame 11a also serving as a decoration member is provided around the front side of the liquid crystal display 10 of the variable display device 11, and the periphery of the liquid crystal display 10 is decorated by the center frame 11a. A 7-segment LED 11b, which is a type of display device, is disposed at the upper center of the center frame 11a.
[0014]
  Below the variable display device 11, a symbol operation port (first type start port) 12 is disposed. When the ball passes through the symbol operation port 12, the first type start port switch 78 (see FIG. 2) is turned on, and the variable display device 11 described above starts variable display. As paid out. A variable winning device 13 is disposed below the symbol operating port 12. The variable winning device 13 has a large winning opening 13a, which is a wide rectangular opening through which two or more spheres can pass at the same center.
[0015]
  The big winning opening 13a is used for a predetermined time (for example, 30) so that the ball can easily win a prize when the display result after the change of the variable display device 11 matches one of the predetermined symbol combinations (big win display). Seconds) or until a predetermined number (for example, 10) of balls wins. The state in which the opening / closing operation of the special winning opening 13a can be performed is a state in which a predetermined game value is given (special game state). Below the variable winning device 13 and at the lowermost part of the game area 8, an out port 14 is formed for discharging a ball that has not won any prize port to the outside of the game area 8.
[0016]
  Note that a state in which a predetermined game value is given in the third type pachinko gaming machine (special game state) is specified when the display result after fluctuation of the LCD 10 matches one of a predetermined combination of symbols. It means that the winning opening is opened for a predetermined time. When the ball wins into the specific winning opening while the specific winning opening is opened, a large winning opening provided separately from the specific winning opening is opened a predetermined number of times for a predetermined time.
[0017]
  A front door plate (waist plate) 15 attached to the metal frame 3 so as to be openable and closable is disposed below the out port 14, that is, below the glass door frame 4. On the front surface of the front door plate 15, an upper plate 16 for storing the sphere and supplying the sphere to a launching device (not shown) is disposed. A lower plate 17 for storing balls that could not be stored in the upper plate 16 is disposed in the lower portion. An operation handle 18 that is operated by the player to drive the ball into the game area 8 is disposed on the right side of the lower plate 17. By operating the operation handle 18, the launch motor 80 (see FIG. 2) can be driven to launch the ball into the game area 8.
[0018]
  A notification lamp 19 is provided in the front center portion above the front frame 2. The notification lamp 19 is a lamp that indicates that the pachinko machine 1 is in a probability fluctuation state at the time of power recovery. The pachinko machine 1 of the present embodiment is configured such that the same aspect of the effect is executed regardless of whether or not the state is in a probability variation state. That is, it is impossible to distinguish between the two according to the effects and sound effects performed on the LCD 10.
[0019]
  However, if the state of the pachinko machine 1 is in a probability fluctuation state at the time of power recovery, the notification lamp 19 enters a light emitting state. Thereby, an employee of the game hall can determine which pachinko machine 1 is in the probability variation state, and the pachinko machine 1 set in the probability variation state using the light emission state of the notification lamp 19 as a mark. It is possible to perform initialization (setting to the initial state).
[0020]
  Normally, in a gaming machine such as a pachinko machine, when a power interruption occurs, it is necessary to restore the state to the state at the time of the power interruption by power recovery. For example, in the pachinko machine 1, if a power interruption occurs when the gaming state is a special gaming state, it is necessary to return to the special gaming state at the time of power recovery in order to accurately give a predetermined gaming value to the player. Because it must not. Therefore, the pachinko machine 1 includes a backup area 73b (see FIG. 2) that backs up data indicating the gaming state when the power is turned off, and a power failure processing program (see FIG. 3) that writes data to the backup area 73b. Is provided.
[0021]
  However, if the probability fluctuation state is stored in the backup area 73b due to the power interruption due to the end of business on the previous day, the pachinko machine 1 is set to the probability fluctuation state by powering on (power recovery processing) on the next day. End up. If the probability variation state, which is the game result of the previous day, is carried over to the next day, the probability variation state will be provided to other players who are not the original player, causing not only injustice, but also a disadvantage on the playground side. turn into. The pachinko machine 1 according to the present embodiment performs the same effect regardless of whether or not it is in the state of probability variation as described above, but when the power is turned on, a notification lamp Since the probability variation state can be discriminated using the 19 light emission states as a mark and the state of the pachinko machine 1 can be initialized, the disadvantage on the game hall side can be avoided.
[0022]
  FIG. 2 is a block diagram showing the electrical configuration of the pachinko machine 1. On the main control board C of the pachinko machine 1, an MPU 71 as a one-chip microcomputer that is an arithmetic unit is mounted. The MPU 71 includes a ROM 72 that stores a control program executed by the MPU 71, fixed value data, and the like, and a RAM 73 that is used as a work memory or the like. The programs of the flowcharts shown in FIGS. 3 to 5 are stored in the ROM 72 as a part of the control program.
[0023]
  The RAM 73 temporarily stores various data such as calculation results by the MPU 71, and includes a special notification flag 73a and a backup area 73b. Further, the RAM 73 is configured so that the backup voltage is supplied from the power supply substrate 30 even after the pachinko machine 1 is turned off, and data can be retained (backed up). Note that the RAM 73 may be backed up using a capacitor, a battery, or the like.
[0024]
  The special notification flag 73a is a flag for indicating whether or not the state of the pachinko machine 1 at the time of power recovery is a probability fluctuation state. In power recovery processing (see FIG. 4) at power-on (including power-on when power is restored, including power-off due to power failure cancellation, see FIG. 4), if data is stored in a backup area 73b described later, the data is stored in the RAM 73. To the normal operation area (other than the backup area 73b). Thereby, the pachinko machine 1 is returned to the state before the power is cut off.
[0025]
  The MPU 71 determines the state of the pachinko machine 1 that has been restored to power, and turns on the special notification flag 73a if it is in the probability fluctuation state. The turned on special notification flag 73a is turned off when the process of notifying that the state is in the probability variation state is executed.
[0026]
  The probability variation state is a gaming state in which the probability that a special gaming state (bonus) is set is high. The RAM 73 of the pachinko machine 1 is provided with a random number counter (not shown) that can be updated at a predetermined timing and can take a value of “0 to 599”. This random number counter is a counter for determining whether or not to enter a special gaming state (big hit). The value of this random number counter is acquired at the timing when the first-type start port switch 78 detects a sphere. Normally, when the acquired value is “0” or “300”, the variation executed on the LCD 10 It is determined that the result of the display is a jackpot. If it is in the probability variation state, it is determined that the acquired random number counter value is a big hit even for a plurality of values other than “0” and “300”.
[0027]
  Whether or not to set the probability variation state is determined based on a value of a jackpot symbol counter (not shown) provided in the RAM 73. The jackpot symbol counter is a counter used when determining a special symbol (hit symbol) that is stopped and displayed on the LCD 10 in a special gaming state (big jackpot). The jackpot symbol determined by the jackpot symbol counter includes a normal jackpot symbol that is a normal jackpot and a probability variation symbol that is a probability variation state. Each value of the jackpot symbol counter has a normal jackpot symbol or probability variation. One of the symbols is associated. The probability variation state determined by the value of the jackpot symbol counter is started when the jackpot ends. When the newly determined jackpot symbol is determined as the normal jackpot symbol after the probability variation state is started, the probability variation state is canceled after the jackpot end.
[0028]
  In the backup area 73b, when the power is cut off due to a power failure or the like, when the power is turned on again (at the time of power recovery), the pachinko machine 1 is restored to the state before the power is turned off. This is an area for storing values such as stack pointer, registers, I / O, etc. The writing to the backup area 73b is executed when the power is turned off by the NMI interrupt process (see FIG. 3). Conversely, the restoration of each value written to the backup area 73b is as described above when the power is turned on (power failure) This is executed in a power recovery process (see FIG. 4) including power-on by cancellation. Note that a power failure signal 31 output from the power failure monitoring circuit 30b is input to the NMI (Non Maskable Interrupt) terminal (non-maskable interrupt terminal) of the MPU 71 when a power failure occurs due to a power failure or the like. When a power failure occurs, the power failure process (NMI interrupt process) in FIG. 3 is immediately executed. Thereby, if the state of the pachinko machine 1 is in the probability variation state when the power is turned off, data indicating this probability variation state is written in the backup area 73b.
[0029]
  The MPU 71, the ROM 72, and the RAM 73 are connected to the input / output port 77 via a bus line 76 constituted by an address bus and a data bus. As shown in FIG. 2, the input / output port 77 includes a clear switch 30 c provided on the power supply board 30, a payout control board H that performs payout control of prize balls and balls by a payout motor 81, and a display control board. D, the first type start port switch 78, and other input / output devices 84, respectively.
[0030]
  The payout control board H is connected to the power failure monitoring circuit 30b and the clear switch 30c, and includes an MPU that is an arithmetic unit, a ROM that stores a control program executed by the MPU, fixed value data, and a work memory. As a RAM. As with the RAM 73 of the main control board C, the RAM of the payout control board H is supplied with a backup voltage from the power board 30 even after the power of the pachinko machine 1 is turned off, and the data after the power of the pachinko machine 1 is turned off. Is configured to hold (backup).
[0031]
  The RAM of the payout control board H has a backup area in the same manner as the RAM 73 of the main control board C, in addition to a memory and an area for temporarily storing various data. When the power is cut off due to a power failure, the pachinko machine 1 is returned to the state before the power is turned off when the power is turned on again. Values such as pointers, registers, and I / O are stored in this backup area. The restoration of each value written in the backup area is executed in a power recovery process at the time of power-on (including power-on due to power failure cancellation, the same applies hereinafter).
[0032]
  In addition, to this payout control board H, a launch control board B connected to a launch motor 80 for driving a ball into the game area 8 is connected. The launch control board B is for controlling permission and prohibition of driving of the launch motor 80 for launching the ball to the game area 8. The firing motor 80 is allowed to drive when the following three conditions are satisfied (can be driven). That is, first, +32 volts, which is the driving voltage of the firing motor 80, is supplied from the dispensing control board H. Second, a signal indicating that the player is touching the handle 18 is output from a touch sensor provided on the handle 18. Third, the stop switch that stops the launch of the ball has not been operated. When the above three conditions are satisfied, the firing control board B outputs a signal permitting driving to the firing motor 80 to enable the firing motor 80 to be driven. Therefore, when the handle 18 is operated in a state where such a signal is output, the firing motor 80 is driven, and a ball is launched into the game area 8 with an intensity corresponding to the operation amount of the handle.
[0033]
  The display control board D is a board that performs each control of a special symbol variation display performed on the LCD 10 and a normal symbol variation display performed on the 7-segment LED 11b. Further, it is connected to a sound lamp control board S that controls the output of sound effects from the speaker 82 and controls the lighting of LEDs and various lamps 83, and is based on a control command transmitted (output) from the MPU 71 of the main control board C. Thus, the operation of the sound lamp control board S is controlled. In addition, a notification lamp 19 is connected to the sound lamp control board S.
[0034]
  When the gaming state of the pachinko machine 1 is returned to the probability variation state by the power recovery process when the power is turned on, a special notification command is transmitted from the main control board C to the display control board D. When receiving the special notification command, the display control board D transmits a command for turning on the notification lamp 19 to the sound lamp control board S. Thereby, the notification lamp 19 is turned on (becomes light emission state), and it is notified that the pachinko machine 1 is in the probability variation state.
[0035]
  The first type start port switch 78 is a switch for detecting a winning ball in the symbol operating port 12 (see FIG. 1), and is provided in the vicinity of the symbol operating port 12. When a ball is detected by the first type start port switch 78, the payout motor 81 is actuated and five prize balls are paid out by a payout device (not shown). When a ball is detected by the first type start port switch 78, the value of the random number counter is acquired as described above, and the acquired value is written and stored in a predetermined area of the RAM 73. The
[0036]
  The power supply board 30 includes a power supply unit 30a for supplying power to each unit of the pachinko machine 1, a power failure monitoring circuit 30b, and a clear switch 30c. The power failure monitoring circuit 30b is a circuit for outputting a power failure signal 31 to the MPU 71 of the main control board C and the MPU of the payout control board H when the power is cut off due to the occurrence of a power failure or the like. The power failure monitoring circuit 30b monitors the voltage of 24 VDC, which is the largest voltage output from the power supply unit 30a, and determines that a power failure (power failure) has occurred when this voltage is less than 22 volts. The power failure signal 31 is output to the main control board C and the payout control board H. Based on the output of the power failure signal 31, the main control board C and the payout control board H recognize the occurrence of the power failure and execute the power failure process (NMI interrupt process of FIG. 3 for the main control board). The power supply unit 30a normally outputs the output of 5 volts, which is the drive voltage of the control system, for a time sufficient for the execution of the power failure process even after the DC stable voltage of 24 volts becomes less than 22 volts. Since it is configured to maintain the value, the main control board C and the payout control board H can normally execute the power failure process.
[0037]
  The clear switch 30c is a switch for clearing data backed up in the RAM 73 of the main control board C and the RAM of the payout control board H, and is configured as a push button type switch. When the power of the pachinko machine 1 is turned on while the clear switch 30c is pressed (including power-on due to power failure cancellation), clear signals 32 are output to the main control board C and the payout control board H, respectively. In response to the signal 32, the RAM 73 and the RAM data of the payout control board H are cleared.
[0038]
  When the notification lamp 19 is in a light-emitting state due to the power recovery process at the start of business, the game hall employee turns off the power of the pachinko machine 1 and turns off the power of the pachinko machine 1 while the clear switch 30c is pressed. Is turned on again. As a result, the data in the RAM 73 is cleared, and the probability variation state of the pachinko machine 1 is canceled.
[0039]
  Next, each process executed by the pachinko machine 1 configured as described above will be described with reference to the flowcharts of FIGS. FIG. 3 is a flowchart of the NMI interruption process executed by the main control board C when the power of the pachinko machine 1 is cut off due to the occurrence of a power failure or the like. By this NMI interruption process, the state of the main control board C when the power is cut off due to the occurrence of a power failure or the like is stored in the backup area 73b.
[0040]
  When the power of the pachinko machine 1 is cut off due to the occurrence of a power failure or the like, a power failure signal 31 is output from the power failure monitoring circuit 30b to the NMI (Non Maskable Interrupt) terminal of the MPU 71 of the main control board C. Then, the MPU 71 interrupts the control being executed and starts the NMI interrupt process of FIG. For a predetermined time after the power failure signal 31 is output, power is supplied from the power supply unit 30a so that the processing of the main control board C can be executed, and the NMI interruption processing is executed within this predetermined time.
[0041]
  In the NMI interrupt processing of the main control board C shown in FIG. 3, first, the values of each register and I / O are written to the stack area (S1), and the value of the stack pointer is written to the backup area 73b and saved (S2). ). Furthermore, the power failure occurrence information is written in the backup area 73b (S3), and the state at the time of power interruption due to the occurrence of a power failure is stored. Then, after the other power failure process is executed (S4), the process is looped until the power is completely cut off and the process cannot be executed.
[0042]
  FIG. 4 is a flowchart of a main process executed on the main control board C after the pachinko machine 1 is turned on. In the main process, if the backup is valid, each data stored in the backup area 73b is returned to the original state, and the game control is continued from the state before the power is turned off. On the other hand, if the backup is not valid, or if the clear switch 30c is pressed when the power is turned on even if the backup is valid, the RAM clearing and initialization process (S20) is executed and the pachinko machine 1 is initialize.
[0043]
  First, interrupts are prohibited (S11), and a stack pointer is set (S12). It is confirmed whether or not the clear switch 30c is turned on (S13). If it is not turned on (S13: No), it is confirmed whether or not the backup is valid (S14). This confirmation is determined by whether or not the keyword written in the predetermined area of the RAM 73 is correctly stored. If the keyword is stored correctly, the backup is valid. On the other hand, if the keyword is not correct, the backup data is destroyed, so the backup is not valid. If the backup is valid (S14: Yes), the process proceeds to S15, and each state of the main control board C is returned to the state before the power is turned off by the processes of S15 to S19.
[0044]
  That is, the value of the stack pointer is read from the backup area 73b and written to the stack pointer to return to the state before power interruption (before power failure), that is, the state before NMI interruption occurs (S15). Next, data such as each register and I / O saved in the stack area after returning the value of the stack pointer, that is, the backup area 73b is read from the backup area 73b, and each of these data is read from the original register and I / O. Write to O etc. (S16), and then check whether the gaming state is a probability variation state (S17).
[0045]
  Here, if the gaming state, that is, the state of the returned gaming machine is a probability variation state (S17: Yes), the special notification flag 73a is turned on (S18), and the interruption state is changed to before the power is turned off ( The state before the power failure), that is, the state before the occurrence of the NMI interrupt (S19), the NMI interrupt return is executed to return to the place where the processing was performed before the power was turned off, and the control was the state before the power was turned off. Continue from. Further, as a result of checking in the process of S17, if the gaming state is not the probability variation state (S17: No), the process of S18 is skipped and the process proceeds to the process of S19.
[0046]
  On the other hand, in the process of S13, if the clear switch 30c is turned on (S13: Yes) or the backup is not valid (S14: No), the RAM clear and initialization process is executed (S20), and each memory Initialize I / O. After that, each interrupt such as a timer interrupt is set (S21), the interrupt is allowed to occur, and the interrupt is permitted (S22). The processes from S11 to S22 in this main process are the power recovery process at power-on that is executed when the power is turned on. In other words, the power recovery process is a process that is executed when the power is turned on and sets the pachinko machine 1 in a state where a game can be started.
[0047]
  After permitting the interrupt, the processing of S23 to S30 is repeatedly executed at predetermined time intervals (for example, every 2 ms) to control the game. Below, each process of S23 to S30 is demonstrated.
[0048]
  In the start winning process (S23), a predetermined process is performed after confirming whether or not the ball has won the symbol operating port (first type starting port) 12. That is, when it is confirmed that the first type start port switch 78 is turned on, it is determined that the ball has won the symbol operating port 12, and the random number counter, reach counter, jackpot symbol counter, Each value of the off symbol counter is stored in a predetermined area of the RAM 73 to determine the special symbol variation display, and the lighting state of the lamp 83 that displays the number of special symbol variation display suspensions is updated. These processes are skipped when the number of suspensions of the special symbol variable display is 4 or more. In order to update the display of the number of holding times, a control command is output from the main control board C to the display control board D, and the display control board D to which the control command is input further supplies the sound lamp control board S to the lamp 83. This is performed by the sound lamp control board S by outputting a control command for updating the lighting state of.
[0049]
  In the variation start process (S24), when the special symbol variation display or jackpot display has been completed and the special symbol variation display suspension count is not 0, the LCD 10 starts the variation display of a new special symbol. That is, the main control board C outputs a stop symbol command for setting a special symbol to be stopped and displayed after the fluctuation display and a variation pattern command for setting a variation pattern of the special symbol to the display control substrate D as control commands. Then, the special symbol variation display is started by the display control board D to which the control command is input. The display control board D outputs to the voice lamp control board S a control command for updating the lighting state of the lamp 83 for displaying the number of suspensions of the special symbol variation display, and a sound effect output in accordance with the special symbol variation display. And a control command for instructing lighting of the lamp 83 is output.
[0050]
  In the fluctuation stop process (S25), first, it is determined whether or not a big hit is being made. Here, the big hit includes a special game displayed on the LCD 10 and a predetermined time after the special game is ended. The predetermined time after the end of the special game is set as, for example, the time required for adjusting each state of the pachinko machine 1. If it is determined that the big hit is not being made, it is determined whether or not the variation time in the variation pattern has ended. Since each variation pattern has a variation time set for each pattern, this process is performed by determining whether the time has elapsed. If the fluctuation time has ended, the stop symbol set for stopping and checking the fluctuation is output to the display control board D as a confirmation command, which is one of the control commands, and this processing is ended. . When inputting the confirmation command, the display control board D displays a stop symbol on the LCD 10.
[0051]
  In the counter updating process (S26), the values of the random number counter, reach counter, jackpot symbol counter, and variation pattern counter are updated. The random number counter is a counter used when determining whether or not it is a big hit. In the present embodiment, the random number counter is incremented and updated one by one within the range of 0 to 599, and after reaching the maximum value (that is, 599), the random number counter again. It consists of a loop counter that returns to zero. The reach counter is a counter that is used when determining whether or not to perform a reach game when the player goes off. In this embodiment, the reach counter is incremented and updated one by one within the range of 0 to 11, and the maximum value (ie, 11). It is composed of a loop counter that returns to 0 after reaching. The big hit symbol counter is a counter used when determining a special symbol (hit symbol) that is stopped and displayed on the LCD 10 in the case of a big hit. In this embodiment, the big hit symbol counter is incremented and updated one by one within a range of 0 to 44. And a loop counter that returns to 0 after reaching the maximum value (ie 44). As described above, the jackpot symbol includes a normal jackpot symbol and a probability variation symbol, and one of the symbols is associated with the value of the jackpot symbol counter in advance.
[0052]
  The variation pattern counter is a counter used when determining the variation display pattern of the special symbol performed on the LCD 10. In this embodiment, the variation pattern counter is incremented and updated one by one within the range of 0 to 99, and the maximum value ( That is, it is composed of a loop counter that returns to 0 after reaching 99).
[0053]
  In the jackpot process (S27), it is determined whether or not the jackpot is won. If the jackpot is won, a process of releasing the jackpot (specific prize mouth) 13a is performed. On the other hand, if it is not a big hit, the process is skipped and the process is terminated. In the opening process of the big prize opening 13a, the big prize opening 13a is opened for a predetermined time (for example, until 30 seconds have passed or ten balls have won) so that the ball can easily win. If the ball passes through the V zone (not shown) while the grand prize opening 13a is open, the continuation right is established, and after the big prize opening 13a is closed, the special prize opening 13a is again opened for a predetermined time (or , Until 10 balls are won). The opening / closing operation of the special winning opening 13a is repeated up to 16 times (16 rounds).
[0054]
  The special notification process (S28) is a process executed when the special notification flag 73a is turned on, that is, when the state of the pachinko machine 1 becomes a probability fluctuation state due to power recovery. This special notification process will be described with reference to FIG.
[0055]
  FIG. 5 is a flowchart of the special notification process (S28) executed in the main process of FIG. In this special notification process (S28), first, it is confirmed whether or not the special notification flag 73a is turned on (S31). As a result, if the special notification flag 73a is off (S31: No), the state of the recovered pachinko machine 1 is not the probability variation state, and thus the special notification process (S28) is terminated. On the other hand, if the special notification flag 73a is turned on as a result of checking in the process of S31 (S31: Yes), the state of the recovered pachinko machine 1 is in a probability fluctuation state, so a special notification command is provided in the RAM 73. Then, the special notification flag 73a is turned off (S33), and the special notification processing (S28) is terminated. The transmission buffer is a buffer memory that temporarily stores commands and data to be transmitted from the main control board C to other boards (such as the display control board D and the payout control board D). The special notification command written in the transmission buffer is transmitted to the display control board D by the timer interrupt process.
[0056]
  As a result, the display control board D is instructed to be in the probability variation state, and a command for causing the notification lamp 19 to emit light is transmitted from the display control board D to the sound lamp control board S. Returning to FIG.
[0057]
  In the out symbol counter updating process (S29), the values of the three out symbol counters are respectively updated. The out symbol counter is a counter for determining the out symbol as a result of the variation display of the special symbol. According to the variation display of the special symbol, each of the left, middle and right columns, that is, a total of three out symbols. A counter is provided. In accordance with the values of these off symbol counters, the stop symbol of the variable display at the time of off is determined.
[0058]
  After the off symbol counter update process (S29) is completed, the off symbol counter update process (S29) is repeatedly executed for the remaining time until the next execution timing of the process of S23 comes. Since each process of S23 to S28 needs to be executed periodically, in the process of S30, an elapsed time from the previous execution of the process of S23 is checked (S30). As a result of the check, if a predetermined time (for example, 2 ms) has elapsed since the previous execution of the process of S23 (S30: Yes), the process proceeds to S23. On the other hand, if the predetermined time has not elapsed (S30: No), the process proceeds to S29, and the out symbol counter update process (S29) is repeated. Here, since the execution time of each process of S23-S28 changes according to the state of a game, the remaining time until the next execution timing of the process of S23 comes is not a fixed time. Therefore, by repeatedly executing the out symbol counter updating process (S29) using the remaining time, the values of each out symbol counter can be updated at random.
[0059]
  As described above, according to the pachinko machine 1 according to the first embodiment, the LCD 10, the decoration LED and various lamps 83, or the aspect of the effect using the sound effect in the case of the probability variation state or not. Even if there is no difference, in the power recovery process, if there is a probability variation state, the fact is notified by the light emission of the notification lamp 19. Therefore, an employee of the game hall can accurately identify the pachinko machine 1 that should clear the data in the RAM 73, and operate the clear switch 30c for the pachinko machine 1 to efficiently clear the data in the RAM 73. it can. For this reason, it is possible to prevent the pachinko machine 1 from being set in a gaming state advantageous to the player according to the game result of the previous day at the start of the game hall business, and to avoid the disadvantage of the game hall side. The work for setting the required pachinko machine 1 to the initial state can be executed without imposing a great deal of labor on the field employees (operators).
[0060]
  In the first embodiment, the data clear of the RAM 73 of the pachinko machine 1 in the probability variation state is configured to be executed after returning to the backed-up state before the power interruption (probability variation state). It may be configured to execute the data clear of the RAM 73 without executing the return to the state before the power is turned off.
[0061]
  Further, the pachinko machine 1 according to the first embodiment may be provided with a notification prohibiting switch for inputting a signal for prohibiting the light emission of the notification lamp 19. Accordingly, the notification lamp 19 can be inhibited from emitting light by operating the notification prohibition switch. The pachinko machine 1 according to the present embodiment performs the production in the same manner in the case of being in a probability variation state and in the case of being in a probability variation state, thereby making it difficult for the player to identify the probability variation state. To enhance the interest of For this reason, when a power failure occurs during a game (during business hours) and a power recovery process is performed, it is not preferable that the player is notified of the game state by the light emission state of the notification lamp 19.
[0062]
  If a notification prohibition switch is provided, a signal for prohibiting the emission of the notification lamp 19 can be input, so that a notification of a probability variation state is made during business hours (even if power recovery processing is executed). Can be avoided. The notification prohibition switch may be a signal for prohibiting light emission to the main control board C, and when the power is turned on in the main processing of the main control board C, the notification prohibition switch When the signal input is confirmed, the special notification flag 73a may be turned off even in the probability fluctuation state. The notification prohibition switch may be a switch for inputting a signal for prohibiting light emission to the display control board D or the sound lamp control board S. Even when the display control board D receives a special notification command, the notification prohibition switch If in the signal input state, the notification lamp 19 may be configured to be in a non-light emitting state.
[0063]
  Next, a pachinko machine 1 according to a second embodiment will be described with reference to FIGS. The pachinko machine 1 according to the first embodiment is configured so that a notification lamp 19 notifies that state when the pachinko machine 1 is returned to the probability variation state upon power-on (power recovery). Instead of this, in the pachinko machine 1 of the second embodiment, a check button 90 is provided so that it can be notified whether or not the state is in a probability fluctuation state according to the signal input from the check button 90 regardless of the power recovery. Configured. The same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0064]
  FIG. 6 is a perspective view of the pachinko machine 1 and shows a state in which the front frame 2 is released. In FIG. 6, illustration of some components, such as the metal frame 3 and the normal winning opening 9, is omitted to simplify the description. As shown in FIG. 1, the front frame 2 is formed in a substantially rectangular shape when viewed from the front, and is provided so as to cover the inner frame 22 to which the game board 5 is attached. The front frame 2 is pivotally supported on the inner frame 22 by opening and closing shafts disposed at two upper and lower positions on the left edge portion. Further, the glass door frame 4 is provided with two glass plates for protecting the game board 5, and the game board 5 is configured such that when the front frame 2 (glass door frame 4) is closed, the glass plate Therefore, it is protected from being touched by the player. The glass door frame 4 and the front door plate (waist plate) 15 are configured to open and close together with the front frame 2, and as shown in FIG. When released, the game board 5 is exposed (can be contacted).
[0065]
  A check button 90 is disposed on the front surface of the game board 5 and on the back side of the front door plate (waist plate) 15. For this reason, when the front frame 2 is opened, the check button 90 is exposed. If the operator opens the front frame 2, the operator can operate the check button 90, and can execute a process for setting a necessary game to an initial state.
[0066]
  Here, after the business is completed, the game board 5 is usually cleaned. For this reason, the front frame 2 is opened by the employee (operator) on the game hall side. Therefore, in parallel with the cleaning work, the check button 90 is operated to easily confirm the gaming state to be backed up and to set the state of the pachinko machine 1 to the initial state (repressing the check button 90). It can be done and work can be done efficiently. Further, the front frame 2 is opened by unlocking, and the player does not open the front frame 2. Therefore, it is possible to avoid a situation in which the player operates the check button 90 to output the gaming state.
[0067]
  FIG. 7 is a block diagram showing an electrical configuration of the pachinko machine 1 according to the second embodiment. As shown in FIG. 7, the pachinko machine 1 according to the second embodiment is similar to the pachinko machine 1 according to the first embodiment in that a main control board C, a display control board D, a payout control board H, and an audio lamp control board S are used. , A launch control board B and the like, and each device controlled by each control board C, D, H, S, B. In the second embodiment, the notification lamp 19 of the first embodiment is not provided.
[0068]
  The main control board C is provided with an MPU 71 which is a one-chip arithmetic unit as in the first embodiment, and this MPU 71 is provided with a ROM 72 and a RAM 73. The programs of the flowcharts shown in FIGS. 8 and 9 are stored in the ROM 72 as a part of the control program.
[0069]
  The RAM 73 includes a backup area 73b as in the first embodiment, and includes a check button flag 73c instead of the special notification flag 73a. The check button flag 73c is a flag indicating that the check button 90 is turned on. The check button flag 73c is turned on when the check button 90 is pressed (on), and turned off when the power of the pachinko machine 1 is turned off.
[0070]
  In the pachinko machine 1 of the second embodiment, when the check button 90 is turned on while the check button flag 73c is turned on, it is recognized that the check button 90 is re-input, and the backup keyword of the RAM 73 is It is going to be destroyed.
[0071]
  The check button 90 is a button for outputting the gaming state stored in the RAM 73 to the display control board D, and is input (turned on) when pressed. When the check button 90 is turned on, the gaming state (data indicating whether or not the probability variation state) is stored in the RAM 73 is output to the display control board D together with the state notification command. The state notification command is a command indicating that the output data is a gaming state stored in the RAM 73. When the display control board D receives the state notification command, the data added to the state notification command is sent to the LCD 10. indicate. From the data displayed on the LCD 10, the operator can determine whether or not the state of the pachinko machine 1 is a probability variation state.
[0072]
  Here, the re-input of the check button 90 is recognized by the pachinko machine 1 as an instruction to clear the data in the RAM 73, and the backup keyword in the RAM 73 is destroyed. Thereby, in the main process of the pachinko machine 1, the state of the pachinko machine 1 is set to the initial state (see FIGS. 8 and 9).
[0073]
  Next, using FIG. 8 and FIG. 9, each process performed by the pachinko machine 1 of the second embodiment will be described. FIG. 8 is a flowchart of a main process executed by the pachinko machine 1 according to the second embodiment. In this main process, when the power is turned on, similarly to the main process of the pachinko machine 1 of the first embodiment, the processes of S11 to S19 or the processes of S11 to S14 and S20 to S22 are executed. The state 1 is set to the state before the power is turned off or the initial state (the data in the RAM 73 is cleared). After the process of S19, an NMI interrupt return is executed to return to the place where the process was executed before the power was turned off, and the control is continued from the state before the power was turned off. In the second embodiment, since the special notification flag 73a is not provided, the processes of S17 and S18 in the main process of the first embodiment are omitted.
[0074]
  Then, after interruption is permitted (after execution of the process of S19 or S22), each process of S23 to S30 (start winning process (S23), variation start process (S24), variation stop process (S25), counter update process) (S26), jackpot process (S27), special notification process (S41), out symbol counter update process (S29), confirmation of the passage of time (S30)) are repeatedly executed every predetermined time (for example, every 2 ms), Control the game.
[0075]
  FIG. 9 is a flowchart of the special notification process (S41) of the second embodiment. The special notification process (S41) of the second embodiment is executed based on the signal from the check button 90, and outputs the game state data stored in the RAM 73 to the display control board D and the data in the RAM 73. This is a process for executing a clear instruction. In this special notification process (S41), first, it is confirmed whether or not the check button 90 is turned on (S42). If the check button 90 is not turned on (S42: No), the special notification process (S41) is terminated.
[0076]
  On the other hand, if the check button 90 is turned on as a result of the confirmation in S42 (S42: Yes), it is confirmed whether the check button flag 73c is turned on (S43). Here, if the check button flag 73c is not turned on (S43: No), it is the first input of the check button 90, and an output request for data indicating the gaming state (whether or not the probability variation state) is stored in the RAM 73. It is. Therefore, data indicating the gaming state stored in the RAM 73 is added to the state notification command and written to the transmission buffer (S44). Thereafter, the check button flag 73c is turned on (S45), and the special notification process (S41) is terminated.
[0077]
  The data written in the transmission buffer is transmitted to the display control board D at a predetermined timing by a timer interrupt process. The data transmitted to the display control board D is displayed on the LCD 10. Thereby, knowledge of whether the state of the pachinko machine 1 (the state of the pachinko machine 1 to be backed up) is a probability variation state can be given to the employee (operator) of the game hall. When the operator does not want to back up the state of the pachinko machine 1 in the probability variation state, the operator turns on (presses) the check button 90 again. Thereby, the process of S42 is executed again.
[0078]
  If the check button flag 73c is turned on as a result of the check in S43 (S43: Yes), it is recognized that the check button 90 is re-input, and the backup keyword stored in the RAM 73 is destroyed ( In step S46, the process jumps to “A” in the main process of FIG.
[0079]
  That is, when the check button 90 is re-input, the processing is shifted to S11 of the main process with the backup keyword destroyed, and the processes of S11 to S14 and S14 to S22 of the main process are restored. Regardless of whether or not Thereby, it is determined that the backup is invalid, and the RAM clearing and initialization process (S20) is executed. For this reason, if the probability fluctuation state is eliminated and then the power is turned off, the state of the pachinko machine 1 is set to the initial state at the time of power recovery. It should be noted that the check button flag 73c is turned off by this power interruption.
[0080]
  Thus, according to the pachinko machine 1 of the second embodiment, it is possible to notify the operator whether or not the state of the pachinko machine 1 is in a probability fluctuation state while being in an energized state (regardless of execution of power recovery processing). In addition, it can be instructed to set the state of the pachinko machine 1 in the initial state at the time of the next power recovery (execution operation for setting to the initial state is executed) without turning off the power supply once. Can be made).
[0081]
  Therefore, the operator can perform an operation that takes place in a relatively relaxed time zone, for example, when the store is closed, without performing the operation for canceling the probability fluctuation state in the power recovery process executed in a busy time zone before the start of business. It can be performed. In order to bring the LCD 10 into an operating state in the power recovery process, the display control board D must be set to an initial state. For this reason, although the work time for setting the state of the pachinko machine 1 to the initial state becomes long, in the pachinko machine 1 of the second embodiment, the state of the pachinko machine 1 on the main control board C in the energized state. Can be executed efficiently, so that the process can be executed efficiently.
[0082]
  In the second embodiment, the pachinko machine 1 is configured to output the backed up data to the LCD 10 in order to make the operator determine whether or not the state backed up by the pachinko machine 1 is a probability variation state. did. Alternatively, when the probability variation state is backed up, the information may be output by the notification lamp 19 as in the first embodiment. Further, the main processing of the pachinko machine 1 is repeatedly executed at predetermined time intervals, but the signal input by the first press of the check button 90, that is, one signal input operation is recognized as a plurality of signal inputs. As a matter of course, after the process of S42 of the special notification process is executed, the progress of the process may be waited to adjust the operation timing of the main process.
[0083]
  Next, a pachinko machine 1 according to a third embodiment will be described with reference to FIGS. 10 and 11. In the pachinko machine 1 according to the first embodiment, the probability is informed to the operator, and the probability based on the operation performed by the operator (the power is turned on while the clear switch 30c is pressed). It was configured to release the fluctuation state. Instead, the pachinko machine 1 of the third embodiment stores a predetermined time range, and the power recovery time is outside the time range regardless of the operation of the operator. The probability variation state is canceled, and when the power recovery time is within the time range, the state is backed up. In addition, the same code | symbol is attached | subjected to the same part as above-mentioned 1st Example, and the description is abbreviate | omitted.
[0084]
  FIG. 10 is a block diagram showing an electrical configuration of the pachinko machine 1 according to the third embodiment. As shown in FIG. 10, the pachinko machine 1 according to the third embodiment is similar to the pachinko machine 1 according to the first embodiment in that a main control board C, a display control board D, a payout control board H, and an audio lamp control board S are used. , A launch control board B and the like, and each device controlled by each control board C, D, H, S, B. In the pachinko machine 1 of the third embodiment, the notification lamp 19 provided in the first embodiment is unnecessary.
[0085]
  As in the first embodiment, the main control board C is provided with an MPU 71 that is a one-chip arithmetic unit. The MPU 71 includes a ROM 72 having a time table memory 72a, a RAM 73, and an RTC 95. It has been. The program of the flowchart shown in FIG. 11 is stored in the ROM 72 as a part of the control program.
[0086]
  The time table memory 72a provided in the ROM 72 is for storing a predetermined time range. Here, the predetermined time range is determined corresponding to the business hours of the game hall. Thus, by determining the time when power is restored, different processes can be executed during business hours and outside business hours. Specifically, as will be described later, outside the business hours, if the state of the pachinko machine 1 at the time of power recovery is the probability fluctuation state, the RAM clearing and initialization process (S20) is executed. If it is during the time, the return to the backed up state is executed without canceling the probability fluctuation state at the time of power recovery.
[0087]
  The RAM 73 is provided with the same backup area 73b as in the first embodiment. In the pachinko machine 1 according to the third embodiment, since the data clear of the RAM 73 is determined according to the time of power recovery, the operator is not notified that the probability fluctuation state is present. For this reason, the special notification flag 73a is not provided.
[0088]
  The RTC 95 is an integrated circuit (IC) for measuring a time called a real time clock, and is connected to the bus line 76. The RTC 95 is connected to a battery circuit 95a that supplies a backup voltage when the pachinko machine 1 is powered off. With this battery circuit 95a, the RTC 95 can continue timing even after the pachinko machine 1 is powered off.
[0089]
  FIG. 11 is a flowchart of main processing executed in the pachinko machine 1 of the third embodiment. As shown in FIG. 11, in this main process, when the power is turned on, the processes of S11 to S14 are executed in the same manner as the main process of the pachinko machine 1 of the first embodiment, and the state of the pachinko machine 1 is changed. Then, it is determined whether to set to the state before the power is turned off or to the initial state (the state in which the data of the RAM 73 is cleared).
[0090]
  If the backup is valid in the process of S14 (S14: Yes), it is confirmed whether or not the time indicated by the RTC 95 is outside the time range stored in the time table memory 72a (S51). As a result, if the time indicated by the RTC 95 is within the above time range (S51: No), it is a power recovery process during business hours, so that the state of the pachinko machine 1 is returned to the state before the power cut. There is a need. Therefore, the process which returns the state of the pachinko machine 1 to the state before power-off is performed based on the data memorize | stored in the backup area 73b (S15, S16). Then, the interrupt is returned to the original state (S19), an NMI interrupt return is executed to return to the place where the process was executed before the power was turned off, and the control is continued from the state before the power was turned off.
[0091]
  On the other hand, if the time indicated by the RTC 95 is outside the above time range as a result of checking in the processing of S51 (S51: Yes), it is a power recovery process at the start of business (or after the end of business). Therefore, since it is necessary to clear the backed-up probability fluctuation state, the process proceeds to S20. Thereby, the RAM clearing and initialization process (S20) is executed, and the backed-up probability fluctuation state is cleared.
[0092]
  After the interruption is permitted (after the process of S19 or S22), each process of S23 to S30 (start winning process (S23), variation start process (S24), variation stop process (S25), counter update process (S26) The game is controlled by repeatedly executing the jackpot process (S27), the off symbol counter update process (S29), and the confirmation of the passage of time (S30) every predetermined time (for example, every 2 ms).
[0093]
  The backup data confirmed at the time of power recovery is written in the backup area 73b when the power is turned off by the power failure process (NMI interrupt process) executed in the same manner as in the first embodiment. Also, the special notification process (S28) executed in the first embodiment is omitted in the third embodiment.
[0094]
  Thus, in the pachinko machine 1 of the third embodiment, the operator does not need to check the probability variation state one by one, and performs an operation for executing the data clear of the RAM 73 according to the check result. Since there is no need, it is freed from complicated operations for initializing the pachinko machine 1 in the probability variation state. In addition, it is possible to reliably avoid the state of the pachinko machine 1 at the start of business being set to the probability fluctuation state.
[0095]
  In the third embodiment, the time range is configured to be stored in the ROM 72. Alternatively, the time range may be stored in a rewritable nonvolatile memory such as an EEPROM. . According to this, since the time range can be changed to an arbitrary range by input, it is possible to set a time range according to the business form of the game hall.
[0096]
  In the third embodiment, the data clear of the RAM 73 is uniquely executed according to the time of power recovery. Instead of this, for example, a button or switch operated by the operator is provided. Provided, when such a button or switch is in a predetermined state (input state of a predetermined signal), the RAM 73 may be configured not to execute data clear and to return to the state before the power is turned off. According to this, for example, the game hall side can prepare the pachinko machine 1 set in the probability variation state as a service to the player at the start of business.
[0097]
  In each of the above embodiments, the claim 1And 2As the state returning means described, the processes of S15 and S16 in the flowcharts of FIGS. 4, 8, and 11 correspond. Further, as the discriminating means according to claim 1, the processing of S17 in the flowchart of FIG.As the discrimination means according to claim 2, the process of S44 in the flowchart of FIG.To do. Claim 1NotificationAs means, the notification lamp 19 emits light to the sound lamp control board S executed by the display control board D based on the process of S32 in the flowchart of FIG. 5 and the special notification command transmitted by the process of S32. And a process for causing the notification lamp 19 in the sound lamp control board S to emit light.Further, as the notification means according to claim 2, the sound lamp control board executed by the display control board D based on the process of S44 in the flowchart of FIG. 9 and the special notification command transmitted by the process of S44. A process for transmitting a command for instructing S to emit light from the notification lamp 19 and a process for causing the notification lamp 19 to emit light in the sound lamp control board S correspond to this.
[0098]
  The present invention has been described above based on the embodiments. However, the present invention is not limited to the above embodiments, and various modifications can be easily made without departing from the spirit of the present invention. It can be guessed.
[0099]
  For example, in each of the above embodiments, when the probability variation state is backed up, the probability variation state is configured to be canceled, but instead, a state advantageous to the player other than the probability variation state. However, when the state is backed up, it may be configured to cancel it. Here, the state advantageous to the player is, for example, a state where the game is executed in the time reduction mode or a big hit state.
[0100]
  In the first and second embodiments, the probability variation state is indicated by visual information. Instead of this, it may be configured to notify the fact that the state is in a probability fluctuation state by outputting audio data from the speaker 82. Further, in the first and second embodiments, the probability variation state is configured to be notified by the notification lamp 19 or the LCD 10 provided on the front side of the pachinko machine 1, but the probability variation on the back side of the game board 5 is configured. You may provide the lamp and LED for notifying a state.
[0101]
  Normally, in the game hall, the power of the pachinko machine 1 is turned on and off in units of all pachinko machines or installed blocks (islands), but the power of the pachinko machine 1 can be turned on for each pachinko machine 1 As described above, a power switch is often provided on the back surface of the game board 5. For this reason, when the power is individually turned on for each pachinko machine 1, since such an operation is performed on the back side of the game board 5, means for notifying the probability variation state on the back side of the game board 5 is provided. Thus, the operation for setting the initial state can be performed efficiently. Further, in such a case, buttons (such as the clear switch 30c and the check button 90) that are operated by the operator in the operation of setting the state of the gaming machine to the initial state are further provided on the back side of the gaming board 5. , Can improve the work efficiency.
[0102]
  You may implement this invention in the pachinko machine etc. of a different type from the said Example. For example, once a big hit, a pachinko machine (commonly known as a two-time right, a three-time right, etc.) that increases the expected value of the big hit until a big hit state occurs (for example, twice or three times). May also be implemented. Further, it may be implemented as a pachinko machine that enters a special gaming state on the condition that a ball is won in a predetermined area after a big hit symbol is displayed. Further, in addition to the pachinko machine, various game machines such as an alepacchi, a sparrow ball, a game machine in which a so-called pachinko machine and a slot machine are fused may be used.
[0103]
  In the slot machine, for example, a symbol is changed by operating a control lever in a state where a symbol effective line is determined by inserting coins, and a symbol is stopped and confirmed by operating a stop button. Is. Therefore, the basic concept of the slot machine is that “a variable display means for confirming and displaying a symbol after a symbol string composed of a plurality of symbols is displayed in a variable manner, and the symbol resulting from the operation of the starting operation means (for example, an operating lever). The change of the symbol is stopped due to the operation of the operation means for stopping (for example, the stop button) or after a predetermined time has elapsed, and the fixed symbol at the time of the stop is a specific symbol Is a slot machine provided with a special game state generating means for generating a special game state advantageous to the player. In this case, the game medium is typically a coin, a medal or the like.
[0104]
  In addition, as a specific example of a gaming machine in which a pachinko machine and a slot machine are fused, a variable display means for displaying a fixed symbol after a variable symbol row consisting of a plurality of symbols is provided, and a handle for launching a ball is provided. What is not provided. In this case, after throwing a predetermined amount of spheres based on a predetermined operation (button operation), for example, the change of the symbol is started due to the operation of the operation lever, for example, due to the operation of the stop button, or With the passage of time, the fluctuation of the symbol is stopped, and a jackpot state advantageous to the player is generated on the condition that the fixed symbol at the time of stoppage is a so-called jackpot symbol. A lot of balls are paid out.
[0105]
  A modification is shown below.
[0106]
  2. The gaming machine according to claim 1, wherein an instruction signal input means for inputting an instruction signal instructing setting to a predetermined initial state in accordance with an operation by an operator, and an instruction signal by the instruction signal input means are input. And a first initialization means for setting the state of the gaming machine to a predetermined initial state in place of the state before the power failure that is restored by the state restoration means. .
[0107]
  When the power interruption occurs during the game, it is necessary to return to the state before the power interruption (the gaming state advantageous to the player) in order to guarantee the player's profit. On the other hand, in the power recovery process at the start of business, if the gaming machine is returned to a gaming state advantageous to the player by returning to the state before the power supply is cut off by the state returning means, it is disadvantageous for the game hall, which is not preferable. In other words, even if it is determined by the determination means that the state before power-off is a gaming state advantageous to the player, the state of the gaming machine is uniformly set to the initial state, or If it is set to the state before power-off, inconvenience arises.
[0108]
  In the gaming machine 1, the operator can input an instruction signal when necessary based on the information notified by the first notification means (the gaming state is advantageous to the player). That is, the first initialization means is operated in accordance with the operator's intention (intention on the game hall side), and the state of the gaming machine 1 can be set to the initial state. In other words, if the instruction signal is not input, the setting of the initial state by the first initialization unit is not instructed, and the state of the gaming machine is the state before the power is turned off based on the data stored in the backup storage unit. Can be returned to. For this reason, when the state before power-off is a gaming state advantageous to the player, the state of the gaming machine can be set to an initial state as necessary, and the state before power-off ( It is also possible to return to a gaming state that is advantageous to the player. Therefore, there is no disadvantage to both the game hall side and the player side.
[0109]
  2. A gaming machine or a gaming machine according to claim 1, wherein a prohibition signal input means for inputting a notification prohibition signal for notifying the information notification by said first notification means according to an operation of an operator, and the prohibition signal thereof A gaming machine (2) comprising non-notification means for notifying information notification by the first notification means when a notification prohibition signal is input by the input means.
[0110]
  A gaming machine that executes an effect in a gaming state advantageous to the player and an effect in a normal gaming state other than the advantageous gaming state in the same or similar manner is difficult for the player to recognize the gaming state. The person cannot know that the game state is disadvantageous. Therefore, the player can always have a sense of expectation, and the player's interest in the game can be enhanced. On the other hand, a power interruption may occur during a game due to a power failure or the like. In such a case, if the game state is exposed to the player by the first notification means when the power recovery process is executed, the player's interest may be reduced.
[0111]
  However, in the gaming machine 2, when the notification prohibition signal is input by the prohibition signal input unit, the information notification by the first notification unit can be made non-notified. Therefore, when the information notification by the first notification means is not preferable, the information notification can be made non-notified. Therefore, in the period when the game is executed, it is possible to avoid notifying the player of the game state by notifying the information notification by the first notification means.
[0112]
  For example, it is desirable that the prohibition signal input means is constituted by a return type switch, a button, or the like that can continuously input a notification prohibition signal unless the operator performs a release operation. Alternatively, a flag that is turned on when a notification prohibition signal is input from the prohibition signal input means and turned off when an operation for canceling the notification prohibition is performed by an operator is provided, and continues while the flag is turned on. Thus, it is desirable that the information notification by the first notification unit is prohibited. According to this, if the game state of the gaming machine is determined in the power recovery process at the start of business and is set to the initial state as necessary, the prohibition signal input means can be operated to continue during business hours. Thus, the information notification by the first notification means can be made non-notified.
[0113]
  2. The gaming machine or the gaming machine 1 or 2 according to claim 1, wherein the first notification means includes a light emitter disposed on a front surface of the gaming machine, and the discrimination means is in a gaming state advantageous to the player. 2. A gaming machine 3 characterized in that the light emitting state of the light emitter is made different depending on whether it is determined to be present or not. Therefore, it is possible to accurately notify the operator that the state before power-off is determined to be a gaming state advantageous to the player, and the operator needs to set the initial state. Whether or not it is a gaming machine can be easily identified.
[0114]
  For example, when a plurality of gaming machines are configured so that the power can be turned on with one switch, the state of the gaming machine can be determined simply by glancing at the front of each powered-on gaming machine. Therefore, the operator can quickly determine the state of the gaming machine as compared with the case where a light emitter for notifying the gaming state advantageous to the player is provided inside or on the back side of the gaming machine, A gaming machine to be set in the initial state can be selected.
[0115]
  Examples of such light emitters include LEDs and lamps, and as such light emitters, it is possible to use a light emitter provided in advance for the effect of a gaming machine, which is different from the light emitter for effect. You may use what was provided. Examples of the different light emission states include not only a state in which light emission and non-light emission are performed, but also a state in which any of the color of the light emitter, the number of times of light emission, the light emission interval, and the light emission area are different.
[0116]
  4. The gaming machine according to claim 1, wherein the first notification means includes a voice output means for outputting a voice, and the discrimination means is in a gaming state advantageous to a player. If it is determined, the gaming machine 4 is configured to notify the player that the gaming state is advantageous by causing the voice output means to output voice data. Therefore, it is possible to accurately notify the operator whether or not the gaming machine needs to be set to the initial state by voice data (determined that the gaming state is advantageous to the player). However, even if it is difficult to visually recognize the information, the determination result by the determination means can be notified without any trouble.
[0117]
  For example, the means for individually turning on the gaming machines is often provided on the back of the gaming board (inside the gaming machine). For this reason, when power is turned on for each gaming machine, the operator often works on the back side of the gaming board. In such a case, if the first notification means is only the light emitting body provided on the front side of the gaming machine, the operator turns on the back side of the gaming board and then turns to the front side of the gaming machine. It is necessary to confirm whether or not the state of the gaming machine is a gaming state advantageous to the player. However, since the gaming machine 4 can notify that it is determined that the gaming state is advantageous to the player by voice data, a series of processes for setting the gaming machine state to the initial state are performed by the operator. Can be executed efficiently.
[0118]
  The first notification means notifies the player that the game state is advantageous by causing the voice data output means to output voice data when the game state is advantageous to the player. Also good. In addition, when the player is not in a gaming state advantageous to the player, the voice data output means outputs voice data, and when the player is in a gaming state advantageous to the player, the voice data is output without sound. It is also possible to notify that the game state is advantageous to the game. Further, whether or not it is in an advantageous state, audio data indicating that fact may be output to the audio data output means.
[0119]
  A detecting means for detecting the entrance of a game ball into a specific area, and when the entrance of the game ball is detected by the detection means, whether or not to transition to a game state advantageous to the player is selected, A main control means for performing control based on the lottery result, and an effect in the gaming state advantageous to the player and an effect in a normal gaming state other than the gaming state advantageous to the player are the same or approximated In the gaming machine executed in the above, the backup storage means for holding the data of the main control means indicating the gaming state even after the power is turned off, and the output request signal for requesting the output of the data stored in the backup storage means, An output request input means for inputting by the operation of, and an output means for outputting data of the main control means indicating a gaming state when an output request signal is input by the output request input means; Gaming machine 5, characterized in that it comprises.
[0120]
  Generally, in a gaming machine, when the power is turned off, the state is stored (backed up), and in the power recovery process when the power is turned on, the state of the gaming machine is returned to the backed up state. ing. This is because a player cannot be disadvantaged. This process is executed in the same way when the power is turned off at the end of business and the power recovery process at the start of business the next day.
[0121]
  However, in a power recovery process at the start of business, when a gaming machine is returned to a backed up state, it may return to a gaming state advantageous to the player. In such a case, a newly visited player will enjoy an advantageous gaming state derived from the game result of another person on the previous day instead of his own game result, resulting in unfairness. In addition, the game hall side will provide this to a player who does not need to provide an advantageous game state, and will suffer disadvantages. In order to avoid this disadvantage, a gaming machine in which a gaming state advantageous to the player is backed up may be set to a predetermined initial state.
[0122]
  However, in a gaming machine that executes an effect in a game state advantageous to the player and an effect in a normal game state other than the advantageous game state in the same or approximate manner, the effect in the game state advantageous to the player Since there is no difference in the performance in the normal gaming state, the employee (operator) of the game hall side (in the power recovery process) identifies whether the state of the gaming machine is advantageous to the player Can not. For this reason, a series of processes set in the initial state cannot be performed accurately, and the game state remains set in an advantageous state for the player, resulting in a disadvantage to the game hall side. In order to avoid such disadvantages, a series of processing for setting the initial state must be performed for all gaming machines including those that do not need to be set to the initial state. Labor is required.
[0123]
  In the gaming machine 5, the data stored in the backup storage means is output when an output request signal is input by the operation of the operator. Therefore, an employee (operator) of the game hall determines whether or not the state of the gaming machine when the power recovery process is performed becomes a game state advantageous to the player based on the output data. You can know before disconnection (before power recovery). Therefore, based on this information, the processing and operation to avoid the gaming machine that is in a gaming state advantageous to the player when power is restored from being set in an advantageous state (by power restoration). Can be executed.
[0124]
  Furthermore, a gaming machine that executes an effect in a game state advantageous to the player and an effect in a normal game state other than the advantageous game state in the same or approximate manner is difficult for the player to recognize the game state. The player cannot know that the game state is disadvantageous. Therefore, the player can always have a sense of expectation, and the player's interest in the game can be enhanced.
[0125]
  In the gaming machine 5, the data stored in the backup storage means is output based on the output request signal input by the operator, so that the player's interest is reduced due to the inadvertent notification of the gaming state. Can be avoided.
[0126]
  Further, in the gaming machine 5, the series of processes can be executed in the initial state by the input of the output request signal, that is, in the energized state. Therefore, the operator selects a gaming machine that sets an initial state by discriminating which gaming machine is in a gaming state advantageous to the player, not at the time of power recovery but before turning off the power. In order to set the gaming machine to the initial state, the input operation of the writing signal input means can be performed. Since the power supply of the gaming machine can be turned off at any time after the end of business hours, compared to performing various operations to set the gaming machine state to the initial state at the time of power recovery processing, the operator Can execute the series of processes with a margin. Furthermore, once the power is turned off, not only the main control means but also each part of the gaming machine (devices such as display devices and control means for controlling these devices) can be used electrically. The desired process cannot be executed until the return. However, this can be performed more efficiently than in the power recovery process by executing a series of processes for setting the initial state in the energized state.
[0127]
  The output means may output all of the data stored in the backup storage means, or may output a part thereof (whether or not the game state is advantageous to the player). Further, by outputting to a display device such as an LCD, the operator may browse all data and determine the state of the gaming machine. Furthermore, data indicating whether or not the state of the gaming machine to be backed up is a gaming state advantageous to the player may be output to a lamp or a speaker, and the state may be notified.
[0128]
  Further, the output means includes not only data that outputs (stored) data written to the backup storage means but also data that outputs data scheduled to be written (scheduled to be stored).
[0129]
  The gaming machine 5 includes a support member that supports a game board in which a game area is formed, and a covering member that is attached to the support member and is covered on the front surface of the game board so as to be opened and closed. The game machine 6 characterized in that the output request input means is arranged on the game board side from the covering member.
[0130]
  Generally, on the front surface of the game board, covering members such as a protective member for protecting the game board and an attachment member for attaching each device to be operated by the player are covered. The covering member is configured to be openable and closable with respect to the game board (support member) so that the gaming machine can be inspected, adjusted, or cleaned.
[0131]
  When the covering member is in a closed state, the game board side that is behind the player with respect to the covering member is isolated from the player. Therefore, it becomes difficult for the player to operate the output request input means arranged on the game board side from the covering member. During a normal game, since the covering member is in a closed state, it is possible to avoid a situation in which the output request input means is operated by the player and the game state is notified to the player. The game board side with respect to the covering member is exemplified by the back surface of the covering member, the front surface of the game board, the back surface of the game board, and the space around the periphery (excluding the front surface of the covering member).
[0132]
  In the gaming machine 5 or 6, determination means for determining whether or not the data stored in the backup storage means is abnormal, and writing the data determined to be abnormal by the determination means to the backup storage means. Write signal input means for inputting a write instruction signal to be instructed according to an operation by an operator, and when the write instruction signal is input by the write signal input means, the data determined to be abnormal is Abnormal writing execution means for writing to the backup storage means, and when the data written by the abnormal writing execution means is determined to be abnormal by the determination means, the state of the gaming machine is set to a predetermined initial state. And a second initialization means.
[0133]
  When the operator recognizes that the data stored in the backup storage means is advantageous data forming a gaming state advantageous to the player, the operator operates the write signal input means to write the write instruction signal. Can be entered. When a write instruction signal is input by the write signal input means, the abnormal write execution means writes data determined to be abnormal to the backup storage means. If it is determined that the data stored in the backup storage means is abnormal, the state of the gaming machine is set to the initial state by the second initialization means.
[0134]
  That is, in the gaming machine 7, when a gaming state advantageous to the player is backed up, the second initialization means is operated in accordance with the intention of the operator (intention on the game hall side), and the gaming machine 7 The state can be set to the initial state. Therefore, it is possible to avoid setting the gaming machine in a state advantageous to the player at the start of business, and to avoid the disadvantage on the game hall side. Further, since the input operation of the write instruction signal by the write signal input means is performed by the operator, the input of the write instruction signal is not performed in the power recovery process from the power failure that occurred during the game. It can be executed, and the player's profit can also be ensured.
[0135]
  In the gaming machine 7, the output request input means and the write signal input means are disposed on the same side of either the front surface or the back surface of the gaming board. .
[0136]
  When setting the state of the gaming machine to the initial state, the operator first executes the input operation of the output request input means, causes the output means to output data, and stores the data in the backup storage means (write) Information on whether or not the data is advantageous data forming a gaming state advantageous to the player. Here, if it is found from the information output to the output means that the advantageous data is backed up, the operator subsequently operates the write signal input means to set the state of the gaming machine to the initial state. Thus, the abnormal writing execution means executes the writing. Therefore, if the signal input means and the write signal input means are provided on the same surface of the game board, the work efficiency of the operator can be improved.
[0137]
  In general, the gaming machine includes a covering member that covers the front surface of the game board. When the covering member is opened, the front surface of the game board is exposed (can be brought into contact). It is configured. At the end of business, usually, the covering member is opened and the game board is cleaned. Therefore, if the output request input means and the write signal input means are provided on the front of the gaming board, the state of the gaming machine can be more efficiently improved in parallel with the cleaning operation of the gaming machine at the end of business. Processing to set the initial state can be executed.
[0138]
  On the other hand, if output request input means and write signal input means are provided on the back side of the game board, it is difficult for both input means to be operated by a player who is playing the game, and high security is maintained. can do. The output request input means and the write signal input means are not necessarily provided separately. For example, one switch has both functions of the output request input means and the write signal input means. You may comprise as follows. Specifically, the first signal input is recognized as a signal input from the output request input means, and when a signal is re-input from the switch, it is recognized as a signal input from the write signal input means. It can be realized that the switch has the functions of both the output request input means and the write signal input means.
[0139]
  In any one of the gaming machines 5 to 8, the output means includes a light emitter provided on the front surface of the gaming machine, and outputs data to the light emitter, and the output data is advantageous to the player. The gaming machine 9 is characterized in that the light emitting state of the light emitter is different depending on whether the data is advantageous data for forming a different gaming state or not. Therefore, it is possible to easily identify a gaming machine in which advantageous data is stored, that is, a gaming machine that needs to be set to an initial state, by simply having a glance at the gaming machine.
[0140]
  Examples of such light emitters include LEDs and lamps, and as such light emitters, it is possible to use a light emitter provided in advance for the effect of a gaming machine, which is different from the light emitter for effect. You may use what was provided. Examples of different light emission states include not only a state in which light emission and non-light emission are performed, but also a state in which the color of the light emitter, the number of times of light emission, the light emission interval, and the light emission area are different.
[0141]
  In any one of the gaming machines 5 to 9, the output means includes voice output means for outputting voice, and outputs data by the voice output means, and forms a gaming state advantageous to the player. The game machine 10 is characterized in that different voice data is output depending on whether or not it is advantageous data. Therefore, it is possible to accurately notify the operator whether or not the gaming machine needs to be set to the initial state (whether or not it is a gaming machine that is backed up by a gaming state advantageous to the player) by voice data. Even if the operator is in a state where it is difficult to visually recognize the information, the gaming state (backed up) of the gaming machine can be notified without any trouble.
[0142]
  For example, the means for individually turning on the gaming machines is often provided on the back of the gaming board (inside the gaming machine). For this reason, in order to turn on the power for each gaming machine, the operator often works on the back side of the gaming board. In such a case, if the data output from the output device provided on the front surface of the gaming machine is configured to notify the player whether or not the gaming state is advantageous, the operator can view the back side of the gaming board. On the side, after turning on the power, the player must turn to the front side of the opposite gaming machine to check whether the gaming machine is in a gaming state advantageous to the player. However, in the gaming machine 10, since the voice data outputs whether or not the data stored in the backup storage means is advantageous data, it is difficult for the operator to visually recognize the information. In addition, the operator can execute a series of processes for setting the state of the gaming machine to the initial state without any trouble.
[0143]
  A detecting means for detecting the entrance of a game ball into a specific area, and when the entrance of the game ball is detected by the detection means, whether or not to transition to a game state advantageous to the player is selected, A main control means for performing control based on the lottery result, and an effect in the gaming state advantageous to the player and an effect in a normal gaming state other than the gaming state advantageous to the player are the same or approximated In the gaming machine to be executed in the above, the backup storage means that retains the data of the main control means even after the power is turned off, and in the power recovery process when the power is turned on, based on the data stored in the backup storage means A state return means for returning to a state, a time acquisition means for acquiring time data in the power recovery process, and time data acquired by the time acquisition means are a predetermined time range. When the time determination means for determining whether or not the time data is out of the time range, and when the time determination means determines that the time data is out of the time range, the operation by the state return means is prohibited. A gaming machine 11 comprising third initialization means for instructing to set a gaming machine state to a predetermined initial state.
[0144]
  When the time data is acquired by the time acquisition unit in the power recovery process, it is determined by the time determination unit whether the time data is outside the predetermined time range, and the time data is out of the time range. If determined, the state of the gaming machine is set to a predetermined initial state by the third initialization means. Therefore, it can be instructed whether or not to set the initial state (the state after power recovery) according to the execution time of the power recovery process. Here, if this time range is associated with the business hours of the game hall, in the power recovery process outside the business hours, the state of the gaming machine can be set to the initial state, and in the power recovery process within the business hours Can be set to the state before the power is turned off. In other words, even if the data held in the backup storage means due to the power interruption at the end of business on the previous day is advantageous data that forms a gaming state advantageous to the player, When the power recovery process executed in (1) is performed, the state of the gaming machine is set to the initial state.
[0145]
  In other words, it is necessary for an employee (operator) on the game hall side to purposely identify whether or not the state of the gaming machine is advantageous to the player and to perform an operation for setting the state to the initial state. There is no. Therefore, even in a gaming machine that executes an effect in a game state advantageous to the player and an effect in a normal game state other than the advantageous game state in the same or similar manner, the game hall side suffers a disadvantage. In addition, there is no need for excessive effort from the operator to execute the initialization process.
[0146]
  In the gaming machine 11, when an operation instruction signal input means for inputting an operation instruction signal for instructing an operation of the state return means according to an operation by an operator, and a return instruction signal from the operation instruction signal input means, A non-executable operation of the third initialization means, and a priority return means for operating the state return means even if the acquired time data is outside the predetermined time range. A gaming machine 12 characterized. The business hours on the game hall side are not always the same, and the game hall side may want to start business as a special service in a game state advantageous to the player. In the gaming machine 12, even if it is out of the predetermined time range, when the operation instruction signal is input, the state based on the backed up data by the priority return means regardless of the preset time range. Since the game can be returned to, it is possible to perform control according to the actual situation on the game hall side.
[0147]
  In the gaming machine 11 or 12, an input means for inputting a time range, a time range storage means for storing the time range input by the input means as a predetermined time range, and a new time range by the input means. A gaming machine 13 comprising: a time range update means for updating the time range stored in the time range storage means to the input time range when input. The business hours on the game hall side are not always the same, and the game hall side may want to start business as a special service in a game state advantageous to the player. In the gaming machine 13, since a predetermined time range can be set by input, control according to the actual situation on the game hall side can be performed.
[0148]
  The gaming machine 14 according to any one of the gaming machines 1 to 13, wherein the gaming machine is a pachinko machine. Above all, the basic configuration of the pachinko machine is provided with an operation handle, and according to the operation of the operation handle, a game ball is launched into a predetermined game area, and the operation ball is arranged at a predetermined position in the game area As a necessary condition for winning a prize (or passing through the operating port), the identification information that is variably displayed on the display device is confirmed and stopped after a predetermined time. In addition, when outputting the special gaming state, a variable winning device (specific winning opening) disposed at a predetermined position in the gaming area is opened in a predetermined manner so that a gaming ball can be won, and the number of winning balls corresponding to the winning number Examples include those to which valuable value (including information written on magnetic cards as well as premium balls) is given.
[0149]
  The gaming machine 15 according to any one of the gaming machines 1 to 13, wherein the gaming machine is a combination of a pachinko machine and a slot machine. Among them, the basic configuration of the fused gaming machine includes “a variable display means for confirming and displaying identification information after variably displaying an identification information string composed of a plurality of identification information, and a starting operation means (for example, an operation lever). The variation of the identification information is started due to the operation, the variation of the identification information is stopped due to the operation of the operation means for stop (for example, the stop button) or after a predetermined time has passed, and the confirmation at the time of the stop is confirmed. Special game state output means for outputting a special game state advantageous to the player on the condition that the identification information is specific identification information, using a game ball as a game medium, and starting the variation of the identification information At that time, a predetermined number of game balls are required, and a lot of game balls are paid out when outputting the special game state.
[0150]
  A gaming machine 16 according to any one of the gaming machines 1 to 13, wherein the gaming machine is a slot machine. Above all, the basic configuration of the slot machine is “variable display means for confirming and displaying the identification information after variably displaying the identification information string composed of a plurality of identification information, and resulting from the operation of the starting operation means (for example, the operation lever). Alternatively, when a predetermined time elapses, the fluctuation of the identification information is stopped, and a special gaming state advantageous to the player is output on the condition that the fixed identification information at the time of the stop is the specific identification information. A gaming machine provided with a special gaming state output means. In this case, examples of the game media include coins and medals.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko machine that is an embodiment of the present invention.
FIG. 2 is a block diagram showing an electrical configuration of the pachinko machine.
FIG. 3 is a flowchart showing an NMI interrupt process executed on the main control board of the pachinko machine.
FIG. 4 is a flowchart of a main process executed on the main control board of the pachinko machine.
FIG. 5 is a flowchart of a special notification process executed in the main process of the main control board.
FIG. 6 is a front view of the pachinko machine 1 in a state where the front frame is opened in the second embodiment of the present invention.
FIG. 7 is a block diagram showing an electrical configuration of a pachinko machine according to a second embodiment.
FIG. 8 is a flowchart of a main process executed on the main control board of the pachinko machine according to the second embodiment.
FIG. 9 is a flowchart of a special notification process executed in the main process of the main control board of the second embodiment.
FIG. 10 is a block diagram showing an electrical configuration of a pachinko machine according to a third embodiment.
FIG. 11 is a flowchart of a main process executed by the main control board of the pachinko machine according to the third embodiment.
[Explanation of symbols]
1 Pachinko machine (game machine)
2 Front frame (front frame)
10 LCD (part of production means and notification means)
19 Notification lamp (NotificationPart of the means)
73 RAM (storage means)
78 Type 1 start port switch (detection means)
90 Check button (operation means)
C Main control board (SystemMeans)

Claims (3)

A detection means for detecting the entry of a game ball into a specific area, and whether or not to make a transition to a special game state advantageous to the player based on the detection of the entry of the game ball by the detection means. In addition, in a gaming machine comprising control means for performing control based on the lottery result,
The gaming machine includes an effect unit that executes an effect in a normal game state and an effect in a game state that is more advantageous to the player than the normal game state in the same or approximate manner,
The control means includes
Storage means capable of holding the data of the control means even after the power is turned off;
In a power recovery process executed at power-on, state return means for returning to the gaming state before power-off based on data stored in the storage means;
A discriminating means for discriminating whether or not the state before power-off which is restored by the status returning means is a gaming state advantageous to the player;
If the determining means determines that the gaming state is advantageous to the player, a notifying means for notifying that the gaming state is advantageous to the player;
A prohibition signal input means for inputting a notification prohibition signal for notifying the notification by the notification means according to the operation of the operator;
A gaming machine comprising non-notification means for notifying the notification by the notification means when a notification prohibition signal is input by the prohibition signal input means. Based on the front frame that is opened to the front side based on the unlocking operation with the key, the detection means for detecting the entrance of the game ball into the specific area, and the detection means detecting the entrance of the game ball A lottery to determine whether or not to change to a special gaming state advantageous to the player, and a control means for performing control based on the lottery result,
The gaming machine includes an effect unit that executes an effect in a normal game state and an effect in a game state that is more advantageous to the player than the normal game state in the same or approximate manner,
The control means includes
Storage means capable of holding data used for control of the control means even after power is turned off;
State returning means for returning to the gaming state before power-off based on the data stored in the storage means;
Yu Move state stored in said storage means, a determination means for determining whether or not an advantageous gaming state to the player,
Informing means for informing that the gaming state is advantageous to the player,
The gaming machine further includes operation means that can be operated when the front frame is opened to the front side based on the unlocking operation,
In that case the operating means is operated, pre Symbol game state stored in the memory when the operation has been performed, is determined by the determining means,
When the determined gaming state is a gaming state advantageous to the player, a predetermined notification is performed by the notification means. The normal gaming state is a gaming state in which whether or not to shift to a special gaming state advantageous to the player is determined by a predetermined first probability,
The gaming state advantageous to the player is a gaming state in which whether or not to transition to the special gaming state advantageous to the player is drawn with a second probability higher than the predetermined first probability. The gaming machine according to claim 1 or 2.

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