JP2016202471A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce possibility for a player to be damaged while enhancing performance effects.SOLUTION: In a main control board, symbols are variably displayed for a determined variation time, and when the variation time has passed, a special symbol is stop displayed. When variable display of symbols starts, variation commands are transmitted from the main control board to a sub control board; in the sub control board, a display pattern of variation performance images to be displayed to an image display part is determined on the basis of the received variation command. When a jackpot symbol is determined, a specific image pattern longer in constitution time than the variation time may be determined. When a variation performance image is displayed in the specific image pattern, it is checked if the variation performance image is displayed up to a prescribed display position while the special symbol is stop displayed. When not displayed, a corrected performance image is displayed.SELECTED DRAWING: Figure 54

Description

  The present invention relates to a gaming machine in which a variation effect is executed.

  Conventionally, when a game ball enters the start opening, the hold information is stored in the storage unit, and when the start condition is satisfied, the hold information stored in the storage unit is sequentially read and a lottery lottery is performed. There is known a gaming machine that can execute a big game in which a big winning opening is opened when a big win is won by lottery. In such a gaming machine, the effect of improvement is achieved by performing various effects such as a fluctuating effect for notifying the result of the big character lottery and a big character effect performed during the big character game.

  Normally, in the gaming machine, when the result of the lottery lottery is derived, a variation time, which is a time until the derived result of the lottery lottery is determined, is determined, and the variation effect is displayed until the variation time has elapsed. Executed. That is, the variation effect is executed with an execution pattern in which the determined variation time is equal to the configuration time. On the other hand, in the gaming machines shown in Patent Documents 1 and 2, when the big hit is won, the variation effect is performed with a specific execution pattern having a longer configuration time than the determined variation time. The variation performance of this specific execution pattern is called a so-called big actor straddling production. It can be further enhanced.

JP 2006-6736 A JP 2008-119399 A

  When the processing load of the CPU that controls the execution of the effect increases, a processing drop may occur in which the processing speed decreases. In particular, the processing load tends to increase during execution of the above-mentioned role-playing effect as compared to the execution of a normal loss-playing effect, and there is a high possibility that a processing failure will occur during the execution of the role-playing effect. . If a processing failure occurs during the execution of a director role straddle, the player will not be able to grasp the progress of the game, such as the director will not be able to keep up with the progress of the game, and the player will not notice that the main player game is being executed, There is a possibility of losing the player.

  An object of the present invention is to provide a gaming machine that can reduce the possibility of losing a player while enhancing the effect.

  In order to solve the above-described problems, a gaming machine according to the present invention includes a gaming board in which a gaming area in which a gaming ball flows down, a large winning opening in which a gaming ball flowing in the gaming area can enter, A gaming machine comprising: a main control unit that controls progress; and a sub-control unit that controls production based on a command transmitted from the main control unit, wherein the main control unit , A symbol determining means for determining one of a plurality of types of symbols including at least a jackpot symbol and a lost symbol; and when the symbol is determined by the symbol determining means, the symbol display unit stops and displays the symbol Fluctuation information determining means for determining fluctuation information in which the fluctuation time is defined, and when the fluctuation information is determined by the fluctuation information determining means, the symbol display section over the fluctuation time defined in the fluctuation information In The symbol display control means for stopping and displaying the symbol determined by the symbol determining means on the symbol display section when the variation time has elapsed, and the jackpot symbol is stopped and displayed on the symbol display section. Then, when the change information is determined by the change information determination means, the change command corresponding to the change information is sent to the change player determining means. Command transmission means for transmitting a special symbol stop designation command to the sub-control unit when the symbol is stopped and displayed on the symbol display unit, and transmitting the sub-control unit to the sub-control unit. When receiving the command, the variation effect image determining means for determining the image pattern of the variation effect image to be displayed on the image display unit based on the variation command; Image display control means for displaying a variation effect image on the image display unit with the image pattern determined by the image determination means, and the variation effect image determination means determines the specific variation information by the variation information determination means. If the specific variation command transmitted in the case is received, a specific image pattern having a longer configuration time than the variation time defined in the specific variation information may be determined, and the image display control means may When the specific image pattern is determined by the image determining means, when the special figure stop designation command is received, if the variation effect image of the specific image pattern has been displayed up to a preset display time, The display control of the variation effect image is continued, and if the variation effect image is not displayed until the display time point, the display of the predetermined correction effect image is started. It is characterized by doing.

  The variation information determination means may determine the specific variation information when the jackpot symbol is determined.

  Further, the correction effect image may be an image for informing that the big game is executed.

  In addition, the command transmission means transmits a major role start command to the sub-control unit at the start of the major role game, and the image display control means executes display control of a dedicated effect image when receiving the major role start command, The priority order of the dedicated effect image is lower than the priority order of the variation effect image of the specific image pattern, and when the display period of the dedicated effect image and the variation effect image overlaps, the priority is relatively higher It is preferable that the variation effect image of the specific image pattern is displayed on the image display unit, and the dedicated effect image having a relatively low priority is not displayed.

  According to the present invention, it is possible to reduce the possibility of losing a player while enhancing the effect.

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 a hit design random number determination table. It is a figure explaining a reach group determination random number determination table. It is a figure explaining a reach mode determination random number determination table. It is a figure explaining a fluctuation pattern random number determination table. It is a figure explaining a variation time determination table. It is a figure explaining a special electric accessory operating ram set 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 time data table, (b) is a figure explaining an opening-and-closing control pattern table. It is a flowchart explaining CPU initialization processing in the main control board. It is a flowchart explaining the saving process at the time of power-off in a main control board. It is a flowchart explaining the timer interruption process in a main control board. It is a flowchart explaining the switch management process in a main control board. It is a flowchart explaining the gate passage process in the main control board. It is a flowchart explaining the 1st starting port passage process in a main control board. It is a flowchart explaining the 2nd starting port passage process in a main control board. It is a flowchart explaining the special symbol random number acquisition process in a main control board. It is a flowchart explaining the effect determination process at the time of acquisition in a main control board. It is a figure explaining a special game management phase. It is a flowchart explaining the special game management process in a main control board. It is a flowchart explaining the special symbol fluctuation waiting process in a main control board. It is a flowchart explaining the special symbol variation number determination process in a main control board. It is a flowchart explaining the special symbol variation process in the main control board. It is a flowchart explaining the special symbol stop symbol display process in a main control board. It is a flowchart explaining the big winning opening release pre-processing in a main control board. It is a flowchart explaining the big winning opening opening / closing switching process in the main control board. It is a flowchart explaining the special winning opening opening control processing in the main control board. It is a flowchart explaining the big winning opening closing effective process in a main control board. It is a flowchart explaining the big winning opening end weight processing in the main control board. It is a figure explaining a normal game management phase. It is a flowchart explaining the normal game management process in a main control board. It is a flowchart explaining the normal symbol change waiting process in a main control board. It is a flowchart explaining the normal symbol change process in a main control board. It is a flowchart explaining the normal symbol stop symbol display process in a main control board. It is a flowchart explaining the normal electric accessory winning opening opening pre-processing in the main control board. It is a flowchart explaining the normal electric accessory winning a prize opening and closing switching process in the main control board. It is a flowchart explaining the normal electric accessory winning a prize opening opening control process in the main control board. It is a flowchart explaining the normal electric accessory winning prize closing effective process in a main control board. It is a flowchart explaining the normal electric accessory winning a prize end completion weight process in the main control board. It is a figure explaining an effect design. 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 normal reach fluctuation pattern. It is a figure explaining an example of the fluctuation production of a development reach fluctuation pattern. It is a figure explaining an example of the fluctuation production of a quasi-continuous reach fluctuation pattern. It is a figure explaining a change production determination table. It is a figure explaining an example of a hold display. (A) is a figure explaining a final display form determination table, (b) is a figure explaining a standby production scenario decision table. It is a figure explaining an example of standby production. It is a figure explaining an example of special standby production. It is a time chart of the change production of a specific reach revival pattern (big hit). It is a figure explaining an example of a correction effect. It is a flowchart explaining the sub CPU initialization process in a sub control board. It is a flowchart explaining the sub timer interruption process in a sub control board. It is a flowchart explaining the prefetch designation | designated command reception process in a sub control board. It is a flowchart explaining the change command reception process in a sub-control board. It is a flowchart explaining the time schedule management process in a sub control board. It is a flowchart explaining the special figure stop designation | designated command reception process in a sub control board. It is a flowchart explaining the opening designation | designated 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 100 of the present embodiment, showing a state in which the door is opened. As shown in the figure, the gaming machine 100 includes an outer frame 102 in which an enclosed space is formed by four sides assembled in a substantially rectangular shape, a middle frame 104 attached to the outer frame 102 by a hinge mechanism so as to be freely opened and closed, The middle frame 104 includes a front frame 106 that is attached to be freely opened and closed by a hinge mechanism.

  As with the outer frame 102, the middle frame 104 has an enclosed space formed by four sides assembled in a substantially rectangular shape, and the game board 108 is held in the enclosed space. The front frame 106 holds a transmission plate 110 made of glass or resin. When the middle frame 104 and the front frame 106 are closed with respect to the outer frame 102, the game board 108 and the transmission plate 110 face each other substantially in parallel with a predetermined distance from the front side of the gaming machine 100. The game board 108 can be visually recognized through the transmission plate 110.

  FIG. 2 is a front view of the gaming machine 100. As shown in this figure, an operation handle 112 that projects to the front side of the gaming machine 100 is provided below the front frame 106. The operation handle 112 is provided so that the player can perform a rotation operation. When the player rotates the operation handle 112 to perform a launch operation, the operation handle 112 has a strength corresponding to the rotation angle of the operation handle 112 and is not illustrated. A game ball is launched by the launch mechanism. The game ball thus fired is raised between the rails 114 a and 114 b provided on the game board 108 and guided to the game area 116.

  The game area 116 is a space formed between the game board 108 and the transmission plate 110 and is an area where the game ball can flow down or roll. The game board 108 is provided with a large number of nails and windmills, and a game ball guided to the game area 116 collides with the nails and windmills, and flows down and rolls in an irregular direction.

  The game area 116 includes a first game area 116a and a second game area 116b that differ in the degree of entry of the game ball according to the firing strength of the launch mechanism. The first game area 116 a is located on the left side of the game area 116 when viewed from the player facing the gaming machine 100, and the second game area 116 b is the game area 116 viewed from the player facing the gaming machine 100. Located on the right side. Since the rails 114a and 114b are on the left side of the game area 116, the game balls launched by the launch mechanism with a launch intensity less than the predetermined intensity enter the first game area 116a and launch with a launch intensity greater than the predetermined intensity. The played game ball enters the second game area 116b.

  In addition, the game area 116 is provided with a general winning port 118, a first starting port 120, and a second starting port 122 through which a game ball can enter, and the general winning port 118, the first starting port 120, the first starting port 120, and the like. 2. When a game ball enters the start port 122, a predetermined prize ball is paid out to the player. The number of prize balls may be any number as long as it is one or more, and the number of prize balls to be paid out at each of the general prize opening 118, the first start opening 120, and the second start opening 122 may be different. The same number of prize balls may be set. At this time, it is also possible to set the number of prize balls that the game ball enters and pays out at the first start port 120 smaller than the number of prize balls that the game ball enters and pays out at the second start port 122. is there.

  As will be described in detail later, a first start region is provided in the first start port 120, and a second start region is provided in the second start port 122. When a game ball enters the first start port 120 or the second start port 122 and the game ball enters the first start region or the second start region, one of a plurality of special symbols provided in advance is selected. A lottery for determining one special symbol is performed. Each special symbol is associated with various game profits such as whether or not a big game that is advantageous to the player can be executed and what kind of gaming state the subsequent gaming state will be. Accordingly, when a game ball enters the first start port 120 or the second start port 122, 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 122 is provided with a movable piece 122b that can be opened and closed, and the ease of entry of the game ball into the second starting port 122 changes depending on the state of the movable piece 122b. It has become. Specifically, when the movable piece 122b is in the closed state, it is impossible to enter the game ball into the second start port 122. On the other hand, when the game ball passes through the entry area in the gate 124 provided in the game area 116, a lottery of a normal symbol which will be described later is performed. Controlled to open state. As described above, when the movable piece 122b is in the open state, the movable piece 122b functions as a tray that guides the game ball to the second start port 122, so that the game ball can easily enter the second start port 122. Note that, here, when the second start port 122 is in the closed state, it is impossible to enter the game ball into the second start port 122, but the second start port 122 is in the closed state. Even in some cases, it may be configured such that game balls can enter at a certain frequency.

  Furthermore, the game area 116 is provided with a large winning opening 128 through which a game ball can enter. The big winning opening 128 is provided with an open / close door 128b that can be opened and closed. Normally, the open / close door 128b closes the big winning opening 128 so that a game ball cannot enter the big winning opening 128. It has become. On the other hand, when the above-mentioned big game is executed, the opening / closing door 128b is opened, and a game ball can be inserted into the big winning opening 128. Then, when a game ball enters the big prize opening 128, a predetermined prize ball is paid out to the player.

  At the bottom of the game area 116, game balls that have not entered any of the general winning opening 118, the first starting opening 120, the second starting opening 122, or the big winning opening 128 are played from the gaming area 116. A discharge port 130 for discharging is provided on the back side of the panel 108.

  The gaming machine 100 is controlled by an effect display device 200 composed of a liquid crystal display device, an effect agent device 202 composed of a movable device, and various lighting modes and luminescent colors as effects devices that perform effects during the progress of the game. There are provided an effect lighting device 204 composed of a lamp, an audio output device 206 composed of a speaker, and an effect operation device 208 that accepts the player's operation.

  The effect display device 200 includes an effect display unit 200a including an image display unit that displays an image. The effect display unit 200a can be viewed from the front side of the gaming machine 100 at a substantially central portion of the game board 108. It is arranged. In the effect display unit 200a, the effect symbols 210a, 210b, and 210c are variably displayed as shown in the drawing, and the effect of lottery lottery is notified to the player by the stop display mode of these effect symbols 210a, 210b, and 210c. Will be executed.

  The stage effect device 202 is disposed in front of the stage display unit 200a and is normally retracted to the back side of the game board 108, but during staged variation display of the stage symbols 210a, 210b, 210c, etc. It moves to the front surface of the display unit 200a and gives a player a big hit expectation.

  The effect lighting device 204 is provided in the effect actor device 202, the game board 108, and the like, and various lighting controls are performed according to the image displayed on the effect display unit 200a.

  The audio output device 206 is provided at an upper position of the front frame 106 or a lowermost position of the outer frame 102, and various audios are directed toward the front side of the gaming machine 100 in accordance with an image displayed on the effect display unit 200a. Is output.

  The effect operation device 208 is configured by a button that receives a player's pressing operation, and is provided at a substantially central position in the width direction of the gaming machine 100 and at a position below the transmission plate 110. The effect operation device 208 is activated in accordance with an image displayed on the effect display unit 200a. When the player's operation is received within the operation effective period, various effects are generated according to the operation. Is executed.

  Note that reference numeral 132 in the figure denotes an upper plate to which a prize ball paid out from the gaming machine 100 or a game ball lent out from the game ball lending device is guided. It will be guided to the lower plate 134. In addition, a ball hole (not shown) for discharging game balls from the lower plate 134 is formed on the bottom surface of the lower plate 134. 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 134a by sliding the ball removal knob 134a in the horizontal direction in the figure. In addition, it is possible to discharge the game ball from the ball hole to the lower side of the lower plate 134.

  Further, the game board 108 has a first special symbol display 160, a second special symbol display 162, and a first special symbol hold at a position outside the game area 116 and visible to the player. A display 164, a second special symbol hold display 166, a normal symbol display 168, a normal symbol hold display 170, and a right-handed notification display 172 are provided. Each of these indicators 160 to 172 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 300 controls the basic operation of the game. The main control board 300 includes a main CPU 300a, a main ROM 300b, and a main RAM 300c. The main CPU 300a reads out a program stored in the main ROM 300b 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 300c functions as a data work area during the arithmetic processing of the main CPU 300a.

  The main control board 300 has a general winning port detection switch 118s for detecting that a game ball has entered the general winning port 118, and a first start port for detecting that a game ball has entered the first start port 120. The detection switch 120s, the second start port detection switch 122s that detects that a game ball has entered the second start port 122, the gate detection switch 124s that detects that the game ball has passed through the gate 124, and the big winning port 128 A big prize opening detection switch 128s for detecting that a game ball has entered is connected, and a detection signal is inputted to the main control board 300 from each of these detection switches.

  Further, the main control board 300 includes a normal electric accessory solenoid 122c that operates the movable piece 122b of the second start port 122, and a large winning port solenoid 128c that operates the opening and closing door 128b that opens and closes the large winning port 128. The main control board 300 controls the opening and closing of the second starting port 122 and the special winning opening 128.

  Further, the main control board 300 includes a first special symbol display 160, a second special symbol display 162, a first special symbol hold indicator 164, a second special symbol hold indicator 166, a normal symbol indicator 168, and a normal symbol indicator 168. The symbol hold display 170 and the right-handed notification display 172 are connected, and the main control board 300 controls the display of each display.

  In addition, the gaming machine 100 of the present embodiment is started by a special game that is started mainly by entering a game ball into the first start port 120 or the second start port 122 and when the game ball passes through the gate 124. It is roughly divided into ordinary games. The main ROM 300b of the main control board 300 stores various programs for proceeding with special games and ordinary games, and data and tables necessary for various games.

  The main control board 300 is connected to a payout control board 310 and a sub control board 330.

  The payout control board 310 performs control for launching a game ball and control for paying out a prize ball. The payout control board 310 also includes a CPU, a ROM, and a RAM, and is connected to the main control board 300 so as to be capable of bidirectional communication. A game information output terminal board 312 is connected to the payout control board 310, and various information on the progress of the game output from the main control board 300 is passed through the payout control board 310 and the game information output terminal board 312. This is output to the hall computer of the amusement store.

  The payout control board 310 is connected to a payout motor 314 for paying out a game ball stored in the storage unit as a prize ball to the player. The payout control board 310 controls the payout motor 314 based on the payout number designation command transmitted from the main control board 300 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 316 s 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 318 s for detecting a full tank state of the lower dish 134 is connected to the dispensing control board 310. The dish full tank detection switch 318 s is provided in a path for guiding game balls to be paid out as prize balls to the lower dish 134, and a game ball detection signal is input to the payout control board 310.

  When a predetermined amount or more of the game balls are stored in the lower plate 134 and become full, the game balls stay in the passage toward the lower plate 134 toward the payout control board 310 from the plate full tank detection switch 318s. The game ball detection signal is continuously input. The payout control board 310 determines that the lower tray 134 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 300. On the other hand, if the continuous input of the game ball detection signal is interrupted after the dish full tank command is transmitted, it is determined that the full tank state has been released, and the dish full tank release command is transmitted to the main control board 300.

  Further, the payout control board 310 is provided with a launch control circuit 320 that performs launch control of the game ball. Connected to the payout control board 310 are a touch sensor 112s that is provided on the operation handle 112 and detects that the player has touched the operation handle 112, and an operation volume 112a that detects an operation angle of the operation handle 112. ing. When a signal is input from the touch sensor 112s and the operation volume 112a, the launch control circuit 320 performs control to energize the launch solenoid 112c provided in the game ball launch device to launch the game ball.

  The sub-control board 330 mainly controls each effect such as playing or waiting. The sub control board 330 includes a sub CPU 330a, a sub ROM 330b, and a sub RAM 330c, and is connected to the main control board 300 so as to be communicable in one direction from the main control board 300 to the sub control board 330. . The sub CPU 330a reads out a program stored in the sub ROM 330b based on a command transmitted from the main control board 300, an input signal from a timer, and the like, performs arithmetic processing, and controls the execution of effects. At this time, the sub RAM 330c functions as a data work area during the arithmetic processing of the sub CPU 330a.

  Specifically, the sub control board 330 performs image display control for displaying an image on the effect display unit 200a. The sub ROM 330b stores a large number of image data such as symbols and backgrounds to be displayed on the effect display unit 200a, and the sub CPU 330a reads the image data from the sub ROM 330b to a VRAM (not shown) to display the effect display unit 200a. Control image display.

  In addition, the sub control board 330 performs sound output control for outputting sound from the sound output device 206, moves the effect agent device 202, and controls lighting of the effect lighting device 204. Furthermore, a predetermined effect is executed when an operation detection signal is input from the effect operation device detection switch 208s that detects that the effect operation device 208 has been pressed.

  Note that a power supply board (not shown) is connected to each board, and power is supplied to each board from a commercial power supply via the power supply board. The power supply board is provided with a backup power supply made of a capacitor.

  Next, games in the gaming machine 100 of the present embodiment will be described together with various tables stored in the main ROM 300b.

  As described above, in the gaming machine 100 of the present embodiment, two types of games, a special game and a normal game, proceed in parallel, and the low probability game state is used as the gaming state when proceeding with both of these games. Alternatively, the game progresses in any gaming state in which any gaming state in the high probability gaming state and any gaming state in the non-short-time gaming state or the short-time gaming state are combined.

  Although the details of each gaming state will be described later, the low probability gaming state is a gaming state in which the probability of acquiring a right to execute a major game in which the big prize opening 128 is opened is set low, and the high probability gaming state This is a gaming state in which the probability of acquiring the right to execute a big game is set high.

  The non-short game state is a game state in which the movable piece 122b is less likely to be in the open state and the game ball is less likely to enter the second start port 122. The short-time game state is more than the non-short game state. Also, the movable piece 122b is likely to be in an open state, and a game ball is likely to enter the second start port 122. Note that the initial state of the gaming machine 100 is set to a low-probability gaming state and a non-time-saving gaming state, and this gaming state is referred to as a normal gaming state in this embodiment.

  When the player operates the operation handle 112 to fire a game ball in the game area 116, and the game ball flowing down the game area 116 enters the first start port 120 or the second start port 122, the game is given to the player. A lottery for determining whether or not to give a profit (hereinafter referred to as a “larger lottery”) is performed. In this big game lottery, when a big win is won, the big winning hole 128 is opened and a big ball game that allows a game ball to enter the big winning hole 128 is executed. The gaming state is set to one of the above gaming states. In the following, a lottery lottery method will be described.

  As will be described in detail later, when a game ball enters the first start port 120 or the second start port 122, various random numbers (big hit decision random number, hit design random number, reach group decision random number, reach reach) related to the big role lottery Mode decision random numbers and fluctuation pattern random numbers) are acquired, and each random number value is stored in the special figure storage area of the main RAM 300c. Hereinafter, various random numbers stored in the special figure holding storage area after the game ball has entered the first start port 120 are collectively referred to as special one hold, and the game ball enters the second start port 122. The various random numbers stored in the special figure storage area are collectively called special 2 reservation.

  The special figure reservation storage area of the main RAM 300c includes a first special figure reservation storage area and a second special figure reservation storage area. Each of the first special figure reservation storage area and the second special figure reservation storage area has four storage units (first to fourth storage units). When a game ball enters the first start port 120, the special 1 hold is stored in order from the first storage unit in the first special figure storage area, and when the game ball enters the second start port 122, the special ball is stored. 2 reservations are stored in order from the first storage unit of the second special figure storage area.

  For example, when a game ball enters the first start port 120, if no hold is stored in any of the first to fourth storage units in the first special figure storage area, the first storage unit Special 1 hold is stored. Also, for example, when a game ball enters the first start port 120 in a state where special 1 hold is stored in the first storage unit to the third storage unit, the special 1 hold is stored in the fourth storage unit. Remember. In addition, even when a game ball enters the second start port 122, the special 2 reservation is stored in the first storage unit to the fourth storage unit of the second special figure storage area as described above. No special 2 reservation is stored in the storage unit with the smallest 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 first special figure reservation storage area and the second special figure reservation storage area are each set to four. Therefore, for example, when a game ball enters the first start opening 120, if four special 1 reservations are already stored in the first special figure storage area, Special 1 hold is not newly stored by entering a game ball. Similarly, when a game ball enters the second start port 122 and four special 2 holds are already stored in the second special figure storage area, a game to the second start port 122 is stored. The special 2 hold is not newly memorized when the ball enters.

  FIG. 4 is a diagram illustrating a jackpot determination random number determination table. When a game ball enters the first start port 120 or the second start port 122, one big hit determination random number is acquired from the range of 0 to 65535. Then, when the big game 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, and the selected jackpot determination random number determination table and the acquired jackpot determination random number A lottery lottery is held.

  In the low-probability game state, when starting the big lottery for special 1 hold and special 2 hold, as shown in FIG. 4A, the low probability big hit decision random number determination table is referred. According to the low probability jackpot determined random number determination table, when the jackpot determined random number is 10001 to 10164, 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 / 399.6.

  Also, in the high-probability gaming state, when starting the big role lottery for special 1 hold and special 2 hold, as shown in FIG. According to the high-accuracy jackpot determination random number determination table, if the jackpot determination random number is 10001-1640, it is determined to be a jackpot, and if it is any other jackpot determination random number, it is determined to be lost. Therefore, the jackpot probability in this case is about 1 / 39.96. 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. Note that the jackpot determination random number (10001 to 10164) that becomes “big hit” in the low probability gaming state becomes “big hit” even in the high probability gaming state.

  FIG. 5 is a diagram for explaining the winning symbol random number determination table. When a game ball enters the first start port 120 or the second start port 122, one winning design random number is acquired from the range of 0-99. Then, when the determination result of “big hit” is derived by the above-mentioned big game lottery, the type of special symbol is determined by the acquired winning symbol random number and the winning symbol random number determination table. At this time, if “big hit” is won by special 1 hold, as shown in FIG. 5 (a), the special random number judgment table for special 1 is selected, and “big win” is won by special 2 hold. As shown in FIG. 5 (b), the special 2 random number random number determination table 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 special symbol random number determination table for special 1 shown in FIG. 5 (a) and the special random number determination table for special 2 shown in FIG. 5 (b), depending on the value of the acquired random symbol random number, As described above, the type of special symbol (big hit symbol) is determined. In addition, when the lottery result is “losing” and the lottery result is derived by special 1 hold, the special symbol X is determined as the lost symbol without performing the lottery, and the lottery result is the special 2 When derived by holding, the special symbol Y is determined as a lost symbol without performing a lottery. In other words, the winning symbol random number determination table is referred to only when the big drawing lottery result is “big win”, and is not referred to when the big drawing lottery result is “lost”.

  FIG. 6 is a diagram for explaining a reach group determination random number determination table. A plurality of reach group determination random number determination tables are provided, and one table is selected according to the hold type, the hold number, and the change state set in association with the game state. When a game ball enters the first start port 120 or the second start port 122, one reach group determination random number is acquired from the range of 0-10006. As described above, when the big drawing lottery result is derived, a process for determining a variation effect pattern for notifying the big drawing lottery result is performed. In the present embodiment, if the lottery result is “losing”, the group type is first determined by the reach group determination random number and the reach group determination random number determination table when determining the variation effect pattern.

  For example, when the gaming state is set to the non-temporary gaming state and the variation state is normally set to 1 variation state, when the lottery result of “losing” is derived based on the special 1 hold, If the special 1 holding number (hereinafter simply referred to as “holding number”) when performing the lottery lottery is 0, the reach group determination random number determination table 1 is selected as shown in FIG. Similarly, if the number of holds is 1, the reach group determination random number determination table 2 is selected as shown in FIG. 6B, and if the number of holds is 2 or 3, the table shown in FIG. As shown, the reach group determination random number determination table 3 is selected. In FIG. 6, the group x described in the group type column indicates an arbitrary group number. Therefore, various group numbers are determined as the group type according to the acquired reach group determination random number and the type of the reach group determination random number determination table to be referred to.

  Thus, in this embodiment, the table for determining the variation effect pattern is determined based on the variation state in addition to the set game state. That is, the change state is defined as which table is used to determine the change effect pattern, and is a concept set separately from the game state.

  In addition, when the lottery lottery result is “big hit”, 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 big drawing lottery result is “losing”, and is not referred to when the big drawing lottery result is “big hit”.

  FIG. 7 is a diagram for explaining a reach mode determination random number determination table. This reach mode determination random number determination table is a lost mode reach mode determination random number determination table that is selected when the lottery lottery result is “losing”, and a jackpot that is selected when the lottery lottery result is “big hit” The time reach mode decision random number judgment table is roughly divided. The lose time reach mode determination random number determination table is provided for each group type determined as described above, and the big hit time reach mode determination random number determination table is provided for each gaming state and symbol type. Each reach mode determination random number determination table may be provided for each hold type. Here, FIG. 7 (a) shows an example of the group x lose time reach mode determination random number determination table referred to in the predetermined game state and symbol type, and FIG. 7 (a) shows an example of the big hit time reach mode determination random number determination table. Shown in b).

  When a game ball enters the first start port 120 or the second start port 122, one reach mode determination random number is acquired from the range of 0 to 250. If the result of the lottery lottery is “losing”, as shown in FIG. 7A, the lost reach mode random number corresponding to the group type determined by the group type lottery is shown. The determination table is selected, and the variation mode number is determined based on the selected lose time reach mode determination random number determination table and the reach mode determination random number. Further, when the result of the big game lottery is “big hit”, as shown in FIG. 7B, the big hit time reach mode determination random number determination table corresponding to the read gaming state and symbol type Is selected, and the variation mode number is determined based on the selected jackpot hour reach mode determination random number determination table and the reach mode determination random number.

  In each reach mode determination random number determination table, the reach mode determination random number is associated with a change pattern random number determination table, which will be described later, together with the change mode number, and at the same time the change mode number is determined, the change pattern A random number determination table is determined. In FIG. 7, a table x described in the column of the fluctuation pattern random number determination table indicates an arbitrary table number. Therefore, the variation mode number and the table number of the variation pattern random number determination table are determined according to the acquired reach mode determination random number and the type of the reach mode determination random number determination table to be referred to. In the present embodiment, the variation mode number and the variation pattern number described later are set in hexadecimal. In the following description, “H” is added to indicate a hexadecimal number, but “H” in FIGS. 7 to 9 indicates an arbitrary value indicated by a hexadecimal number.

  As described above, when the lottery lottery result is “losing”, first, the group type is determined by the reach group determination random number determination table and the reach group determination random number shown in FIG. Then, the variation mode number and the variation pattern random number determination table are determined based on the lost reach mode determination random number determination table and the reach mode determination random number shown in FIG. 7 according to the determined group type and gaming state.

  On the other hand, if the lottery lottery result is “big hit”, the big hit time reach mode determination random number determination table shown in FIG. 7 according to the determined big hit symbol (special symbol type), the gaming state at the time of winning the big hit, etc. And the reach mode determination random number, the change mode number and change pattern random number determination table is determined.

  FIG. 8 is a diagram for explaining a variation pattern random number determination table. Here, a variation pattern random number determination table x of a predetermined table number x is shown, but many other variation pattern random number determination tables are provided for each table number.

  When a game ball enters the first start port 120 or the second start port 122, one variation pattern random number is acquired from the range of 0 to 238. Based on the variation pattern random number determination table determined simultaneously with the variation mode number and the obtained variation pattern random number, the variation pattern number is determined as illustrated.

  As described above, when the big character lottery is performed, the variation mode number and the variation pattern number are determined according to the result of the big character lottery, the determined symbol type, the gaming state, the number of holds, the hold type, and the like. 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. Hereinafter, the variation mode number and the variation pattern number may be collectively referred to as variation information.

  FIG. 9 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 production time for notifying the lottery result, that is, the variation time.

  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 330, 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 330. In the sub control board 330, 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. It becomes. Hereinafter, the variation mode command and the variation pattern command may be collectively referred to as a variation command, and details thereof will be described later.

  FIG. 10 is a diagram for explaining the special electric accessory operating ram set table. The special electric accessory actuated ram set table stores various data for controlling the major actor game. During the major actor game, the special electric accessory actuated ram set table is referred to, The solenoid 128c is energized and controlled. Actually, a plurality of special electric accessory actuating ram set tables are provided for each jackpot symbol type, and the corresponding table is set at the start of the big bonus game according to the determined jackpot symbol type. Here, for convenience of explanation, control data for all jackpot symbols is shown in one table.

  When the special symbols A to D, which are jackpot symbols, are determined, as shown in FIG. 10, the big game is executed with reference to the special electric accessory operating ram set table. The big game is composed of a plurality of round games in which the grand prize winning opening 128 is opened and closed a predetermined number of times. According to this special electric accessory actuated ram set table, the opening time (waiting time until the first round game is started), the special electric accessory maximum actuating number (round game executed during one major game) The number of times of opening / closing switching of the special electric accessory (number of times of opening of the large winning opening 128 during one round), solenoid energization time (energization time of the large winning opening solenoid 128c for each opening of the large winning opening 128, ie, 1 Number of times of winning the winning prize opening 128), the prescribed number (the maximum number of winnings possible to the winning prize opening 128 in one round game), the closing time of the winning prize opening (the closing time of the winning prize opening 128 between round games) In other words, interval time), ending time (from the end of the last round game until normal special game (variable display of special symbols described later) is resumed) Waiting time), as control data for major role game, for each type of bonus game symbol, it is stored in advance as shown.

  FIG. 11 is a diagram for explaining a game state setting table for setting a game state after the end of the big game. As shown in FIG. 11, when the special symbol A is determined, it is set to the low probability gaming state after the end of the big game, and when the special symbols B to D are determined, the high probability is set after the end of the main character game. In addition to being set to the gaming state, the number of continuations of the high probability gaming state (hereinafter referred to as “high probability number”) is set to 10,000 times. This means that the high-probability gaming state continues until the big-game lottery result is determined 10,000 times. However, the above-mentioned high-accuracy count indicates the maximum number of continuations in the high probability gaming state of 1. If the jackpot is won before reaching the above continuation count, the gaming state is set again. Will be done. Accordingly, when the high probability gaming state is set after the end of the big game, if the lottery lottery result is derived 10,000 times without deriving the jackpot lottery result in the high probability gaming state, the low probability game The gaming state will be changed to the state.

  In addition, when the special symbol A is determined, it is set to the non-time-saving gaming state after the end of the big game, and when the special symbols B to D are determined, the time-saving gaming state is set after the end of the main character game. In addition, the number of continuations of the short-time gaming state (hereinafter referred to as “short-time number of times”) is set to 10,000. This means that the short-time gaming state continues until the big game lottery result is determined 10,000 times. However, the above short time count indicates the maximum number of continuations in the short time gaming state of 1, and if the big win is won before reaching the above continuation number of times, the gaming state is set again. It will be.

  In this case, the game state, the number of high-accuracy times, and the number of time reductions are set according to the type of jackpot symbol, but depending on both the type of jackpot symbol and the game state at the time of winning the jackpot symbol, You may set the game state and the number of high-accuracy times and time savings after the end of.

  FIG. 12 is a diagram for explaining the hit determination random number determination table. When a game ball flowing down the game area 116 passes through the gate 124, a normal symbol determination process (hereinafter referred to as “normal drawing lottery”) associated with whether or not to energize the movable piece 122b of the second start port 122 is controlled. ) Is performed.

  As will be described in detail later, when the game ball passes through the gate 124, one hit-determined random number is acquired from the range of 0 to 99, and four random number values are stored in the general-purpose reserved storage area of the main RAM 300c. Is stored as the upper limit. That is, the usual-pending storage area includes four storage units that save the winning random numbers. Accordingly, when a game ball passes through the gate 124 in a state in which the hit random numbers are stored in all the four storage units of the usual reserved storage area, the hit random numbers are stored based on the passage of the game balls. There is nothing. Hereinafter, the winning random number stored in the usual figure storage area after the game ball passes through the gate 124 is referred to as the usual figure holding.

  When the general drawing lottery is started in the non-short game state, as shown in FIG. According to the per-determined random number determination table for the non-short-time gaming state, when the hit determined random number is 0, the hit symbol is determined as the normal symbol type, and when the hit determined random number is 1 to 99, The lost symbol is determined as the normal symbol type. Therefore, the probability that the winning symbol is determined in the non-short game state, that is, the winning probability is 1/100. As will be described in detail later, when the winning symbol is determined in this general drawing lottery, the movable piece 122b of the second starting port 122 is controlled to the open state, and when the lost symbol is determined, the second starting port 122 is determined. The movable piece 122b is maintained in the closed state.

  In addition, when the general drawing lottery is started in the short-time gaming state, as shown in FIG. According to the per-determined random number determination table for the short game state at this time, when the winning determined random number is 0 to 98, the winning symbol is determined as the normal symbol type, and when the winning determined random number is 99, A lost symbol is determined as the symbol type. Therefore, the probability that the winning symbol is determined in the short-time gaming state, that is, the winning probability is 99/100.

  FIG. 13A is a diagram for explaining a normal symbol variation time data table, and FIG. 13B is a diagram for explaining an opening / closing control pattern table. As described above, when the regular drawing lottery is performed, the variation time of the normal symbol is determined. The normal symbol variation time data table is referred to when determining the variation time of the normal symbol when the winning symbol or the lost symbol is determined by the general symbol lottery. According to this normal symbol variation time data table, when the gaming state is set to the non-short-time gaming state, the variation time is determined to be 10 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 168 is varied and displayed (flashing display) over the determined time. When the winning symbol is determined, the normal symbol display 168 is turned on, and when the lost symbol is determined, the normal symbol display 168 is turned off.

  When the winning symbol is determined by the regular symbol lottery and the normal symbol indicator 168 is lit, the movable piece 122b of the second start port 122 is opened and closed as shown in FIG. 13B. The energization is controlled with reference to the table. Actually, the opening / closing control pattern table is provided for each gaming state, and the corresponding table is set at the start of energization of the ordinary electric accessory solenoid 122c according to the gaming state when the ordinary symbol is determined. However, here, for convenience of explanation, control data corresponding to each gaming state is shown in one table.

  When the winning symbol is determined, the second start port 122 is controlled to open and close with reference to the open / close control pattern table as shown in FIG. 13 (b). According to this open / close control pattern table, the time before the opening of the normal electric power (the waiting time until the opening of the second start port 122 is started), the maximum number of switching times of the normal electric accessory (the number of times of opening the second start port 122) , Solenoid energization time (the energization time of the ordinary electric accessory solenoid 122c every time the second start port 122 is opened, that is, one open time of the second start port 122), the specified number (the total of the second start port 122) The maximum possible number of winnings at the second start port 122 during opening), the ordinary power closing time (the closing time between each opening of the second starting port 122, that is, the rest time), the normal power effective state time (second starting) The waiting time from the end of the last opening of the mouth 122), the waiting time for the end of ordinary power transmission (the waiting time until the normal symbol variation display to be described later is resumed after elapse of the ordinary power transmission valid time) 122 control data To, for each gaming state, is stored in advance as shown.

  As described above, the non-time-saving gaming state and the time-saving gaming state are associated with the opening / closing control conditions for opening and closing the second start port 122 as the game progress conditions. It becomes easier for a game ball to enter the second starting port 122 than in the gaming state. In other words, in the short-time gaming state, as long as the game ball passes through the gate 124, the lottery is drawn one after another, and the second start port 122 is frequently opened, so that the player can use the game ball. It becomes possible to perform a lottery lottery while reducing.

  The opening / closing condition of the second start port 122 defines three elements: the normal symbol winning probability, the normal symbol variation display time, and the second start port 122 opening time. And in this embodiment, by setting the time-saving gaming state more advantageously than the non-time saving gaming state in two of these three elements, the time-saving gaming state is more advantageous than the non-time saving gaming state. The game ball is set to be easy to enter the second start port 122. However, among the above three elements, one or three elements may be set more advantageously in the short-time gaming state than in the non-short-time gaming state. In any case, the short-time gaming state is advantageous for at least one element compared to the non-short-time gaming state, so that the time-short gaming state is comprehensively more advantageous than the non-time-short gaming state. What is necessary is just to make a game ball enter into 122 easily. That is, when the gaming state is set to the non-short-time gaming state, the movable piece 122b is controlled to open and close according to the first condition, and when the gaming state is set to the short-time gaming state, It is sufficient that the movable piece 122b is controlled to open and close according to the second condition that tends to be in the open state.

  Next, main processing of the main control board 300 as the game progresses in the gaming machine 100 will be described using a flowchart.

(CPU initialization processing of main control board 300)
FIG. 14 is a flowchart for explaining the CPU initialization process (S100) in the main control board 300.

  When power is supplied from the power supply board, a system reset occurs in the main CPU 300a, and the main CPU 300a performs the following CPU initialization process (S100).

(Step S100-1)
The main CPU 300a reads a startup program from the main ROM 300b as an initial setting process in response to power-on, and performs a setting process necessary for executing various processes.

(Step S100-3)
The main CPU 300a sets a wait processing time in the timer counter.

(Step S100-5)
The main CPU 300a determines whether a power-off notice signal is detected. The main control board 300 is provided with a power-off detection circuit, and when the power supply voltage becomes a predetermined value or less, a power-off notice signal is output from the power supply detection circuit. If the power-off notice signal is detected, the process proceeds to step S100-3. If the power-off notice signal is not detected, the process proceeds to step S100-7.

(Step S100-7)
The main CPU 300a determines whether or not the wait time set in step S100-3 has elapsed. As a result, if it is determined that the wait time has elapsed, the process proceeds to step S100-9. If it is determined that the wait time has not elapsed, the process proceeds to step S100-5.

(Step S100-9)
The main CPU 300a executes processing necessary for permitting access to the main RAM 300c.

(Step S100-11)
The main CPU 300a determines whether or not the RAM clear flag is on. A RAM clear button (not shown) is provided on the back of the game board 108, and when the RAM clear button is pressed, the RAM clear detection switch detects the pressing operation of the RAM clear button, and the main control is performed. A RAM clear signal is output to the substrate 300. When the power is turned on while the RAM clear button is pressed, a RAM clear signal is input and the RAM clear flag is turned on. If it is determined that the RAM clear flag is on, the process proceeds to step S100-13. If it is determined that the RAM clear flag is not on, the process proceeds to step S100-19.

(Step S100-13)
The main CPU 300a performs an initialization process in the main RAM 300c to clear data to be cleared when the power is turned on (at the time of resetting the main RAM 300c).

(Step S100-15)
The main CPU 300a performs transmission processing (stores the command in a transmission buffer) of a subcommand (RAM clear designation command) for transmitting to the sub-control board 330 that the main RAM 300c has been cleared.

(Step S100-17)
The main CPU 300a performs a transmission process (stores the command in a transmission buffer) of a payout command (RAM clear designation command) for transmitting to the payout control board 310 that the main RAM 300c has been cleared.

(Step S100-19)
The main CPU 300a executes processing necessary for calculating the checksum.

(Step S100-21)
The main CPU 300a determines whether the checksum calculated in step S100-19 does not match the checksum stored when the power is turned off. As a result, when it is determined that the two do not match, the process proceeds to step S100-13, and when it is determined that the two do not match (match), the process proceeds to step S100-23.

(Step S100-23)
The main CPU 300a performs an initialization process of clearing data to be cleared of the main RAM 300c when the power is restored (when the data before power is turned off without maintaining the main RAM 300c).

(Step S100-25)
The main CPU 300a performs a transmission process (stores the command in a transmission buffer) of a subcommand (power recovery designation command) for transmitting to the sub-control board 330 that the power has been restored from the power-off.

(Step S100-27)
The main CPU 300a performs a transmission process (a command is stored in a transmission buffer) of a payout command (power return designation command) for transmitting to the payout control board 310 that the power supply has been recovered from the power-off.

(Step S100-29)
The main CPU 300a includes a special symbol type designation command at power-on indicating a special symbol type, a special 1 hold designation command indicating a special 1 hold number (X1), a special 2 hold designation command indicating a special 2 hold number (X2), Power-on subcommand for transmitting to the sub-control board 330 a command required to produce an initial state when the power is turned on, such as a special symbol winning order command indicating the stored special order 1 and special 2 winning orders. Executes the set process (stores the command in the transmission buffer).

(Step S100-31)
The main CPU 300a sets a timer interrupt cycle.

(Step S100-33)
The main CPU 300a performs processing for prohibiting interruption.

(Step S100-35)
The main CPU 300a 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 is rounded from the initial value updating random number for the winning symbol random number to the initial value updating random number -1 for the winning symbol random number by the update process of the winning symbol random number described later, It will be updated to the initial value update random number for winning design random numbers.

(Step S100-37)
The main CPU 300a analyzes the received data (main command) received from the payout control board 310 and executes various processes according to the received data.

(Step S100-39)
The main CPU 300 a performs processing for transmitting the subcommand stored in the transmission buffer to the sub-control board 330.

(Step S100-41)
The main CPU 300a performs processing for permitting an interrupt.

(Step S100-43)
The main CPU 300a updates the reach group determination random number, the reach mode determination random number, and the variation pattern random number, and thereafter repeats the processing from step S100-33. Hereinafter, the reach group determination random number, the reach mode determination random number, and the variation pattern random number for determining the variation effect pattern are collectively referred to as a variation effect random number.

  Next, interrupt processing in the main control board 300 will be described. Here, the power-off saving process (XINT interrupt process) and the timer interrupt process will be described.

(Evacuation processing when the main control board 300 is powered off (XINT interrupt processing))
FIG. 15 is a flowchart for explaining the power-off saving process (XINT interrupt process) in the main control board 300. The main CPU 300a monitors the power-off detection circuit. When the power-supply voltage becomes equal to or lower than a predetermined value, the main CPU 300a interrupts the CPU initialization process during the interrupt permission period (between the processes of steps S100-41 and S100-33). Execute save processing when the power is turned off.

(Step S300-1)
When the power-off notice signal is input, the main CPU 300a saves the register.

(Step S300-3)
The main CPU 300a checks the power-off notice signal.

(Step S300-5)
The main CPU 300a determines whether a power-off notice signal is detected. As a result, if it is determined that the power-off notice signal is detected, the process proceeds to step S300-11. If it is determined that the power-off notice signal is not detected, the process proceeds to step S300-7. .

(Step S300-7)
The main CPU 300a restores the register.

(Step S300-9)
The main CPU 300a performs a process for permitting an interrupt, and ends the save process when the power is turned off.

(Step S300-11)
The main CPU 300a executes output port clear processing for stopping output of the output port.

(Step S300-13)
The main CPU 300a executes a checksum setting process for calculating and storing the checksum.

(Step S300-15)
The main CPU 300a executes a RAM protect setting process necessary for prohibiting access to the main RAM 300c.

(Step S300-17)
The main CPU 300a sets a predetermined power-off detection signal detection count to the counter value of the loop counter in order to set the power-off occurrence monitoring time.

(Step S300-19)
The main CPU 300a checks the power-off notice signal.

(Step S300-21)
The main CPU 300a determines whether a power-off notice signal is detected. As a result, if it is determined that the power-off notice signal is detected, the process proceeds to step S300-17. If it is determined that the power-off notice signal is not detected, the process proceeds to step S300-23. .

(Step S300-23)
The main CPU 300a subtracts 1 from the value of the loop counter set in step S300-17.

(Step S300-25)
The main CPU 300a determines whether the counter value of the loop counter is not zero. As a result, if it is determined that the counter value is not 0, the process proceeds to step S300-19, and if it is determined that the counter value is 0, the process proceeds to the CPU initialization process (step S100).

  Note that when the power is actually cut off, the operation of the gaming machine 100 is stopped while the steps S300-17 to S300-25 are looped.

(Timer interrupt processing of main control board 300)
FIG. 16 is a flowchart for explaining timer interrupt processing in the main control board 300. The main control board 300 is provided with a reset clock pulse generation circuit that generates a clock pulse every predetermined cycle (in this embodiment, 4 milliseconds, hereinafter referred to as “4 ms”). When a clock pulse is generated by the reset clock pulse generation circuit, the CPU initialization process (step S100) is interrupted, and the following timer interrupt process is executed.

(Step S400-1)
The main CPU 300a saves the register.

(Step S400-3)
The main CPU 300a performs processing for permitting an interrupt.

(Step S400-5)
The main CPU 300a outputs the common data set in the common output buffer to the output port, and the first special symbol display 160, the second special symbol display 162, the first special symbol hold display 164, and the second special symbol hold. A dynamic port output process for controlling lighting of the display unit 166, the normal symbol display unit 168, the normal symbol hold display unit 170, and the right-handed notification display unit 172 is executed.

(Step S400-7)
The main CPU 300a reads various input port information and executes port input processing for accurately acquiring the latest switch state.

(Step S400-9)
The main CPU 300a performs timer update processing for updating various timer counters. Here, unless otherwise specified, the various timer counters are subtracted every time the timer interrupt processing of the main control board 300 is performed, and when the timer counter becomes 0, the subtraction is stopped.

(Step S400-11)
The main CPU 300a executes the update process of the initial value update random number for the winning symbol random number as in step S100-35.

(Step S400-13)
The main CPU 300a performs a process of updating the winning symbol 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 this embodiment, the jackpot determined random number and the hit determined random number are hardware random numbers updated by a hardware random number generator built in the main control board 300. The hardware random number generator updates the jackpot determined random number and the winning determined random number according to a certain rule, and automatically changes the random number sequence every time the random number sequence completes a cycle and sets the start value at each system reset. It has changed.

(Step S500)
The main CPU 300a executes switch management processing for determining whether or not a signal is input from the first start port detection switch 120s, the second start port detection switch 122s, and the gate detection switch 124s. Details of this switch management processing will be described later.

(Step S600)
The main CPU 300a executes a special game management process for controlling the progress of the special game. The details of the special game management process will be described later.

(Step S700)
The main CPU 300a executes a normal game management process for controlling the progress of the above-described normal game. The details of this normal game management process will be described later.

(Step S400-15)
The main CPU 300a executes error management processing for determining various errors and making settings according to the error determination results.

(Step S400-17)
The main CPU 300a checks the general winning opening detection switch 118s, the first starting opening detection switch 120s, the second starting opening detection switch 122s, and the big winning opening detection switch 128s, and adds the corresponding winning ball control counter and the like. Winning prize switch processing is executed.

(Step S400-19)
The main CPU 300a executes payout control management processing for creating and transmitting payout commands based on the counter value of the prize ball control counter set in step S400-17.

(Step S400-21)
The main CPU 300a executes external information management processing for setting output data for external information output from the game information output terminal board 312 to the outside.

(Step S400-23)
The main CPU 300a includes a first special symbol display 160, a second special symbol display 162, a first special symbol hold display 164, a second special symbol hold display 166, a normal symbol display 168, and a normal symbol hold display 170. Then, LED display setting processing is performed for setting common data for controlling lighting of various indicators (LEDs) such as the right-handed notification indicator 172 to the common output buffer.

(Step S400-25)
The main CPU 300a synthesizes the solenoid output images of the ordinary electric accessory solenoid 122c and the special prize opening solenoid 128c, and executes a solenoid output image composition process for storing in the output port buffer.

(Step S400-27)
The main CPU 300a executes port output processing for outputting the value of the common output buffer stored in each output port buffer to the output port.

(Step S400-29)
The main CPU 300a restores the register and ends the timer interrupt process.

  Hereinafter, the switch management process in step S500, the special game management process in step S600, and the normal game management process in step S700 among the timer interrupt processes described above will be described in detail.

  FIG. 17 is a flowchart for explaining switch management processing (step S500) in the main control board 300.

(Step S500-1)
The main CPU 300a determines whether the gate detection switch is on, that is, whether the game ball has passed through the gate 124 and the detection signal from the gate detection switch 124s has been turned on. As a result, if it is determined that the gate detection switch-on is detected, the process proceeds to step S510. If it is determined that the gate detection switch-on is not detected, the process proceeds to step S500-3.

(Step S510)
The main CPU 300a executes a gate passage process based on the passage of the game ball to the gate 124. The details of the gate passing process will be described later.

(Step S500-3)
The main CPU 300a determines whether the first start port detection switch-on is detected, that is, whether a game ball has entered the first start port 120 and a detection signal has been input from the first start port detection switch 120s. As a result, if it is determined that the first start port detection switch-on is detected, the process proceeds to step S520. If it is determined that the first start port detection switch-on is not detected, the process proceeds to step S500-5. Move.

(Step S520)
The main CPU 300a executes a first start port passing process based on the game ball entering the first start port 120. The details of the first start port passage process will be described later.

(Step S500-5)
The main CPU 300a determines whether the second start port detection switch-on is detected, that is, whether a game ball has entered the second start port 122 and a detection signal is input from the second start port detection switch 122s. As a result, if it is determined that the second start port detection switch-on is detected, the process proceeds to step S530. If it is determined that the second start port detection switch-on is not detected, the process proceeds to step S500-7. Move.

(Step S530)
The main CPU 300a executes a second start port passing process based on the game ball entering the second start port 122. The details of the second start port passage process will be described later.

(Step S500-7)
The main CPU 300a determines whether or not a special winning opening detection switch is ON, that is, whether or not a game ball has entered the special winning opening 128 and a detection signal is input from the large winning opening detection switch 128s. As a result, if it is determined that the big winning opening detection switch on is detected, the process proceeds to step S500-9. If it is determined that the big winning opening detection switch on is not detected, the switch management process is terminated. To do.

(Step S500-9)
The main CPU 300a determines whether or not a big game is currently being played, and determines whether or not the game ball is properly entered into the grand prize winning opening 128. Here, if it is determined that the game is not in the big game, a predetermined fraud detection process is executed, and if it is determined that the game is in the big game and the game ball is properly entered into the big prize opening 128. Adds 1 to the winning prize winning ball counter, and ends the switch management process (step S500).

  FIG. 18 is a flowchart for explaining the gate passing process (step S510) in the main control board 300.

(Step S510-1)
The main CPU 300a loads the winning random number updated by the hardware random number generator.

(Step S510-3)
The main CPU 300a determines whether the counter value of the normal symbol reserved ball number counter is greater than or equal to the maximum value, that is, whether the counter value of the normal symbol reserved ball number counter is 4 or greater. As a result, when it is determined that the counter value of the normal symbol reserved ball number counter is equal to or greater than the maximum value, the gate passing process is terminated, and when it is determined that the normal symbol reserved ball number counter is not equal to or greater than the maximum value. The process moves to step S510-5.

(Step S510-5)
The main CPU 300a updates the counter value of the normal symbol reserved ball number counter to a value obtained by adding “1” to the current counter value.

(Step S510-7)
The main CPU 300a calculates a target storage unit that is a target to save the acquired hit-determined random number, among the four storage units in the usual map storage area.

(Step S510-9)
The main CPU 300a saves the winning random number acquired in step S510-1 in the target storage unit calculated in step S510-7.

(Step S510-11)
The main CPU 300a sets a general map hold designation command indicating the number of general map holds stored in the normal map storage area in the transmission buffer, and ends the gate passing process.

  FIG. 19 is a flowchart illustrating the first start port passage process (step S520) in the main control board 300.

(Step S520-1)
The main CPU 300a sets “00H” as the special symbol identification value. The special symbol identification value is used to identify whether the reservation type is special 1 reservation or special 2 reservation. The special symbol identification value (00H) indicates special 1 reservation, and the special symbol identification value ( 01H) indicates special 2 suspension.

(Step S520-3)
The main CPU 300a sets the address of the special symbol 1 reserved ball number counter.

(Step S535)
The main CPU 300a executes a special symbol random number acquisition process and ends the first start port passage process. The special symbol random number acquisition process is executed using a module common to the second start port passage process (step S530). Therefore, the details of the special symbol random number acquisition process will be described after the description of the second start port passage process.

  FIG. 20 is a flowchart for explaining the second start port passage process (step S530) in the main control board 300.

(Step S530-1)
The main CPU 300a sets “01H” as the special symbol identification value.

(Step S530-3)
The main CPU 300a sets the address of the special symbol 2 reserved ball number counter.

(Step S535)
The main CPU 300a executes a special symbol random number acquisition process described later.

(Step S530-5)
The main CPU 300a loads the normal game management phase. As will be described in detail later, the normal game management phase indicates the stage of the normal game execution process, that is, the progress of the normal game, and is updated according to the stage of the normal game execution process.

(Step S530-7)
The main CPU 300a determines whether or not the normal game management phase loaded in step S530-5 is “04H”. It should be noted that “04H” in the normal game management phase indicates that the normal electric accessory winning prize opening control process is being performed. In the ordinary electric accessory winning opening opening control process, the ordinary electric accessory solenoid 122c is energized and the movable piece 122b of the second starting opening 122 is controlled to be in the open state. Will be in a state that can be properly opened. As a result, when it is determined that the normal game management phase is not “04H”, the second start port passing process is terminated, and when it is determined that the normal game management phase is “04H”, step S530-9. Move processing to.

(Step S530-9)
The main CPU 300a updates the counter value of the ordinary electric accessory winning ball counter to a value obtained by adding “1” to the current counter value, and ends the second start port passing process.

  FIG. 21 is a flowchart for explaining the special symbol random number acquisition process (step S535) in the main control board 300. This special symbol random number acquisition process is executed using a common module in the first start port passage process (step S520) and the second start port passage process (step S530).

(Step S535-1)
The main CPU 300a loads the special symbol identification value set in step S520-1 or step S530-1.

(Step S535-3)
The main CPU 300a loads the target special symbol reservation number of balls. Here, if the special symbol identification value loaded in step S535-1 is “00H”, the counter value of the special symbol 1 reserved ball number counter, that is, the special 1 reserved number is loaded. If the special symbol identification value loaded in step S535-1 is “01H”, the counter value of the special symbol 2 reserved ball number counter, that is, the special 2 reserved number is loaded.

(Step S535-5)
The main CPU 300a loads the jackpot determination random number updated by the hardware random number generation unit.

(Step S535-7)
The main CPU 300a determines whether or not the number of target special symbol reservation balls loaded in step S535-3 is equal to or greater than the upper limit value. As a result, when it is determined that the value is equal to or greater than the upper limit value, the process proceeds to step S535-23, and when it is determined that the value is not equal to or greater than the upper limit value, the process proceeds to step S535-9.

(Step S535-9)
The main CPU 300a updates the counter value of the target special symbol reserved ball number counter to a value obtained by adding “1” to the current counter value.

(Step S535-11)
The main CPU 300a calculates a target storage unit that is a target for saving the acquired jackpot determination random number among the storage units of the special figure reservation storage area.

(Step S535-13)
The main CPU 300a receives the jackpot determined random number loaded in step S535-5, the winning symbol random number updated in step S400-13, the reach group determined random number updated in step S100-43, the reach mode determined random number, and the variation pattern A random number is acquired and stored in the target storage unit calculated in step S535-11.

(Step S535-15)
The main CPU 300a performs special symbol reservation ball winning order setting processing for updating and storing the winning order of special 1 holding and special 2 holding stored in the special figure storage area.

(Step S536)
The main CPU 300a executes the effect determination process at the time of acquisition based on various random numbers stored in the target storage unit in step S535-13. Details of the acquisition effect determination process will be described later.

(Step S535-17)
The main CPU 300a loads the counter values of the special symbol 1 reserved ball number counter and the special symbol 2 reserved ball number counter.

(Step S535-19)
The main CPU 300a sets a special figure hold designation command in the transmission buffer based on the counter value loaded in step S535-17. Here, a special figure 1 hold designation command is set based on the counter value (special 1 hold number) of the special symbol 1 reserved ball number counter, and based on the counter value (special 2 hold number) of the special symbol 2 reserved ball number counter. The special figure 2 hold designation command is set. As a result, each time the special 1 hold or special 2 hold is stored, the special 1 hold number and the special 2 hold number are transmitted to the sub-control board 330.

(Step S535-21)
The main CPU 300a sets a special symbol winning order command corresponding to the winning order of special 1 hold and special 2 hold stored in step S535-15 in the transmission buffer.

(Step S535-23)
The main CPU 300a loads the normal game management phase.

(Step S535-25)
The main CPU 300a confirms the ordinary game management phase loaded in step S535-23, and determines whether it is less than the ordinary electric accessory winning opening release control state (ordinary game management phase <04H) described later. As a result, if it is determined that it is less than the ordinary electric accessory winning opening opening control state, the process proceeds to step S535-27, and if it is determined that it is not less than the ordinary electric accessory winning opening opening control state, the special The symbol random number acquisition process is terminated.

(Step S535-27)
The main CPU 300a determines whether or not there has been an abnormal winning, and if it determines that there has been an abnormal winning, the main CPU 300a executes a starting port abnormal winning error process for performing a predetermined process, and the special symbol random number acquisition process (step S535) ) Ends.

  FIG. 22 is a flowchart for explaining the presentation effect determination process (step S536) in the main control board 300.

(Step S536-1)
The main CPU 300a resets (to 0) the counter value (j) of the probability state identification counter that identifies whether the game state is the low probability game state or the high probability game state. Note that a counter value (j) = 0 of the probability state identification counter indicates a low probability gaming state, and a counter value (j) = 1 indicates a high probability gaming state.

(Step S536-3)
The main CPU 300a selects the corresponding jackpot determination random number determination table based on the counter value (j) of the probability state identification counter. Specifically, if the counter value (j) is “0”, the low probability big hit determination random number determination table (see FIG. 4A) is selected, and if the counter value (j) is “1”. Then, a high probability big hit determination random number determination table (see FIG. 4B) is selected. Then, based on the selected table and the jackpot determination random number stored in the target storage unit in step S535-13, a special symbol temporary determination process is performed to temporarily determine whether the jackpot or the loss.

(Step S536-5)
The main CPU 300a executes a special symbol temporary determination process for temporarily determining a special symbol. Here, if the result of the temporary big role lottery in step S536-3 (result derived by the temporary determination process per special symbol) is a big win, the winning symbol stored in the target storage unit in the above step S535-13 The random number and the hold type are loaded, the corresponding winning symbol random number determination table (see FIG. 5) is selected, the special symbol determination data is extracted, and the extracted special symbol determination data (the type of jackpot symbol) is saved. If the result of the lottery of the temporary role of the above step S536-3 is a loss, the special symbol determination data for the lose corresponding to the holding type (the type of the lost symbol) is saved.

(Step S536-7)
The main CPU 300a sets a prefetch symbol type designation command (prefetch designation command) corresponding to the special symbol determination data saved in step S536-5 in the transmission buffer.

(Step S536-9)
The main CPU 300a determines whether or not the result derived by the special symbol per-temporary determination process in step S536-3 is a big hit. As a result, when it is determined that it is a big hit, the process proceeds to step S536-11, and when it is determined that it is not a big hit (is lost), the process is moved to step S536-13.

(Step S536-11)
The main CPU 300a sets the jackpot reach mode determination random number determination table (see FIG. 7B), and moves the process to step S536-21.

(Step S536-13)
The main CPU 300a loads the reach group determination random number stored in the target storage unit in step S535-13.

(Step S536-15)
The main CPU 300a determines whether or not the reach group determination random number loaded in step S536-13 is a fixed value (8500 or more). Here, the group type is determined with reference to the reach group determination random number determination table, and this reach group determination random number determination table is selected according to the stored number of holds. At this time, the reach group determination random number is acquired from the range of 0 to 10006, and if the reach group determination random number value is 8500 or more, the same reach group determination random number determination table is selected regardless of the number of holds, and the reach If the value of the group determination random number is less than 8500, a different reach group determination random number determination table is selected according to the number of holds. In the following, among reach group determined random numbers, values in the range of 0 to 8499 in which different reach group determined random number determination tables are selected depending on the number of holds are set as indefinite values, and the same reach group determined random number determination regardless of the number of holds A value in the range of 8500 to 10006 from which the table is selected is called a fixed value. If it is determined that the reach group determination random number loaded in step S536-13 is a fixed value (8500 or more), the process proceeds to step S536-17, and the reach group determination random number loaded in step S536-13 is fixed. If it is determined that the value is not 8500 or more, the process proceeds to step S536-29.

(Step S536-17)
The main CPU 300a sets the corresponding reach group determination random number determination table (see FIG. 6) based on the counter value of the probability state identification counter and the hold type. Note that a plurality of types of reach group determination random number determination tables are provided according to the number of holds, but here, a table used when the number of holds is 0 is selected. Then, a reach group (group type) is provisionally determined based on the set reach group determination random number determination table and the reach group determination random number stored in the target storage unit in step S535-13.

(Step S536-19)
The main CPU 300a sets a lost reach mode determination random number determination table (see FIG. 7A) corresponding to the group type temporarily determined in step S536-17, and moves the process to step S536-21.

(Step S536-21)
The main CPU 300a determines the change mode number based on the reach mode determination random number determination table set in step S536-11 or step S536-19 and the reach mode determination random number stored in the target storage unit in step S535-13. Is temporarily determined. Here, the variation pattern random number determination table is provisionally determined together with the variation mode number.

(Step S536-23)
The main CPU 300a sets a prefetch designation variation mode command (prefetch designation command) corresponding to the variation mode number temporarily determined in step S536-21 in the transmission buffer.

(Step S536-25)
The main CPU 300a provisionally determines the variation pattern number based on the variation pattern random number determination table provisionally determined in step S536-21 and the variation pattern random number stored in the target storage unit in step S535-13.

(Step S536-27)
The main CPU 300a sets a prefetch designation variation pattern command (prefetch designation command) corresponding to the variation pattern number tentatively determined in step S536-25 in the transmission buffer, and proceeds to step S536-31.

(Step S536-29)
For the hold newly stored in the target storage unit, the main CPU 300a determines the group type, that is, the indefinite value command (prefetching) indicating that the variation effect pattern changes according to the number of hold when the hold is read. The designated variation mode command and the prefetch designated variation pattern command = 7FH) are set in the transmission buffer.

(Step S536-31)
The main CPU 300a determines whether the counter value (j) of the probability state identification counter is maximum (1). If it is determined to be maximum, the main CPU 300a ends the acquisition effect determination process and determines that it is not maximum. If so, the process moves to step S536-33.

(Step S536-33)
The main CPU 300a updates the counter value (j) of the probability state identification counter to a value obtained by adding “1” to the current counter value (j), and repeats the processing from step S536-3. As a result, when the newly stored hold is read when in the low probability gaming state, the variation mode number and the variation pattern number determined when being read out in the low probability gaming state The variation mode number and the variation pattern number determined in the above are derived when the suspension is stored.

  As described above, according to the above-described effect determination process at the time of acquisition, when the stored hold is a hold that wins a jackpot, and the stored hold is a hold that is lost, and the reach group is determined. When the random number is a fixed value, a prefetch designation variation mode command and a prefetch designation variation pattern command are transmitted to the sub-control board 330 as a prefetch designation command. On the other hand, if the stored hold is a hold that is lost, and the reach group determination random number is an indefinite value, an indefinite value command is transmitted to the sub-control board 330 as a prefetch designation command. Each of the prefetch designation commands described above is configured such that a command for a low probability gaming state and a command for a high probability gaming state can be distinguished from each other.

  FIG. 23 is a diagram for explaining the special game management phase. As already described, in the present embodiment, a special game triggered by a game ball entering the first start port 120 or the second start port 122 and a normal game triggered by the passage of the game ball to the gate 124. And proceed in parallel. The process related to the special game is executed stepwise and repeatedly, but the main control board 300 manages each process related to the special game in the special game management phase.

  As shown in FIG. 23, the main ROM 300b stores a plurality of special game control modules for executing and controlling special games, and a special game management phase is associated with each special game control module. . Specifically, when the special game management phase is “00H”, a module for executing the “special symbol variation waiting process” is called, and when the special game management phase is “01H”, When the module for executing “special symbol variation processing” is called and the special game management phase is “02H”, the module for executing “special symbol stop symbol display processing” is called and special When the game management phase is “03H”, the module for executing the “pre-opening process for big prize opening” is called, and when the special game management phase is “04H”, “opening the big prize opening" When the module for executing the “control process” is called and the special game management phase is “05H”, the module for executing the “big winning opening closing effective process” is executed. Le is called, when the special game management phase is "06H", the modules for performing the "big winning opening ends wait process" is called.

  FIG. 24 is a flowchart for explaining the special game management process (step S600) in the main control board 300.

(Step S600-1)
The main CPU 300a loads the special game management phase.

(Step S600-3)
The main CPU 300a selects a special game control module corresponding to the special game management phase loaded in step S600-1.

(Step S600-5)
The main CPU 300a calls the special game control module selected in step S600-3 and starts processing.

(Step S600-7)
The main CPU 300a loads a special game timer for managing the control time of the special game, and ends the special game management process.

  FIG. 25 is a flowchart for explaining special symbol variation waiting processing in the main control board 300. This special symbol variation waiting process is executed when the special game management phase is “00H”.

(Step S610-1)
The main CPU 300a determines whether the counter value of the special symbol 2 reserved ball number counter, that is, the special 2 reserved number (X2) is “1” or more. As a result, when it is determined that the special 2 hold number (X2) is “1” or more, the process proceeds to step S610-7, and when the special 2 hold number (X2) is determined not to be “1” or more. In step S610-3, the processing is transferred.

(Step S610-3)
The main CPU 300a determines whether the counter value of the special symbol 1 reserved ball number counter, that is, the special 1 reserved number (X1) is “1” or more. As a result, if it is determined that the number of special 1 holds (X1) is “1” or more, the process proceeds to step S610-7, and the number of special 1 holds (X1) is determined not to be “1” or more. In step S610-5, the process proceeds to step S610-5.

(Step S610-5)
The main CPU 300a sets a customer waiting command in the transmission buffer, executes a customer waiting setting process for setting the customer waiting state, and ends the special symbol fluctuation waiting process.

(Step S610-7)
The main CPU 300a stores the special 2 reservation stored in the first storage unit to the fourth storage unit of the second special figure storage area, or the first storage unit to the fourth storage unit of the first special figure storage area. The stored special 1 hold is block-transferred to a storage unit having a small ordinal number. Specifically, when it is determined in step S610-1 that the number of special symbol 2 reserved balls is “1” or more, the second to fourth storage units of the second special diagram reservation storage area are stored. The stored special 2 hold is transferred to the first storage unit to the third storage unit. The main RAM 300c is provided with a 0th storage unit to be processed, and the special 2 hold stored in the first storage unit is block-transferred to the 0th storage unit. In Step S610-3, when it is determined that the number of special symbol 1 reserved balls is “1” or more, the number is stored in the second storage unit to the fourth storage unit of the first special diagram storage area. The special 1 hold is transferred to the first storage unit to the third storage unit, and the special 1 hold stored in the first storage unit is block-transferred to the 0th storage unit. In this special symbol storage area shift process, the counter value of the target special symbol reservation ball number counter corresponding to the hold type transferred to the 0th storage unit is decremented by “1”, and the special 1 hold or special 2 hold is subtracted. Is set in the transmission buffer, indicating that “1” has been subtracted.

(Step S610-9)
The main CPU 300a loads the jackpot decision random number transferred to the 0th storage unit, the hold type, a special symbol probability state flag identifying whether the game state is a high probability game state or a low probability game state, and the corresponding jackpot decision random number A determination table is selected to perform a lottery lottery, and a special symbol determination process for storing the lottery result is executed.

(Step S610-11)
The main CPU 300a executes a special symbol determination process for determining a special symbol. Here, if the result of the big lottery in step S610-9 is a big hit, the winning symbol random number and the hold type transferred to the 0th storage unit are loaded, and the corresponding winning symbol random number determination table is selected. The special symbol determination data is extracted, and the extracted special symbol determination data (type of jackpot symbol) is saved. Also, if the result of the lottery lottery in step S610-9 is a loss, the special symbol determination data for the loss corresponding to the holding type (the type of the lost symbol) is saved. When the special symbol determination data is saved in this way, a symbol type designation command corresponding to the special symbol determination data is set in the transmission buffer.

(Step S610-13)
The main CPU 300a saves the special symbol stop symbol number corresponding to the special symbol determination data extracted in step S610-11. The first special symbol display 160 and the second special symbol display 162 are each composed of 7 segments, and each segment constituting the 7 segments is associated with a number (counter value). The special symbol stop symbol number determined here indicates the number (counter value) of the segment that is finally turned on.

(Step S612)
The main CPU 300a executes special symbol variation number determination processing for determining the variation mode number and the variation pattern number. Details of this special symbol variation number determination process will be described later.

(Step S610-15)
The main CPU 300a loads the variation mode number and the variation pattern number determined in step S612 and determines the variation time 1 and the variation time 2 with reference to the variation time determination table. Then, the determined total time of the fluctuation times 1 and 2 is set in the special symbol fluctuation timer.

(Step S610-17)
The main CPU 300a determines whether or not the result of the big game lottery in step S610-9 is a big win, and if it is a big win, loads the special symbol determination data saved in step S610-11, Check the type of jackpot symbol. Then, with reference to the gaming state setting table, the gaming state and the high probability count set after the end of the big game are determined, and the determination result is saved in the special symbol probability state preliminary flag and the high probability count cut preliminary counter. Also, here, the gaming state set at the time of winning the jackpot is stored.

(Step S610-19)
The main CPU 300a executes a process of setting a special symbol display symbol counter in the first special symbol display device 160 or the second special symbol display device 162 in order to start the special symbol variation display. Each segment of 7 segments constituting the first special symbol display 160 and the second special symbol display 162 is associated with a counter value, and a segment corresponding to the counter value set in the special symbol display symbol counter is displayed. Lighting control is performed. Here, the counter value corresponding to the segment to be lit at the start of the special symbol variation display is set in the special symbol display symbol counter. The special symbol display symbol counter is provided with a special symbol 1 display symbol counter corresponding to the first special symbol indicator 160 and a special symbol 2 display symbol counter corresponding to the second special symbol indicator 162 separately. Here, the counter value is set in the counter corresponding to the hold type.

(Step S610-21)
The main CPU 300a loads the counter values of the special symbol 1 reserved ball number counter and the special symbol 2 reserved ball number counter, and sets a special symbol hold designation command in the transmission buffer. Here, a special figure 1 hold designation command is set based on the counter value (special 1 hold number) of the special symbol 1 reserved ball number counter, and based on the counter value (special 2 hold number) of the special symbol 2 reserved ball number counter. The special figure 2 hold designation command is set. Further, here, the special symbol winning order command corresponding to the winning order of the special 1 hold and special 2 hold stored in step S610-7 is set in the transmission buffer. As a result, each time the special 1 hold or special 2 hold is consumed, the special 1 hold number and the special 2 hold number, and the winning order of each hold are transmitted to the sub-control board 330.

(Step S610-23)
The main CPU 300a updates the special game management phase to “01H” and ends the special symbol variation waiting process.

  FIG. 26 is a flowchart for explaining the special symbol variation number determination process in the main control board 300.

(Step S612-1)
The main CPU 300a determines whether or not the result of the big game lottery in step S610-9 is a big hit. As a result, when it is determined that it is a big hit, the process proceeds to step S612-3, and when it is determined that it is not a big hit (is lost), the process is moved to step S612-5.

(Step S612-3)
The main CPU 300a sets a jackpot hour reach mode determination random number determination table corresponding to the current fluctuation state, jackpot symbol type, and hold type.

(Step S612-5)
The main CPU 300a checks the counter value of the special symbol 2 held ball number counter when the read hold type is special 2 hold, and if the read hold type is special 1 hold, Check the counter value of the special symbol 1 reserved ball counter.

(Step S612-7)
The main CPU 300a sets the corresponding reach group determination random number determination table based on the current fluctuation state, the number of holds confirmed in step S612-5 and the type of hold. Then, the reach group (group type) is determined based on the set reach group determination random number determination table and the reach group determination random number transferred to the 0th storage unit in step S610-7.

(Step S612-9)
The main CPU 300a sets the lost reach mode determination random number determination table corresponding to the group type determined in step S612-7.

(Step S612-11)
Based on the reach mode determination random number determination table set in step S612-3 or step S612-9 and the reach mode determination random number transferred to the 0th storage unit in step S610-7, the main CPU 300a changes the variable mode. Determine the number. Here, the variation pattern random number determination table is determined together with the variation mode number.

(Step S612-13)
The main CPU 300a sets a variation mode command corresponding to the variation mode number determined in step S612-11 in the transmission buffer.

(Step S612-15)
The main CPU 300a determines the variation pattern number based on the variation pattern random number determination table determined in step S612-11 and the variation pattern random number transferred to the 0th storage unit in step S610-7.

(Step S612-17)
The main CPU 300a sets the variation pattern command corresponding to the variation pattern number determined in step S612-15 in the transmission buffer, and ends the special symbol variation number determination process.

  FIG. 27 is a flowchart for explaining the special symbol changing process in the main control board 300. This special symbol changing process is executed when the special game management phase is “01H”.

(Step S620-1)
The main CPU 300a executes processing for updating the special symbol variation base counter. In the special symbol fluctuation base counter, the counter value is set so as to make one round at a predetermined cycle (for example, 100 ms). Specifically, when the counter value of the special symbol variation base counter is “0”, a predetermined counter value (for example, 25) is set, and when the counter value is “1” or more, The counter value is updated to a value obtained by subtracting “1” from the current counter value.

(Step S620-3)
The main CPU 300a determines whether or not the counter value of the special symbol variation base counter updated in step S620-1 is “0”. As a result, when the counter value is “0”, the process proceeds to step S620-5, and when the counter value is not “0”, the process proceeds to step S620-9.

(Step S620-5)
The main CPU 300a performs a special symbol variation timer update process for subtracting a predetermined value from the timer value of the special symbol variation timer set in step S610-15.

(Step S620-7)
The main CPU 300a determines whether the timer value of the special symbol variation timer updated in step S620-5 is “0”. As a result, when the timer value is “0”, the process proceeds to step S620-15, and when the timer value is not “0”, the process proceeds to step S620-9.

(Step S620-9)
The main CPU 300a updates a special symbol display timer that measures the lighting time of each segment of the 7 segments constituting the first special symbol display device 160 and the second special symbol display device 162. Specifically, when the timer value of the special symbol display timer is “0”, a predetermined timer value is set, and when the timer value is “1” or more, the current timer value is determined. The timer value is updated to the value obtained by subtracting “1”.

(Step S620-11)
The main CPU 300a determines whether the timer value of the special symbol display timer is “0”. As a result, when it is determined that the timer value of the special symbol display timer is “0”, the process proceeds to step S620-13, and when it is determined that the timer value of the special symbol display timer is not “0”, The special symbol changing process is terminated.

(Step S620-13)
The main CPU 300a updates the counter value of the special symbol display symbol counter to be updated. Thereby, each segment which comprises 7 segments will be lighted sequentially every predetermined time.

(Step S620-15)
The main CPU 300a updates the special game management phase to “02H”.

(Step S620-17)
The main CPU 300a saves the special symbol stop symbol number (counter value) determined in step S610-13 in the target special symbol display symbol counter. As a result, the determined special symbol is stopped and displayed on the first special symbol display 160 or the second special symbol display 162.

(Step S620-19)
The main CPU 300a sets a special symbol stop designation command in the transmission buffer indicating that the special symbol is stopped and displayed on the first special symbol display 160 or the second special symbol display 162.

(Step S620-21)
The main CPU 300a sets a special symbol change stop time, which is a time for stopping and displaying the special symbol, to the special game timer, and ends the special symbol change process.

  FIG. 28 is a flowchart for explaining special symbol stop symbol display processing in the main control board 300. This special symbol stop symbol display process is executed when the special game management phase is “02H”.

(Step S630-1)
The main CPU 300a determines whether the timer value of the special game timer set in step S620-21 is not “0”. As a result, when it is determined that the timer value of the special game timer is not “0”, the special symbol stop symbol display process is terminated, and when it is determined that the timer value of the special game timer is “0”. The process moves to step S630-3.

(Step S630-3)
The main CPU 300a confirms the result of the big game lottery.

(Step S630-5)
The main CPU 300a determines whether the result of the big role lottery is a big hit. As a result, if it is determined that it is a big hit, the process proceeds to step S630-17, and if it is determined that it is not a big hit, the process moves to step S630-7.

(Step S630-7)
The main CPU 300a executes a cut-off management process. Here, the special symbol probability state flag is loaded to check whether the current gaming state is a low probability gaming state or a high probability gaming state. If the gaming state is a high probability gaming state, the counter value of the high-accuracy count cut counter is updated to a value obtained by subtracting “1” from the current counter value. In addition, when the counter value becomes “0” as a result of updating the high-accuracy number cut counter, a special symbol probability state flag corresponding to the low probability gaming state is set. As a result, in the high probability gaming state, the gaming state shifts to the low probability gaming state when the special symbol is determined a predetermined number of times without winning a jackpot.

  Also, here, a short state flag for identifying whether the gaming state is a non-short-time gaming state or a short-time gaming state is loaded, and the current gaming state is a non-short-time gaming state or a short-time gaming state. Check if it exists. If the gaming state is the short-time gaming state, the counter value of the short-time count cut counter is updated to a value obtained by subtracting “1” from the current counter value. If the counter value becomes “0” as a result of updating the time-shut down counter, the time-shut state flag corresponding to the non-time-short game state is set. As a result, in the short-time gaming state, the game state shifts to the non-short-time gaming state when the special symbol is determined a predetermined number of times without winning a jackpot.

(Step S630-9)
The main CPU 300a executes a variation state update process. Here, it is determined whether the fluctuation state is a special fluctuation state at present. When it is determined that the state is the special variation state, the counter value of the special variation number counter is checked to determine whether to switch from the special variation state to the normal variation state. As a result, when it is determined to switch to the normal variation state, that is, when it is determined that the variation display of the last special symbol in the special variation state is completed, the variation state identification flag is updated to the flag for the normal variation state. .

(Step S630-11)
The main CPU 300a sets a special state determination game state confirmation designation command indicating a game state when the special symbol is fixed in the transmission buffer.

(Step S630-13)
The main CPU 300a sets a frequency command for transmitting the high-accuracy count and the time-saving count updated in step S630-7 to the sub-control board 330 in the transmission buffer.

(Step S630-15)
The main CPU 300a updates the special game management phase to “00H” and ends the special symbol stop symbol display process. As a result, the special game management process based on the first hold is completed, and when the special 1 hold or the special 2 hold is stored, the process for starting the variable symbol display based on the next hold is performed. Will be.

(Step S630-17)
The main CPU 300a sets the data of the special electric accessory actuating ram set table according to the determined special symbol type.

(Step S630-19)
The main CPU 300a performs special electric accessory maximum operation number setting processing. Specifically, referring to the data set in step S630-17, a predetermined number (counter value corresponding to the type of special symbol = number of rounds) is set as the counter value in the special electric accessory maximum operation number counter. . The special electric accessory maximum operation number counter indicates the number of rounds that can be executed in the big game starting from now. On the other hand, the main RAM 300c is provided with a special electric accessory continuous operation number counter, and by adding “1” to the counter value of the special electric accessory continuous operation number counter at the start of each round game, The number of round games is managed. Here, along with the start of the big game, a process of resetting (updating to “0”) the counter value of the special electric accessory continuous operation number counter is executed.

(Step S630-21)
The main CPU 300a refers to the data set in step S630-17 and saves a predetermined opening time as a timer value in the special game timer.

(Step S630-23)
The main CPU 300a sets an opening designation command for transmitting the start of the big game to the sub control board 330 in the transmission buffer.

(Step S630-25)
The main CPU 300a updates the special game management phase to “03H” and ends the special symbol stop symbol display process. As a result, the big game is started.

  FIG. 29 is a flowchart illustrating the pre-opening process for the special winning opening on the main control board 300. This pre-opening process for the big prize opening is executed when the special game management phase is “03H”.

(Step S640-1)
The main CPU 300a determines whether the timer value of the special game timer set in step S630-21 is “0”. As a result, when it is determined that the timer value of the special game timer is not “0”, the pre-opening process for the big prize opening is terminated, and when it is determined that the timer value of the special game timer is “0”. The process moves to step S640-3.

(Step S640-3)
The main CPU 300a updates the counter value of the special electric accessory continuous operation number counter to a value obtained by adding “1” to the current counter value.

(Step S640-5)
The main CPU 300a sets a large winning opening opening designation command for transmitting the opening start of the large winning opening 128 (start of the round game) to the sub-control board 330 in the transmission buffer.

(Step S641)
The main CPU 300a executes a special winning opening / closing switching process. The big prize opening / closing switching process will be described later.

(Step S640-7)
The main CPU 300a updates the special game management phase to “04H” and ends the pre-opening process for the special winning opening.

  FIG. 30 is a flowchart for explaining the special winning opening opening / closing switching process in the main control board 300.

(Step S641-1)
The main CPU 300a determines whether or not the counter value of the special electric accessory opening / closing switching count counter is the upper limit value of the special electric accessory opening / closing switching count (the number of opening / closing of the big prize opening 128 during one round game). As a result, when it is determined that the counter value is the upper limit value, the special winning opening opening / closing switching process is terminated, and when it is determined that the counter value is not the upper limit value, the process proceeds to step S641-3.

(Step S641-3)
The main CPU 300a refers to the data of the special electric accessory actuating ram set table, and based on the counter value of the special electric accessory opening / closing switching frequency counter, solenoid control data for energizing and controlling the prize winning solenoid 128c, and Timer data that is the energization time or energization stop time of the big prize opening solenoid 128c is extracted.

(Step S641-5)
Based on the solenoid control data extracted in step S641-3, the main CPU 300a starts energization of the big prize opening solenoid 128c or energizes the big prize opening solenoid for stopping energization of the big prize opening solenoid 128c. Execute control processing. By executing this special winning opening solenoid energization control process, in step S400-25 and step S400-27, energization start or energization control of the special winning opening solenoid 128c is controlled.

(Step S641-7)
The main CPU 300a saves the timer value based on the timer data extracted in step S641-3 in the special game timer. Here, the timer value saved in the special game timer is the maximum opening time for one time of the big prize opening 128.

(Step S641-9)
The main CPU 300a determines whether or not the energization start state of the big prize opening solenoid 128c is in effect, that is, whether or not the control process for starting energization of the big prize opening solenoid 128c has been performed in step S641-5. As a result, if it is determined that the energization start state is set, the process proceeds to step S641-11. If it is determined that the energization start state is not set, the special winning opening opening / closing switching process is terminated.

(Step S641-11)
The main CPU 300a updates the counter value of the special electric accessory opening / closing switching counter to a value obtained by adding “1” to the current counter value, and ends the special winning opening opening / closing switching process.

  FIG. 31 is a flowchart for explaining a special winning opening opening control process in the main control board 300. This special winning opening opening control process is executed when the special game management phase is “04H”.

(Step S650-1)
The main CPU 300a determines whether or not the timer value of the special game timer saved in step S641-7 is “0”. As a result, when it is determined that the timer value of the special game timer is not “0”, the process proceeds to step S650-5, and when it is determined that the timer value of the special game timer is “0”, step S650 is performed. The process is moved to -3.

(Step S650-3)
The main CPU 300a determines whether or not the counter value of the special electric accessory opening / closing switching number counter is the upper limit value of the special electric accessory opening / closing switching number. As a result, when it is determined that the counter value is the upper limit value, the process proceeds to step S650-7, and when it is determined that the counter value is not the upper limit value, the process proceeds to step S641.

(Step S641)
If it is determined in step S650-3 that the counter value of the special electric accessory opening / closing switching counter is not the upper limit value of the special electric accessory opening / closing switching count, the main CPU 300a executes the process of step S641. To do.

(Step S650-5)
The main CPU 300a determines whether or not the counter value of the winning prize winning ball counter updated in step S500-9 has reached the specified number, that is, the maximum winning possible number in one round is given to the winning prize opening 128. It is determined whether or not the same number of game balls have entered. As a result, when it is determined that the prescribed number has not been reached, the special winning opening opening control process is terminated, and when it is determined that the prescribed number has been reached, the process proceeds to step S650-7.

(Step S650-7)
The main CPU 300a executes a special winning opening closing process necessary for stopping energization of the special winning opening solenoid 128c and closing the special winning opening 128. As a result, the special winning opening 128 is closed.

(Step S650-9)
The main CPU 300a saves the special winning timer closing effective time (interval time) in the special game timer.

(Step S650-11)
The main CPU 300a updates the special game management phase to “05H”.

(Step S650-13)
The main CPU 300a sets a special winning opening closing command indicating that the special winning opening 128 has been closed in the transmission buffer, and ends the special winning opening opening control process.

  FIG. 32 is a flowchart for explaining a special winning opening closing effective process in the main control board 300. This special winning opening closing effective process is executed when the special game management phase is “05H”.

(Step S660-1)
The main CPU 300a determines whether or not the timer value of the special game timer saved in step S650-9 is “0”. As a result, if it is determined that the timer value of the special game timer is not “0”, the special winning opening closing effective process is terminated, and if it is determined that the timer value of the special game timer is “0”, the step The processing is moved to S660-3.

(Step S660-3)
The main CPU 300a determines whether the counter value of the special electric accessory continuous operation number counter matches the counter value of the special electric accessory maximum operation number counter, that is, whether a preset number of round games have ended. . As a result, when it is determined that the counter value of the special electric accessory continuous operation number counter matches the counter value of the special electric accessory maximum operation number counter, the process proceeds to step S660-9, and it is determined that they do not match. In step S660-5, the process proceeds to step S660-5.

(Step S660-5)
The main CPU 300a updates the special game management phase to “03H”.

(Step S660-7)
The main CPU 300a saves a predetermined special winning opening closing time in the special game timer, and ends the special winning opening closing effective process. As a result, the next round game is started.

(Step S660-9)
The main CPU 300a executes an ending time setting process for saving the ending time in a special game timer.

(Step S660-11)
The main CPU 300a updates the special game management phase to “06H”.

(Step S660-13)
The main CPU 300a sets an ending designation command indicating the start of ending in the transmission buffer, and ends the special winning opening closing effective process.

  FIG. 33 is a flowchart for explaining the special winning opening end weight process in the main control board 300. This special winning end exit weight process is executed when the special game management phase is “06H”.

(Step S670-1)
The main CPU 300a determines whether the timer value of the special game timer saved in step S660-9 is not “0”. As a result, when it is determined that the timer value of the special game timer is not “0”, the special winning exit end wait process is terminated, and when it is determined that the timer value of the special game timer is “0”. The process moves to step S670-3.

(Step S670-3)
The main CPU 300a executes a state setting process for setting the gaming state after the end of the big game. Here, the special symbol probability state reserve flag and the highly probable number cut reserve counter saved in step S610-17 are loaded, and the state data is saved. Further, here, predetermined state data is saved in the time-short state flag and the time-short cut counter in accordance with the type of special symbol (big hit symbol). Furthermore, here, based on the jackpot symbol that triggered the execution of the big game and the game state before the big game (the game state at the time of winning the big game), the variation state after the end of the big game is set. In addition, when the fluctuation state is set to the special fluctuation state, information regarding how the special fluctuation state is switched is stored at the same time, and thereafter, based on the stored information, Switching processing is performed.

(Step S670-5)
The main CPU 300a sets a game state change designation command for transmitting a game state set after the end of the big game in the transmission buffer.

(Step S670-7)
The main CPU 300a sets a frequency command corresponding to the high-accuracy count and the short-time count saved in step S670-3 in the transmission buffer.

(Step S670-9)
The main CPU 300a updates the special game management phase to “00H”, and ends the special winning opening end weight process. Thereby, when the special 1 hold or the special 2 hold is stored, the variation display of the special symbol is resumed.

  FIG. 34 is a diagram for explaining the normal game management phase. As already described, in the present embodiment, the process related to the normal game triggered by the passage of the game ball to the gate 124 is repeatedly executed in stages, but the main control board 300 performs such a normal game. Each process related to is managed in the normal game management phase.

  As shown in FIG. 34, the main ROM 300b stores a plurality of normal game control modules for controlling execution of a normal game, and a normal game management phase is associated with each of the normal game control modules. . Specifically, when the normal game management phase is “00H”, a module for executing the “normal symbol variation waiting process” is called, and when the normal game management phase is “01H”, When the module for executing the “normal symbol changing process” is called and the normal game management phase is “02H”, the module for executing the “normal symbol stop symbol display process” is called and the normal game management phase is “02H”. When the game management phase is “03H”, a module for executing “ordinary electric accessory prize opening pre-processing” is called, and when the normal game management phase is “04H”, “normal When the module for executing “Electrical character prize winning opening control process” is called and the normal game management phase is “05H”, “Normal electric bonus prize opening closed” Modularized call for executing processing ", when ordinary game management phase is" 06H ", the modules for performing the" normal electric won game winning opening ends wait process "is called.

  FIG. 35 is a flowchart for explaining the normal game management process (step S700) in the main control board 300.

(Step S700-1)
The main CPU 300a loads the normal game management phase.

(Step S700-3)
The main CPU 300a selects the normal game control module corresponding to the normal game management phase loaded in step S700-1.

(Step S700-5)
The main CPU 300a calls the normal game control module selected in step S700-3 and starts processing.

(Step S700-7)
The main CPU 300a loads a normal game timer that manages the control time of the normal game.

  FIG. 36 is a flowchart for explaining the normal symbol variation waiting process in the main control board 300. This normal symbol variation waiting process is executed when the normal game management phase is “00H”.

(Step S710-1)
The main CPU 300a loads the counter value of the normal symbol holding ball number counter and determines whether the counter value is “0”, that is, whether the normal symbol holding is “0”. As a result, when it is determined that the counter value is “0”, the normal symbol variation waiting process is terminated, and when it is determined that the counter value is not “0”, the process proceeds to step S710-3.

(Step S710-3)
The main CPU 300a performs block transfer of the universal map hold (random number determined per hit) stored in the first storage unit to the fourth storage unit of the normal map storage area to the storage unit having a small ordinal number. Specifically, the general map hold stored in the second storage unit to the fourth storage unit is transferred to the first storage unit to the third storage unit. In addition, the main RAM 300c is provided with a 0th storage unit to be processed, and the normal hold stored in the first storage unit is transferred to the 0th storage unit. In this normal symbol storage area shift process, the counter value of the normal symbol holding ball number counter is decremented by “1”, and a universal symbol holding reduction designation command is transmitted to indicate that “1” is subtracted from the normal symbol holding ball number. Set to buffer.

(Step S710-5)
The main CPU 300a loads the winning random number transferred to the 0th storage unit, selects the winning determination random number determination table corresponding to the current gaming state, performs the normal drawing, and stores the lottery result. Execute the judgment process.

(Step S710-7)
The main CPU 300a saves the normal symbol stop symbol number corresponding to the result of the general symbol lottery in step S710-5. In the present embodiment, the normal symbol display unit 168 is configured by one LED lamp, and when the hit is made, the normal symbol display unit 168 is turned on, and when lost, the normal symbol display unit 168 is turned off. . The normal symbol stop symbol number determined here indicates whether or not the normal symbol indicator 168 is finally turned on. For example, when the winning symbol is won, “0” is set as the normal symbol stop symbol number. In the case of loss, “1” is determined as the normal symbol stop symbol number.

(Step S710-9)
The main CPU 300a confirms the current gaming state, selects and sets the corresponding normal symbol variation time data table.

(Step S710-11)
The main CPU 300a determines the normal symbol variation time based on the winning determination random number transferred to the 0th storage unit in step S710-3 and the normal symbol variation time data table set in step S710-9.

(Step S710-13)
The main CPU 300a saves the normal symbol variation time determined in step S710-11 in the normal game timer.

(Step S710-15)
In the normal symbol display 168, the main CPU 300a executes a process of setting a normal symbol display symbol counter in order to start the variation display of the normal symbol. For example, when “0” is set as the counter value in the normal symbol display symbol counter, the normal symbol display 168 is controlled to be lit. When the counter value is set to “1”, the normal symbol display is displayed. The device 168 is controlled to be turned off. Here, a predetermined counter value is set in the normal symbol display symbol counter at the start of the normal symbol variation display.

(Step S710-17)
The main CPU 300a sets a general map hold designation command indicating the number of general map holds stored in the general map hold storage area in the transmission buffer.

(Step S710-19)
The main CPU 300a transmits a normal symbol designation command based on the normal symbol stop symbol number determined in step S710-7, that is, based on the symbol type determined by the normal symbol hit determination process (winning symbol or lost symbol). Set to.

(Step S710-21)
The main CPU 300a updates the normal game management phase to “01H” and ends the normal symbol variation waiting process.

  FIG. 37 is a flowchart for explaining normal symbol variation processing in the main control board 300. This normal symbol variation processing is executed when the normal game management phase is “01H”.

(Step S720-1)
The main CPU 300a determines whether the timer value of the normal game timer saved in step S710-13 is “0”. As a result, if the timer value is “0”, the process proceeds to step S720-9. If the timer value is not “0”, the process proceeds to step S720-3.

(Step S720-3)
The main CPU 300a updates the normal symbol display timer for measuring the lighting time and the extinguishing time of the normal symbol display 168. Specifically, when the timer value of the normal symbol display timer is “0”, a predetermined timer value is set, and when the timer value is “1” or more, the current timer value is determined. The timer value is updated to the value obtained by subtracting “1”.

(Step S720-5)
The main CPU 300a determines whether the timer value of the normal symbol display timer is “0”. As a result, when it is determined that the timer value of the normal symbol display timer is “0”, the process proceeds to step S720-7, and when it is determined that the timer value of the normal symbol display timer is not “0”, The normal symbol changing process is terminated.

(Step S720-7)
The main CPU 300a updates the counter value of the normal symbol display symbol counter. Here, if the counter value of the normal symbol display symbol counter is a counter value indicating that the normal symbol display unit 168 is turned off, the counter value indicating that the normal symbol display unit 168 is turned on is updated. If it is, the counter value indicating extinguishing is updated, and the normal symbol changing process is terminated. As a result, the normal symbol display unit 168 repeatedly turns on and off (blinks) every predetermined time over the normal symbol variation time.

(Step S720-9)
The main CPU 300a saves the normal symbol stop symbol number (counter value) determined in step S710-7 in the normal symbol display symbol counter. As a result, the normal symbol display 168 is finally controlled to be turned on or off, and the result of the normal drawing lottery is notified.

(Step S720-11)
The main CPU 300a sets a normal symbol variation stop time, which is a time for stopping and displaying the normal symbol, in the normal game timer.

(Step S720-13)
The main CPU 300a sets a general symbol stop designation command in the transmission buffer indicating that the normal symbol stop display has started.

(Step S720-15)
The main CPU 300a updates the normal game management phase to “02H”, and ends the normal symbol changing process.

  FIG. 38 is a flowchart for explaining a normal symbol stop symbol display process in the main control board 300. This normal symbol stop symbol display process is executed when the normal game management phase is “02H”.

(Step S730-1)
The main CPU 300a determines whether the timer value of the normal game timer set in step S720-11 is not “0”. As a result, when it is determined that the timer value of the normal game timer is not “0”, the normal symbol stop symbol display process is terminated, and when it is determined that the timer value of the normal game timer is “0”. The process moves to step S730-3.

(Step S730-3)
The main CPU 300a confirms the result of the usual drawing lottery.

(Step S730-5)
The main CPU 300a determines whether or not the result of the usual drawing lottery is a win. As a result, if it is determined that it is a win, the process proceeds to step S730-9, and if it is determined that it is not a win (is lost), the process proceeds to step S730-7.

(Step S730-7)
The main CPU 300a updates the normal game management phase to “00H” and ends the normal symbol stop symbol display process. As a result, the normal game management process based on one general figure hold ends, and when the general figure hold is stored, the process for starting the variable symbol display based on the next hold is performed. It becomes.

(Step S730-9)
The main CPU 300a refers to the data of the open / close control pattern table, and saves the time before the general power release as the timer value in the normal game timer.

(Step S730-11)
The main CPU 300a updates the normal game management phase to “03H” and ends the normal symbol stop symbol display process. As a result, the opening / closing control of the second start port 122 is started.

  FIG. 39 is a flowchart for explaining the process for opening the ordinary electric accessory winning opening on the main control board 300. This process for pre-opening the ordinary electric accessory winning opening is executed when the ordinary game management phase is “03H”.

(Step S740-1)
The main CPU 300a determines whether the timer value of the normal game timer set in step S730-9 is “0”. As a result, when it is determined that the timer value of the normal game timer is not “0”, the process for pre-opening the normal electric game item winning opening is finished, and it is determined that the timer value of the normal game timer is “0”. In that case, the process proceeds to step S741.

(Step S741)
The main CPU 300a executes a normal electric accessory prize opening opening / closing switching process. The ordinary electric accessory winning opening opening / closing switching process will be described later.

(Step S740-3)
The main CPU 300a updates the normal game management phase to “04H”, and ends the process for opening the normal electric accessory prize opening.

  FIG. 40 is a flowchart for explaining the ordinary electric accessory prize opening opening / closing switching process in the main control board 300.

(Step S741-1)
In the main CPU 300a, the counter value of the ordinary electric accessory opening / closing switching count counter is the upper limit value of the ordinary electric accessory opening / closing switching count (the opening / closing count of the movable piece 122b of the second start port 122 during one opening / closing control). Determine whether. As a result, when it is determined that the counter value is the upper limit value, the ordinary electric accessory winning opening opening / closing switching process is terminated, and when it is determined that the counter value is not the upper limit value, the process proceeds to step S741-3. Move.

(Step S741-3)
The main CPU 300a refers to the data of the opening / closing control pattern table, and based on the counter value of the ordinary electric accessory opening / closing switching frequency counter, the solenoid control data (energization control data or energization control) for energization control of the ordinary electric accessory solenoid 122c. Stop control data), and timer data that is the energization time (solenoid energization time) or energization stop time (normal power closure effective time = rest time) of the ordinary electric accessory solenoid 122c.

(Step S741-5)
Based on the solenoid control data extracted in step S741-3, the main CPU 300a starts energization of the ordinary electric accessory solenoid 122c or stops ordinary energization of the ordinary electric accessory solenoid 122c. The object solenoid energization control process is executed. By executing the ordinary electric accessory solenoid energization control process, in step S400-25 and step S400-27, energization start or energization control of the ordinary electric accessory solenoid 122c is controlled.

(Step S741-7)
The main CPU 300a saves the timer value based on the timer data extracted in step S741-3 in the normal game timer. Here, the timer value saved in the normal game timer is one maximum opening time of the second start port 122.

(Step S741-9)
The main CPU 300a determines whether or not the normal electric accessory solenoid 122c is energized, that is, whether or not the control process for starting energization of the normal electric accessory solenoid 122c has been performed in step S741-5. As a result, when it determines with it being an energization start state, a process is moved to step S741-11, and when it determines with it being not an energization start state, the said normal electric accessory prize opening / closing switching process is complete | finished.

(Step S741-11)
The main CPU 300a updates the counter value of the ordinary electric accessory opening / closing switching counter to a value obtained by adding “1” to the current counter value, and ends the ordinary electric accessory winning opening opening / closing switching process.

  FIG. 41 is a flowchart for explaining the ordinary electric accessory prize opening opening control process in the main control board 300. This ordinary electric accessory prize opening opening control process is executed when the ordinary game management phase is “04H”.

(Step S750-1)
The main CPU 300a determines whether or not the timer value of the normal game timer saved in step S741-7 is “0”. As a result, when it is determined that the timer value of the normal game timer is not “0”, the process proceeds to step S750-5, and when it is determined that the timer value of the normal game timer is “0”, step S750 is performed. The process is moved to -3.

(Step S750-3)
The main CPU 300a determines whether or not the counter value of the ordinary electric accessory opening / closing switching count counter is the upper limit value of the ordinary electric accessory opening / closing switching count. As a result, when it is determined that the counter value is the upper limit value, the process proceeds to step S750-7, and when it is determined that the counter value is not the upper limit value, the process proceeds to step S741.

(Step S741)
If the main CPU 300a determines in step S750-3 that the counter value of the ordinary electric accessory opening / closing switching counter is not the upper limit value of the ordinary electric accessory opening / closing switching count, the main CPU 300a executes the process of step S741. To do.

(Step S750-5)
The main CPU 300a determines whether the counter value of the ordinary electric accessory winning ball counter updated in step S530-9 has reached the specified number, that is, the second start port 122 is performing one open / close control. It is determined whether or not the same number of game balls as the maximum number that can be won are entered. As a result, when it is determined that the specified number has not been reached, the ordinary electric accessory winning opening opening control process is terminated, and when it is determined that the specified number has been reached, the process proceeds to step S750-7.

(Step S750-7)
The main CPU 300a executes a normal electric accessory closing process necessary to stop energization of the normal electric accessory solenoid 122c and close the second start port 122. Thereby, the 2nd starting port 122 will be in a closed state.

(Step S750-9)
The main CPU 300a saves the normal power valid state time in the normal game timer.

(Step S750-11)
The main CPU 300a updates the normal game management phase to “05H” and ends the normal electric accessory prize opening opening control process.

  FIG. 42 is a flowchart for explaining the normal electric accessory prize opening closing effective process in the main control board 300. This normal electric accessory prize opening closing effective process is executed when the normal game management phase is “05H”.

(Step S760-1)
The main CPU 300a determines whether or not the timer value of the normal game timer saved in step S750-9 is “0”. As a result, when it is determined that the timer value of the normal game timer is not “0”, the normal electric component winning prize closing closing process is terminated, and it is determined that the timer value of the normal game timer is “0”. In that case, the process proceeds to step S760-3.

(Step S760-3)
The main CPU 300a saves the ordinary power end wait time in the normal game timer.

(Step S760-5)
The main CPU 300a updates the normal game management phase to “06H” and ends the normal electric accessory winning prize closing effective process.

  FIG. 43 is a flow chart for explaining the ordinary electric accessory winning opening end weight process in the main control board 300. This ordinary electric accessory winning opening end weight process is executed when the ordinary game management phase is “06H”.

(Step S770-1)
The main CPU 300a determines whether the timer value of the normal game timer saved in step S760-3 is “0”. As a result, when it is determined that the timer value of the normal game timer is not “0”, the normal electric component winning award end wait process is terminated, and it is determined that the timer value of the normal game timer is “0”. In that case, the process proceeds to step S770-3.

(Step S770-3)
The main CPU 300a updates the ordinary game management phase to “00H”, and ends the ordinary electric accessory winning prize end wait process. As a result, when the ordinary figure hold is stored, the normal symbol variation display is resumed.

  As described above, a special game and a normal game proceed by executing various processes in the main control board 300. During the progress of such a game, a command transmitted from the main control board 300 is performed. Based on the above, the sub-control board 330 performs control for executing various effects. Below, the effect performed in a predetermined gaming state will be described using an example.

(Description of production design)
FIG. 44 is a diagram for explaining the effect symbols 210a, 210b, and 210c. As described above, in the main control board 300, when the big role lottery is performed, the change mode number and the change pattern number are determined, and the change command is transmitted to the sub control board 330. The sub control board 330 determines the execution pattern of the variation effect based on the received variation command, and controls the execution of the variation effect with the determined execution pattern.

  There are many variation effect execution patterns. Any of the effect symbols 210a, 210b, and 210c is displayed after the three symbol composition groups 210A, 210B, and 210C are variably displayed on the effect display unit 200a. It is common in that the result of the big lottery is notified by the stop display on the effect display unit 200a and the final stop display mode of the effect symbols 210a, 210b, and 210c on the effect display unit 200a.

  As shown in FIG. 44 (a), the symbol composition group 210A is composed of nine types of effect symbols 210a on which numbers 1 to 9 are written. Although illustration is omitted here, characters and the like are written together with numerals in each effect symbol 210a, so that the player can easily identify each effect symbol 210a constituting the symbol composition group 210A. Yes. Similarly to the symbol configuration group 210A, the symbol configuration groups 210B and 210C are configured by nine types of effect symbols 210b and 210c, respectively. For convenience of explanation, the symbol composition group 210A is composed of nine types of effect symbols 210a, the symbol composition group 210B is composed of nine types of effect symbols 210b, and the symbol composition group 210C is composed of nine types of effect symbols 210c. The symbol configuration groups 210A, 210B, and 210C are all configured with nine types of effect symbols in the same display mode.

  In the variable effect, after the symbol composition groups 210A, 210B, and 210C are scroll-displayed simultaneously from the upper side to the lower side in the effect display unit 200a, one of the effect symbols 210a, 210b, and 210c is finally displayed as an effect display. Any one of the effect symbols 210a, 210b, and 210c is stopped and displayed on the effect display unit 200a without being stopped or displayed on the portion 200a.

  Then, when the big win is won by the big game lottery, as shown in FIG. 44 (b), special symbols A to D are determined as the big win symbols. In the case of winning the jackpot, that is, in the changing effect for notifying the winning of the jackpot, finally, the same effect symbols 210a, 210b, and 210c are stopped and displayed on the straight line in the effect display unit 200a.

  However, when the special symbols A, B, and C are determined, the effect symbols 210a, 210b, and 210c (hereinafter referred to as “2”, “4”, “6”, and “8”) with even numbers. Simply called “even symbols”). On the other hand, when the special symbol D is determined, the effect symbols 210a, 210b, 210c (hereinafter, referred to as odd numbers “1”, “3”, “5”, “7”, “9”) are written. Simply called “odd symbol”).

  In addition, when the result of lottery lottery is lost, that is, when the lost symbol is determined, the same effect symbols 210a, 210b, and 210c are finally stopped and displayed on the effect display unit 200a. There is nothing. Below, an example of the variation effect in which the effect symbols 210a, 210b, and 210c are variably displayed will be described.

(Example of production)
FIG. 45 is a diagram for explaining an example of the variation effect of the variation pattern without reach. As described above, when the big game lottery is performed on the main control board 300, the variation effect for notifying the result of the big game lottery is executed during the special symbol variation display, that is, over the variation time of the special symbol. In this fluctuating effect, various background images are displayed on the effect display unit 200a, and effect symbols 210a, 210b, and 210c are displayed superimposed on the background image. Note that during the changing effect, the sound is output from the sound output device 206 along with the image displayed on the effect display unit 200a, the effect lighting device 204 is controlled to be turned on, and the effect agent device 202 is movable. Although controlled, detailed description is omitted here.

  The variation effects of this embodiment are roughly classified into a reachless variation pattern and a reach variation pattern. In the variation effect of the reachless variation pattern, a background image (not shown) is displayed on the effect display unit 200a, and the effect symbols 210a, 210b, and 210c are superimposed and displayed on the background image. For example, as shown in FIG. 45A, it is assumed that the production symbols 210a, 210b, and 210c are stopped and displayed in a combination indicating that the lottery lottery result is lost. In this state, when the special symbol variation display is newly performed, as shown in FIG. 45B, the three effect symbols 210a, 210b, and 210c are variation-displayed as the special symbol variation display starts. (Scroll display) starts. In addition, the downward white arrow in the figure indicates that the effect symbols 210a, 210b, and 210c are scroll-displayed in the height direction.

  Then, as shown in FIG. 45 (c), the effect design 210a is first stopped and displayed, and thereafter, the effect design 210c different from the effect design 210a is stopped and displayed as shown in FIG. 45 (d). As shown in FIG. 45 (e), the variation display of the special symbol is finished and the special symbol is stopped and displayed on the first special symbol display 160 or the second special symbol display 162 at the same timing. The effect symbol 210b is stopped and displayed, and the player's lottery result is notified to the player by the final stop display mode of the three effect symbols 210a, 210b, and 210c.

  FIG. 46 is a diagram for explaining an example of the variation effect of the normal reach variation pattern. In this embodiment, the reach variation pattern is roughly classified into a normal reach variation pattern, an extended reach variation pattern, and a pseudo continuous reach variation pattern. The variation effect of the normal reach variation pattern is the same as the variation effect of the non-reach variation pattern, and the variation display of the effect symbols 210a, 210b, 210c is started with the start of the variation display of the special symbol, as shown in FIG. As shown, the effect design 210a is first stopped and displayed. Thereafter, as shown in FIG. 46B, the effect design 210c identical to the effect design 210a is stopped and displayed.

  In this way, when the same effect symbols 210a and 210c are displayed in a reach manner that is stopped and displayed on the effect display unit 200a, as shown in FIG. 46C, the effect symbols 210a and 210c are displayed on the effect display unit 200a. "Reach" is displayed superimposed on 210c. A plurality of types of reach modes are provided, and the same effect symbols 210a and 210c on which any number of “1” to “9” is written are stopped and displayed. Thereafter, as shown in FIG. 46 (d), the variation display is continued with the shapes of the effect symbols 210 a and 210 c different from those before reaching the reach mode. Then, as shown in FIG. 46 (e), finally, the effect symbols 210b different from the effect symbols 210a and 210c are stopped and displayed, and the player is notified that the result of the big lottery has been lost.

  FIG. 47 is a diagram for explaining an example of the variation effect of the developed reach variation pattern. As shown in FIGS. 47 (a) to 47 (d), the effect display 210a and 210c are displayed in a reach manner on the effect display unit 200a, as shown in FIGS. 47A to 47D. The Thereafter, as shown in FIG. 47 (e), a reach development effect in which a predetermined developed image (moving image) is reproduced and displayed is executed in the effect display unit 200a. This reach development effect is, for example, content that the ally character battles against the enemy character, or content that the ally character challenges a predetermined mission.

  The contents of such reach development effects are determined based on the variation pattern number determined by the main control board 300. At this time, a plurality of patterns are provided for the content of the battle between the ally character and the enemy character, and the content of the mission that the ally character challenges, and for any of these patterns, the ally character wins the enemy character or the ally character And a lost pattern in which the teammate character loses to the enemy character and the teammate character fails in the mission.

  The big hit pattern is selected only when the result of the big game lottery is a big win, and the lost pattern is selected only when the result of the big game lottery is a lost game. These two patterns consist of the same content until the end of the production, with the difference that the teammate character eventually wins or loses, or the teammate character achieves or fails the mission. Yes. Therefore, during the reach development effect, the player cannot identify the result of the big lottery until the end of the variation effect, and the player is given a big hit expectation.

  As shown in FIG. 47 (e), each reach development effect is set with a name for each content, that is, a title name. At the start of the reach development effect, the title name is displayed on the effect display unit 200a. Is displayed. In addition, during the reach development effect, the effect symbols 210a, 210b, and 210c continue to be small and variable in the upper right of the effect display unit 200a. Then, during the display of the developed image or after the display of the developed image, the effect symbols 210a, 210b, 210c are finally stopped and displayed at the center of the effect display unit 200a, and depending on the stop display mode of the effect symbols 210a, 210b, 210c, The result of the lottery lottery will be notified to the player.

  FIG. 48 is a diagram for explaining an example of the variation effect of the pseudo continuous reach variation pattern. As shown in FIG. 48 (a), when the variation display of the production symbols 210a, 210b, 210c is started, the variation effect of the pseudo continuous reach variation pattern is as shown in FIG. 48 (b). 210b and 210c are temporarily stopped and displayed in any of a plurality of types of modes (hereinafter referred to as “pseudo modes”) provided in advance. In the pseudo mode, for example, the same effect symbols 210a and 210b and the effect symbols 210c on which “2” larger numbers than the effect symbols 210a and 210b are displayed are temporarily stopped.

  When the effect symbols 210a, 210b, and 210c are temporarily stopped and displayed in a pseudo manner, the variation display of the effect symbols 210a, 210b, and 210c is resumed as shown in FIG. That is, it can be said that the pseudo mode indicates a re-variable display of the effect symbols 210a, 210b, and 210c. Thereafter, as shown in FIG. 48 (d), the effect symbols 210a, 210b, and 210c are temporarily stopped and displayed again in a pseudo manner.

  Then, as shown in FIG. 48 (e), when the variation display of the effect symbols 210a, 210b, 210c is resumed, as shown in FIG. 48 (f), the effect symbols 210a, 210c are displayed in a reach manner, Thereafter, as shown in FIGS. 48 (g) to 48 (i), the reach development effect is executed in the same manner as the development reach variation pattern, and the player is notified of the result of the lottery drawing.

  In this way, the variation effect of the pseudo continuous reach variation pattern is different from the variation effect of the development reach variation pattern in the contents until the production symbols 210a and 210c are in the reach mode, and after the reach mode is developed, The variation effect is advanced in the same manner as the reach variation pattern.

  In the quasi-continuous reach variation pattern, a plurality of variation display patterns of the effect symbols 210a, 210b, and 210c until reaching the reach mode are provided, and the effect symbols 210a, 210b, and 210c are temporarily stopped for each variation display pattern. The number of times of display, in other words, the number of variable displays of the effect symbols 210a, 210b, 210c is different. This variation display pattern is determined by a variation mode command, and the greater the number of temporary stop displays (variation display) of the effect symbols 210a, 210b, 210c, the more likely that the jackpot winning will be notified (hereinafter “trust”). The selection ratio of the variable mode command at the time of winning the jackpot and losing is set so as to increase the degree).

  Specifically, when the result of big lottery is a big hit, the selection ratio of the variable mode command with a large number of variable display times is set higher than the selection ratio of the variable mode command with a small number of variable display times, If the result of the lottery lottery is lost, the selection ratio of the variable mode command with a small number of variable display times is set higher than the selection ratio of the variable mode command with a large number of variable display times.

  In the main control board 300, the reliability of the pseudo continuous reach variation pattern is set to be higher than the reliability of the developed reach variation pattern. Therefore, the reliability is suggested by the number of temporary stop displays (variable display) of the effect symbols 210a, 210b, and 210c, and the player has more temporary effect displays 210a, 210b, and 210c (variable display). Expecting to be done, we will watch over whereabouts of production.

  The execution pattern of the above-described variation effect is determined and controlled by the sub control board 330 based on the variation command determined by the main control board 300. That is, it can be said that the execution pattern of the variation effect is determined in cooperation between the main control board 300 and the sub control board 330.

  49A and 49B are diagrams for explaining the variation effect determination table. FIG. 49A shows the first half variation effect determination table, and FIG. 49B shows the second half variation effect determination table. As described above, when the big game lottery is performed on the main control board 300, the variation command is determined based on the result of the big game lottery, and each decided command is transmitted to the sub control board 330. In the sub control board 330, when the variation mode command is received, an effect random number of 1 is acquired from the range of 0 to 249, and the acquired effect random number and the received variation mode command are obtained by referring to the first-half variation effect determination table. Based on the above, the execution pattern of the first half variation effect is determined. Further, when the variation pattern command is received, an effect random number of 1 is acquired from the range of 0 to 249, and referring to the second half variation effect determination table, based on the acquired effect random number and the received variation pattern command, The execution pattern of the second half variation production is determined. In FIG. 49, only a part of the first half variation effect determination table and the second half variation effect determination table are extracted and shown.

  As shown in FIG. 49, according to the first half variation effect determination table, the selection ratio for the execution pattern of the first half variation effect is set for each variation mode number (variation mode command). For example, for each variation pattern number (variation pattern command), the selection ratio for the execution pattern of the second half variation effect is set. Then, by executing a combination of the determined execution patterns of the first and second half variation effects, one variation effect is executed.

  For the variation effect of the no reach variation pattern, “none” indicating that the first half variation effect is not executed is determined as the first half execution pattern, and “normal lose 1” corresponding to the non reach reach variation pattern is determined as the second execution pattern. , “Normal Loss 2”, “Special Loss 1”, and “Special Loss 2” are determined. For example, when a variation mode command corresponding to a variation mode number of “01H” indicating that the variation effect of the first half is not executed, the sub control board 330 always determines “none” as the execution pattern of the first half. At this time, only one of “Normal Loss 1”, “Normal Loss 2”, “Special Loss 1”, and “Special Loss 2” is determined as the variation pattern commands that can be received simultaneously. The selection ratio is set in the variation effect determination table. Therefore, “None” is determined as the execution pattern in the first half, and “Normal Loss 1”, “Normal Loss 2”, “Special Loss 1”, and “Special Loss 2” are determined as the second execution pattern. The performance execution pattern is determined to be the above reachless variation pattern.

  On the other hand, the variation effect of the reach variation pattern is executed when a value other than “None” is determined as the execution pattern of the first half and any reach development effect is determined as the execution pattern of the second half. In other words, in the effect display unit 200a, 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 = 01H is always received, and the reach development is performed. It means that the variation pattern command corresponding to the variation pattern number for which the effect is determined is received.

  Here, in FIG. 49A, “normal reach 1”, “normal reach 2”, etc. in the execution pattern in the first half are the reach aspects of the effect designs 210a, 210b, 210c among the fluctuation effects of the normal reach fluctuation pattern, respectively. In more detail, the background image displayed on the effect display unit 200a and the variation display patterns of the effect symbols 210a, 210b, and 210c until the reach development effect is started are 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. For example, when “normal reach 1” is determined, FIG. The image shown in (d) is displayed on the effect display unit 200a.

  In FIG. 49 (a), “pseudo 2a” and the like in the first half execution pattern are displayed on the effect display unit 200a until the reach development effect is started among the change effects of the pseudo continuous reach change pattern. The display pattern of the main variation effect image, that is, the execution pattern of the symbol display effect in which the effect symbols 210a, 210b, and 210c are variably displayed. For example, “pseudo 2a” is a “pseudo 2” pseudo continuous reach variation pattern in which the number of variation displays of the effect symbols 210a, 210b, and 210c is two, and the main variation effect image is the display pattern a. Show. “Pseudo 3b” is a “pseudo 3” pseudo continuous reach variation pattern in which the number of variation displays of the effect symbols 210a, 210b, and 210c is three, and the main variation effect image is the display pattern b. Show.

  Note that, in the first half variation effect determination table and the second half variation effect determination table shown in FIG. 49, the variation effect of the reachless variation pattern and the normal reach variation pattern is executed only when the result of the big lottery is a loss. The selection ratio is set. The development reach fluctuation pattern and the pseudo continuous reach fluctuation pattern are determined both at the time of loss and at the time of jackpot, but the development reach fluctuation pattern has a higher selection ratio at the time of the loss than the pseudo continuous reach fluctuation pattern, and the jackpot The hour selection ratio is set low. As described above, by setting the selection ratio between the loss time and the big hit time, the pseudo continuous reach variation pattern is set to have higher reliability than the developed reach variation pattern.

  In addition, among the pseudo continuous reach variation patterns, the selection ratio at the big hit is higher and the selection ratio at the time of loss is set lower as the number of pseudo times increases, and the reliability is set higher as the number of pseudo times increases. Has been made.

  As described above, in the sub control board 330, when the variation command is received, the execution pattern of the variation effect is determined with reference to the variation effect determination table. However, the execution pattern of the variable effect determined by the variable effect determination table is to determine a rough flow of the effect, that is, a time table of one variable effect. Based on the change mode command or the change pattern command, whether or not to execute various element effects constituting the change effect and execution patterns are further determined.

  Here, the element effect is, for example, as described above, an image displayed on the effect display unit 200a by the change display of the effect symbols 210a, 210b, and 210c in the effect display unit 200a, and the reach development effect. An effect or the like that moves the effect agent device 202. In the present embodiment, the notice effect is executed at various timings during the change effect as the element effect constituting the change effect.

  This notice effect is displayed on the effect display unit 200a at the start of the change effect, when the effect symbols 210a, 210b, 210c in the change effect of the pseudo continuous reach change pattern are displayed again, and during the reach development effect. This is an effect of displaying a predetermined image or moving the effect actor device 202 at a predetermined timing, and whether or not to execute the notification is determined for each notice effect. Each notice effect has a plurality of types of execution patterns, and for each of the plurality of types of execution patterns, a selection ratio is set for each variation pattern number or variation mode number, in other words, for each jackpot winning / not winning. The reliability is set for each execution pattern according to the selection ratio.

  In the present embodiment, the hold effect is executed together with the above-described variation effect. This hold effect is also executed as a so-called pre-read effect that informs the player of the number of holds currently stored and suggests the reliability of each hold. This holding effect has different execution modes depending on the gaming state, but here, the holding effect will be described as being executed for special 1 holding in the non-time-saving gaming state.

  FIG. 50 is a diagram for explaining an example of the hold display. When the non-time-saving gaming state is set, a partial area below the effect display unit 200a functions as the hold effect area 215 for executing the hold effect. In the hold effect area 215, five areas of the hold display area 220, the first hold display area 221, the second hold display area 222, the third hold display area 223, and the fourth hold display area 224 are provided. The hold display area 220 is located on the leftmost side in the hold effect area 215 and is located approximately at the center in the width direction of the effect display portion 200a. The display area 222, the third hold display area 223, and the fourth hold display area 224 are arranged in order as shown. Hereinafter, the hold display area 220 and the first hold display area 221 to the fourth hold display area 224 are collectively referred to as a hold display area.

  In each of the above-described hold display areas, the special 1 hold is read from the first special figure hold storage area in the main RAM 300c and the fluctuating effect is performed, and the first storage of the first special figure hold storage area A hold display indicating that special 1 hold is stored in the first to fourth storage units is displayed. Specifically, the first hold display area 221 corresponds to the first storage unit of the first special figure hold storage area, and when the first hold is stored in the first storage unit, A hold display is made in the hold display area 221. Similarly, the second hold display area 222 to the fourth hold display area 224 correspond to the second storage section to the fourth storage section of the first special figure hold storage area, respectively, and the second storage section to the fourth storage section. When the special 1 hold is stored in the storage unit, the hold display is made in the second hold display area 222 to the fourth hold display area 224, respectively. In this way, by displaying the hold in the first hold display area 221 to the fourth hold display area 224, the player is notified of how many special 1 holds are stored.

  In the hold display area 220, the same hold display as the first hold display area 221 to the fourth hold display area 224 is displayed. The hold display displayed in the hold display area 220 indicates the special 1 hold read from the first storage unit of the first special figure hold storage area to the 0th storage unit, and the special 1 hold is read. The hold display remains displayed in the hold display area 220 until the variation effect to be executed is finished.

  For example, it is assumed that the special 1 hold is read and the big character lottery is performed, and two special 1 holdes are stored in the main RAM 300c during the execution of the variable effect for informing the result of the big character lottery. In this case, as shown in FIG. 50A, the hold display is displayed in the hold display area 220, the first hold display area 221, and the second hold display area 222, respectively. Although details will be described later, in the present embodiment, there are six types of display modes for holding display, white (default), blue, green, red, tiger pattern, and rainbow, and the reliability depends on the display mode. Is suggested.

  In this state, when a game ball enters the first start port 120, a special 1 hold is newly stored, and this special 1 hold is stored in the third storage unit of the main RAM 300c. Therefore, in this case, as shown in FIG. 50B, the hold display is additionally displayed in the third hold display area 223. After that, when the special symbol variation display is finished on the main control board 300, the shift processing of the first special figure reservation storage area is performed, and the special 1 reservation is read from the first storage unit to the 0th storage unit. A lottery will be held. When the special 1 hold is read in this way, the hold display is shifted from the first hold display area 221 to the hold display area 220 and the second hold display area 222 as shown in FIG. The hold display is shifted from the third hold display area 223 to the first hold display area 221 and the second hold display area 222, respectively.

  Here, in the hold effect, the jackpot reliability is suggested by the display form of the hold display displayed in each hold display area. Therefore, when the hold display is displayed in a display form with high reliability, it is possible to give a player a sense of expectation over a long period of time, but when the hold display is displayed in a display form with low reliability Will suggest that the reliability is low, and on the contrary, the player's feeling of fatigue will be prolonged.

  Therefore, the hold display displayed in each hold display area is predetermined during the display period from when the hold display is first displayed in the hold display area until it is finally erased from the hold display area (the hold display area 220). The display form is changed with the probability of. In this way, even if the hold display is made in the display form with low reliability, the player is given a sense of expectation that the hold display may change to the display form with high reliability thereafter, and the player This makes it possible to reduce fatigue. Hereinafter, a method for determining the display mode of the hold display will be described in detail.

  FIG. 51A is a diagram illustrating a final display form determination table, and FIG. 51B is a diagram illustrating a standby effect scenario determination table. When the special 1 hold is stored in the non-time-saving gaming state, a prefetch designation command is transmitted from the main control board 300 to the sub control board 330. When receiving the prefetching designation command, the sub control board 330 refers to the final display form determination table shown in FIG. First decide. Although there are many execution patterns for variation effects, here, only a typical execution pattern will be described as an example for easy understanding.

  As described above, when the special 1 hold is read and the big character lottery is performed, the variation mode number and the variation pattern number (variation information) are determined based on the result of the big character lottery. At this time, if the result of the lottery lottery is a loss, different variation information can be determined according to the number of special 1 reservations at the time of the lottery lottery (at the start of variation display of special symbols). That is, as shown in FIG. 6, if the value of the reach group determination random number is a fixed value equal to or greater than a predetermined value (for example, 8500), the same group type is determined regardless of the number of holds, and thereafter, regardless of the number of holds. The variation information is uniquely determined according to the values of the reach mode determination random number and the variation pattern random number. On the other hand, if the value of the reach group determination random number is an indefinite value less than a predetermined value (for example, 8500), different group types are determined according to the number of holds, and as a result, different variation information is determined according to the number of holds. Become.

  Then, as shown in FIG. 22, in the acquisition effect determination process, when the value of the reach group determination random number is an indefinite value, an indefinite value command (7FH) is transmitted as a prefetch designation command. As for the special 1 hold where the undefined value command (7FH) is transmitted, since the special 1 hold is read out and different lots of information can be determined depending on the number of holds when the big game lottery is performed, It is not possible to accurately grasp which variation information is determined when the lottery lottery is performed at the time of storing the special 1 hold. However, when the value of the reach group decision random number is an indefinite value, the execution pattern of the variable production is always 3 seconds, 6 seconds, or 9 seconds depending on the number of special 1 holds when the big director lottery is performed. It becomes a non-reach fluctuation pattern composed of any time. As described above, when an undefined value command is received as a prefetch designation command when special 1 hold is stored, the final display form of the hold display indicating the special 1 hold is always determined to be default (white). As described above, the selection ratio is set in the final display form determination table.

  On the other hand, when the value of the reach group determination random number is a fixed value, or when it is provisionally determined to be a big hit by the special symbol per provisional determination process, the determined variation information, that is, the variation effect to be executed The execution pattern can be grasped when the special 1 hold is stored. Therefore, in the final display form determination table, for the fixed value that can be received so as not to cause a large difference between the reliability of the execution pattern of the variation effect to be executed and the reliability of the final display form of the hold display. For each prefetch designation command (prefetch designation variation pattern command), a selection ratio is set as illustrated.

  As already described, there are six types of hold display forms, but the reliability gradually increases in the order of default (white) → blue → green → red → tiger pattern → rainbow color. Thus, the selection ratio is set. An example will be described with reference to FIG. 51A. In the rainbow display form, the execution pattern of the variation effect is “Development reach 1 (big hit)”, “Development reach 2 (big hit)”, “Specific reach normal (big hit) ) ”, That is, only when a big win is won by a big lottery. Therefore, if the hold display is finally displayed in the rainbow color display form, the winning of the jackpot is assured at that time, and the reliability of the rainbow color display form is 100%.

  In addition, for example, the default (white) or blue display mode has a high selection ratio at the time of losing and a low selection ratio at the time of winning the big hit. For example, the tiger pattern has a low selection ratio at the time of losing and the big hit The selection ratio at the time of winning is set high. Thus, the jackpot reliability is set for each display mode of the hold display based on the selection ratio at the time of losing and the selection ratio at the time of winning the jackpot.

  When the special control 1 hold is stored in the main control board 300, the sub-control board 330 first determines the final display form for the special 1 hold display. At this time, a display form other than the default is displayed. When determined, the display form of the hold display changes at various timings.

  That is, as shown in FIG. 51A, in the final display form determination table, when a display form other than the default is determined as the final display form of the hold display, whether or not the standby effect is performed is simultaneously determined. In FIG. 51A, “No” indicates that the standby effect is not executed, and “Yes” indicates that the standby effect is executed. For example, when the execution pattern of the fluctuating effect is “development reach 1 (big hit)”, the final display form of the hold display is blue, and the determination that the stand-by effect is not executed is made with a probability of 25/250. The final display form of the display is blue, and the decision to execute the standby effect is made with a probability of 10/250.

  As will be described in detail later, the standby effect means that the display mode of the hold display changes one or more times from the start to the end of the hold display in the hold display area 220. This effect suggests a change in the display form. When execution of this standby effect is determined, that is, when “present” is determined in the final display form determination table shown in FIG. 51A, the standby effect scenario determination table shown in FIG. The scenario is determined by referring to it. The scenario determined here defines how to change the display mode of the hold display (display mode before and after the change, the number of changes, the change timing, etc.), the execution timing of the standby effect, the execution pattern of the standby effect, etc. Is. In other words, according to the scenario determined with reference to the standby effect scenario determination table, the standby effect is executed, or the display form of the hold display is changed.

  Note that the stand-by production scenario determination table is provided for each of the five types of hold display final display forms except for the default. When determining a scenario, first, referring to the final display form determination table, The final display form is determined, and then the standby effect scenario determination table corresponding to the determined final display form is selected. Then, the final display form of the hold display is determined with reference to the selected standby effect scenario determination table.

  For example, when the tiger pattern is determined as the final display form, the scenario is determined with reference to the standby effect scenario determination table a shown in FIG. According to this standby effect scenario determination table, the selection ratio of each scenario is set as shown in the figure for each execution pattern of variable effects. In addition, according to the scenario determined with reference to the standby production scenario determination table a, the final display form of the hold display always has a tiger pattern. Although not shown, for example, according to the standby effect scenario determination table selected when the final display form is determined to be blue, each scenario is displayed so that the final display form of the hold display is always blue. The selection ratio is set.

  Although a detailed description is omitted, when the final display form of the hold display is determined with reference to the final display form determination table shown in FIG. 51A, a final display form other than the default is determined and the standby When the non-execution of the effect is determined, the display mode change timing or the like is determined with reference to a predetermined table (not shown). At this time, the display form of the hold display changes in the hold display area 220 or the display form changes in the first hold display area 221 to the fourth hold display area 224. In addition, the hold display may be displayed in the final display form from the beginning in the hold display area 220, the first hold display area 221 to the fourth hold display area 224, or may be displayed step by step in a plurality of times. The form may change.

  Even when the standby effect is executed, the display form may change in the first hold display area 221 to the fourth hold display area 224. However, when the standby effect is executed, the display mode of the hold display is set to change in the hold display area 220 at least once. In this embodiment, in order to facilitate understanding, when a standby effect is executed, the hold display is always in the default display form in the first hold display area 221 to the fourth hold display area 224. It is assumed that the display form changes only in the hold display area 220.

  FIG. 52 is a diagram for explaining an example of the standby effect. When the special 1 hold is stored in the main control board 300, the final display form of the hold display is determined with reference to the final display form determination table, and at the same time, whether or not the standby effect is performed is determined. That is, when the special 1 hold is stored, it is determined whether or not the newly stored special 1 hold is set as the standby production execution target hold. At the same time that the execution target hold is read out on the main control board 300 and the big lottery is performed, the hold display indicating the execution target hold is shifted from the first hold display area 221 to the hold display area 220.

  At this time, as shown in FIGS. 52 (a) and 52 (b), when the effect symbols 210a and 210c are displayed in a reach manner, the first hold display area 221 to the fourth hold display area in the hold effect area 215. The hold display displayed in 224 is not displayed, and the hold display is displayed only in the hold display area 220. Thereafter, the standby effect is started at the timing when the display image of the effect display unit 200a is switched from the background image to the developed image for the reach development effect.

  Here, with the start of the standby effect, as shown in FIG. 52C, two standby images 230 (indicated by reference numerals 230a and 230b in the figure) are displayed in the hold effect area 215. These standby images 230 are images imitating the silhouette of a character, and three standby images 230 can be simultaneously displayed in the hold effect area 215 at the maximum. The standby image 230 is displayed for a predetermined number equal to or less than the number of changes in the display mode of the hold display. For example, when two standby images 230 are displayed as shown in the drawing, the hold display is always performed twice or more. The display form is changed. That is, it can be said that the standby image 230 suggests the minimum number of changes in the display mode of the hold display.

  When the display form of the hold display changes, the reliability does not decrease before and after the change, and the reliability always increases. Therefore, as shown in FIG. 52 (c), when two standby images 230 are displayed, the reliability of the hold display increases by two or more levels until the currently changing variation effect ends. It will be.

  Thereafter, as shown in FIG. 52 (d), the silhouette of the standby image 230b is removed, and an effect is performed in which the character of the standby image 230b attacks the hold display displayed in the hold display area 220. Then, as shown in FIG. 52 (e), when the display form of the hold display displayed in the hold display area 220 changes, as shown in FIG. 52 (f), the standby image 230b accompanies the change in the display form. Is deleted from the hold effect area 215. Therefore, as shown in FIG. 52 (f), only the hold display in the display form (for example, blue) changed from the default and the standby image 230a are displayed in the hold effect area 215.

  Thereafter, as shown in FIG. 52 (g), the silhouette of the standby image 230a is removed, and an effect is performed in which the character of the standby image 230a attacks the hold display displayed in the hold display area 220. Then, as shown in FIG. 52 (h), the display form of the hold display displayed in the hold display area 220 changes again (for example, green). When the display mode of the hold display changes in this way, the standby image 230a is erased from the hold effect area 215 along with the change of the display mode.

  The effect in the hold effect area 215 is displayed in parallel with the change effect, that is, the development image for the reach development effect in the effect display unit 200a, and the display mode of the hold display is changed a predetermined number of times. After that, the variable production is finished. At this time, when the result of the big role lottery is a losing and the reach development effect is a losing pattern, as shown in FIG. 52 (i), the effect symbols 210a, 210b, and 210c are combinations that notify the losing ( Hereinafter, it is stopped and displayed in a manner called “losing stop mode”. On the other hand, when the result of big lottery is a big hit and the reach development effect is a big hit pattern, as shown in FIG. 52 (j), a combination for notifying the big hit (hereinafter referred to as “hit stop mode”) Thus, the effect symbols 210a, 210b, and 210c are finally stopped and displayed.

  Note that, as described above, in the reach development effect of the loss pattern, an image in which the teammate character is defeated by the enemy character or the teammate character fails in the mission is displayed on the effect display unit 200a. After the notification, the effect symbols 210a, 210b, and 210c are displayed in a lost stop mode. Similarly, in the reach development effect of the jackpot pattern, an image that the ally character wins the enemy character or the ally character succeeds in the mission is displayed on the effect display unit 200a, and the winning of the jackpot is notified by the contents of the effect. After that, the effect symbols 210a, 210b, and 210c are displayed in a jackpot stop mode.

  The effect symbols 210a, 210b, and 210c are displayed on the effect display unit 200a in a lost stop mode or a big hit stop mode for about 2 to 3 seconds, for example. Here, when the production symbols 210a, 210b, and 210c start displaying in a lost stop mode or a jackpot stop mode, a development image for reach development production is displayed on the production display unit 200a, and the production symbols 210a, 210b, During the display of 210c, the developed image is switched to the original background image. Then, at the timing of switching to the original background image, as shown in FIGS. 52 (i) and 52 (j), the holding effect area 215 returns to the same state as before the start of the reach development effect.

  As described above, according to the present embodiment, the hold display indicating the hold information read in the lottery lottery is displayed in the hold display area 220 in any one of a plurality of display forms, and the hold display is performed. Depending on the display form of the hold display displayed in the area 220, a hold effect that suggests the lottery result of the big lottery is executed. In the hold effect, the display form may be changed once or a plurality of times from the start to the end of the hold display in the hold display area 220. Further, when changing the display form of the hold display during execution of the variable effect, one or more preset standby images 230 are displayed, and the standby effect suggesting the number of changes in the display form is executed with a predetermined probability. Is done. When the standby effect is executed, the display mode of the hold display is changed together with the effect corresponding to each of the standby images 230, and the standby image 230 is erased with the change of the display mode.

  In the present embodiment, a special standby effect is executed in order to further improve the effect of the hold effect. The special standby effect will be described below.

  FIG. 53 is a diagram for explaining an example of the special standby effect. The special standby effect is performed when the execution pattern of the change effect is determined to be a specific reach revival pattern that is classified into the developed reach change pattern. The variation production of this specific reach revival pattern is executed only when the result of the big role lottery is a big hit. Like the normal development reach variation pattern, the production symbols 210a and 210c are in the middle of reach, and then reach is performed. Development performance is executed. Then, as shown in FIG. 53 (a), in the effect display unit 200a, three standby images 230 are displayed in the hold effect area 215 as the image is switched from the normal background image to the developed image for reach development effect. (Denoted by reference numerals 230a, 230b, and 230c in the figure) is displayed.

  Thereafter, as shown above, as shown in FIGS. 53B and 53C, the effect that the standby image 230 b attacks the hold display is executed, and the display form of the hold display displayed in the hold display area 220 changes. To do. Thereafter, as shown in FIGS. 53 (d) and 53 (e), an effect in which the standby image 230 a attacks the hold display is executed, and the display form of the hold display displayed in the hold display area 220 changes. That is, so far, the hold effect is executed in the same manner as the example shown in FIG. 52 except that the standby image 230c is displayed.

  Then, in the variation effect of the specific reach revival pattern, the reach development effect is executed with the loss pattern, and thereafter, the effect symbols 210a, 210b, and 210c are displayed in the manner of stopping the loss as shown in FIG. 53 (f). Further, during the display of the effect symbols 210a, 210b, and 210c, the image of the effect display unit 200a is switched from the developed image to the original background image, and the reserved effect area 215 returns to the same state as before the start of the reach development effect. doing. At this time, the hold display in the hold display area 220 is also restored to the display form at the start of the variation effect.

  As described above, after giving the player the impression that the result of the lottery lottery is lost, the standby image 230c attacks the hold display in the hold effect area 215 as shown in FIG. 53 (g). Is suddenly executed. Then, as shown in FIG. 53 (h), after the entire effect display unit 200a is covered with an image as if it exploded, as shown in FIG. 53 (i), the effect symbols 210a, 210b, and 210c are displayed. The revival effect displayed in the jackpot stop mode is executed, and the player is notified of the jackpot winning. At this time, the hold display displayed in the hold display area 220 changes to a display form (for example, a tiger pattern) with higher reliability than the display form with the highest reliability displayed during the variation effect. ing. Then, as shown in FIG. 53 (j), a dedicated effect in which a predetermined dedicated image is displayed on the effect display unit 200a is executed, and a round game in which the special winning opening 128 is opened is started.

  In this way, in the variation production of the specific reach revival pattern, the reach development production is performed as a losing pattern, and after giving the player the impression that it was a losing game, the winning of the jackpot is notified. Then, when the variation effect of the specific reach revival pattern is executed, the specific effect is executed with a delay after giving a sense of incongruity or loss that the change in the number of the standby images 230 does not occur in the hold effect. The unexpected effect of this is brought about, and the production effect can be further improved.

  In the present embodiment, whether to execute the special standby effect is determined as follows. That is, when the sub-control board 330 receives the prefetch designation command, the execution pattern of the variation presentation is determined in advance with reference to the variation presentation determination table shown in FIG. 49 based on the received prefetch designation command. Then, based on the execution pattern of the variation effect determined in advance, the final display form of the hold display is determined with reference to the final display form determination table shown in FIG.

  Here, for example, as shown in FIG. 49 (b), when an A0H prefetch designation variation pattern command is received, the variation effect execution pattern is always the specific reach normal pattern in which the reach development effect of the loss pattern is executed ( It is set so that it is lost. Further, when the B0H prefetching designated variation pattern command is received, the variation effect execution pattern is set to be a specific reach normal pattern (big hit) or a specific reach revival pattern (big hit). In the specific reach normal pattern (big hit), the mission effect and battle effect having the same contents as the specific reach normal pattern (losing) are executed among the reach development effects of the big hit pattern. In the specific reach revival pattern (big hit), the above revival effect is executed after the same reach development effect as the specific reach normal pattern (losing) is performed.

  When a prefetch designation change pattern command of A0H and B0H is received, as shown in FIG. 51 (a), the final display form of the hold display is always determined other than the default, and the execution of the standby effect is determined. Further, the standby effect scenario determination table is selected based on the determined final display form, and the scenario is determined with reference to the selected standby effect scenario determination table. At this time, for example, when the final display form is determined to be a tiger pattern and the execution pattern of the variation effect is previously determined to be a specific reach normal pattern (losing, jackpot), as shown in FIG. Either A or B is determined. In these scenarios A and B, characters that appear in the standby effect or the specific effect are different, but as shown in FIG. 52, a normal standby effect is executed.

  On the other hand, when the final display form is determined to be a tiger pattern and the execution pattern of the variation effect is determined in advance as a specific reach revival pattern (big hit), one of scenarios C and D is determined. In these scenarios C and D, although the characters appearing in the standby effect and the specific effect are different, both are set to execute the special standby effect as shown in FIG. As described above, the hold effects shown in FIGS. 52 and 53 are executed by setting the selection ratio for each variation effect execution pattern in the final display form determination table and the standby effect scenario determination table.

  Here, the variation effect of the specific reach revival pattern (bonus) is a so-called big actor that is executed across the processing related to the special symbol fluctuation display on the main control board 300 and the processing concerning the execution of the big game. It is straddling production. In this way, by making the change production of the specific reach revival pattern (big hit) a stride effect, the round game can be started before the exhilaration given to the player has cooled down, further improving the production effect Can be achieved.

  FIG. 54 is a time chart of the variation effect of the specific reach revival pattern (big hit). FIG. 54 (a) shows the flow of processing in the main control board 300 when a big win is won in the big game lottery and the big win symbol is determined. That is, in the main control board 300, when the special symbol is determined, the variation information (variation mode number and variation pattern number) is determined based on the determined special symbol. The variation time specified by the variation mode number is the first half variation time, the variation time defined by the variation pattern number is the second half variation time, and the first special symbol display unit over the first half variation time and the second half variation time. In 160 (second special symbol display 162), the variation of symbols is displayed. When the first half variation time and the second half variation time have elapsed, a special symbol variation stop time (for example, 0.5 seconds) for causing the first special symbol display 160 (second special symbol display 162) to stop and display the jackpot symbol is displayed. set. After that, when the special symbol fluctuation stop time elapses, an opening process (standby state) is performed over the opening time, and when the opening time elapses, a round game in which the special winning opening 128 is opened is started.

  During this time, the change mode command and the change pattern command are transmitted from the main control board 300 to the sub control board 330 together with the start of the change display of the symbols, and the special figure stop designation command is transmitted simultaneously with the start of the stop display of the special symbols. The opening designation command is transmitted together with the start of the opening process. When these commands are received, a variation effect is executed on the sub control board 330 as shown in FIG.

  Specifically, the effect symbols 210a, 210b, and 210c are displayed in a variable manner over the first half variation time, and the effect symbols 210a and 210c are displayed in a reach manner until the first half variation time elapses. Simultaneously with the start of the second half fluctuation time, the reach development effect (display of the reach development image) of the loss pattern is started (FIGS. 53A to 53E), and when this reach development effect is finished, the production symbol 210a, 210b and 210c are displayed on the effect display unit 200a in a combination of notifying of a loss (FIG. 53 (f)). At this time, the effect symbols 210a, 210b, and 210c are displayed in a slightly shaken state on the effect display unit 200a, and are not completely stopped and displayed (symbol shaking). Then, when the design symbols 210a, 210b, and 210c are shaken for a predetermined time, the above-described restoration effect is started (FIGS. 53 (g) to (i)).

  Here, as can be seen by comparing FIGS. 54A and 54B, the time from the start to the end of the variation effect of the specific reach revival pattern (big hit), that is, the configuration time is the first half variation time and the second half variation time And longer than the total time. Therefore, during the execution of the revival effect, the jackpot symbol is stopped and displayed on the first special symbol display device 160 (second special symbol display device 162), and the opening process is started. In other words, the revival effect is executed before and after the jackpot symbol stop display and before and after the start of the opening process.

  The revival effect is configured to end during the opening process, and when the revival effect ends, a dedicated effect in which a dedicated image is displayed on the effect display unit 200a is executed (FIG. 53 (j)). This exclusive effect is executed until the start of the first round game, and when the first round game is started, the major effect provided for each round game is executed.

  In addition, as described above, when the display time of the symbol variation on the main control board 300 and the configuration time of the variation effect managed and executed by the sub-control board 330 do not match, the following problem occurs. Can occur. That is, in the sub control board 330, when the processing load of the sub CPU 330a that executes and controls the effect increases, a processing drop may occur in which the processing speed decreases. Processing loss here means that the processing speed decreases, for example, it usually takes 10 seconds to finish displaying an image, but it takes 15 seconds to finish displaying an image. Is shown. In particular, during the variation effect of the above specific reach revival pattern, the processing load is larger than other variation effects, and there is a high possibility that a processing failure will occur. If a processing failure occurs during the variation of the specific reach revival pattern, the variation of the game on the main control board 300 will not be in time, and the player will not be aware that the major game is being executed. May not be able to be grasped by the player, which may cause a loss to the player.

  For example, as shown in FIG. 54 (c), it is assumed that a processing failure occurs during the execution of the loss pattern reach development effect, and the display timing of the variable effect image displayed on the effect display unit 200a is gradually delayed. Originally, the revival effect should have been executed when the symbol on the main control board 300 is confirmed (when the jackpot symbol is stopped), but the revival effect has not yet started, and the effect symbols 210a and 210b. , 210c is assumed to be in a state of symbol shaking displayed in a combination for notifying of a loss. In this way, even if a processing failure has occurred, if the revival effect is performed as it is, the round game will be started during the revival effect, and the player will decide whether or not to win the jackpot until the start of the round game It becomes impossible to distinguish. As a result, the player is unaware that the special winning opening 128 is open, and the launch of the game ball remains stopped, resulting in a disadvantage that it is impossible to acquire the prize ball that should have been originally acquired. It might be.

  Therefore, in the present embodiment, as shown in FIG. 54 (b), at the start of the revival effect, the reproduced information indicating that the revival effect has been started is stored, and how much has elapsed since the revival effect was started. The number of frames (the number of display frames of the revival effect image) is counted in order to confirm whether the time elapses. Then, when the special figure stop designation command is received, if the reproduced information is not stored, or if the number of frames is less than the predetermined number, as shown in FIG. Execute.

  FIG. 55 is a diagram for explaining an example of the correction effect. Even when a processing failure occurs as shown in FIG. 54 (c), the same image as when no processing failure occurs is displayed on the effect display section 200a as shown in FIGS. 55 (a) to 55 (f). Is done. However, when the processing failure occurs, the image display time shown in FIGS. 55A to 55F becomes longer than when the processing failure does not occur. As a result, in the example of FIG. 54 (c), when the jackpot symbol is stopped and displayed, the display state of the effect display unit 200a is the state shown in FIG. 55 (f). As described above, when the processing failure occurs, the correction effect image described as “congratulations” is displayed on the effect display unit 200a as shown in FIG. The correction effect to be displayed is performed. The corrected effect image is displayed for a predetermined time, and thereafter, as shown in FIG. 55 (h), the dedicated image is displayed on the effect display unit 200a.

  In addition, as shown in FIG. 54 (d), there are cases where processing delays are slight although processing failures occur. If the processing delay is small, the processing delay can be absorbed by the opening time. Therefore, when the special figure stop designation command is received, if the reproduced information indicating the start of the revival effect is stored and the number of frames is equal to or greater than the predetermined number, the revival effect is continued. As described above, according to the present embodiment, when the specific reach revival pattern (big hit) is determined as the execution pattern of the variation effect, the variation effect image is preset when the special figure stop designation command is received. If it has been displayed up to the display position, the display control of the variation effect image is continued as it is, and if the variation effect image is not displayed to the predetermined display position, display of the correction effect image is started. As a result, the corrected effect image is displayed only when it is likely to cause a disadvantage to the player, and the opportunity to show the player the variation effect of the specific reach revival pattern (big hit) to the end is ensured. Can do.

  As shown in FIG. 54, when the sub-control board 330 receives the opening designation command, it performs display control of the dedicated effect image. In the display control of this special effect image, when the opening designation command is received, the display data of the special effect image is set in the time table. As shown by cross hatching in the figure, this display data is blank for the first few seconds. It is data. In other words, the display control of the dedicated effect image is controlled so that the display of the dedicated effect image is started at the timing when the revival effect ends when the fluctuating effect is executed as usual without any processing loss. Has been made.

  Further, as shown in FIG. 54 (c), the display control of the correction effect image is executed at the time when the special figure stop designation command is received. In this display control, the display time of the correction effect image is the dedicated effect. It is set to the time until image display starts. Therefore, even when the processing drop occurs and the corrected effect image is displayed, the dedicated effect image is displayed only for the same time as when the process drop does not occur.

  In addition, the priority order of the dedicated effect image is lower than the priority order of the variation effect image of the specific reach revival pattern (big hit). Here, the priority order of images indicates a so-called layer, and the higher the priority order, the more the layer is positioned in front of the effect display unit 200a. Therefore, when the display periods of the dedicated effect image and the change effect image overlap, the change effect image of the specific reach revival pattern (big hit) having a relatively high priority is closer to the effect display unit 200a than the dedicated effect image. Will be displayed on the layer. That is, when the display periods of the dedicated effect image and the variable effect image overlap, the dedicated effect image having a relatively low priority is hidden by the image for the revival effect having a relatively high priority. As a result, as shown in FIG. 54 (d), when a slight processing delay occurs, the dedicated effect image is displayed immediately upon completion of the image display for the revival effect, and there is a slight process drop. Even if it occurs, it is possible to prevent the player from feeling uncomfortable.

  Below, the process of the sub control board 330 for performing said production | presentation is demonstrated easily. In the following, in order to facilitate understanding, the description will be made by appropriately changing the order.

(Sub CPU initialization process of sub control board 330)
FIG. 56 is a flowchart for explaining the sub CPU initialization process (S1000) of the sub control board 330.

(Step S1000-1)
The sub CPU 330a reads a CPU initialization processing program from the sub ROM 330b in response to power-on, and performs initialization and setting processing of flags and the like stored in the sub RAM 330c.

(Step S1000-3)
Next, the sub CPU 330a performs a process of updating each effect random number, and thereafter repeats the process of step S1000-3 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.

(Sub timer interrupt processing of sub control board 330)
FIG. 57 is a flowchart for explaining sub-timer interrupt processing (S1100) of the sub-control board 330. The sub-control board 330 is provided with a reset clock pulse generation circuit (not shown) that generates clock pulses at a predetermined cycle. Then, when the clock pulse is generated by the reset clock pulse generation circuit, the sub CPU 330a reads the timer interrupt processing program and starts the sub timer interrupt processing.

(Step S1100-1)
The sub CPU 330a saves the register.

(Step S1100-3)
The sub CPU 330a performs processing for permitting an interrupt.

(Step S1100-5)
The sub CPU 330a performs update processing of various timer counters used in the sub control board 330. Here, the timer counters are decremented by 1 every time the sub-timer interrupt processing of the sub-control board 330 is performed unless otherwise noted.

(Step S1200)
The sub CPU 330a analyzes a command stored in the reception buffer of the sub RAM 330c and performs various processes according to the received command. In the sub control board 330, when a command is transmitted from the main control board 300, command reception interrupt processing is performed, and the command transmitted from the main control board 300 is stored in the reception buffer. Here, the command stored in the reception buffer by the command reception interrupt process is analyzed.

(Step S1300)
The sub CPU 330a measures a time schedule management process for measuring the elapsed time of the variation effect and performing a process corresponding to the corresponding time stored in the time table with reference to a time table set for each variation effect. Do. Here, various flags are turned on / off according to the time data set in the time table, and commands are transmitted to various rendering devices, whereby various renderings are executed.

(Step S1100-9)
The sub CPU 330a restores the register and ends the sub timer interrupt process.

  FIG. 58 is a flowchart for explaining a prefetch designation command reception process executed when a prefetch designation command is received in the command analysis process. As described above, the prefetch designation command is set in step S536-7, step S536-23, step S536-27, and step S536-29 in FIG. 22 on the main control board 300, and then the subcommand in step S100-39. It is transmitted to the sub control board 330 by the transmission process (see FIG. 14).

(Step S1210-1)
The sub CPU 330a first analyzes the received prefetch designation command.

(Step S1210-3)
The sub CPU 330a stores the analysis result of step S1210-1 as prior determination information. The sub-RAM 330c of the sub-control board 330 is provided with a prior determination information storage unit corresponding to the first special figure reservation storage area of the main control board 300. The prior determination information storage unit includes four storage units, a first storage unit to a fourth storage unit, and the first storage unit to the fourth storage unit of these preliminary determination information storage units are the first special figure reservation storage area. Respectively corresponding to the first storage unit to the fourth storage unit. Here, the pre-determination information is stored in the target storage unit corresponding to the storage unit in which the special 1 hold is newly stored among the first storage unit to the fourth storage unit of the first special figure reservation storage area. And information which shows symbol information, a change mode number, and a change pattern number will be memorized as prior judgment information. In addition, the main control board 300 is provided with a 0th storage unit to which the hold information read from the first storage unit of the first special figure reservation storage area is transferred. Similarly to the main control board 300, a 0th storage unit is provided.

(Step S1210-5)
The sub CPU 330a pre-determines the execution pattern (second half) of the variation effect with reference to the second half variation effect determination table of FIG. 49 (b) based on the prefetch designation variation pattern command among the received prefetch designation commands.

(Step S1210-7)
The sub CPU 330a obtains the execution pattern information corresponding to the execution pattern of the variation effect determined in advance in step S1210-5, and the advance determination information in step S1210-3 among the first to fourth storage units. Store in the stored storage unit.

(Step S1210-9)
Based on the execution pattern information stored in step S1210-7, the sub CPU 330a refers to the final display form determination table of FIG. Here, whether or not to execute the standby effect is determined simultaneously with the final display form.

(Step S1210-11)
The sub CPU 330a determines whether the final display form determined in step S1210-9 is other than the default. As a result, when it is determined that the final display form is other than the default, the process proceeds to step S1210-13, and when it is determined that the final display form is not other than the default, the process proceeds to step S1210-23.

(Step S1210-13)
The sub CPU 330a determines whether or not execution of the standby effect is determined in step S1210-9. As a result, when it is determined that the execution of the standby effect is determined, the process proceeds to step S1210-15, and when it is determined that the execution of the standby effect is not determined, the process proceeds to step S1210-19.

(Step S1210-15)
The sub CPU 330a sets a standby effect scenario determination table corresponding to the final display form determined in step S1210-9. Then, with reference to the set standby effect scenario determination table, a standby effect scenario determination process for determining a scenario based on the execution pattern of the changing effect determined in advance in step S1210-5 is performed.

(Step S1210-17)
The sub CPU 330a stores the scenario information determined in step S1210-15 in the storage unit that stores the preliminary determination information in step S1210-3 among the first to fourth storage units.

(Step S1210-19)
The sub CPU 330a uses the predetermined table based on the final display form determined in step S1210-9 to determine the hold change information that determines how to change the hold display display form. Process.

(Step S1210-21)
The sub CPU 330a stores the pending change information determined in step S1210-19 in the storage unit that stores the preliminary determination information in step S1210-3 among the first to fourth storage units.

(Step S1210-23)
The sub CPU 330a executes a hold display start process for starting hold display based on the scenario information or the hold change information stored in step S1210-17 or step S1210-21, and ends the prefetch designation command reception process. .

  FIG. 59 is a flowchart for explaining a variable command reception process executed when a variable command is received in the command analysis process. As described above, the variation command is set in the main control board 300 in steps S612-13 and S612-17 in FIG. 26, and then is executed in the subcommand transmission process (see FIG. 14) in step S100-39. 330.

(Step S1220-1)
When receiving the variation command, the sub CPU 330a first performs a prior determination information shift process. Here, of the prior determination information storage unit, the prior determination information stored in the first storage unit is shifted to the 0th storage unit, and the prior determination information stored in the second storage unit to the fourth storage unit Are shifted to the first storage unit to the third storage unit, respectively.

(Step S1220-3)
The sub CPU 330a analyzes and stores the received fluctuation command.

(Step S1220-5)
The sub CPU 330a determines whether the received variation pattern command is B0H. As a result, if it is determined that it is B0H, the process proceeds to step S1220-9. If it is determined that it is not B0H, the process proceeds to step S1220-7.

(Step S1220-7)
The sub CPU 330a acquires the effect random number (0 to 249) updated in step S1000-3, and executes the first half and the latter half of the variable effect based on the acquired effect random number and the analysis result in step S1220-3. Determine and store the pattern.

(Step S1220-9)
The sub CPU 330a confirms the execution pattern information shifted to the 0th storage unit.

(Step S1220-11)
The sub CPU 330a determines the execution pattern of the variation effect based on the execution pattern information confirmed in step S1220-9. When a B0H fluctuation pattern command is received, a specific reach normal pattern (big hit) or a specific reach revival pattern (big hit) is stored as execution pattern information. Therefore, here, if execution pattern information indicating the specific reach normal pattern (big hit) is stored, the execution pattern information indicating the specific reach revival pattern (big hit) is determined as the specific reach normal pattern as the variation effect execution pattern. Is stored, the execution pattern of the variation effect is determined as the specific reach revival pattern. Although detailed explanation is omitted, here, the execution pattern of the first half variation effect is determined and stored with reference to the first variation variation determination table based on the received variation mode command.

(Step S1220-13)
The sub CPU 330a determines and stores the execution pattern of the notice effect that constitutes the variable effect.

(Step S1220-15)
The sub CPU 330a confirms the pending change information.

(Step S1220-17)
The sub CPU 330a confirms the scenario information.

(Step S1220-19)
The sub CPU 330a sets hold effect execution data for executing the hold effect based on the hold change information confirmed in step S1220-15 and the scenario information confirmed in step S1220-17.

(Step S1220-21)
The sub CPU 330a performs a hold display shift process for shifting the hold display based on the information in the prior determination information storage unit after the shift in step S1220-1.

(Step S1220-23)
The sub CPU 330a sets time data in the time table based on the determination of the above steps, and ends the variation command reception process. Based on the time table set here, in step S1300, which will be described later, a variation effect image is displayed on the effect display unit 200a, sound corresponding to the variation effect image is output, and the effect lighting device 204 is turned on. Processing is performed.

  FIG. 60 is a flowchart for explaining the time schedule management process (step S1300).

(Step S1300-1)
The sub CPU 330a checks the elapsed time since the start of the change effect, and turns on and off various flags based on the current elapsed time and the time data set in the time table.

(Step S1300-3)
The sub CPU 330a checks the elapsed time since the start of the change effect, and transmits a command to various effect devices based on the current elapsed time and the time data set in the time table.

(Step S1300-5)
The sub CPU 330a determines whether or not the execution pattern of the variation effect being executed is the specific reach revival pattern (big hit). As a result, if it is determined that it is a specific reach revival pattern (big hit), the process proceeds to step S1300-7, and if it is determined that it is not a specific reach revival pattern (big hit), the time schedule management process is terminated. .

(Step S1300-7)
The sub CPU 330a checks the time data set in the time table, and determines whether it is the start timing of the revival effect. As a result, if it is determined that it is the start timing of the revival effect, the process proceeds to step S1300-9. If it is determined that it is not the start timing of the revival effect, the process proceeds to step S1300-15.

(Step S1300-9)
The sub CPU 330a stores the reproduced information in the sub RAM 330c.

(Step S1300-11)
The sub CPU 330a turns on the frame number counting period flag.

(Step S1300-13)
The sub CPU 330a resets the counter value (F) of the frame number counter and ends the time schedule management process.

(Step S1300-15)
The sub CPU 330a determines whether the frame count period flag is on. As a result, if it is determined that the frame number counting period flag is on, the process proceeds to step S1300-17, and if it is determined that the frame number counting period flag is not on, the time schedule management process is performed. finish.

(Step S1300-17)
The sub CPU 330a increments the counter value (F) of the frame number counter by 1, and ends the time schedule management process.

  FIG. 61 is a flowchart for explaining a special figure stop designation command reception process executed when a special figure stop designation command is received in the command analysis process. As described above, the special figure stop designation command is set in step S620-19 in FIG. 27 on the main control board 300, and then sent to the sub control board 330 by the subcommand transmission process (see FIG. 14) in step S100-39. Sent.

(Step S1230-1)
When receiving the special figure stop designation command, the sub CPU 330a determines whether or not the specific reach revival pattern (big hit) is changing. As a result, when it is determined that the variation effect of the specific reach revival pattern (big hit) is being performed, the process proceeds to step S1230-3. Then, the special figure stop designation command receiving process is terminated.

(Step S1230-3)
The sub CPU 330a determines whether reproduced information is stored in the sub RAM 330c. As a result, when it is determined that the reproduced information is stored, the process proceeds to step S1230-5, and when it is determined that the reproduced information is not stored, the process proceeds to step S1230-7.

(Step S1230-5)
The sub CPU 330a determines whether the counter value (F) of the frame number counter is less than a predetermined number. As a result, when it is determined that the counter value (F) is less than the predetermined number, the process proceeds to step S1230-7, and when it is determined that the counter value (F) is not less than the predetermined number, step S1230-9 is performed. Move processing to.

(Step S1230-7)
The sub CPU 330a performs a correction effect execution process for executing the correction effect. As a result, when a special reach revival pattern (big hit) fluctuating effect is executed when a special figure stop designation command is received, and the revival effect is not displayed up to a predetermined display position due to processing failure, the correction is performed. The production will be executed.

(Step S1230-9)
The sub CPU 330a turns off the frame number counting period flag and ends the special figure stop designation command reception process.

  FIG. 62 is a flowchart for explaining an opening designation command reception process executed when an opening designation command is received in the command analysis process. As described above, the opening designation command is set in step S630-23 in FIG. 28 in the main control board 300, and then transmitted to the sub control board 330 by the subcommand transmission process (see FIG. 14) in step S100-39. The

(Step S1240-1)
When the opening designation command is received, the sub CPU 330a determines whether or not the specific reach revival pattern (big hit) is changing. As a result, if it is determined that the variation effect of the specific reach revival pattern (bonus) is being performed, the process proceeds to step S1240-3, and if it is determined that the variation effect of the specific reach revival pattern (bonus) is not being performed The process moves to step S1240-5.

(Step S1240-3)
The sub CPU 330a sets dedicated effect execution data for displaying the dedicated effect image on the effect display unit 200a in the time table, and ends the opening designation command receiving process. The dedicated effect execution data set here is configured such that the first predetermined time is blank data, and the dedicated effect image is displayed after the predetermined time.

(Step S1240-5)
The sub CPU 330a executes a normal opening image display process for displaying a predetermined opening image on the effect display unit 200a, and ends the opening designation command reception process.

  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, the game playability in the above embodiment is merely an example, and it goes without saying that the game playability can be set as appropriate. Therefore, in the above embodiment, whether or not the big game is executed and the game state after the completion of the big game when the big game is executed are determined as the game profit to be given to the player. Is not limited to this, and can be set as appropriate. Further, in the above embodiment, four games in which two game states with different jackpot winning probabilities and two game states with different ease of entering a game ball into the second start port 122 are combined. Although the state is provided, the content and type of the gaming state are not limited to this. Furthermore, in the said embodiment, although the 1st start port 120 and the 2nd start port 122 were provided as a start port, one start port may be sufficient and 3 or more may be sufficient.

  In addition, the contents of the effects in the above embodiment are merely examples. In any case, when the specific variation information is determined as the variation information in the main control board 300, the specific variation command is transmitted. When the specific variation command is received, the sub control board 330 displays the image displayed on the effect display unit 200a. As the display pattern, there may be a case where a specific image pattern having a configuration time longer than the variation time defined in the specific variation information is determined.

  Moreover, in the said embodiment, even if it was a case where reproduced | regenerated information was memorize | stored, if the number of frames was less than predetermined number, it decided to perform correction | amendment effect. However, when the reproduced information is stored, the correction effect may not be executed regardless of the number of frames, and the number of frames and the execution time of the effect are simply set without storing the reproduced information. It is also possible to manage and execute a correction effect when a predetermined effect has not been executed for a predetermined time or longer. In any case, when a specific image pattern is determined, if a special effect stop designation command is received, if the variable effect image of the specific image pattern has been displayed up to a preset display position, the variable effect image If the display control is continued and the variation effect image is not displayed up to the display position, the display of the predetermined correction effect image may be started.

  In the above embodiment, when the jackpot symbol is determined, the specific image pattern (variation effect execution pattern) having a longer configuration time than the variation time is determined. However, when a lost symbol is determined, a specific image pattern whose composition time is longer than the variation time may be determined. In this case, the effect is not executed over the variation display of the special symbol and the big game, but the effect is executed over the variation display of the special symbol a plurality of times.

  Further, for example, in the above embodiment, when a special figure stop designation command is received during the execution of the correction effect, the effect symbols 210a, 210b, and 210c for notifying the winning of the jackpot may be displayed together with the correction effect image. . When a special figure stop designation command is received during the execution of the revival effect, the effect symbols 210a, 210b, and 210c are displayed in a small size so that the revival effect is not executed so as not to disturb the revival effect. When the special figure stop designation command is received, the effect symbols 210a, 210b, and 210c are displayed largely in the center of the effect display unit 200a as usual. In this way, at the time of receiving the special figure stop designation command, the effect symbols 210a, 210b and 210c are displayed regardless of whether or not the revival effect is being executed, and whether or not the revival effect is being executed. Depending on whether or not, the display form of the production symbols 210a, 210b, 210c may be different.

In the above embodiment, the main control board 300 corresponds to the main control unit of the present invention, and the sub control board 330 corresponds to the sub control unit of the present invention.
In addition, the opening designation command in the above-described embodiment corresponds to the major role start command of the present invention.
Moreover, in the said embodiment, main CPU300a which performs the process of FIG.25 S610-9 and step S610-11 corresponds to the symbol determination means of this invention.
In the above embodiment, the main CPU 300a that executes the processing of FIG. 26 corresponds to the variation information determination means of the present invention.
In the above embodiment, the main CPU 300a that executes the processes of FIGS. 27 and 28 corresponds to the symbol display control means of the present invention.
Moreover, in the said embodiment, main CPU300a which performs the process of FIGS. 29-32 corresponds to the big game execution means of this invention.
In the above embodiment, the special figure stop designation command corresponds to the symbol stop designation command of the present invention, and the main CPU 300a executing the processing of steps S100-39 in FIG. 14 corresponds to the command transmission means of the present invention.
In the above embodiment, the sub CPU 330a that executes the processing of FIG.
In the above embodiment, the sub CPU 330a that executes the processes of FIGS. 60 to 62 corresponds to the image display control means of the present invention.
In the above embodiment, the variation pattern number of B0H corresponds to the specific variation information of the present invention, and the variation pattern command corresponding to the variation pattern number of B0H corresponds to the specific variation command of the present invention.
Moreover, in the said embodiment, the image pattern displayed on the production | presentation display part 200a by the change effect of a specific reach revival pattern (big hit) corresponds to the specific image pattern of this invention.

100 gaming machine 108 gaming board 128 grand prize opening 160 first special symbol display (symbol display unit)
162 Second special symbol display (symbol display)
200a Production display section (image display section)
300 Main control board (main control unit)
300a Main CPU
300b Main ROM
300c main RAM
330 Sub control board (sub control unit)
330a Sub CPU
330b Sub ROM
330c Sub RAM

Claims (4)

A game board in which a game area where game balls flow down is formed;
A large winning opening through which game balls flowing down the game area can enter;
A main control unit for controlling the progress of the game;
A sub-control unit that controls production based on a command transmitted from the main control unit;
A gaming machine equipped with
The main control unit
A symbol determining means for determining any symbol from a plurality of types of symbols including at least a jackpot symbol and a lost symbol by establishing a starting condition;
When the symbol is determined by the symbol determining means, variation information determining means for determining variation information in which the variation time until the symbol is stopped and displayed on the symbol display unit is defined;
When the variation information is determined by the variation information determination unit, the symbol display unit displays the symbol in a variation over the variation time defined in the variation information, and when the variation time has elapsed, the symbol determination unit A symbol display control means for stopping and displaying the symbol determined by the symbol display unit;
When the jackpot symbol is stopped and displayed on the symbol display unit, the big game execution means for executing and controlling the big game in which the big prize opening is opened,
At least when the variation information is determined by the variation information determining means, a variation command corresponding to the variation information is transmitted to the sub-control unit, and when the symbol is stopped and displayed on the symbol display unit, the symbol stop designation Command transmission means for transmitting a command to the sub-control unit;
With
The sub-control unit
When receiving the variation command, based on the variation command, variation effect image determination means for determining an image pattern of the variation effect image to be displayed on the image display unit;
Image display control means for displaying a fluctuation effect image on the image display unit in an image pattern determined by the fluctuation effect image determination means;
With
The variation effect image determination means includes:
When the specific variation command transmitted when the specific variation information is determined by the variation information determining means is received, a specific image pattern having a longer configuration time than the variation time defined in the specific variation information may be determined. ,
The image display control means includes
When the specific image pattern is determined by the variation effect image determining means, if the variation effect image of the specific image pattern has been displayed up to a preset display time when the symbol stop designation command is received. A game machine characterized in that display control of the variation effect image is continued, and display of a predetermined correction effect image is started unless the variation effect image is displayed until the display time point. The variation information determining means includes
The gaming machine according to claim 1, wherein the specific variation information is determined when the jackpot symbol is determined.   The gaming machine according to claim 2, wherein the correction effect image is an image for notifying that the big game is executed. The command transmission means includes
At the start of the big game, send a big role start command to the sub-control unit,
The image display control means includes
When receiving the big actor start command, display control of the dedicated effect image,
The priority order of the dedicated effect image is lower than the priority order of the variation effect image of the specific image pattern, and when the display period of the dedicated effect image and the variation effect image overlaps, the priority is relatively higher The gaming machine according to claim 2 or 3, wherein a variation effect image of a specific image pattern is displayed on the image display unit, and the dedicated effect image having a relatively low priority is not displayed.

Images