JP5921375B2 - Game machine - Google Patents

Description

  The present invention relates to a gaming machine in which a lottery of whether or not a special game can be executed is performed on condition that a game ball has entered a start area.

  Conventionally, a jackpot lottery is performed on the condition that a game ball has entered the starting opening, and if a jackpot is won by this jackpot lottery, there is a gaming machine that can execute a special game that can acquire a large amount of prize balls Are known. In such a gaming machine, when a game ball enters the start opening, a random number used for the big win lottery is acquired and stored as hold information in the storage unit, and stored in the storage unit when the start condition is satisfied. The pending information is read and a lottery lottery is performed.

  In addition, when a game ball enters the start opening, a random effect random number for determining a variation effect mode (such as time) for notifying the jackpot lottery result is acquired together with the random number used for the jackpot lottery. . The gaming machine stores in advance a variation information determination table in which the variation effect random number value and the variation effect mode (time, etc.) are associated with each other, and the jackpot lottery result is derived. Based on the random effect random number and the variation information determination table, the mode (time etc.) of the variable effect is determined (Patent Document 1). Thus, when the mode (time etc.) of the variation effect is determined, the variation effect is executed in the liquid crystal display unit or the like based on the determined content, thereby notifying the player of the jackpot lottery result. .

JP 2008-48915 A

  Generally, in gaming machines, there is an upper limit on the number of hold information that can be stored in the storage unit, and when the number of hold information stored in the storage unit has reached the upper limit, a game ball enters the start port. Even if the ball is struck, new hold information is not stored. For this reason, the player normally stops the launch of the game ball when the number of the hold information reaches the upper limit. However, in recent gaming machines, the performance effect is improved by executing a variation effect with a high expectation of jackpot over a long period of time such as 1 to 2 minutes. If it is performed a plurality of times, the time for the player to stop firing the game ball will also be extremely long.

  On the other hand, if the time of the variation effect is shortened uniformly, the variation effect is frequently interrupted without storing any hold information in the storage unit, and the player may feel frustrated. Become.

  Therefore, an object of the present invention is to provide a gaming machine capable of appropriately shortening both the interruption period of the fluctuating effect and the firing stop period in which the player stops the launch of the game ball.

  In order to solve the above problems, a gaming machine according to the present invention has a gaming board provided with a gaming area in which a gaming ball flows down, and launches a gaming ball toward the gaming area with a launch intensity according to the player's operation. A launching means, a start area provided in the game area into which a game ball can enter, and a special winning opening provided in the game area is opened on condition that the game ball has entered the start area A random number for determining a special game for determining whether or not a game can be executed, and a variable effect for determining variable information associated with at least a variable time that is a variable effect time for notifying whether or not the special game can be executed Random number acquisition means for acquiring a random number and storing it in the storage unit as hold information, and whether or not the special game can be executed by reading a special game determination random number stored in the storage unit when a preset start condition is established A lottery means determined by lottery, and when a lottery result is derived by the lottery means, a plurality of fluctuations in which the value of the random effect random number and the fluctuation information are associated with each other based on the derived lottery result From the information determination table, the table corresponding to the variation condition when the lottery result is derived is selected, and together with the selected variation information determination table and the special game determination random number read by the lottery means Based on the random effect random number stored in the storage unit, the fluctuation information determining means for determining the fluctuation information, and the variation effect mode is determined based on the fluctuation information determined by the fluctuation information determining means. A variation effect mode determining means, a variation effect execution means for executing and controlling the variation effect according to the determination of the variation effect mode determination means, and the extraction When the lottery result enabling the execution of the special game is derived by the means, and when the variation effect for notifying the lottery result is completed by the variation effect execution means, the special game execution means for controlling the execution of the special game, and the game A special start area that is provided in the area and into which a game ball can enter, and a special game execution means that controls execution of a special game in which the special winning opening is opened on condition that the game ball enters the special start area. The variation condition that defines the condition for selecting the variation information determination table is set in advance according to the progress of the game, and the variation information determination means is configured to change the variation after the special game is executed. When the number of times to determine the information is within a specified number of times set in advance, the special variation information determination table is selected, and after the number of times to determine the variation information has reached the specified number of times, The normal variation information determination table corresponding to the variation condition according to the progress of the game is selected, and the special variation information determination table is configured to determine variation information having a shorter variation time than the normal variation information determination table. Further, the variation effect random number value and the variation information are associated with each other.

  In addition, the start area is provided with at least two of a first start area and a second start area, and is stored in the storage unit when a game ball enters the first start area and the second start area. An upper limit is set for each of the number of held information, and the game board is provided with a distribution device that alternately distributes the game balls flowing down the game area to the first start area and the second start area. It is good to have.

  Further, the number of hold information stored in the storage unit due to the entry of the game ball into the first start area and the number of hold information stored in the storage unit due to the entry of the game ball into the second start area When both reach the upper limit number, it is preferable to further include special effect execution means for executing a special effect that prompts the player to launch a game ball toward the special start area.

  In addition, the game area has a first game area and a second game area in which a rate of entry of a game ball differs according to a firing strength by the launching means, and the sorting device includes the first game area. The game balls flowing down are distributed to the first start area and the second start area, and the special start area may be arranged at a position where the game balls flowing down the second game area can enter.

  According to the present invention, it is possible to appropriately shorten both the interruption period of the fluctuating effect and the firing stop period in which the player stops launching the game ball.

It is a perspective view of the gaming machine showing a state where the door is opened. It is a front view of a gaming machine. It is a block diagram of a gaming machine. It is a figure explaining a jackpot decision random number determination table. It is a figure explaining the winning design determination random number determination table. It is a figure explaining a reach group determination random number determination table. It is a figure explaining the reach mode A determination random number determination table at the time of a loss. It is a figure explaining the jackpot reach mode A determination random number determination table. It is a figure explaining a change pattern lottery table. It is a figure explaining a variation time determination table. It is a figure explaining the determination method of a variation production pattern. It is a figure explaining an action | operation table. It is a figure explaining a game state setting table. It is a figure explaining a hit determination random number determination table. (A) is a figure explaining a normal symbol fluctuation | variation pattern determination table, (b) is a figure explaining a 2nd starting port open | release control table. It is a figure which shows the main process in a main control board. It is a figure which shows the timer interruption process in a main control board. It is a figure which shows the input control process in a main control board. It is a figure which shows the 1st start port detection switch input process in a main control board. It is a figure which shows the 2nd start port detection switch input process in a main control board. It is a figure which shows the gate detection switch input process in a main control board. It is a figure which shows the special start port detection switch input process in a main control board. It is a figure which shows the special game process in a main control board. It is a figure which shows the special figure special electric processing in a main control board. It is a figure which shows the special symbol change start process in a main control board. It is a figure which shows the change effect pattern determination process in a main control board. It is a figure explaining the special symbol fluctuation | variation stop process in a main control board. It is a figure which shows the post-stop process in a main control board. It is a figure which shows the special electric accessory control process in a main control board. It is a figure which shows the special game completion | finish process in a main control board. It is a figure which shows the common figure normal electricity process in a main control board. It is a figure which shows the normal symbol change start process in a main control board. It is a figure which shows the normal symbol fluctuation | variation stop process in a main control board. It is a figure which shows the process after a normal symbol stop in a main control board. It is a figure which shows the normal electric accessory control process in a main control board. It is a figure explaining an example of the change production of a change pattern without reach. It is a figure explaining an example of the fluctuation production of a reach fluctuation pattern. (A) is a figure explaining the first half variation production determination table, (b) is a figure explaining the second half variation production determination table. It is a figure explaining an example of special production. It is a figure which shows the main process in a sub control board. It is a figure which shows the timer interruption process in a sub control board. It is a figure which shows the start winning command reception process in a sub control board. It is the 1st figure showing change mode command reception processing in a sub control board. It is a figure which shows the fluctuation pattern command reception process in a sub control board.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The dimensions, materials, and other specific numerical values shown in the embodiments are merely examples for facilitating the understanding of the invention, and do not limit the present invention unless otherwise specified. In the present specification and drawings, elements having substantially the same function and configuration are denoted by the same reference numerals, and redundant description is omitted, and elements not directly related to the present invention are not illustrated. To do.

  In order to facilitate understanding of the embodiment of the present invention, first, the mechanical configuration and electrical configuration of the gaming machine will be briefly described, and then specific processing on each board will be described.

  FIG. 1 is a perspective view of the gaming machine 1 according to the present embodiment, showing a state where the door is opened. As shown in the figure, the gaming machine 1 includes an outer frame 2 in which an enclosed space is formed by four sides assembled in a substantially rectangular shape, a middle frame 4 attached to the outer frame 2 by a hinge mechanism so as to be freely opened and closed, A front frame 6 attached to the middle frame 4 so as to be opened and closed by a hinge mechanism is provided.

  As with the outer frame 2, the middle frame 4 has an enclosed space formed by four sides assembled in a substantially rectangular shape, and a game board 8 is held in the enclosed space. The front frame 6 holds a transmission plate 10 made of glass or resin. When the middle frame 4 and the front frame 6 are closed with respect to the outer frame 2, the game board 8 and the transmission plate 10 face each other substantially in parallel while maintaining a predetermined distance, and from the front side of the gaming machine 1. The game board 8 can be visually recognized through the transmission plate 10.

  FIG. 2 is a front view of the gaming machine 1. As shown in this figure, an operation handle 12 that projects to the front side of the gaming machine 1 is provided at the lower part of the front frame 6. The operation handle 12 is provided so that the player can perform a rotation operation. When the player rotates the operation handle 12 and performs a launch operation, the operation handle 12 has a strength corresponding to the rotation angle of the operation handle 12 and is not illustrated. A game ball is launched by the launch mechanism. The game balls thus fired are raised between the rails 14 a and 14 b provided on the game board 8 and guided to the game area 16.

  The game area 16 is a space formed at a distance between the game board 8 and the transmission plate 10 and is an area where the game ball can flow down or roll. The game board 8 is provided with a large number of nails and windmills, and a game ball guided to the game area 16 collides with the nails and windmills, and flows down and rolls in an irregular direction.

  The game area 16 includes a first game area 16a and a second game area 16b that differ in the degree of entry of the game ball according to the firing strength of the launch mechanism. The first game area 16 a is located on the left side of the game area 16 when viewed from the player facing the gaming machine 1, and the second game area 16 b is the game area 16 viewed from the player facing the gaming machine 1. Located on the right side. Since the rails 14a and 14b are on the left side of the game area 16, a game ball launched with a launch intensity less than a predetermined intensity by the launch mechanism enters the first game area 16a and launches with a launch intensity greater than a predetermined intensity. The played game ball enters the second game area 16b.

  The game area 16 is provided with a general winning port 18 through which a game ball can enter, a first starting port 20 (starting region), and a second starting port 22 (starting region). When a game ball enters the first start port 20 and the second start port 22, predetermined prize balls are paid out to the player.

  As will be described in detail later, when a game ball enters the first start port 20 or the second start port 22, a lottery for determining any one special symbol from a plurality of special symbols provided in advance. Is done. Each special symbol is associated with various gaming profits such as whether or not a special game advantageous to the player can be executed and what gaming state the subsequent gaming state will be. Therefore, when a game ball enters the first start port 20 or the second start port 22, the player acquires a predetermined prize ball and, at the same time, acquires an opportunity for acquiring a right to receive various game benefits. It becomes.

  The second starting port 22 is provided with a movable piece 22b that can be opened and closed, and the ease of entry of the game ball into the second starting port 22 changes according to the state of the movable piece 22b. It has become. Specifically, when the second start port 22 is in the closed state, it is impossible or difficult to enter the game ball into the second start port 22. On the other hand, when a game ball passes through the gate 24 provided in the game area 16, a normal symbol lottery to be described later is performed, and when the win is won by this lottery, the movable piece 22b is controlled to be in an open state for a predetermined time. Is done. As described above, when the movable piece 22b is in the open state, the movable piece 22b functions as a tray that guides the game ball to the second start port 22, and the game ball can easily enter the second start port 22.

  Further, an attacker device 26 is provided above the first start port 20 and the second start port 22. The attacker device 26 includes a large winning opening 28 through which a game ball can enter and an open / close door 28b for opening and closing the large winning opening 28. Normally, the open / close door 28b closes the large winning opening 28. Thus, it is impossible to enter a game ball into the special winning opening 28. On the other hand, when the above-mentioned special game is executed, the open / close door 28b is opened, and the game ball can be inserted into the special winning opening 28. When a game ball enters the special winning opening 28, a predetermined prize ball is paid out to the player.

  The second game area 16b is provided with a special start port 40 (special start area). When a game ball enters the special start port 40, one special ball is paid out and a special game is executed in which the big winning port 28 is opened for a moment. As will be described in detail later, when a special game is executed, the special variation state is set until the jackpot lottery result is fixed eight times.

  At the bottom of the game area 16, game balls that have not entered any of the general winning opening 18, the first starting opening 20, the second starting opening 22, and the big winning opening 28 are played from the gaming area 16. A discharge port 30 for discharging is provided on the back side of the panel 8.

  Here, in the present embodiment, a distribution device 32 that distributes game balls alternately to the first start port 20 and the second start port 22 is provided vertically above the first start port 20 and the second start port 22. It has been. The distribution device 32 opens an introduction path 34 that allows a game ball flowing down the game area 16 to enter vertically upward. The width of the introduction path 34 is slightly larger than the diameter of the game ball, so that the game ball guided to the introduction path 34 always falls toward the swing member 36.

  The swing member 36 is composed of an inverted T-shaped member composed of a bottom plate 36a and a distribution plate 36b standing upright from the longitudinal center of the bottom plate 36a. It is configured symmetrically. The swing member 36 is swingably attached to the game board 8 at a swing fulcrum 36c where the bottom plate 36a and the distribution plate 36b intersect.

  Further, weights (not shown) are provided at both ends in the longitudinal direction of the bottom plate 36a. Usually, as shown in the drawing, one end (the right end in the drawing) of the bottom plate 36a is stationary with the stopper 38a being in contact, or Oscillating counterclockwise from the state shown in the figure, the other end (the left end in the figure) of the bottom plate 36a comes to rest in a state where it contacts the stopper 38b. In such a stationary state, the first space 36d of the oscillating member 36 formed in the clockwise direction in the drawing relative to the distribution plate 36b, or the counter space in the counterclockwise direction in the drawing from the distribution plate 36b. One of the second spaces 36e of the swing member 36 formed faces the introduction path 34.

  According to the allocating device 32 having the above-described configuration, when the game ball enters the introduction path 34 in a state where the second space 36e faces the introduction path 34 and is stationary as illustrated, the second space 36e. When the game ball falls, the swing member 36 swings counterclockwise due to the weight of the game ball. As a result, the game ball that has entered the distribution device 32 from the introduction path 34 falls in the distribution device 32 toward the second starting port 22 and the swing member 36 swings counterclockwise. Thus, the bottom plate 36a is stationary with the other end (left end in the figure) in contact with the stopper 38b.

  When the next game ball enters the introduction path 34 in a state where the first space 36d faces the introduction path 34 and is stationary, this time, the game ball falls into the first space 36d and the game ball The swinging member 36 swings in the clockwise direction by its own weight. Thereby, the game ball that has entered the distribution device 32 from the introduction path 34 falls in the distribution device 32 toward the first starting port 20, and the swing member 36 is again stationary in the state shown in the drawing. Will be. As described above, the game balls that have entered the sorting device 32 are alternately distributed to the first start port 20 and the second start port 22 by the swing member 36.

  When the second start port 22 is in the open state, not only the game balls distributed to the upper part of the second start port 22 by the swing member 36 but also the game balls flowing down the distribution device 32. Then, it leads to the second starting port 22. However, the arrangement of the first start port 20 and the second start port 22 is merely an example, and the specific panel configuration is not particularly limited, and the distribution device 32 is not an essential configuration.

  The game board 8 is provided with an effect display device 50 composed of a liquid crystal display device and an effect agent device 52 composed of a movable device, as effect devices that produce effects during the progress of the game. The effect display device 50 includes an effect display unit 50a (image display unit) that displays an image, and the effect display unit 50a can be viewed from the front side of the gaming machine 1 at a substantially central portion of the game board 8. It is arranged. As shown in the figure, the effect symbols 40a, 40b, and 40c are variably displayed on the effect display unit 50a, and the player is notified of the jackpot lottery result according to the stop display mode of each of the effect symbols 40a, 40b, and 40c. It becomes.

  In addition, a production effect device 52 is provided in front of the production display unit 50a. The effect accessory device 52 is normally retracted to the back side of the game board 8, but can be moved to the front surface of the effect display unit 50a during the variation display of the effect symbols 40a, 40b, and 40c. It gives a player a sense of expectation of jackpot.

  In addition, the game board 8 is provided with an effect lighting device 54 composed of a lamp for performing effects by variously controlling lighting modes and emission colors. Further, an effect operation device 56 including buttons for accepting a player's pressing operation is provided at a substantially central position in the width direction of the gaming machine 1 and at a position below the transmission plate 10. An audio output device 58 including a speaker directed to the front side of the gaming machine 1 is provided at an upper position of the front frame 6 and a lowermost position of the outer frame 2.

  Reference numeral 70 in the figure is an upper plate to which a prize ball paid out from the gaming machine 1 or a game ball lent out from the game ball lending device is guided, and when the upper plate 70 is filled with game balls, It will be guided to the lower plate 72. In addition, a ball hole (not shown) for discharging game balls from the lower plate 72 is formed on the bottom surface of the lower plate 72. The ball release hole is normally closed by an opening / closing plate (not shown), but the opening / closing plate slides integrally with the ball removal knob 72a by sliding the ball removal knob 72a in the left-right direction in the figure. In addition, it is possible to discharge the game ball from the ball release hole to the lower side of the lower plate 72.

  Further, the game board 8 has a first special symbol display 80, a second special symbol display 82, and a first special symbol hold at a position outside the game area 16 and visible to the player. A display 84, a second special symbol hold indicator 86, a normal symbol indicator 88, and a normal symbol hold indicator 90 are provided. Each of these indicators 80 to 90 is a device for displaying various situations relating to the game, and details thereof will be described later.

(Internal structure of control means)
FIG. 3 is a block diagram showing the internal configuration of the control means for controlling the progress of the game.

  The main control board 100 controls the basic operation of the game. The main control board 100 includes a main CPU 100a, a main ROM 100b, and a main RAM 100c. The main CPU 100a reads out a program stored in the main ROM 100b based on an input signal from each detection switch or timer, performs arithmetic processing, directly controls each device or display, or outputs the result of the arithmetic processing. In response, a command is transmitted to another board. The main RAM 100c functions as a data work area during the arithmetic processing of the main CPU 100a.

  The main control board 100 has a general winning port detection switch 18a for detecting that a game ball has entered the general winning port 18, and a first start port for detecting that a game ball has entered the first start port 20. Detection switch 20a, second start port detection switch 22a for detecting that a game ball has entered the second start port 22, gate detection switch 24a for detecting that a game ball has passed through the gate 24, and special winning port 28 A big winning opening detection switch 28a for detecting that a game ball has entered and a special start opening detection switch 40a for detecting that a game ball has entered are connected to the special start opening 40. A detection signal is input to the main control board 100.

  The main control board 100 includes a start opening / closing solenoid 22c for operating the movable piece 22b of the second start opening 22 and a large winning opening opening / closing solenoid 28c for operating the open / close door 28b for opening / closing the large winning opening 28. Connected, and the main control board 100 controls the opening and closing of the second starting port 22 and the special winning opening 28.

  Further, the main control board 100 includes a first special symbol display 80, a second special symbol display 82, a first special symbol hold indicator 84, a second special symbol hold indicator 86, a normal symbol indicator 88, a normal symbol A symbol holding display 90 is connected, and the main control board 100 controls the display of each display.

  In addition, the gaming machine 1 of the present embodiment has a special symbol game which is started mainly by entering a game ball into the first start port 20 or the second start port 22 and the game ball passes through the gate 24. It can be broadly divided into normal symbol games that are started. The main ROM 100b of the main control board 100 stores various programs for proceeding with special symbol games and normal symbol games, and data and tables necessary for various games.

  The main control board 100 is connected to the payout control board 120 and the sub control board 200.

  The payout control board 120 performs control for launching a game ball and control for paying out a prize ball. The payout control board 120 also includes a CPU, a ROM, and a RAM, and is connected to the main control board 100 so as to be capable of bidirectional communication. A game information output terminal board 110 is connected to the payout control board 120, and various information on the progress of the game output from the main control board 100 is passed through the payout control board 120 and the game information output terminal board 110. This is output to the hall computer of the amusement store.

  Further, the payout control board 120 is connected to a payout motor 121 for paying out a game ball stored in the storage unit as a prize ball to the player. The payout control board 120 controls the payout motor 121 based on the payout number designation command transmitted from the main control board 100 so as to pay out a predetermined prize ball to the player. At this time, the number of game balls that have been paid out is detected by the payout ball counting switch 122 so that it can be determined whether or not the prize ball to be paid out has been paid out to the player.

  Further, a dish full tank detection switch 123 that detects a full condition of the lower dish 72 is connected to the dispensing control board 120. The dish full tank detection switch 123 is provided in a path that guides the game ball to be paid out as a prize ball to the lower dish 72, and a game ball detection signal is sent to the payout control board 120 each time the game ball passes through the path. It is designed to be entered.

  Then, when a predetermined amount or more of game balls are stored in the lower tray 72 and become full, the game balls stay in the passage toward the lower tray 72 and move from the tray full tank detection switch 123 toward the payout control board 120. The game ball detection signal is continuously input. The payout control board 120 determines that the lower pan 72 is full when a game ball detection signal is continuously input for a predetermined time, and transmits a full dish command to the main control board 100. On the other hand, if continuous input of the game ball detection signal is interrupted after transmitting the dish full tank command, it is determined that the full tank state has been released, and a dish full tank release command is transmitted to the main control board 100.

  In addition, a launch control board 130 is connected to the payout control board 120 so as to be capable of bidirectional communication. When the launch control board 130 receives the launch control data from the payout control board 120, the launch control board 130 permits the launch. Connected to the launch control board 130 are a touch sensor 12 a that is provided on the operation handle 12 and detects that a player has touched the operation handle 12, and an operation volume 12 b that detects an operation angle of the operation handle 12. Has been. When a signal is input from the touch sensor 12a and the operation volume 12b, the launch control board 130 is controlled to energize the launch solenoid 131 provided in the game ball launch device to launch the game ball.

  The sub-control board 200 mainly controls each effect such as during game or standby. The sub control board 200 includes a sub CPU 200a, a sub ROM 200b, and a sub RAM 200c, and is connected to the main control board 100 so as to be able to communicate in one direction from the main control board 100 to the sub control board 200. . The sub CPU 200a reads out a program stored in the sub ROM 200b based on a command transmitted from the main control board 100, an input signal from a timer, and the like, performs arithmetic processing, and displays a command for executing an effect as an image. It transmits to the control board 210 or the illumination control board 220. At this time, the sub RAM 200c functions as a data work area during the arithmetic processing of the sub CPU 200a.

  The image control board 210 performs image display control for displaying an image on the effect display unit 50a, and includes a CPU, a ROM, a RAM, and a VRAM. The ROM of the image control board 210 stores a large number of image data such as symbols and backgrounds displayed on the effect display unit 50a. Based on the command transmitted from the sub control board 200, the CPU Is read from the ROM into the VRAM, and the image display of the effect display unit 50a is controlled.

  Based on the command transmitted from the sub-control board 200, the illumination control board 220 performs voice output control for outputting voice from the voice output device 58. Further, the illumination control board 220 moves the stage effect device 52 and controls the lighting of the stage lighting device 54 based on a command transmitted from the sub control board 200. Furthermore, a predetermined command is transmitted to the sub-control board 200 when an operation detection signal is input from the effect operation device detection switch 56a that detects that the effect operation device 56 has been pressed.

  A power supply board (not shown) is connected to each board. This power supply board has a backup power supply composed of a capacitor, monitors the power supply voltage supplied to the gaming machine, and outputs a power interruption detection signal to the main control board 100 when the power supply voltage becomes a predetermined value or less. .

  Next, games in the gaming machine 1 of the present embodiment will be described with reference to various tables stored in the main ROM 100b.

  As described above, in the gaming machine 1 of the present embodiment, two types of games, a special symbol game and a normal symbol game, proceed in parallel, and a low probability is assumed as a gaming state when proceeding with both of these games. The game progresses in any game state in which the game state of either the game state or the high probability game state and the game state of either the non-time-short game state or the time-short game state are combined.

  The details of each gaming state will be described later, but the low probability gaming state has a low probability of acquiring a right to execute a special game in which the big winning opening 28 is opened (in this embodiment, about 1 / 392.4). It is a set gaming state, and the high probability gaming state is a gaming state set with a high probability of acquiring a right to execute a special game (about 1 / 39.24 in this embodiment).

  In addition, the non-short game state is a game state in which the movable piece 22b is less likely to be in the open state and the game ball is less likely to enter the second starting port 22, and the short-time game state is more than the non-short game state. In this game state, the movable piece 22b is likely to be in an open state, and a game ball is likely to enter the second start port 22.

  When the player operates the operation handle 12 to fire a game ball in the game area 16, and when the game ball flowing down the game area 16 enters the first start port 20 or the second start port 22, the game is given to the player. A lottery for determining whether to give a profit (hereinafter referred to as a “hit lottery”) is performed. In the jackpot lottery, when the jackpot is won, a special game is executed in which the special winning opening 28 is opened and a game ball can be inserted into the special winning slot 28, and after the special game ends. Is set to one of the above gaming states. Below, the jackpot lottery method will be described.

  As will be described in detail later, when a game ball enters the first start port 20 or the second start port 22, various random numbers related to the jackpot lottery (a jackpot determined random number, a winning symbol random number, a reach group determined random number, Reach mode A determined random numbers and fluctuation pattern random numbers) are acquired, and each random number value is stored in the reserved storage area of the main RAM 100c. In the following, various random numbers stored in the holding storage area when a game ball enters the first start port 20 are collectively referred to as special 1 hold, and a game ball enters the second start port 22 and is held. Various random numbers stored in the storage area are collectively called special 2 reservation.

  The reserved storage area has eight storage units (first to eighth storage units). When a game ball enters the first start port 20, the special 1 hold is stored in order from the first storage section of the hold storage area, and when the game ball enters the second start port 22, the special 2 hold is held. It memorize | stores in an order from the 1st memory | storage part of a memory area. For example, when a game ball enters the first start port 20, if no hold is stored in any of the first to eighth storage units of the hold storage area, a special 1 hold is placed in the first storage unit. Remember. In addition, for example, when a game ball enters the first start port 20 in a state where special 1 hold or special 2 hold is stored in the first storage unit to the third storage unit, the special 1 hold is designated as the first hold. 4 Store in the storage unit. In addition, even when a game ball enters the second starting port 22, the special 1 hold and the special 2 hold are not stored in the first storage unit to the eighth storage unit, as described above. The special 2 reservation is stored in the storage unit having a small number (ordinal number).

  However, the number of special 1 reservations (X1) and the number of special 2 reservations (X2) that can be stored in the storage area are each set to four. Therefore, for example, when a game ball enters the first start port 20 and four special 1 holds are already stored in the hold storage area, the game ball enters the first start port 20. The special hold 1 is not newly stored by the ball. Similarly, when a game ball enters the second start port 22 and four special 2 holds are already stored in the hold storage area, the game ball enters the second start port 22. Does not newly store the special 2 hold.

  FIG. 4 is a diagram illustrating a jackpot determination random number determination table. When a game ball enters the first start port 20 or the second start port 22, one jackpot determination random number is acquired from the range of 0 to 65535. Then, when the jackpot lottery is started, that is, the jackpot determination random number determination table is selected according to the gaming state when the jackpot determination is performed, the selected jackpot determination random number determination table and the acquired jackpot determination random number A lottery drawing is performed.

  In the low-probability gaming state, when starting the jackpot lottery for the special 1 hold and the special 2 hold, the jackpot determination random number determination table 1 shown in FIG. According to the jackpot determination random number determination table 1, when the jackpot determination random number is 10001 to 10167, it is determined to be a jackpot, and when it is another jackpot determination random number, it is determined to be lost. Therefore, the jackpot probability in this case is about 1 / 392.4.

  Also, in the high-probability gaming state, when the big win lottery is started for the special 1 hold and the special 2 hold, the jackpot determination random number determination table 2 shown in FIG. According to the jackpot determined random number determination table 2, when the jackpot determined random number is 10001-1670, it is determined to be a jackpot, and when it is any other jackpot determined random number, it is determined to be lost. Therefore, the jackpot probability in this case is about 1 / 39.24. Thus, in the case of a high probability gaming state, the jackpot probability is 10 times that in the case of a low probability gaming state.

  As is clear from FIG. 4, in this embodiment, the acquired jackpot determination random number is 10001 to 10167, that is, the hold that wins the jackpot in the low probability gaming state is always the high probability gaming state. Will win the jackpot.

  FIG. 5 is a diagram for explaining the winning symbol determination random number determination table. When a game ball enters the first start port 20 or the second start port 22, one winning symbol random number is acquired from the range of 0-99. Then, when the determination result of “hit” is derived by the above-mentioned lottery lottery, the type of special symbol is determined based on the acquired winning symbol random number and the winning symbol determination random number determination table. At this time, if the “big hit” is won by the special 1 hold, the winning symbol determination random number determination table 1 shown in FIG. 5A is selected, and if the “big win” is won by the special 2 hold, The winning symbol determination random number determination table 2 shown in 5 (b) is selected. Below, the special symbol determined by the winning symbol random number, that is, the special symbol determined when the jackpot determination result is obtained is called the jackpot symbol, and the special symbol determined when the loss determination result is obtained. The design is called a lost design.

  According to the winning symbol determination random number determination table 1 shown in FIG. 5A, three types of special symbols A, B, and C are associated with each winning symbol random number of 0 to 99, as shown. If the winning symbol random number is 0 to 39, the special symbol A is determined, if the winning symbol random number is 40 to 79, the special symbol B is determined, and if the winning symbol random number is 80 to 99, the special symbol C is determined. Is done.

  Further, according to the winning symbol determination random number determination table 2 shown in FIG. 5B, three types of special symbols A, B, and C are associated with each of the winning symbol random numbers 0 to 99 as illustrated. If the winning symbol random number is 0 to 69, the special symbol A is determined, if the winning symbol random number is 70 to 89, the special symbol B is determined, and if the winning symbol random number is 90 to 99, the special symbol C is determined. Is determined. Here, in the winning symbol determination random number determination tables 1 and 2, the same special symbol is determined, but the types of special symbols determined in both tables may be different. Conversely, in both tables, the ratio at which each special symbol is determined may be the same.

  In addition, when the lottery result of the jackpot is “losing” and the lottery result is derived by special 1 suspension, the special symbol X is determined as the losing symbol without performing the lottery, and the lottery result is specially selected. When it is derived by 2 suspension, the special symbol Y is determined as a lost symbol without performing a lottery. That is, the winning symbol determination random number determination table is referred to only when the jackpot lottery result is “big hit”, and is not referred to when the jackpot lottery result is “lost”.

  FIG. 6 is a diagram for explaining a reach group determination random number determination table. This reach group determination random number determination table is provided for each gaming state. Here, a table for non-time-saving gaming state and a table for special variation state will be described. The special variation state refers to a state from when the game ball enters the special start port 40 and the special game is executed until the jackpot lottery result is confirmed eight times.

  When a game ball enters the first start port 20 or the second start port 22, one reach group determination random number is acquired from the range of 0-10006. As described above, when the jackpot lottery result is derived, a process for determining a variation effect pattern for notifying the jackpot lottery result is performed. In this embodiment, when the lottery lottery result is “losing”, in determining the variation effect pattern, first, the group type is determined by the reach group determination random number and the reach group determination random number determination table.

  Then, based on the special 1 hold or special 2 hold when the non-short-time gaming state is set, “losing” is derived as a jackpot lottery result, and when the jackpot lottery is performed, When the total number of 2 holds (hereinafter simply referred to as “hold number”) is 0 to 2, the reach group determination random number determination table 1 shown in FIG. 6A is selected. According to the reach group determination random number determination table 1, if the reach group determination random number is 0 to 6999, “Group 2” is determined, and if the reach group determination random number is 7000 to 8999, “Group 3” is determined. If the reach group determination random number is 9000 to 9799, “Group 4” is determined, and if the reach group determination random number is 9800 to 10006, “Group 5” is determined.

  Further, in the non-short-time gaming state, when “losing” is derived as the jackpot lottery result, if the number of holds is 3 or 4, the reach group determination random number determination table shown in FIG. When 2 is selected and the holding number is 5 to 8, the reach group determination random number determination table 3 shown in FIG. 6C is selected. According to the reach group determination random number determination tables 2 and 3, the group type is determined as illustrated in accordance with the reach group determination random number.

  Furthermore, in this embodiment, after the special game is executed, the special variation state is set until the eighth variation effect is finished. Then, when “losing” is derived as the jackpot lottery result in the special variation state, the reach group determination random number determination table 4 shown in FIG. 6D is selected regardless of the number of holds. Further, according to the reach group determination random number determination table 4, regardless of the value of the reach group determination random number, “group 10” is always determined.

  When the lottery result of the jackpot is “big jackpot”, the group type is not determined in determining the variation effect pattern. That is, the reach group determination random number determination table is referred to only when the jackpot lottery result is “losing”, and is not referred to when the jackpot lottery result is “hit”.

  FIG. 7 is a diagram for explaining a lost reach mode A determined random number determination table. A plurality of lost time reach mode A determined random number determination tables are provided for each group type determined as described above. Here, the lost reach mode A determination random number determination table 1 selected when the group 1 is determined is shown in FIG. 7A, and the lost reach mode A determination selected when the group 2 is determined. FIG. 7 (b) shows the random number determination table 2, and FIG. 7 (c) shows the lost reach mode A determination random number determination table 5 selected when the group 5 is determined. When the group 10 is determined FIG. 7 (d) shows the lost reach mode A determined random number determination table 10 that is selected by (1).

  When a game ball enters the first start port 20 or the second start port 22, one reach mode A determined random number is acquired from the range of 0 to 250. When the group type is determined by lottery of the group type, the lost reach mode A determination random number determination table corresponding to the determined group type is selected, and the selected lost reach mode A is determined. The variation mode number is determined based on the random number determination table and the reach mode A determined random number.

  According to the lost reach mode A determined random number determination table 1 shown in FIG. 7A, “00H” is determined as the variation mode number in all the reach mode A determined random numbers 0 to 250. Further, according to the reach time reach mode A determined random number determination table 2 shown in FIG. 7B, when the reach mode A determined random number is 0 to 79, “00H” is determined as the variation mode number, and the reach mode A determined When the random number is 80 to 169, “01H” is determined as the variation mode number, and when the reach mode A determined random number is 170 to 250, “02H” is determined as the variation mode number. Further, according to the lose mode reach mode A determined random number determination table 5 shown in FIG. 7C, when the reach mode A determined random number is 0 to 130, “A5H” is determined as the variation mode number, and the reach mode A determined When the random number is 131 to 199, “A6H” is determined as the variation mode number, and when the reach mode A determination random number is 200 to 250, “A7H” is determined as the variation mode number.

  Further, according to the lost reach mode A determined random number determination table 10 shown in FIG. 7D, “00H” is determined as the variation mode number regardless of the reach mode A determined random number. In the present embodiment, numbers with “H” indicate hexadecimal numbers, and numbers without “H” indicate decimal numbers.

  In each lose time reach mode A determined random number determination table, a reach mode A determined random number is associated with a change pattern lottery table to be described later together with a change mode number. For example, according to the lost reach mode A determination random number determination table 1, the variation mode number is determined to be “00H” and, at the same time, “table A” is determined as the variation pattern lottery table. Thus, in this embodiment, when the variation mode number is determined, the variation pattern lottery table is determined at the same time.

  FIG. 8 is a diagram illustrating a jackpot reach mode A determined random number determination table. A plurality of jackpot reach mode A determination random number determination tables are provided according to the type of jackpot symbol determined at the time of winning the jackpot and the gaming state at the time of winning the jackpot. Here, FIG. 8A shows the jackpot reach mode A determination random number determination table 1 selected when the special symbols A and B are determined in the non-short game state, and the special symbol C is displayed in the non-short game state. The jackpot reach mode A determined random number determination table 2 selected when determined is shown in FIG. 8B, and the jackpot reach reached when the special symbols A, B, and C are determined in the special variation state. The mode A determined random number determination table 3 is shown in FIG.

  In the jackpot reach mode A determined random number determination table, similarly to the above-described lose time reach mode A determined random number determination table, the variation mode number and the variation pattern lottery table are associated with the reach mode A determined random number. When the variation mode number is determined, the variation pattern lottery table is determined at the same time. As is apparent from FIG. 8C, according to the jackpot reach mode A determined random number determination table 3, regardless of the value of the reach mode A determined random number, “00H” is set as the variation mode number. It is determined.

  As described above, when the jackpot lottery result is “losing”, first, the group type is determined based on the reach group determination random number determination table and the reach group determination random number shown in FIG. Then, according to the determined group type, the variation mode number and the variation pattern lottery table are determined by the lost reach mode A determined random number determination table and the reach mode A determined random number shown in FIG. On the other hand, if the jackpot lottery result is “big jackpot”, the jackpot reach mode A shown in FIG. 8 is determined according to the determined jackpot symbol (special symbol type) and the gaming state at the time of the jackpot winning. The variation mode number and variation pattern lottery table are determined by the random number determination table and the reach mode A determined random number.

  FIG. 9 is a diagram for explaining the variation pattern lottery table. Here, FIG. 9A shows the variation pattern lottery table A selected in the non-short-time gaming state, FIG. 9B shows the variation pattern lottery table B, and FIG. 9C shows the variation pattern lottery table Q. Shown in Moreover, the fluctuation pattern lottery table 1 selected in the special fluctuation state is shown in FIG. 9D, and the fluctuation pattern lottery table 10 is shown in FIG. However, many other variation pattern lottery tables are provided.

  When a game ball enters the first start port 20 or the second start port 22, one variation pattern random number is acquired from the range of 0 to 238. Then, the variation pattern number is determined based on the variation pattern lottery table determined simultaneously with the variation mode number and the obtained variation pattern random number. For example, according to the variation pattern lottery table A shown in FIG. 9A, “00H” is determined as the variation pattern number in all the variation pattern random numbers 0 to 238.

  Further, according to the variation pattern lottery table B shown in FIG. 9B, “01H” is determined as the variation pattern number in all the variation pattern random numbers 0 to 238. Further, according to the variation pattern lottery table Q shown in FIG. 9C, when the variation pattern random number is 0 to 24, “30H” is determined as the variation pattern number, and when the variation pattern random number is 25 to 49, the variation “31H” is determined as the pattern number. When the variation pattern random number is 50 to 139, “32H” is determined as the variation pattern number. When the variation pattern random number is 140 to 179, “33H” is determined as the variation pattern number. When the variation pattern random number is 180 to 219, “34H” is determined as the variation pattern number, and when the variation pattern random number is 220 to 238, “35H” is determined as the variation pattern number.

  Further, according to the variation pattern lottery table 1 shown in FIG. 9D, regardless of the variation pattern random number, “A0H” is always determined as the variation pattern number, and the variation pattern lottery table 10 shown in FIG. According to the above, regardless of the fluctuation pattern random number, “A1H” is always determined as the fluctuation pattern number.

  As is clear from this, when “losing” is derived as the jackpot lottery result in the special variation state, first, the group 10 is determined by the reach group determination random number determination table 4 shown in FIG. Is determined. Then, “00H” is determined as the variation mode number and the table 1 is determined as the variation pattern lottery table by the lost reach mode A determination random number determination table 10 shown in FIG. Thus, “A0H” is determined as the variation pattern number by the variation pattern lottery table 1 shown in FIG. Therefore, when “losing” is derived as the jackpot lottery result in the special variation state, the variation mode number is always determined as “00H” and the variation pattern number is determined as “A0H”. .

  On the other hand, when “big hit” is derived as the big win lottery result in the special fluctuation state, first, the big hit hour reach mode A determined random number determination table 3 shown in FIG. Is determined, and the table 10 is determined as a variation pattern lottery table. Accordingly, “A1H” is determined as the variation pattern number by the variation pattern lottery table 10 shown in FIG. Therefore, in the special variation state, when “big hit” is derived as the big win lottery result, the fluctuation mode number is always determined as “00H” and the fluctuation pattern number is determined as “A1H”. .

  In this way, when the jackpot lottery is performed, the variation mode number and the variation pattern number are determined according to the jackpot lottery result, the gaming state at that time, the number of holds, and the presence / absence of the special variation state. These variation mode number and variation pattern number specify the variation effect pattern, and the variation effect mode and time are associated with each of them.

  FIG. 10 is a diagram for explaining the variation time determination table. As described above, when the variation mode number is determined, the variation time 1 is determined according to the variation time 1 determination table shown in FIG. According to this variation time 1 determination table, variation time 1 is associated with each variation mode number, and the corresponding variation time 1 is determined according to the determined variation mode number.

  As described above, when the variation pattern number is determined, the variation time 2 is determined according to the variation time 2 determination table shown in FIG. According to the variation time 2 determination table, the variation time 2 is associated with each variation pattern number, and the corresponding variation time 2 is determined according to the determined variation pattern number. The total time of the variation times 1 and 2 determined in this way becomes the variation effect time for notifying the jackpot lottery result, that is, the variation time.

  As is clear from FIG. 10, the variation mode number “00H” is associated with 0 seconds as the variation time 1. Therefore, when “00H” is determined as the variation mode number, the variation production time is determined only by the variation time 2. The variation pattern number “A0H” is associated with 0.5 seconds as the variation time 2, and the variation pattern number “A1H” is associated with 1 second as the variation time 2.

  As described above, when “losing” is derived as the jackpot lottery result in the special variation state, “00H” is determined as the variation mode number and “A0H” is determined as the variation pattern number. The total fluctuation time is 0 seconds + 0.5 seconds = 0.5 seconds. In the special fluctuation state, when “big hit” is derived as the big win lottery result, “00H” is decided as the fluctuation mode number and “A1H” is decided as the fluctuation pattern number. The time is 0 second + 1 second = 1 second.

  As described above, the variation information determination table including the reach group determination random number determination table, the reach mode A determination random number determination table, and the variation pattern lottery table is provided, and the variation condition that defines the conditions for selecting each table is as follows. It is preset according to the progress of the game. After the special game is executed, if the number of times of determining the variation information (variation mode number and variation pattern number) is within 8 (specific number of times), a table dedicated to the special variation state (special variation information determination After the number of times that the variation information is determined reaches 8 times (specific number of times), a table (normal variation information determination table) corresponding to the variation condition according to the progress of the game is selected. At this time, in the special variation information determination table, the values of various random numbers (variation effect random numbers) are associated with the variation information so that variation information having a variation time shorter than that of the normal variation information determination table is determined. Therefore, in the special variation state, the variation time is significantly shortened compared to a state that is not the special variation state.

  FIG. 11 is a diagram for explaining a method for determining a variation effect pattern. As described above, when the special symbol type is determined in the jackpot lottery, the variation effect pattern is determined according to the determined special symbol type. In determining the variation effect pattern, first, the gaming state when the jackpot lottery is performed is confirmed, and then whether or not the jackpot winning is determined. Here, a case where “losing” is derived as a jackpot lottery result in the non-time-saving gaming state will be described as an example.

  When “losing” is derived as a jackpot lottery result in the non-time-saving gaming state, the number of holdings is confirmed next, and the reach group determination random number determination table (see FIG. 6) is selected according to the number of holdings at this time Is done. Then, the reach group determination random number determination table is determined with reference to the selected reach group determination random number determination table. Based on the determination result at this time, that is, the group type, the reach mode A determination random number determination table (FIG. 7, FIG. 7). Is determined). Then, the reach mode A determined random number is determined with reference to the determined reach mode A determined random number determination table, the variation mode number and the variation pattern lottery table are determined, and the determined variation pattern lottery table is determined. And the variation pattern number are determined based on the variation pattern random number.

  When the variation mode number is determined as described above, a variation mode command corresponding to the determined variation mode number is transmitted to the sub-control board 200, and when the variation pattern number is determined, the determined variation A variation pattern command corresponding to the pattern number is transmitted to the sub control board 200. In the sub-control board 200, the first half of the variation effect is mainly determined based on the received variation mode command, and the second half of the variation effect is mainly determined based on the received variation pattern command. The details will be described later.

  FIG. 12 shows an operation table for controlling a special game that is executed when a jackpot is won, and a special operation for controlling a special game that is executed when a game ball enters the special start port 40. It is a figure explaining a table. Each operation table is referred to for energization control of the special prize opening / closing solenoid 28c during execution of a special game or special game. In this embodiment, the operation tables 1, 2 and special tables are used as operation tables. An operating table is provided.

  When the special symbol A is determined, the special game is executed with reference to the operation table 1 as shown in FIG. According to this operation table 1, the condition that the special winning opening 28 is opened for 29.0 seconds or that eight game balls enter the special winning opening 28 (count C = 8) is satisfied. The round game which is ended by being established is executed 15 times. During each round game, the big prize opening 28 is opened only once, and the closing time of the big prize opening 28, that is, the interval time set between the round games is set to 2.0 seconds.

  When the special symbols B and C are determined, the special game is executed with reference to the operation table 2 as shown in FIG. According to this operation table 2, one of the conditions that the special winning opening 28 is opened for 29.0 seconds or that eight game balls enter the special winning opening 28 (count C = 8). The round game which is ended when it is established is executed five times. During each round game, the big prize opening 28 is opened only once, and the closing time of the big prize opening 28, that is, the interval time set between the round games is set to 2.0 seconds.

  Furthermore, when a game ball enters the special start port 40, as shown in FIG. 12C, the special game is executed with reference to the special operation table. According to this special operation table, the special winning opening 28 is opened only once for 0.1 seconds.

  FIG. 13 is a diagram illustrating a game state setting table for setting a game state after the special game is ended when the special game is executed as described above. The gaming state after the end of the special game is determined by the special symbol type determined by the jackpot lottery and the gaming state at the time of the jackpot winning.

  As shown in the figure, when the special symbols A, B, and C are determined, the high probability gaming state is set after the special game is finished, and the number of times of continuing the high probability gaming state (hereinafter referred to as “high probability number”) is Set to 76 times. This means that the high probability gaming state continues until the jackpot lottery result is confirmed 76 times. However, the above-mentioned high-accuracy count indicates the maximum number of continuations in the high probability gaming state of 1. If the big hit is won before reaching the above-mentioned continuation count, the high-probability count is set again. Will be performed.

  Further, when the special symbols A and B are determined, the high probability gaming state is set and the time-short gaming state is always set, and the number of times the time-short gaming state is continued (hereinafter referred to as “time-shorting number”) is 76. Set to times. This means that the short-time gaming state continues until the jackpot lottery result is confirmed 76 times. However, the above-mentioned number of short times indicates the maximum number of times of continuation in the short time gaming state of 1, and if the big hit is won before reaching the above number of continuations, the setting of the number of short times is performed again. It will be.

  On the other hand, when the special symbol C is determined, the short-time gaming state is set as follows according to the gaming state at the time of winning the jackpot. That is, if the game state at the time of winning the big hit is the short-time game state, the special-time game is set to the short-time game state, and at this time, the short-time number is set to 76 times. On the other hand, if the game state at the time of winning the big hit is the non-short game state, the non-short game state is set after the special game ends.

  FIG. 14 is a diagram for explaining the hit determination random number determination table. When a game ball flowing down the game area 16 passes through the gate 24, a normal symbol determination process (hereinafter referred to as “normal drawing lottery”) associated with whether or not to energize the movable piece 22b of the second starting port 22 is controlled. ) Is performed.

  As will be described in detail later, when the game ball passes through the gate 24, one hit-determined random number is acquired from the range of 0 to 19, and four random number values are stored in the general-purpose reserved storage area of the main RAM 100c. Is stored as the upper limit. Therefore, when a game ball passes through the gate 24 in a state where four random number values are stored in the usual-pending storage area, the random number value is not stored based on the passage of the game ball. In the following, the random number value (a winning random number) stored in the usual figure storage area after the game ball passes through the gate 24 is referred to as usual figure reservation.

  When the general drawing lottery is started in the non-time-saving gaming state, the winning determination random number determination table 1 shown in FIG. According to the winning determination random number determination table 1, when the winning determination random number is 0, the winning determination is made, and when the winning determination random number is 1 to 19, it is determined to be lost. Therefore, the winning probability in this case is 1/20.

  In addition, when the general drawing lottery is started in the short-time gaming state, the winning determination random number determination table 2 shown in FIG. 14B is referred to. According to the winning determination random number determination table 2, when the winning determination random number is 0 to 18, the winning determination is made, and when the winning determination random number is 19, it is determined to be lost. Therefore, the winning probability in this case is 19/20. In addition, a winning symbol is determined when the winning determination result is obtained by the regular drawing lottery, and a lost symbol is determined when the losing determination result is obtained.

  FIG. 15A is a diagram for explaining a normal symbol variation pattern determination table, and FIG. 15B is a diagram for explaining a second start port opening control table. As described above, when the regular drawing lottery is performed, the variation pattern of the normal symbol is determined. Here, when the gaming state is set to the non-short-time gaming state, the variation time is determined to be 20 seconds, and when the gaming state is set to the short-time gaming state, the variation time is determined to be 1 second. . When the variation time is determined in this way, the normal symbol display 88 is varied and displayed (flashing display) over the determined time. When the winning symbol is determined, the normal symbol display 88 is turned on. When the lost symbol is determined, the normal symbol display 88 is turned off.

  When the winning symbol is determined by the general symbol lottery and the normal symbol indicator 88 is lit, the movable piece 22b of the second start port 22 is in accordance with the gaming state when the general symbol lottery is performed. Then, the energization is controlled as shown in FIG.

  That is, when the winning symbol is determined in the non-short game state, the start opening / closing solenoid 22c is energized only for 0.1 sec × 1 = 0.1 sec, and the movable piece 22b of the second start port 22 is 0. Open only for 1 second. When the winning symbol is determined in the short-time gaming state, the start port opening / closing solenoid 22c is energized for 2.9 seconds × 2 times = 5.8 seconds, and the movable pieces 22b of the second start port 22 have a total of 5 pieces. Open for 8 seconds.

  Thus, in the short-time gaming state, it becomes easier for the game ball to enter the second start port 22 than in the non-short-time gaming state. In other words, in the short-time gaming state, as long as the game ball passes through the gate 24, the lottery is drawn one after another and the second start port 22 is frequently opened, so that the player consumes the game ball. It is possible to perform a jackpot lottery while reducing.

  Next, the progress of the game in the gaming machine 1 will be described using a flowchart.

(Main processing of main control board)
The main process of the main control board 100 will be described with reference to FIG.

  When power is supplied from the power supply board, a system reset occurs in the main CPU 100a, and the main CPU 100a performs the following main processing.

(Step S1)
As an initialization process, the main CPU 100a reads a startup program from the main ROM 100b in response to power-on, initializes flags and the like stored in the main RAM 100c, and produces various commands to be transmitted to the sub control board 200. Or stored in a transmission data storage area.

(Step S2)
Next, the main CPU 100a updates the reach group determined random number, the reach mode A determined random number, and the variation pattern random number. Hereinafter, the reach group determination random number, the reach mode A determination random number, and the change pattern random number for determining the change effect pattern are collectively referred to as a change effect random number.

(Step S3)
Next, the main CPU 100a updates the initial value update random number for winning design random numbers. The initial value update random number for the winning symbol random number is for determining an initial value and an end value of the winning symbol random number. That is, when the winning symbol random number makes one round by the winning symbol random number update process described later, the winning symbol random number is updated to the initial value updating random number for the winning symbol random number at that time. When the process of step S3 is completed, the processes of step S2 and step S3 are repeated until a predetermined interrupt process is performed.

(Timer interrupt processing of main control board)
The timer interrupt process of the main control board 100 will be described with reference to FIG.

  A clock pulse is generated at a predetermined cycle (4 milliseconds, hereinafter referred to as “4 ms”) by a reset clock pulse generation circuit provided on the main control board 100, whereby the following timer interrupt processing is executed. The

(Step S100)
First, the main CPU 100a performs time control processing for updating various timer counters. Here, the timer counters are decremented by 1 every time the timer interrupt processing of the main control board 100 is performed unless otherwise noted, and when the timer counter becomes 0, the subtraction is stopped.

(Step S200)
Next, the main CPU 100a performs a process of updating the winning design random number. Specifically, the random number counter is incremented by 1 and updated. When the added result exceeds the maximum value of the random number range, the random number counter is returned to 0. Random number is updated from the initial value update random number value for winning design random numbers. Although detailed description is omitted, in the present embodiment, a hardware random number built in the main control board 100 is used as the jackpot determined random number and the winning determined random number. Both the jackpot decision random number and the hit decision random number are updated according to a certain rule so that the random number sequence is automatically changed every time the random number sequence is completed, and the start value is changed every time the system is reset. It has become.

(Step S300)
Next, the main CPU 100a performs an input control process for determining whether or not there is an input to the first start port detection switch 20a, the second start port detection switch 22a, and the gate detection switch 24a.

(Step S350)
Next, the main CPU 100a performs a special game process for controlling the special game.

(Step S400)
Next, the main CPU 100a performs a special symbol special power process for controlling the special symbol and the special electric accessory.

(Step S500)
Next, the main CPU 100a performs a general-purpose normal power process for controlling the normal symbol and the normal electric accessory.

(Step S600)
Next, the main CPU 100 a checks whether or not a game ball has entered the general winning opening 18, the first starting opening 20, the second starting opening 22, the big winning opening 28, and the special starting opening 40. Specifically, when a detection signal is input from the general winning opening detection switch 18a, the first starting opening detection switch 20a, the second starting opening detection switch 22a, the large winning opening detection switch 28a, or the special starting opening detection switch 40a. Updates the prize ball counter corresponding to each detection signal and transmits a payout number designation command corresponding to the detection signal to the payout control board 120. When a prize ball is paid out on the payout control board 120, a command is transmitted to the main control board 100 for each prize ball, and when the command is received, the prize ball counter is decremented until the prize ball counter becomes zero. To do.

(Step S700)
Next, the main CPU 100a performs processing for creating external information data, second start opening / closing solenoid data, special winning opening opening / closing solenoid data, and display data of the respective indicators 80, 82, 84, 86, 88, 90.

(Step S800)
Next, the main CPU 100a performs port output processing for outputting each data signal created in step S700, and command transmission processing for transmitting a command set in the effect transmission data storage area of the main RAM 100c in each step. I do.

  Below, among the above-mentioned timer interruption processes, the input control process in step S300, the special figure special electric process in step S400, and the common figure ordinary electric process in step S500 will be described in detail.

  FIG. 18 is a flowchart illustrating the input control process in step S300.

(Step S310)
First, the main CPU 100a determines whether or not a detection signal is input from the first start port detection switch 20a, that is, whether or not a game ball has entered the first start port 20 and performs a jackpot lottery. Set predetermined data. Details will be described later with reference to FIG.

(Step S320)
Next, the main CPU 100a determines whether or not a detection signal is input from the second start port detection switch 22a, that is, whether or not a game ball has entered the second start port 22 and performs a big hit lottery. The predetermined data is set. Details will be described later with reference to FIG.

(Step S330)
Next, the main CPU 100a determines whether or not a signal has been input from the gate detection switch 24a, that is, whether or not the game ball has passed through the gate 24, and sets predetermined data for drawing a normal symbol. . Details will be described later with reference to FIG.

(Step S340)
Next, the main CPU 100a determines whether or not a signal is input from the special start port detection switch 40a, that is, whether or not a game ball has entered the special start port 40, and performs a predetermined game for executing the special game. Set the data. Details will be described later with reference to FIG.

  FIG. 19 is a flowchart illustrating the first start port detection switch input process in step S310.

(Step S310-1)
First, the main CPU 100a determines whether or not a detection signal is input from the first start port detection switch 20a. When it is determined that the detection signal is input from the first start port detection switch 20a, the process proceeds to step S310-2, and when it is determined that the detection signal is not input from the first start port detection switch 20a, The first start port detection switch input process is terminated.

(Step S310-2)
Next, the main CPU 100a determines whether or not the special 1 hold number (X1) stored in the hold storage area is less than 4. As a result, when it is determined that the number of special 1 holds (X1) <4, the process proceeds to step S310-3, and when it is determined that the number of special 1 held (X1) ≧ 4, the first start port detection switch input process. Exit.

(Step S310-3)
If it is determined in step S310-2 that the special 1 hold number (X1) <4, the main CPU 100a adds a value obtained by adding “1” to the special 1 hold number (X1) to a new special 1 hold number (X1). ).

(Step S310-4)
Next, the main CPU 100a obtains the current jackpot determination random number, searches for free storage units in order from the first storage unit to the eighth storage unit in the reserved storage area, and acquires them in the free storage unit The jackpot random number is stored.

(Step S310-5)
Next, the main CPU 100a acquires the winning symbol random number updated in step S200, and stores the acquired winning symbol random number in the same storage unit that stores the jackpot determining random number in step S310-4. .

(Step S310-6)
Next, the main CPU 100a acquires the reach group determined random number updated in step S2, and stores it in the same storage unit that stores the random numbers in steps S310-4 and S310-5.

(Step S310-7)
Next, the main CPU 100a acquires the reach mode A determined random number updated in step S2, and stores it in the same storage unit that stores the random numbers in steps S310-4 to S310-6.

(Step S310-8)
Next, the main CPU 100a acquires the variation pattern random number updated in step S2, and stores it in the same storage unit that stores the random numbers in steps S310-4 to S310-7.

(Step S310-9)
Next, the main CPU 100a generates a start winning command indicating that the special 1 hold has been stored, sets it in the effect transmission data storage area, and ends the first start port detection switch input process.

  FIG. 20 is a flowchart for explaining the second start port detection switch input process in step S320.

(Step S320-1)
First, the main CPU 100a determines whether or not a detection signal is input from the second start port detection switch 22a. When it is determined that the detection signal is input from the second start port detection switch 22a, the process proceeds to step S320-2, and when it is determined that the detection signal is not input from the second start port detection switch 22a, The second start port detection switch input process is terminated.

(Step S320-2)
Next, the main CPU 100a determines whether or not the special 2 hold number (X2) stored in the hold storage area is less than 4. As a result, if it is determined that the special 2 hold number (X2) <4, the process proceeds to step S320-3, and if it is determined that the special 2 hold number (X2) ≧ 4, the second start port detection switch input process. Exit.

(Step S320-3)
If it is determined in step S320-2 that the special 2 hold number (X2) <4, the main CPU 100a adds a value obtained by adding “1” to the special 2 hold number (X2) to a new special 2 hold number (X2). ).

(Step S320-4)
Next, the main CPU 100a obtains the current jackpot determination random number, searches for free storage units in order from the first storage unit to the eighth storage unit in the reserved storage area, and acquires them in the free storage unit The jackpot random number is stored.

(Step S320-5)
Next, the main CPU 100a acquires the winning symbol random number updated in step S200, and stores the acquired winning symbol random number in the same storage unit that stores the jackpot determined random number in step S320-4. .

(Step S320-6)
Next, the main CPU 100a acquires the reach group determined random number updated in step S2, and stores it in the same storage unit that stores the random numbers in steps S320-4 and S320-5.

(Step S320-7)
Next, the main CPU 100a acquires the reach mode A determined random number updated in step S2, and stores it in the same storage unit that stores the random numbers in steps S320-4 to S320-6.

(Step S320-8)
Next, the main CPU 100a acquires the variation pattern random number updated in step S2, and stores it in the same storage unit that stores the random numbers in steps S320-4 to S320-7.

(Step S320-9)
Next, the main CPU 100a generates a start winning command indicating that the special 2 hold has been stored, sets it in the effect transmission data storage area, and ends the second start port detection switch input process.

  FIG. 21 is a flowchart for explaining the gate detection switch input process in step S330.

(Step S330-1)
First, the main CPU 100a determines whether or not a detection signal is input from the gate detection switch 24a. As a result, when it is determined that the detection signal is input from the gate detection switch 24a, the process proceeds to step S330-2, and when it is determined that the detection signal is not input from the gate detection switch 24a, the gate detection is performed. The switch input process is terminated.

(Step S330-2)
If it is determined in step S330-1 that a detection signal has been input from the gate detection switch 24a, the main CPU 100a determines whether the number of reserved drawings (Y) is less than four. As a result, if it is determined that the number of pending maps (Y) <4, the process proceeds to step S330-3, and if it is determined that the number of pending maps (Y) ≧ 4, the gate detection switch input process is performed. finish.

(Step S330-3)
If it is determined in step S330-2 that the number of reserved maps (Y) <4, the main CPU 100a adds a value obtained by adding “1” to the number of reserved maps (Y) to the new number of reserved maps (Y ).

(Step S330-4)
Next, the main CPU 100a acquires the current winning random number and stores it in the normal symbol holding storage area, and ends the gate detection switch input process. Note that the normal symbol holding storage area has four storage units, the first storage unit to the fourth storage unit, and when the winning determination random number is acquired, the winning determination random number is stored in order from the first storage unit. An empty storage unit that is not available is searched, and the acquired winning random number is stored in the storage unit having the smallest number (ordinal number) among the free storage units.

  FIG. 22 is a flowchart illustrating the special start port detection switch input process in step S340.

(Step S340-1)
First, the main CPU 100a determines whether or not a detection signal is input from the special start port detection switch 40a. As a result, when it is determined that the detection signal is input from the special start port detection switch 40a, the process proceeds to step S340-2, and when it is determined that the detection signal is not input from the special start port detection switch 40a. Then, the special start port detection switch input process is terminated.

(Step S340-2)
If it is determined in step S340-1 that a detection signal is input from the special start port detection switch 40a, the main CPU 100a determines whether a special game is currently being executed. As a result, if it is determined that the special game is being executed, the special start port detection switch input process is terminated. If it is determined that the special game is not being executed, the process proceeds to step S340-3. Although details will be described later, it is assumed here that special game is being executed when special figure special data is “03” or “04” indicating that the special game is being controlled. judge.

(Step S340-3)
If it is determined in step S340-2 that the special game is not currently being executed, the main CPU 100a turns on the special winning flag. The special winning flag indicates that a special game is executed. When the special winning flag is turned on, the special game is started in a special game process described later.

  FIG. 23 is a flowchart for explaining the special game process in step S350.

(Step S350-1)
First, the main CPU 100a determines whether or not the special winning flag is on. As a result, if it is determined that the special prize flag is on, the process proceeds to step S350-2. If it is determined that the special prize flag is not on, the special game process is terminated.

(Step S350-2)
If it is determined in step S350-1 that the special winning flag is on, the main CPU 100a performs a special game execution process. Here, the special operation table (see FIG. 12C) is set, and the energization control of the special prize opening / closing solenoid 28c is performed with reference to the set table.

(Step S350-3)
Next, the main CPU 100a determines whether or not the special game has ended. As a result, if it is determined that the special game has ended, the process proceeds to step S350-4, and if it is determined that the special game has not ended, the special game process ends.

(Step S350-4)
If it is determined in step S350-3 that the special game has ended, the main CPU 100a turns on the special variation state flag.

(Step S350-5)
Next, the main CPU 100a sets “8” to the special fluctuation count (T) indicating the number of continuations of the special fluctuation state. Thus, after the end of the special game, the special variation state is set until the jackpot lottery result is confirmed eight times.

(Step S350-6)
Next, the main CPU 100a turns off the special winning flag and ends the special game process.

  Next, processing related to the special symbol game executed on the main control board 100 will be described with reference to FIGS.

  FIG. 24 is a flowchart for explaining the special figure special electricity processing in step S400.

(Step S410)
First, the main CPU 100a loads the value of the special figure special electricity data. The special figure special electricity data includes data “00” indicating execution of the special symbol variation start process, data “01” indicating execution of the special symbol variation stop process, and data “02” indicating execution of the post-stop process. Further, data “03” indicating execution of the special electric accessory control process and data “04” indicating execution of the special game end process are provided.

  Then, the main CPU 100a, based on the value of the special symbol special data loaded in step S410, performs a special symbol variation start process (step S420), a special symbol variation stop process (step S430), a post-stop process (step S440), A special electric accessory control process (step S450) and a special game end process (step S460) are executed. Each of these processes will be described below with reference to the drawings.

  FIG. 25 is a flowchart for explaining the special symbol variation start process in step S420. This special symbol variation start process is executed when it is determined in step S410 that the special symbol special electricity data = 00.

(Step S420-1)
The main CPU 100a determines whether special 1 hold or special 2 hold is stored in the hold storage area (special 1 hold number (X1) ≧ 1 or special 2 hold number (X2) ≧ 1). As a result, when it is determined that either special 1 hold or special 2 hold is stored, the process proceeds to step S420-2, and it is determined that neither special 1 hold nor special 2 hold is stored. In that case, the process proceeds to step S420-7.

(Step S420-2)
If it is determined in step S420-1 that the special 1 hold or special 2 hold is stored in the hold storage area, the main CPU 100a performs a shift process of the hold storage area. Here, each random number stored in the first storage unit is stored in a predetermined processing area, and each random number stored in the second storage unit to the eighth storage unit has a small number (ordinal number). Shift to storage.

(Step S420-3)
Next, the main CPU 100a selects a table corresponding to the current gaming state from the jackpot determined random number determination table (see FIG. 4), and the selected table and the processing area stored in step S420-2 above. A jackpot lottery result is derived based on the jackpot random number.

  And when the derived lottery result is “big hit”, the winning symbol determination random number determination table (see FIG. 5) is selected according to the type of starting port (special 1 holding or special 2 holding), and A special symbol type is determined based on the selected table and the winning symbol random number stored in the processing area in step S420-2. If the derived lottery result is “losing”, the special symbol X is determined if the start port type is the first start port 20 (special 1 hold), and the start port type is the second start port 22. If it is (special 2 reservation), the special symbol Y is determined. Then, data corresponding to the determined special symbol is stored in a predetermined area of the main RAM 100c. In this special symbol determination process, the current gaming state, that is, the gaming state when the special symbol is determined is stored in the gaming state buffer.

  In addition, according to this special symbol variation start process, special 1 hold and special 2 hold are processed in the order stored in the hold storage area. However, when both special 1 hold and special 2 hold are stored, either special 1 hold or special 2 hold may be processed preferentially.

(Step S420-4)
Next, the main CPU 100a sets a symbol determination command indicating the type of the special symbol determined in step S420-3 in the effect transmission data storage area. Thereby, the information related to the determined special symbol type is transmitted to the sub-control board 200 at the start of the variation effect.

(Step S421)
Next, the main CPU 100a performs a variation effect pattern determination process for determining a variation effect pattern based on the reach group determination random number, the reach mode A determination random number, and the variation pattern random number stored in the processing area in step S420-2. . This variation effect pattern determination process will be described later with reference to FIG.

(Step S420-5)
Next, the main CPU 100a sets the variation display data for starting the variation display of the special symbol in the first special symbol display device 80 or the second special symbol display device 82. Thereby, when the special symbol change display is performed based on the special 1 hold, the first special symbol display device 80 starts blinking display, and the special symbol change display is performed based on the special 2 hold. In this case, the second special symbol display device 82 starts blinking display. The blinking display controlled here means that “−” blinks at predetermined intervals in each of the indicators 80 and 82. In addition, when the special symbol variable display is performed based on the special 1 hold, the first special symbol hold indicator 84 displays to indicate that the special 1 hold is decreased by one at the same time as the start of the variable display. When the special symbol variation display is performed based on the special 2 hold, the second special symbol hold indicator 86 is displayed so as to indicate that the special 2 hold is reduced by 1 simultaneously with the start of the variation display. Display controlled.

(Step S420-6)
Next, the main CPU 100a sets “01” in the special symbol special electricity data so that the special symbol fluctuation stop processing is executed in the special symbol special electric processing, and ends the special symbol fluctuation start processing.

(Step S420-7)
On the other hand, if it is determined in step S420-1 that neither the special 1 hold nor the special 2 hold is stored in the hold storage area, the main CPU 100a executes a demo determination process. In this demonstration determination process, the main CPU 100a counts the time during which the special symbol fluctuation display is not performed, and if the special symbol variation display is not performed for a predetermined time, the demonstration display unit 50a displays the demonstration. The demonstration command for displaying the screen is stored in the effect transmission data storage area.

  FIG. 26 is a flowchart illustrating the variation effect pattern determination process in step S421.

(Step S421-1)
First, the main CPU 100a determines whether or not the special symbol determined in step S420-3 is a jackpot symbol. As a result, if it is determined that the symbol is a jackpot symbol, the process proceeds to step S421-2. If it is determined that the symbol is not a jackpot symbol, the process proceeds to step S421-4.

(Step S421-2)
If it is determined in step S421-1 that the determined special symbol is a jackpot symbol, the main CPU 100a loads data relating to the determined jackpot symbol.

(Step S421-3)
Next, the main CPU 100a sets a jackpot hour reach mode A determined random number determination table (see FIG. 8) based on the data relating to the jackpot symbol loaded in step S421-2 and the presence / absence of setting of the special variation state. .

(Step S421-4)
On the other hand, if it is determined in step S421-1 that the determined special symbol is not a jackpot symbol, the main CPU 100a checks the current number of holds.

(Step S421-5)
Next, the main CPU 100a creates a reach group determination random number determination table (see FIG. 6) based on the number of holds confirmed in step S421-4, the currently set gaming state, and the presence / absence of a special variation state. set.

(Step S421-6)
Next, the main CPU 100a determines the group type based on the reach group determination random number written in the processing area in step S420-2 and the reach group determination random number determination table set in step S421-5. At the same time, the determined group type is stored in a predetermined processing area.

(Step S421-7)
Next, the main CPU 100a sets a lost reach mode A determined random number determination table (see FIG. 7) based on the group type determined in step S421-6.

(Step S421-8)
The main CPU 100a includes the jackpot hour reach mode A determined random number determination table set in step S421-3, or the lose time reach mode A determined random number determination table set in step S421-7, and the step S420-2. The variation mode number is determined based on the reach mode A determined random number written in the processing region in step (b), and the determined variation mode number is stored in the predetermined processing region. In addition, the variation pattern lottery table is determined at the same time as the variation mode number is determined here.

(Step S421-9)
Next, the main CPU 100a sets the variation pattern lottery table (see FIG. 9) determined in step S421-8.

(Step S421-10)
Next, the main CPU 100a determines the variation pattern number based on the variation pattern lottery table set in step S421-9 and the variation pattern random number written in the processing area in step S420-2. The determined variation pattern number is stored in a predetermined processing area.

(Step S421-11)
Next, the main CPU 100a determines the variation time based on the variation mode number determined in step S421-8, the variation pattern number determined in step S421-10, and the variation time determination table (see FIG. 10). 1 and 2 are determined. The determined fluctuation times 1 and 2 are stored, respectively, and the total fluctuation time obtained by integrating the fluctuation times 1 and 2 is calculated and set in the fluctuation time timer counter. Here, a variation mode command is generated based on the determined variation mode number, and a variation pattern command is generated based on the variation pattern number. Thereby, the variation effect pattern determination process is completed.

  FIG. 27 is a flowchart for explaining the special symbol variation stopping process in step S430. This special symbol variation stop process is executed when it is determined in step S410 that the special symbol special power data = 01.

(Step S430-1)
The main CPU 100a determines whether or not the variation time (set in step S421-11) has elapsed. As a result, if it is determined that the variation time has elapsed, the process proceeds to step S430-2. If it is determined that the variation time has not elapsed, the special symbol variation stop process is terminated.

(Step S430-2)
If it is determined in step S430-1 that the variation time has elapsed, the main CPU 100a determines the special symbol determined and stored in step S420-3 as the first special symbol indicator 80 or the second special symbol. Stop display data for stopping display on the display unit 82 is set.

(Step S430-3)
Next, the main CPU 100a sets a symbol confirmation command indicating that the symbol has been confirmed in the effect transmission data storage area.

(Step S430-4)
Next, when the main CPU 100a starts the special symbol stop display as described above, the main CPU 100a sets the stop display time counter to display the symbol stop time.

(Step S430-5)
Next, the main CPU 100a sets “02” in the special figure special electricity data so that the post-stop process is executed in the special figure special electric process, and ends the special symbol fluctuation stop process.

  FIG. 28 is a flowchart for explaining the post-stop processing in step S440. This post-stop processing is executed when it is determined in step S410 that the special figure special power data = 02.

(Step S440-1)
The main CPU 100a determines whether or not the stop display time (set in step S430-4) has elapsed. As a result, when it is determined that the stop display time has not elapsed, the post-stop processing is terminated, and when it is determined that the stop display time has elapsed, the process proceeds to step S440-2.

(Step S440-2)
If it is determined in step S440-1 that the stop display time has elapsed, the main CPU 100a stores the currently set gaming state in the gaming state buffer.

(Step S440-3)
Next, the main CPU 100a performs time-saving update processing. Here, the main CPU 100a determines whether or not the short-time game flag indicating that the current game state is the short-time game state is ON. If the time-saving game flag is on, the time-saving memory area provided in the main RAM 100c is updated. In this short time storage area, a short time number indicating the remaining number of fluctuations until the short time gaming state ends is stored. Here, a value obtained by subtracting “1” from the currently stored short time number is newly stored. It will be stored as the number of time reductions. If the number of time reductions becomes 0 as a result of updating the number of time reductions, processing for turning off the time reduction game flag is performed at the same time. If it is determined that the time-saving game flag is not turned on, the process proceeds to the next step S440-4 as it is.

(Step S440-4)
Next, the main CPU 100a performs high-accuracy count update processing. Here, the main CPU 100a determines whether or not a high probability game flag indicating that the current game state is a high probability game state is ON. If the highly probable game flag is on, the highly probable number storage area provided in the main RAM 100c is updated. In this high-accuracy count storage area, a high-accuracy count indicating the number of remaining fluctuations until the high-probability gaming state ends is stored. Here, “1” is subtracted from the currently stored high-accuracy count. The value will be stored as a new high probability count. Note that, as a result of updating the high-accuracy count, if the high-accuracy count = 0, processing for turning off the high-probability game flag is performed at the same time. If it is determined that the highly probable game flag is not turned on, the process proceeds to the next step S440-5.

(Step S440-5)
Next, the main CPU 100a performs a special variation state update process. Specifically, the main CPU 100a determines whether or not the special fluctuation state flag is turned on, and if it determines that the special fluctuation state flag is turned on, the special fluctuation stored in the main RAM 100c. A value obtained by subtracting “1” from the number of times (T) is stored as a new number of special fluctuations (T). Then, when the special fluctuation count (T) becomes “0” as a result of updating the special fluctuation count (T), the special fluctuation status flag is turned off. Thereby, after the special variation state is set, when the special symbol variation display ends eight times, the special variation state ends, and thereafter, the special symbol variation display is performed according to the gaming state. If the special variation state flag is not turned on, that is, if it is not set to the special variation state, the processing proceeds to the next processing without performing the processing.

(Step S440-6)
Next, the main CPU 100a determines whether the symbol that is stopped and displayed is a jackpot symbol. As a result, if it is determined that the symbol that is stopped and displayed is not a jackpot symbol, the process proceeds to step S440-7. If the symbol that is displayed and stopped is determined to be a jackpot symbol, step S440-8 is performed. Move processing to.

(Step S440-7)
If it is determined in step S440-6 that the symbol that has been stopped is not a jackpot symbol, the main CPU 100a executes the special symbol variation data so that the special symbol variation start processing is executed in the special symbol special processing. Is set to “00”, and the process proceeds to step S440-11.

(Step S440-8)
On the other hand, if it is determined in step S440-6 that the symbol that has been stopped is a jackpot symbol, the main CPU 100a sets a jackpot winning game state command. The jackpot winning gaming state command is a command for transmitting to the sub-control board 200 whether the gaming state at the time of the jackpot winning is a non-time saving gaming state or a time saving gaming state.

(Step S440-9)
Next, the main CPU 100a performs processing for resetting the current gaming state.

(Step S440-10)
Next, the main CPU 100a sets “03” in the special figure special electricity data so that the special electric accessory control process is executed in the special figure special electric treatment. As a result, the special game is started after the jackpot symbol is stopped and displayed.

(Step S440-11)
Next, the main CPU 100a confirms the current gaming state, sets a gaming state command in the effect transmission data storage area, and ends the post-stop processing.

  FIG. 29 is a flowchart for explaining the special electric accessory control process in step S450. The special electric accessory control process is executed when it is determined in step S410 that the special figure special electric data = 03.

(Step S450-1)
First, the main CPU 100a determines whether or not the special winning flag is on. As a result, if it is determined that the special prize flag is on, the process proceeds to step S450-2, and if it is determined that the special prize flag is not on, the process proceeds to step S450-4.

(Step S450-2)
If it is determined in step S450-1 that the special winning flag is on, the main CPU 100a executes a process for forcibly terminating the special game.

(Step S450-3)
Next, the main CPU 100a turns off the special winning flag.

(Step S450-4)
In step S450-4, the main CPU 100a executes an opening start process when starting a special game. When starting the special game, the main CPU 100a first sets an opening command in the effect transmission data storage area and waits until a preset opening time elapses. If an opening command has already been transmitted, the process proceeds to step S450-5 as it is.

(Step S450-5)
Next, the main CPU 100a determines whether the opening is currently in progress, that is, whether the opening time has elapsed. As a result, when it is determined that the opening time has elapsed, the process proceeds to step S450-6, and when it is determined that the opening time has not elapsed, the special electric accessory control process is terminated.

(Step S450-6)
If it is determined in step S450-5 that the opening time has elapsed, the main CPU 100a performs a special game execution process. Here, according to the type of the special symbol that is stopped and displayed, either of the operation tables 1 and 2 (see FIG. 12) is set, and with reference to the set table, the special winning opening opening / closing solenoid 28c is set. Energization control is performed.

  Here, at the start of each round game, the main CPU 100a sets a round start command in the effect transmission data storage area. This round start command has information on how many round games are started. As a result, the sub-control board 200 can grasp how many round games are started on the main control board 100.

(Step S450-7)
Next, the main CPU 100a determines whether or not the full opening / closing of the special winning opening 28 has been completed. As a result, when it is determined that all the opening / closing of the big winning opening 28 has been completed, the process proceeds to step S450-8, and when it is determined that all opening / closing of the big winning opening 28 has not been completed, The electric accessory control process is terminated.

(Step S450-8)
When it is determined in step S450-7 that the full opening / closing of the special winning opening 28 has been completed, the main CPU 100a executes an ending start process. Here, the ending command is set in the effect transmission data storage area, and the system waits until a predetermined ending time elapses.

(Step S450-9)
Next, the main CPU 100a determines whether or not the ending time has elapsed. As a result, if it is determined that the ending time has elapsed, the process proceeds to step S450-10. If it is determined that the ending time has not elapsed, the special electric accessory control process is terminated.

(Step S450-10)
If it is determined in step S450-9 that the ending time has elapsed, the main CPU 100a sets “04” in the special figure special electricity data so that the special game end process is executed in the special figure special electric treatment process. Then, the special electric accessory control process is terminated.

  FIG. 30 is a flowchart for explaining the special game end process in step S460. This special game end process is executed when it is determined in step S410 that the special figure special electricity data = 04.

(Step S460-1)
First, the main CPU 100a loads the special symbol data stored in the main RAM 100c and the data related to the gaming state at the time of winning the big win stored in the gaming state buffer. Then, with reference to the gaming state setting table shown in FIG. 13, the gaming state after the end of the special game is set. Specifically, a high probability game flag, a high probability count, a short time game flag, and a short time count are set.

(Step S460-2)
Next, the main CPU 100a confirms the gaming state and sets a gaming state designation command in the effect transmission data storage area. This game state designation command has information related to the type of jackpot symbol that triggered the execution of the high probability game flag, the high probability count, the short time game flag, the short time count, and the special game set in step S460-1. ing.

(Step S460-3)
Next, the main CPU 100a sets “00” in the special figure special electricity data so that the special symbol variation start process is executed in the special figure special electric processing, and ends the special game end processing.

  Next, a process related to the above normal symbol game executed on the main control board 100 will be described with reference to FIGS.

  FIG. 31 is a flow chart for explaining the ordinary power transmission process in step S500.

(Step S510)
First, the main CPU 100a loads the value of ordinary power data. This ordinary figure normal electricity data includes data “10” indicating execution of the normal symbol variation start processing, data “11” indicating execution of the normal symbol variation stop processing, and data “12” indicating execution of the normal symbol variation stop processing. ”And data“ 13 ”indicating the execution of the ordinary electric accessory control process.

  Next, the main CPU 100a executes a normal symbol variation start process (step S520), a normal symbol variation stop process (step S530), a normal symbol stop post-process (step S540), and a normal electric accessory control process (step S550). . Each of these processes will be described below with reference to the drawings.

  FIG. 32 is a flowchart for explaining the normal symbol variation start process in step S520.

(Step S520-1)
First, the main CPU 100a determines whether or not the ordinary figure ordinary electricity data is data “10” indicating execution of the normal symbol variation start process. As a result, if it is determined that the normal map / general power data = 10, the process proceeds to step S520-2. If it is determined that the general map / general power data = 10, the normal symbol variation start process is terminated.

(Step S520-2)
If it is determined in step S520-1 that the normal map / general power data = 10, the main CPU 100a determines whether the general map hold number (Y) is 1 or more. As a result, if it is determined that the number of held general symbols (Y) ≧ 1, the process proceeds to step S520-3. To do.

(Step S520-3)
If it is determined in step S520-2 that the number of reserved maps (Y) ≧ 1, the main CPU 100a sets a new number of reserved maps (Y) by subtracting “1” from the number of reserved maps (Y). ).

(Step S520-4)
Next, the main CPU 100a performs a process of shifting the normal symbol hold stored in the normal symbol hold storage area. Specifically, when the hit determination random numbers stored in the first storage unit are copied to a predetermined processing area and the hit determination random numbers are stored in the second storage unit to the fourth storage unit, The random number is shifted to a storage unit with a small number (ordinal number). Specifically, the random number stored in the first storage unit is copied to a predetermined processing area, and the random number stored in the second storage unit is shifted and stored in the first storage unit. Similarly, when random numbers are stored in the third storage unit and the fourth storage unit, each random number is shifted to a storage unit having a smaller number (ordinal number). As a result, the ordinary symbol hold stored in the normal symbol hold storage area is written in the processing area in the order in which it is stored. That is, the random numbers stored in the normal symbol hold storage area are read in order from the previously stored random numbers and used in the winning determination process.

(Step S520-5)
Next, the main CPU 100a performs a winning determination process for the winning random number copied to the processing area. Specifically, when the current gaming state is a non-time-saving gaming state, the winning determination random number copied in the processing area is determined with reference to the winning determination random number determination table 1 shown in FIG. . If the current gaming state is the short-time gaming state, the winning determination random number copied in the processing area is determined with reference to the winning determination random number determination table 2 shown in FIG.

(Step S520-6)
Next, the main CPU 100a determines whether or not the result of the winning determination process in step S520-5 is winning. As a result, when a winning determination result is obtained, the process proceeds to step S520-7. When a winning determination result is obtained instead of winning, the process proceeds to step S520-8.

(Step S520-7)
If it is determined in step S520-6 that the determination result is winning, the main CPU 100a stores the winning symbol data in a predetermined area of the main RAM 100c.

(Step S520-8)
On the other hand, if it is determined in step S520-6 that the determination result is a loss, the main CPU 100a stores the loss symbol data in a predetermined area of the main RAM 100c.

(Step S520-9)
Next, the main CPU 100a confirms whether the current gaming state is set to the non-short-time gaming state or the short-time gaming state, and sets the normal time variation time according to the current gaming state. Specifically, as shown in the normal symbol variation pattern determination table of FIG. 15 (a), when the current game state is a non-time-short game state, 20 seconds is set in the normal-time variation time counter, If it is in the gaming state, 1 second is set in the usual figure variable time counter.

(Step S520-10)
Next, the main CPU 100a sets variable display data for starting the variable symbol normal display. As a result, when the normal symbol variation display is performed, the normal symbol display 88 starts blinking display. At the same time when the normal symbol variation display starts, the normal symbol hold indicator 90 is controlled to indicate that the normal symbol hold is reduced by one.

(Step S520-11)
Next, the main CPU 100a stores the current gaming state in the gaming state buffer as the gaming state at the start of change.

(Step S520-12)
Next, the main CPU 100a sets “11” to the general symbol power transmission data so that the normal symbol variation stop processing is executed in the normal symbol normal power processing, and ends the normal symbol variation start processing.

  FIG. 33 is a flowchart for explaining the normal symbol fluctuation stopping process in step S530.

(Step S530-1)
First, the main CPU 100a determines whether or not the ordinary figure ordinary electricity data is data “11” indicating the execution of the normal symbol fluctuation stop process. As a result, if it is determined that the ordinary figure normal power data = 11, the process proceeds to step S530-2. If it is determined that the ordinary figure ordinary electric data is not 11, the normal symbol fluctuation stopping process is terminated.

(Step S530-2)
If it is determined in step S530-1 that the normal map power transmission data = 11, the main CPU 100a determines whether the normal map change time (set in step S520-9) has elapsed. As a result, when it is determined that the normal symbol variation time has elapsed, the process proceeds to step S530-3, and when it is determined that the normal symbol variation time has not elapsed, the normal symbol variation stop process is terminated.

(Step S530-3)
If it is determined in step S530-2 that the normal symbol change time has elapsed, the main CPU 100a sets stop display data for stopping and displaying the normal symbol on the normal symbol display 88. As a result, the normal symbol is stopped and displayed on the normal symbol display 88.

(Step S530-4)
Next, when the main CPU 100a starts the normal symbol stop display as described above, the main CPU 100a sets the stop display time counter to display the symbol stop time.

(Step S530-5)
Next, the main CPU 100a sets “12” in the normal symbol / general power data so that the normal symbol / post-processing after the normal symbol / general processing is executed, and ends the normal symbol fluctuation stop process.

  FIG. 34 is a flowchart for explaining the normal symbol stop post-processing in step S540.

(Step S540-1)
First, the main CPU 100a determines whether or not the general-purpose normal power data is data “12” indicating execution of the normal symbol stop post-processing. As a result, if it is determined that the ordinary map / general data = 12, the process proceeds to step S540-2. If it is determined that the ordinary / general map / general data = 12, the process after the normal symbol stop is terminated.

(Step S540-2)
If it is determined in step S540-1 that the normal power data is 12, the main CPU 100a determines whether or not the stop display time (set in step S530-4) has elapsed. As a result, when it is determined that the stop display time has not elapsed, the processing after the normal symbol stop is terminated, and when it is determined that the stop display time has elapsed, the process proceeds to step S540-3.

(Step S540-3)
If it is determined in step S540-2 that the stop display time has elapsed, the main CPU 100a determines whether the symbol that is stopped and displayed is a winning symbol. As a result, if it is determined that the symbol that is stopped and displayed is not a winning symbol, the process proceeds to step S540-5. If the symbol that is displayed and stopped is determined to be a winning symbol, step S540-4 is performed. Move processing to.

(Step S540-4)
If it is determined in step S540-3 that the symbol that has been stopped is a winning symbol, the main CPU 100a executes the normal electric utility control process so that the normal electric utility control process is executed in the normal diagram normal power processing. “13” is set in the ordinary power data, and the processing after the normal symbol stop is terminated.

(Step S540-5)
On the other hand, if it is determined in step S540-3 that the symbol that has been stopped is not a winning symbol (is a lost symbol), the main CPU 100a executes a normal symbol variation start process in the normal map normal power process. As described above, “10” is set in the general-purpose ordinary power data, and the processing after the normal symbol stop is ended.

  FIG. 35 is a flowchart for explaining the ordinary electric accessory control process in step S550.

(Step S550-1)
First, the main CPU 100a determines whether or not the ordinary power transmission data is data “13” indicating the execution of the ordinary electric utility control process. As a result, when it is determined that the ordinary map electric power data = 13, the process proceeds to step S550-2, and when it is determined that the ordinary figure electric power data = 13, the ordinary electric accessory control process is terminated. .

(Step S550-2)
If it is determined in step S550-1 that the ordinary power / general power data = 13, the main CPU 100a is controlling the normal electric accessory, that is, the start opening / closing solenoid 22c is already being energized. Determine whether. As a result, if it is determined that the ordinary electric accessory is under control, the process proceeds to step S550-5. If it is determined that the ordinary electric accessory is not under control, the process proceeds to step S550-3. Move.

(Step S550-3)
If it is determined in step S550-2 that the normal electric accessory is not being controlled, the main CPU 100a determines whether the game state at the start of normal symbol fluctuation is the non-short game state or the short-time game state. Determine.

(Step S550-4)
Next, the main CPU 100a sets the release table according to the gaming state confirmed in step S550-3 in order to start energization control of the start port opening / closing solenoid 22c. As a result, when the game state at the start of normal symbol variation is a non-short-time game state, the energization control data of the start opening / closing solenoid 22c is the number of times of opening = 1 time, the time of opening once = 0.1 seconds. The energization control data is set. Further, when the game state at the time of starting the change of the normal symbol is the short-time game state, the energization control data is set such that the number of times of opening = 2 times and the time of opening once = 2.9 seconds.

(Step S550-5)
If it is determined in step S550-2 that the ordinary electric accessory is being controlled, the main CPU 100a determines whether the energization time set in step S550-4 has elapsed. As a result, if it is determined that the energization time has elapsed, the process proceeds to step S550-6, and if it is determined that the energization time has not elapsed, the ordinary electric accessory control process is terminated.

(Step S550-6)
If it is determined in step S550-5 that the energization time has elapsed, the main CPU 100a performs a process of stopping energization of the start port opening / closing solenoid 22c.

(Step S550-7)
Next, the main CPU 100a sets “10” to the general symbol normal power data so that the normal symbol fluctuation start processing is executed in the normal symbol normal power processing, and ends the processing after the normal symbol stop.

  As described above, the special symbol game and the normal symbol game are progressed by executing various processes in the main control board 100. While the game is in progress, the special control game is transmitted from the main control board 100. Based on the command, control for executing various effects is performed on the sub-control board 200. In the following, a description will be given of a variation effect that is executed during the variation display of the special symbol and notifies the jackpot lottery result.

  FIG. 36 is a diagram for explaining an example of the variation effect of the reachless variation pattern. As shown in this figure, in the variation effect of the reachless variation pattern, a background image (not shown) is displayed on the effect display unit 50a, and the effect symbols 40a, 40b, and 40c are superimposed on the background image to vary. Is displayed. For example, as shown in FIG. 36 (a), it is assumed that the effect symbols 40a, 40b, and 40c are stopped and displayed in a combination indicating that the lottery result of the jackpot has been lost. In this state, when the special symbol variation display is newly performed, as shown in FIG. 36 (b), the three effect symbols 40a, 40b, and 40c are variation-displayed as the special symbol variation display starts. (Scroll display) starts. In addition, the downward arrow in the figure indicates that the effect symbols 40a, 40b, and 40c are scroll-displayed in the vertical direction.

  Then, as shown in FIG. 36 (c), first, the effect symbol 40a is stopped and displayed, and thereafter, as shown in FIG. 36 (d), the effect symbol 40c is stopped and displayed in a pattern (aspect) different from the effect symbol 40a. Is done. Then, as shown in FIG. 36 (e), the variation display of the special symbol is finished and the special symbol is stopped and displayed on the first special symbol display device 80 or the second special symbol display device 82 at the same timing. The effect symbol 40b is stopped and displayed, and the jackpot lottery result is notified to the player by the combination of the three effect symbols 40a, 40b and 40c which are stopped and displayed at this time.

  In the present embodiment, when the big hit is won, all the three effect symbols 40a, 40b, 40c are stopped and displayed in the same symbol (mode), and then the special game is executed. On the other hand, when the jackpot lottery result is a loss, all the three effect symbols 40a, 40b, and 40c are not stopped and displayed in the same symbol (mode).

  FIG. 37 is a diagram for explaining an example of the variation effect of the reach variation pattern. In the variation production of the reach variation pattern, for example, as shown in FIG. 37 (a), after the variation display of the production symbols 40a, 40b, and 40c is started with the start of the variation display of the special symbol, FIG. As shown in b), the effect symbol 40a is stopped and displayed. Thereafter, as shown in FIG. 37 (c), the effect symbol 40c is stopped and displayed. At this time, the effect symbol 40c is stopped and displayed with the same symbol (aspect) as the effect symbol 40a.

  In this way, when the effect symbols 40a and 40c are displayed in the same symbol (mode), so-called “reach mode”, in the effect display unit 50a, as shown in FIG. 37 (d), the effect symbols 40a, 40b, The variable display is continued with the shape of 40c different from that before reaching the reach mode. Then, as shown in FIG. 37 (e), a predetermined moving image (reach development effect) is reproduced and displayed on the effect display unit 50a, and finally the effect symbols 40a, 40b, and 40c are stopped and displayed. The jackpot lottery result is notified to the player.

  Although detailed explanation is omitted, the winning of “big hit” is not notified by the fluctuation effect of the non-reach fluctuation pattern. Production is performed. That is, when the variation effect of the reach variation pattern is executed, the winning of “big hit” may be notified by the variation effect, and the effect symbols 40a and 40c become the reach mode, so that the player Expectation will be raised. In addition, in the variation effect of the reach variation pattern, the time from the start to the end of the variation effect is equal to or longer than a preset time.

  Further, in the present embodiment, a plurality of effect modes for classifying the variation effect modes are provided. In the sub-control board 200, one of these effect modes is set and set according to whether or not the gaming state or special variation state set in the main control board 100 is set. The variation effect mode corresponding to the present effect mode is determined. Specifically, a large number of background images displayed on the effect display unit 50a, display patterns of the effect symbols 40a, 40b, and 40c are provided for each effect mode. Then, when determining the mode of variation effect, while referring to the effect mode that has been set, from the background image corresponding to the effect mode being set and the display patterns of the effect symbols 40a, 40b, 40c, Either display pattern is determined. Therefore, different images are displayed on the effect display unit 50a according to the game state set on the main control board 100, and the player can play the current game based on the image displayed on the effect display unit 50a. It becomes possible to grasp the state, for example, whether it is a high probability gaming state or a low probability gaming state.

  FIG. 38 (a) is a diagram for explaining the first half variation effect determination table, and FIG. 38 (b) is a diagram for explaining the second half variation effect determination table. In this embodiment, the aspect of the first half variation effect is determined based on the variation mode number (variation mode command), and the second half variation effect aspect is determined based on the variation pattern number (variation pattern command). Specifically, in the variation effect of the reach variation pattern, the variation effect mode (image pattern displayed on the effect display unit 50a) until the effect symbols 40a, 40b, and 40c become the reach mode is the variation mode number ( Is determined based on a variable mode command).

  In addition, the variation effect mode (moving image displayed on the effect display unit 50a) after the effect symbols 40a, 40b, and 40c are in the reach mode is determined based on the variation pattern number (variation pattern command). Therefore, for example, in the variation effect of the reach variation pattern shown in FIG. 37, the variation effect modes (image patterns) shown in FIGS. 37A to 37B are based on the variation mode number (variation mode command). The variation effect modes (moving images) shown in FIGS. 37 (c) to 37 (e) are determined based on the variation pattern number (variation pattern command).

  The variation effect of the variation pattern without reach is executed when a variation mode number (variation mode command) indicating that the variation effect of the first half is not executed and a predetermined variation pattern number (variation pattern command) are determined. The For example, when the variation mode command corresponding to the variation mode number “00H” indicating that the variation effect in the first half is not executed is received, the sub control board 200 always determines “none” as the variation effect mode in the first half. The In addition, based on the variation pattern command received at the same time, the variation effect mode from the start to the end is determined. Therefore, the variation effect mode (image pattern) shown in FIG. 36 is determined based on the variation pattern number (variation pattern command).

  As shown in FIG. 38A, in the sub ROM 200b of the sub control board 200, the first half variation effect determination in which the first variation variation mode is associated with each of the variable mode commands (variation mode numbers) that can be received. The table is stored. This first half variation effect determination table is provided for each effect mode. When the sub control board 200 receives the variation mode command, it obtains one effect random number from the range of 0 to 249 and is currently set. The first half variation production determination table corresponding to the production mode is set. Then, based on the acquired effect random number and the change mode command (change mode number), the mode of the first half change effect is determined.

  In FIG. 38 (a), the number written in each selection area in which the variation mode number and the first half of the variation effect are associated is the range of random numbers assigned to the selection area, that is, the selection The area selection ratio is shown. For example, when a variation mode command corresponding to variation mode number = 00H is received, “None” is always determined as the variation effect mode in the first half, and a variation mode command corresponding to variation mode number = 01H is received. In this case, the variation effect of “Reach A” is always determined as the variation effect mode of the first half, and when the variation mode command corresponding to the variation mode number = 02H is received, the variation effect mode of the first half is determined. As a result, the variation effect of “reach B” is always determined.

  Here, "None" in the first half variation effect mode indicates that the first half variation effect is not executed, and when this "None" is determined, it is determined based on a later-described variation pattern command. Only the second half variation effect will be executed. Also, in FIG. 38A, “reach A” and “reach B” in the first half of the variation production mode are respectively the production symbols 40a, 40b, and 40c among the variation production of the reach variation pattern. The image pattern displayed on the effect display part 50a until is shown. These image patterns are designed in advance so as to coincide with the variation display time of the special symbol associated with the variation mode number.

  Therefore, when the effect display unit 50a executes the change effect of the reachless change pattern, the change mode command corresponding to the change mode number = 00H is always received. In other words, whenever the variation mode command corresponding to the variation mode number = 00H is received, the variation display of the non-reach variation pattern is always executed in the effect display unit 50a. On the other hand, in the effect display unit 50a, when the change effect of the reach change pattern is executed, the change mode command corresponding to the change mode number other than the change mode number = 00H is always received. Become. In other words, when a variation mode command other than the variation mode command corresponding to the variation mode number = 00H is received, the variation display of the reach variation pattern is always executed in the effect display unit 50a.

  As shown in FIG. 38 (b), the sub ROM 200b of the sub control board 200 has a second half variation in which a variation variation mode of the second half is associated with each variation pattern command (variation pattern number) that can be received. An effect determination table is stored. This second half variation effect determination table is provided for each effect mode. When the sub control board 200 receives a variation pattern command, it obtains one effect random number from the range of 0 to 249 and is currently set. The latter half variation production determination table corresponding to the production mode is set. Then, based on the acquired effect random number and the change pattern command (change pattern number), the mode of the latter half change effect is determined.

  In FIG. 38 (b), the numbers written in each selection area in which the variation pattern number is associated with the variation effect mode in the latter half are assigned to the selection area, as in FIG. 38 (a). The range of random numbers, that is, the selection ratio of the selection area is shown. For example, when a variation pattern command corresponding to variation pattern number = 00H is received, a variation effect of “losing 4 seconds” is always executed as a variation effect mode in the latter half, and variation pattern number = 01H is supported. When a variation pattern command is received, a variation effect of “losing 8 seconds” is always executed as a variation rendering mode in the latter half, and when a variation pattern command corresponding to variation pattern number = 02H is received, As a mode of variation production in the latter half, a variation production of “losing 12 seconds” is always executed.

  It should be noted that the variation effect modes of “Lose 4 seconds”, “Lose 8 seconds”, and “Lose 12 seconds” are not reached after the effect symbols 40a, 40b, and 40c start changing display. In 4 seconds, 8 seconds, and 12 seconds, respectively, the display is stopped and displayed in a manner of notifying the loss. Therefore, when the variation pattern numbers “00H”, “01H”, and “02H” are determined on the main control board 100, be sure that “none” is determined as the first variation variation mode. It is designed so that a variation mode number (variation mode command) of “00H” is determined.

  Further, in the main control board 100, for example, when the variation pattern number = 04H is determined, one of “pattern 1” and “pattern 2” is determined as a variation effect mode in the latter half. “Pattern 1” and “Pattern 2” indicate the types of moving images shown in FIG. 37 (e), and although the images displayed on the effect display unit 50a are different, the configuration time is variable pattern number = 04H. It coincides with the time of the variable display associated with.

  As described above, in the sub-control board 200, the first half variation effect determination table and the second half variation effect determination table are selected according to the set effect mode, and the effect display unit 50a is selected based on the selected table. The aspect of the variation effect to be displayed is determined.

  In the present embodiment, a sorting device 32 is provided in the game area 16, and game balls alternately enter the first start port 20 and the second start port 22 in the non-time-saving game state. Thereby, although the upper limit number of holds that can be stored as special 1 hold and special 2 hold is set to 4 respectively, up to 8 holds can be stored during normal game progress. In addition, the variation information determination table is selected according to the number of holdings stored at the start of the variation display of the special symbol. At this time, as the number of holdings increases, the variation mode number and the variation pattern number having a shorter variation time. The selection ratio is set so that is determined. This reduces the period during which the player stops firing the game ball while avoiding a situation in which no hold is stored and the fluctuating effects are frequently interrupted, causing the player to feel frustrated Like to do.

  However, when a long-time fluctuation effect such as 1 to 2 minutes is performed a plurality of times as a variation effect with a high expectation degree of jackpot, the time for the player to stop firing the game ball is inevitably long. There is a fear. Therefore, in the present embodiment, the following special effects are executed on the effect display unit 50a in order to appropriately shorten both the suspension period of the fluctuating effects and the firing stop period in which the player stops firing the game ball. To do.

  FIG. 39 is a diagram for explaining an example of the special effect. For example, in the non-short-time gaming state, as shown in FIG. 39A, it is assumed that the effect symbols 40a, 40b, and 40c are variably displayed on the effect display unit 50a during the variable symbol change display. At this time, as shown in FIG. 39A, it is assumed that four special 1 holds and three special 2 holds are stored. In this state, as shown in FIG. 39B, one special 2 hold is newly stored, and 4 special 1 hold and 4 special 2 hold are stored respectively, that is, special 1 hold and special 2 hold. Assume that the number of pending storage reaches the upper limit. Then, as shown in FIG. 39 (c), a special effect that prompts the player to launch a game ball toward the second game area 16b, that is, the special start port 40, is executed on the effect display unit 50a.

  This special effect is executed by being superimposed on the variable effect image, and is displayed on the effect display unit 50a for about 2 to 3 seconds, for example. Then, in accordance with the instruction of the special effect, the player increases the firing strength of the game ball to launch the game ball into the second game area 16b, and when the game ball enters the special start port 40, the special game is It will be executed and will shift to a special variation state after the end of the special game. As already explained, in the special fluctuation state, the fluctuation time at the time of “losing” is set to 0.5 seconds, and the fluctuation time at the time of “big hit” is set to 1 second. The lottery results for 8 jackpots will be notified at once in a short time.

  In this way, when the number of holds reaches the upper limit, a special effect is executed, and by urging the launch of the game ball toward the special start port 40, it is possible to significantly reduce the game ball launch stop time. Become. Further, if the player again enters the game ball into the first start port 20 or the second start port 22 while digesting the eight holds, the newly stored change time of the hold is as follows. It will return to the normal fluctuation time. Therefore, after the high-speed variation effect is completed eight times, the time of the variation effect is determined according to the number of holds, and the execution of the variation effect is interrupted, which may give a player a feeling of fatigue. Absent.

  In addition, after the end of the special variation state, when no hold is stored and there is a possibility that the variation effect is interrupted, the special variation number is set to a number smaller than the upper limit number of the hold (for example, 6 Or 7 times). In addition, considering the time required to newly store one or two holds, and setting the variation time in the special variation state, while reducing the game ball firing stop period, Interruption can be avoided reliably.

  Below, the control process in the sub control board 200 for performing said special effect is demonstrated.

(Main processing of sub-control board 200)
FIG. 40 is a flowchart for explaining the main process of the sub control board 200.

(Step S1000)
The sub CPU 200a reads the main processing program from the sub ROM 200b in response to power-on, and performs initialization and setting processing of flags and the like stored in the sub RAM 200c.

(Step S1001)
Next, the sub CPU 200a performs a process of updating each effect random number, and thereafter repeats the process of step S1001 until an interrupt process is performed. A plurality of types of effect random numbers are provided, and here, each effect random number is updated asynchronously.

(Timer interrupt processing of sub control board 200)
FIG. 41 is a flowchart for explaining timer interrupt processing of the sub control board 200. The sub-control board 200 is provided with a reset clock pulse generation circuit (not shown) that generates clock pulses at a predetermined cycle (4 ms). Then, when the clock pulse is generated by the reset clock pulse generation circuit, the sub CPU 200a reads the timer interrupt processing program and starts the timer interrupt processing.

(Step S1100)
First, the sub CPU 200a performs update processing of various timer counters used in the sub control board 200. Here, the timer counters are decremented by 1 each time the timer interrupt processing of the sub-control board 200 is performed unless otherwise noted, and when it reaches 0, the subtraction is stopped.

(Step S1200)
Next, the sub CPU 200a analyzes a command stored in the reception buffer of the sub RAM 200c and performs various processes according to the received command. In the sub control board 200, when a command is transmitted from the main control board 100, a command reception interrupt process is performed, and the command transmitted from the main control board 100 is stored in the reception buffer. Here, the command stored in the reception buffer by the command reception interrupt process is analyzed.

(Step S1300)
Next, the sub CPU 200a transmits the command set in the transmission buffer of the sub RAM 200c to the image control board 210 and the illumination control board 220, and ends the timer interrupt process.

  FIG. 42 is a flowchart for explaining a start winning command reception process executed when a start winning command is received in the command analysis process. As described above, the start winning command is transmitted to the main control board 100 at step S310-9 (see FIG. 19) of the first start port detection switch input process and step S320-9 (see step S320-9 of the second start port detection switch input process). After being set in (see FIG. 20), it is transmitted to the sub control board 200 by the output control process (see FIG. 17) in step S800.

(Step S1210-1)
When the start winning command is received, first, the sub CPU 200a stores a value obtained by adding “1” to the current number of holds (H) stored in the sub RAM 200c as a new number of holds (H).

(Step S1210-2)
Next, the sub CPU 200a determines whether or not the hold number (H) updated in step S1210-1 is “8”. As a result, if it is determined that the hold number (H) is “8”, the process proceeds to step S1210-3, and if it is determined that the hold number (H) is not “8”, the start winning command The reception process ends.

(Step S1210-3)
In step S1210-2, when it is determined that the number of holds (H) is “8”, the sub CPU 200a determines whether or not the current gaming state is the non-short-time gaming state. As a result, if it is determined that the current gaming state is the non-short-time gaming state, the process proceeds to step S1210-4, and if it is determined that the current gaming state is not the non-time-short gaming state, the start winning command The reception process ends.

(Step S1210-4)
If it is determined in step S1210-3 that the current gaming state is the non-time saving gaming state, the sub CPU 200a sets a special effect execution command for executing the special effect in the transmission buffer. The special effect execution command set here is transmitted to the image control board 210 and the illumination control board 220 in step S1300, and the received special effect execution command is received on the image control board 210 and the illumination control board 220. The variation effect corresponding to is executed.

  FIG. 43 is a flowchart for explaining a variable mode command reception process executed when a variable mode command is received in the command analysis process. As described above, the change mode command is set in step S421-8 (see FIG. 26) of the change effect pattern determination process on the main control board 100, and then sub-controlled by the output control process (see FIG. 17) in step S800. It is transmitted to the substrate 200.

(Step S1220-1)
When the variable mode command is received, first, the sub CPU 200a stores a value obtained by subtracting “1” from the holding number (H) stored in the sub RAM 200c as a new holding number (H).

(Step S1220-2)
Next, the sub CPU 200a acquires the effect random number updated in step S1001.

(Step S1220-3)
Next, the sub CPU 200a refers to the first half variation effect determination table (FIG. 38 (a)) based on the currently set gaming state, effect mode, etc., and the received variation mode command and the above step S1220-2. Based on the effect random number acquired in step 1, the aspect of the fluctuation effect in the first half is determined.

(Step S1220-4)
Next, the sub CPU 200a sets an effect execution command corresponding to the variation effect mode in the first half determined in step S1220-3 in the transmission buffer. The effect execution command set here is transmitted to the image control board 210 and the illumination control board 220 in step S1300 and corresponds to the received effect execution command on the image control board 210 and the illumination control board 220. The fluctuating effect to be executed will be executed.

  FIG. 44 is a flowchart for explaining a variation pattern command reception process executed when a variation pattern command is received in the command analysis process. As described above, the variation pattern command is set in step S421-10 (see FIG. 26) of the variation effect pattern determination process on the main control board 100, and then sub-controlled by the output control process (see FIG. 17) in step S800. It is transmitted to the substrate 200. This variation pattern command is always transmitted to the sub-control board 200 simultaneously with the variation mode command, and the sub-control board 200 executes the variation pattern command reception process following the variation mode command reception process. It will be.

(Step S1230-1)
When the variation pattern command is received, first, the sub CPU 200a acquires the effect random number updated in step S1001.

(Step S1230-2)
Next, the sub CPU 200a refers to the second half variation effect determination table (FIG. 38 (b)), and based on the received variation pattern command and the effect random number acquired in step S1230-1, the second half variation effect determination. Determine aspects.

(Step S1230-3)
Next, the sub CPU 200a sets an effect execution command corresponding to the variation effect mode in the latter half determined in step S1230-2 in the transmission buffer. The effect execution command set here is transmitted to the image control board 210 and the illumination control board 220 in step S1300 and corresponds to the received effect execution command on the image control board 210 and the illumination control board 220. The fluctuating effect to be executed will be executed.

  As mentioned above, although preferred embodiment of this invention was described referring an accompanying drawing, it cannot be overemphasized that this invention is not limited to this embodiment. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the claims, and these are naturally within the technical scope of the present invention. Is done.

  For example, in the above embodiment, the main control board 100 that controls the progress of the game and the sub control board 200 that controls the execution based on the command transmitted from the main control board 100 cooperate as described above. By doing so, it was decided that the variation effect would be executed. However, in the main control board 100 and the sub control board 200, it is possible to appropriately design how to share the above functions.

  In the above embodiment, the special game determination random number value that determines whether or not the special game can be executed is configured by the two random numbers of the jackpot determination random number and the winning symbol determination random number. It may be determined by one random number, or may be determined by three or more random numbers.

  In the above embodiment, the random effect random number value for determining the mode of the variable effect for notifying whether or not the special game can be executed is determined by the three random numbers of the reach group determined random number, the reach mode A determined random number, and the variable pattern random number. Although it is configured, the aspect of the variation effect may be determined by any number of random numbers. Further, in the above-described embodiment, the random effect random number value composed of the three random numbers is acquired by the main control board 100, and further, the effect random number is acquired by the sub control board 200, and one change effect is generated. Although the mode is determined, for example, the mode of the variation effect may be determined only by the random number value for the variation effect acquired by the main control board 100.

  Further, in the above embodiment, the special condition is not executed and the special symbol variation display is not performed, and the fact that the special 1 hold or the special 2 hold is stored is a big hit as the start condition is satisfied. A lottery will be held. However, the starting condition for performing the jackpot lottery is not limited to this. For example, when a plurality of holds are stored, special symbols may be displayed at the same time. In this case, special 1 hold or special 2 hold is stored in a state where the special game is not executed. Is the starting condition. In the above embodiment, the two start ports, the first start port 20 and the second start port 22, are provided, but the number of start ports (start regions) is not particularly limited.

  Further, in the above embodiment, four games in which two game states with different winning probabilities of winning and two game states with different ease of entering a game ball into the second starting port 22 are combined. Although the state is provided, the content and type of the gaming state are not limited to this, and the game may proceed in one gaming state set in advance.

  Moreover, in the said embodiment, the mode of the first half of the variation effect is determined by the variation mode number, and the mode of the latter half of the variation effect is determined by the variation pattern number. It was decided to determine the mode of variation production. However, the mode of one variation effect may be determined based on one element, or may be determined based on three or more elements.

In addition, it goes without saying that the contents of the fluctuating effects and the special effects in the above embodiment are merely examples, and can be appropriately designed.
Further, in the above embodiment, by providing the sorting device 32, the game balls enter the first start port 20 and the second start port 22 alternately. The lottery for reading out the order stored in the reserved storage area and determining the gaming profit is performed. However, the order of reading the special 1 hold and the special 2 hold is not limited to this. For example, when the special 1 hold and the special 2 hold are stored, either one may be preferentially read. Moreover, the distribution apparatus 32 is not an essential structure.

  Moreover, in the said embodiment, it has the 1st game area | region 16a and the 2nd game area | region 16b which differ in the approach rate of a game ball according to launch strength, and the distribution apparatus 32 flows down the 1st game area | region 16a. The game balls are distributed to the first start port 20 and the second start port 22, and the special start port 40 is arranged at a position where the game balls flowing down the second game area 16b can enter. However, the arrangement of the sorting device 32 and the special start port 40 is not particularly limited.

  However, in light of the object of the present invention, as in the above embodiment, a game ball can enter the first start port 20 and the second start port 22 and a special start port 40 can enter the game ball. It is desirable that the player can select whether or not the game ball can enter the special start port 40.

The operation handle 12, the touch sensor 12a, the operation volume 12b, the launch control board 130, and the launch solenoid 131 in the above embodiment constitute the launching means of the present invention.
In addition, the special game determination random number of the present invention is configured by the jackpot determination random number and the winning design random number in the above embodiment, and the reach group determination random number, the reach mode A determination random number, and the variation pattern random number in the above embodiment A random number for variation production is constructed. The variation mode number and the variation pattern number in the above embodiment correspond to the variation information of the present invention, and the main CPU 100a that executes the processing shown in FIGS. 19 and 20 corresponds to the random number acquisition unit of the present invention.

Moreover, in the said embodiment, main CPU100a which performs the process of FIG.25 S420-3 corresponds to the lottery means of this invention.
Moreover, in the said embodiment, the various tables shown in FIGS. 6-10 correspond to the fluctuation | variation information determination table of this invention. In the above embodiment, the variation information determination table is hierarchically classified into a plurality of stages. However, the variation information determination table may be selected only in one stage.

  Of the above-described variation information determination tables, the table selected in the special variation state corresponds to the special variation information determination table of the present invention, and the other tables correspond to the normal variation information determination table of the present invention. Note that the special variation information determination table associates the random value for variation effect with the variation information so that variation information having a shorter variation time than the normal variation information determination table is determined. The variation time that can be determined by the information determination table does not necessarily have to be shorter than the variation time that can be determined by the normal variation information determination table. That is, the variation time that can be determined by the special variation information determination table may include a longer time than the variation time that can be determined by the normal variation information determination table. In any case, if the selection ratio is set so that the average value of the variation time determined by the special variation information determination table is shorter than the average value of the variation time determined by the normal variation information determination table Good.

In the above embodiment, the main CPU 100a that executes the processing shown in FIG. 26 corresponds to the variation information determining means of the present invention.
Moreover, in the said embodiment, sub CPU200a which performs the process of step S1220-3 of FIG. 43 and step S1230-2 of FIG. 44 is corresponded to the change effect aspect determination means of this invention.
In the above embodiment, the sub CPU 200a that executes the processing of step S1220-4 in FIG. 43 and step S1230-3 in FIG. 44, the image control board 210, and the illumination control board 220 are the variable effect execution means of the present invention. It corresponds to.
In the above embodiment, the main CPU 100a that executes the special electric accessory control process shown in FIG. 29 corresponds to the special game execution means of the present invention.

Moreover, in the said embodiment, main CPU100a which performs the process shown in FIG. 23 is equivalent to the special game execution means of this invention.
Moreover, in the said embodiment, sub CPU200a which performs the process shown in FIG. 42 is equivalent to the special effect execution means of this invention.

1 gaming machine 8 gaming board 12 operation handle 12a touch sensor 12b operation volume 16 gaming area 16a first gaming area 16b second gaming area 20 first starting port (starting area)
22 Second starting port (starting area)
28 Grand Prize Winner 32 Sorting Device 40 Special Start Port (Special Start Area)
100 Main control board 100a Main CPU
100b Main ROM
100c main RAM
130 Launch Control Board 131 Launch Solenoid 200 Sub Control Board 200a Sub CPU
200b Sub ROM
200c Sub RAM
210 Image control board 220 Illumination control board

Claims (4)

A game board with a game area where game balls flow down;
Launching means for launching a game ball toward the game area with a launch intensity according to a player's operation;
A start area provided in the game area and into which a game ball can enter;
On the condition that a game ball has entered the start area, a special game determination random number for determining whether or not to execute a special game in which a special winning opening provided in the game area is opened, and the special game Random number acquisition means for acquiring a random number for variation effect for determining variation information at least associated with a variation time that is a time of variation effect for informing whether or not execution is possible, and storing it in a storage unit as hold information;
Lottery means for reading out a special game determination random number stored in the storage unit and determining whether or not the special game can be executed by lottery by establishing a preset start condition;
When the lottery result is derived by the lottery means, based on the derived lottery result, among the plurality of variation information determination tables in which the variation effect random number value and the variation information are associated with each other, The table corresponding to the variation condition when the lottery result is derived is selected and the variation stored in the storage unit together with the selected variation information determination table and the special game determination random number read by the lottery means Fluctuation information determining means for determining the fluctuation information based on the production random number;
Based on the variation information determined by the variation information determination unit, the variation effect mode determination unit that determines the mode of the variation effect;
Fluctuation effect execution means for executing and controlling the fluctuation effect according to the determination of the fluctuation effect mode determination means;
When a lottery result enabling the execution of the special game is derived by the lottery means, and when the variation effect for notifying the lottery result is ended by the variation effect execution means, special game execution means for controlling the execution of the special game;
A special start area provided in the game area and into which a game ball can enter;
Special game execution means for executing and controlling a special game in which the special winning opening is opened on condition that a game ball enters the special start area;
With
The variation condition that defines the condition for selecting the variation information determination table is set in advance according to the progress of the game,
The variation information determining means includes
After the special game is executed, when the number of times of determining the variation information is within a predetermined number of times set in advance, the special variation information determination table is selected, and the number of times of determining the variation information reaches the specific number of times After that, select the normal fluctuation information determination table corresponding to the fluctuation conditions according to the progress of the game,
In the special variation information determination table, the variation effect random number value and the variation information are associated with each other such that variation information having a variation time shorter than that of the normal variation information determination table is determined. A gaming machine characterized by The start area includes at least two of a first start area and a second start area,
An upper limit is set for the number of pieces of hold information stored in the storage unit by the entry of game balls into the first start area and the second start area,
In the game board,
2. The gaming machine according to claim 1, further comprising a distribution device that alternately distributes the game balls flowing down the game area to the first start area and the second start area.   The number of hold information stored in the storage unit by the entry of the game ball into the first start area and the number of hold information stored in the storage unit by the entry of the game ball into the second start area 3. The gaming machine according to claim 2, further comprising a special effect executing means for executing a special effect that prompts the player to launch a game ball toward the special start area when the upper limit is reached. The gaming area is
A first game area and a second game area having different game ball entry ratios according to the firing strength of the launching means;
The distribution device distributes game balls flowing down the first game area to the first start area and the second start area,
4. The gaming machine according to claim 2, wherein the special start area is arranged at a position where a game ball flowing down the second game area can enter.

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