JP2015167701A - Game machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a game machine with enhanced amusement level by means of action instructing images.SOLUTION: The game machine displays action instructing images (in this case, an operation instructing image) for prompting a player to take actions (in this case, a presentation control microcomputer 100 executes steps S8004 and S8105). A display mode of the action instructing image thus displayed is designed to be changed (in this case, the presentation control microcomputer 100 determines a post-variation display mode on the basis of the number of ready-to-wins (that is to say, the number of displays of the operation instructing images) at the steps S3123 to S3126, and switches the display to the determined post-variation display mode at the step S8100C.) to either one of display mode from among a plurality of display modes (in this case, a first display mode to a fourth display mode) corresponding to the number of displays of the action instructing image. Accordingly, due to changes in the action instructing image modes, the amusement level with respect to action presentations can be enhanced.

Description

  The present invention relates to a gaming machine capable of playing a game.

  As a gaming machine, a game medium such as a game ball is launched into a game area by a launching device, and when a game medium wins a prize area such as a prize opening provided in the game area, a predetermined number of prize balls are paid out to the player. There is something to be. Furthermore, a variable display device capable of variably displaying the identification information (also referred to as “fluctuation”) is provided, which is advantageous to the player when the display result of the variable display of the identification information becomes the specific display result in the variable display device. Some are configured to be controllable to a specific gaming state.

  The specific game state means a state advantageous for a player who is given a predetermined game value. Specifically, the specific game state has a right to be in an advantageous state for a player who easily wins a game medium (a big hit game state), for example, a state of a special variable prize-winning device, or a state advantageous for a player. This is a state to which game values such as a state, a state where conditions for paying out premium game media are easily established, and the like are given.

  In such a gaming machine, the fact that the display result of the variable display device that displays the symbol as identification information is a combination of specific display modes (specific display result) determined in advance is generally referred to as “big hit”. When a big win occurs, for example, the big winning opening is opened a predetermined number of times, and the game medium shifts to a specific gaming state (a big winning gaming state) where the game medium is easy to win. And in each open period, if there is a prize for a predetermined number (for example, 10) of the big prize opening, the big prize opening is closed. An opening time (for example, 30 seconds) is determined for each opening, and even if the number of winnings does not reach a predetermined number, the winning opening is closed when the opening time elapses.

  In such gaming machines, there are things that improve the interest by performing various effects. For example, there is a gaming machine that displays an operation instruction image that prompts a player to perform an action and performs a specific effect on the condition that the action of the player is detected. In addition, in a gaming machine that performs a specific effect on the condition that a plurality of predetermined operations are detected, there are some that display the same number of operation instruction images as the number of operations for satisfying the condition (for example, patents) Reference 1).

JP 2013-252273 A (paragraph 0084, FIG. 5)

  However, in the gaming machine shown in Patent Document 1, the display of the operation instruction image is monotonous and lacks interest.

  In view of the above, an object of the present invention is to provide a gaming machine in which the interest by the operation instruction image is improved.

  (Means 1) A gaming machine according to the present invention is a gaming machine capable of playing a game, and is a display control means (for example, production) that displays an operation instruction image (for example, an operation instruction image) that prompts the player to perform an operation. In the control microcomputer 100, a part for executing steps S8004 and S8105 and a display mode of the operation instruction image displayed by the display control means are displayed in a plurality of display modes (for example, the first display mode). Change means for changing to any one of the display modes (1 display mode to 4th display mode) (for example, the number of reach (that is, the display number of operation instruction images) in steps S3123 to S3126 in the production control microcomputer 100). The part which determines the display mode after change based on the display and switches to the display mode after change determined in step S8100C. Characterized by comprising and. According to such a configuration, it is possible to improve the interest related to the operation effect by changing the mode of the operation instruction image.

  (Means 2) In the means 1, game state control means (for example, a part for executing steps S305 to S307 in the game control microcomputer 560) that can be controlled to a specific gaming state (for example, a big hit gaming state) advantageous to the player. ), And the changing means is configured to change the display mode of the operation instruction image displayed by the display control means at a different rate based on at least one of the display number of the operation instruction image and the specific gaming state. Change to any one of the plurality of display modes (for example, the production control microcomputer 100 determines the post-change display mode using the post-change display mode determination table shown in FIG. 33 in step S3126, (The display may be switched to the post-change display mode determined in step S8100C). According to such a configuration, since there are a plurality of types of aspect changes, it is possible to further improve the interest related to the operation effect.

  (Means 3) In the means 1 or 2, the detecting means (for example, the push sensor 124) for detecting the player's movement and the display means of the operation instruction image are changed by the changing means, and then the player's action is detected by the detecting means. An effect execution means for executing a specific effect based on the detection of the operation (for example, an operation on the push button 120 during the effective period started after the display mode of the operation instruction image in the effect control microcomputer 100 is changed) The display control means displays a plurality of operation instruction images before the display means of the operation instruction image is changed by the changing means (for example, for effect control). The microcomputer 100 determines the reach number using the reach number determination table shown in FIG. 32 (step S31). 2), Reach (i.e., select the process table in accordance with the display number) of the operation instruction image (step S8004), step S8004, performs the S8105) may be. According to such a configuration, it is possible to make it appear as if a production requiring a plurality of motion detections (a plurality of motion productions) is combined into one production, so that the player can have a sense of expectation for the production. Can be further improved.

  (Means 4) The means 1 or means 2 includes a detecting means (for example, a push sensor 124) for detecting a player's action, and the changing means changes the display mode of the action instruction image and then plays the game by the detecting means. When the motion of the person is detected, the display mode of the changed operation instruction image is changed to another display mode (for example, the production control microcomputer 100 is started after the display mode of the operation instruction image is changed. When an operation on the push button 120 is detected during the effective period, step S3701 may be executed). According to such a configuration, since the motion instruction image is changed to a different display mode after detecting the player's motion, the interest can be improved.

  (Means 5) In the means 3 or 4, the game state control means (for example, steps S305 to S307 in the game control microcomputer 560) that can be controlled to a specific gaming state (for example, a big hit gaming state) advantageous to the player. Execution part) and an effect execution means (for example, for effect control) that executes a specific effect based on the detection of the player's motion by the detection means after the display mode of the operation instruction image is changed by the change means. The step of executing step S2604 when the operation of the push button 120 is detected during the effective period that is started after the display mode of the operation instruction image in the microcomputer 100 is changed. Multiple types of specific effects (for example, the first The specific effect of any one of the fixed effect mode and the second specific effect mode is executed (for example, the effect control microcomputer 100 uses the specific effect mode determination table shown in FIG. 38 in step S3801). And step S3702 may be executed). According to such a configuration, since there is a variety of effects after motion detection, it is possible to improve the interest.

It is the front view which looked at the pachinko game machine from the front. It is a block diagram which shows the circuit structural example of a game control board (main board). It is a block diagram showing an example of circuit configuration of an effect control board, a lamp driver board and an audio output board. It is a flowchart which shows the main process which the microcomputer for game control performs. It is a flowchart which shows a 4 ms timer interruption process. It is explanatory drawing which shows the variation pattern of the production | presentation symbol prepared beforehand. It is explanatory drawing which shows each random number. It is explanatory drawing which shows the big hit determination table and the big hit classification determination table. It is explanatory drawing which shows an example of the content of the presentation control command which the microcomputer for game control transmits. It is explanatory drawing which shows an example of the content of the presentation control command which the microcomputer for game control transmits. It is a flowchart which shows an example of the program of a special symbol process process. It is a flowchart which shows a starting port switch passage process. It is explanatory drawing which shows the structural example of a pending | holding buffer. It is a flowchart which shows a special symbol normal process. It is a flowchart which shows a special symbol normal process. It is a flowchart which shows a fluctuation pattern setting process. It is a flowchart which shows a display result designation | designated command transmission process. It is a flowchart which shows the special symbol stop process in a special symbol process process. It is a flowchart which shows the jackpot end process in the special symbol process. It is a flowchart which shows an example of the program of a special symbol display control process. It is a flowchart which shows the presentation control main process which CPU for presentation control performs. It is explanatory drawing which shows the structural example of a command reception buffer. It is a flowchart which shows the specific example of a command analysis process. It is a flowchart which shows the specific example of a command analysis process. It is a flowchart which shows production control process processing. It is a flowchart which shows operation reception processing. It is a flowchart which shows a fluctuation pattern command reception waiting process. It is a flowchart which shows an effect design fluctuation start process. It is explanatory drawing which shows an example of the stop symbol of the effect symbol in an effect display apparatus. It is explanatory drawing which shows the structural example of a process table. It is a flowchart which shows an operation effect setting process. It is explanatory drawing which shows a reach number determination table. It is explanatory drawing which shows the display mode determination table after a change. It is a flowchart which shows the process during effect design change in effect control process processing. It is explanatory drawing which shows the example of a display in the effect display apparatus at the time of performing an operation effect. It is a flowchart which shows the operation reception process in a modification. It is a flowchart which shows the operation effect setting process in a modification. It is explanatory drawing which shows the specific production | presentation aspect determination table in a modification. It is explanatory drawing which shows the example of a display in the effect display apparatus at the time of performing the operation effect in a modification.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. First, the overall configuration of a pachinko gaming machine 1 that is an example of a gaming machine will be described. FIG. 1 is a front view of the pachinko gaming machine 1 as seen from the front.

  The pachinko gaming machine 1 includes an outer frame (not shown) formed in a vertically long rectangular shape, and a game frame attached to the inside of the outer frame so as to be opened and closed. Further, the pachinko gaming machine 1 has a glass door frame 2 formed in a frame shape that is provided in the game frame so as to be opened and closed. The game frame includes a front frame (not shown) that can be opened and closed with respect to the outer frame, a mechanism plate (not shown) to which mechanism parts and the like are attached, and various parts (games to be described later) attached to them. A structure including the board 6).

  On the lower surface of the glass door frame 2 is a hitting ball supply tray (upper plate) 3. Under the hitting ball supply tray 3, there are provided a surplus ball receiving tray 4 for storing game balls that cannot be accommodated in the hitting ball supply tray 3, and a hitting operation handle (operation knob) 5 for firing the hitting ball. A game board 6 is detachably attached to the back surface of the glass door frame 2. The game board 6 is a structure including a plate-like body constituting the game board 6 and various components attached to the plate-like body. In addition, a game area 7 is formed on the front surface of the game board 6 in which a game ball that has been struck can flow down.

  The member that forms the extra ball tray (lower tray) 4 is configured in a stick shape (bar shape), for example, at a predetermined position on the front side of the upper surface of the lower tray main body (for example, the central portion of the lower tray). Is attached to the stick controller 122 that can be tilted in a plurality of directions (front and rear, left and right). It should be noted that the stick controller 122 has a predetermined operation, for example, by performing a push-pull operation with a predetermined operation finger (for example, an index finger) while the player holds the operation rod of the stick controller 122 with an operation hand (for example, the left hand). A trigger button 121 (see FIG. 3) capable of performing an instruction operation is provided, and a trigger sensor 125 (see FIG. 3) for detecting a predetermined instruction operation by a push-pull operation or the like on the trigger button 121 is provided inside the operation rod of the stick controller 122. 3) is built-in. In addition, a tilt direction sensor unit 123 (see FIG. 3) that detects a tilting operation with respect to the operating rod is provided in the lower plate main body and the like below the stick controller 122. The stick controller 122 includes a vibrator motor 126 (see FIG. 3) for causing the stick controller 122 to vibrate.

  The member that forms the hitting ball supply tray (upper plate) 3 is subjected to a predetermined instruction operation, for example, by a player pressing a predetermined position on the upper surface of the upper plate body (for example, above the stick controller 122). A possible push button 120 is provided. The push button 120 only needs to be configured to be able to detect a predetermined instruction operation such as a pressing operation from a player mechanically, electrically, or electromagnetically. A push sensor 124 (see FIG. 3) for detecting an operation action of the player performed on the push button 120 may be provided inside the main body of the upper plate at the position where the push button 120 is installed. In the configuration example shown in FIG. 1, the mounting positions of the push button 120 and the stick controller 122 are in a vertical positional relationship in the central portion of the upper plate and the lower plate. On the other hand, it is good also considering the attachment position of the push button 120 and the stick controller 122 as the position approached to either right or left in the upper plate and the lower plate, maintaining the vertical relationship. Alternatively, the mounting position of the push button 120 and the stick controller 122 is not in the vertical relationship, but may be in the horizontal relationship, for example.

  An effect display device 9 composed of a liquid crystal display device (LCD) is provided near the center of the game area 7. The display screen of the effect display device 9 includes an effect symbol display area for performing variable display of the effect symbol in synchronization with the variable display of the first special symbol or the second special symbol. Therefore, the effect display device 9 corresponds to a variable display device that performs variable display of effect symbols. The effect symbol display area includes a symbol display area for variably displaying, for example, three decorative (effect) effect symbols of “left”, “middle”, and “right”. The symbol display area includes “left”, “middle”, and “right” symbol display areas, but the position of the symbol display area does not have to be fixed on the display screen of the effect display device 9. Three areas of the display area may be separated. The effect display device 9 is controlled by an effect control microcomputer mounted on the effect control board. When the first special symbol display 8a is executing variable display of the first special symbol, the effect control microcomputer causes the effect display device 9 to execute the effect display along with the variable display, and the second special symbol display 8a executes the second special display. When the variable display of the second special symbol is executed on the symbol display 8b, the effect display is executed by the effect display device 9 along with the variable display, so that the progress of the game can be easily grasped. .

  Further, in the effect display device 9, symbols other than the symbol that will be the final stop symbol (for example, the middle symbol of the left and right middle symbols) have continued for a predetermined time, and the jackpot symbol (for example, the left middle right symbol is aligned with the same symbol) Stops, swings, scales, or deforms in a state that matches the symbol combination), or multiple symbols fluctuate synchronously in the same symbol, or the position of the display symbol is switched Thus, an effect performed in a state where the possibility of occurrence of a big hit (hereinafter, these states are referred to as reach states) before the final result is displayed is referred to as reach effect. Further, the reach state and its state are referred to as a reach mode. Furthermore, variable display including reach production is called reach variable display. And when the display result of the symbol variably displayed on the effect display device 9 is not a big hit symbol, it becomes “out” and the variation display state ends. A player plays a game while enjoying how to generate a big hit.

  Note that, in this embodiment, a case is shown in which the effect symbol display is performed as a liquid crystal display effect in the effect display device 9, but the effect performed in the effect display device 9 is the one shown in this embodiment. For example, an effect having a predetermined story characteristic may be executed, and an effect may be executed in which the result of the story is displayed based on the determination result of the jackpot determination or the variation pattern. For example, perform a battle effect where professional wrestling and soccer matches and enemy characters fight, perform an effect to win the game and battle if it is a big hit, and perform an effect to defeat the game and battle if it is off Also good. Further, for example, instead of displaying the result such as winning or losing, an effect may be executed in which a predetermined story such as a story is developed in order.

  In the upper right part of the display screen of the effect display device 9, there are provided fourth symbol display areas 9c and 9d for displaying a fourth symbol after the effect symbol, a special symbol described later, and a normal symbol. In this embodiment, a fourth symbol display area 9c for the first special symbol in which the variation display of the fourth symbol for the first special symbol is performed in synchronization with the variation display of the first special symbol described later, There is provided a fourth symbol display area 9d for the second special symbol in which the variation display of the fourth symbol for the second special symbol is performed in synchronization with the variation display of the special symbol.

  In this embodiment, the variation display of the effect symbol is executed in synchronization with the variation display of the special symbol (however, to be precise, the variation display of the effect symbol is varied on the effect control microcomputer 100 side). This is done by measuring the variation time recognized based on the pattern command.) When performing an effect using the effect display device 9, for example, the effect content including the change display of the effect symbol disappears from the screen for a moment. There are a variety of effects such as effects being performed and effects in which movable objects shield all or part of the screen. For this reason, even if the display screen on the effect display device 9 is viewed, it may be difficult to recognize whether or not the current variation display is in progress. Therefore, in this embodiment, whether or not the state of the present variation is being displayed by confirming the state of the fourth symbol by further displaying the variation of the fourth symbol on a part of the display screen of the effect display device 9. It is possible to reliably recognize whether or not. Note that the 4th symbol is always variably displayed with a constant operation and does not disappear from the screen or is not shielded by a shielding object, so that it can always be visually recognized.

  The 4th symbol for the first special symbol and the 4th symbol for the 2nd special symbol may be collectively referred to as the 4th symbol, and the 4th symbol display area 9c for the 1st special symbol and the 2nd special symbol The 4th symbol display area 9d for symbols may be collectively referred to as a 4th symbol display area.

  The variation (variable display) of the fourth symbol is realized by continuing the state where the fourth symbol display areas 9c and 9d are repeatedly turned on and off at a predetermined time interval in a predetermined display color (for example, blue). . The variable display of the first special symbol on the first special symbol display unit 8a is synchronized with the variable display of the fourth symbol for the first special symbol in the fourth symbol display area 9c for the first special symbol. The variable display of the second special symbol on the second special symbol display 8b is synchronized with the variable display of the fourth symbol for the second special symbol in the fourth symbol display area 9d for the second special symbol. Synchronous means that the variable display start time and end time are the same, and the variable display period is the same.

  Further, when the big hit symbol is stopped and displayed on the first special symbol display 8a, it is displayed in the display color reminiscent of the big hit in the fourth symbol display area 9c for the first special symbol (a display color different from the deviation). The For example, it is displayed in blue when it is off, while it is displayed in red when it is a big hit. Note that the display color may be varied depending on the type of jackpot (whether it is probable jackpot or normal jackpot). Also, the display color may be different depending on whether or not the game ball can be expected to win a big winning opening, and if it is possible to control multiple types of big hits with different numbers of rounds, The display color may be changed according to the number of rounds continued in the game. Even if the number of rounds per jackpot is the same, for example, the jackpot opening time per round is short (for example, 1 second), and a jackpot that cannot be expected to win a game ball in the jackpot. If the opening time of the big prize opening per round is long (for example, 30 seconds) and there is a big hit that can be expected to win a game ball to the big prize opening substantially, to the big prize opening substantially The display color may be varied depending on whether or not a game ball can be expected to win. In addition, for example, when there is a big hit that cannot be expected and a big hit that cannot be expected due to the difference in the number of times the big winning opening is opened per round, The display color may be varied depending on whether or not the game ball can be expected to win the mouth.

  When the big win symbol is stopped and displayed on the second special symbol display 8b, it is displayed in a display color reminiscent of the big hit in the fourth symbol display area 9d for the second special symbol (a display color different from the disparity). The For example, it is displayed in blue when it is off, while it is displayed in red when it is a big hit. Note that the display color may be varied depending on the type of jackpot (whether it is probable jackpot or normal jackpot). Also, the display color may be different depending on whether or not the game ball can be expected to win a big winning opening, and if it is possible to control multiple types of big hits with different numbers of rounds, The display color may be changed according to the number of rounds continued in the game. Even if the number of rounds per jackpot is the same, for example, the jackpot opening time per round is short (for example, 1 second), and a jackpot that cannot be expected to win a game ball in the jackpot. If the opening time of the big prize opening per round is long (for example, 30 seconds) and there is a big hit that can be expected to win a game ball to the big prize opening substantially, to the big prize opening substantially The display color may be varied depending on whether or not a game ball can be expected to win. In addition, for example, when there is a big hit that cannot be expected and a big hit that cannot be expected due to the difference in the number of times the big winning opening is opened per round, The display color may be varied depending on whether or not the game ball can be expected to win the mouth.

  The display colors when the fourth symbol display areas 9c and 9d are turned off are different from the background image (for example, black) in order to prevent the display colors from being assimilated with the background image when the lights are turned off. It is desirable to be.

  In this embodiment, the case where the 4th symbol display area is provided on a part of the display screen of the effect display device 9 is shown, but a light emitter such as a lamp or LED is used separately from the effect display device 9. Thus, the fourth symbol display area may be realized. In this case, for example, the variation (variable display) of the fourth symbol may be realized by continuing the state in which the two LEDs are alternately lit, and any of the two LEDs is stopped. Whether or not the jackpot symbol is stopped and displayed may be indicated depending on whether or not it is displayed.

  Further, in this embodiment, a case is shown in which separate fourth symbol display areas 9c and 9d are provided corresponding to the first special symbol and the second special symbol, respectively, but the first special symbol and the second special symbol are provided. A fourth symbol display area common to the symbols may be provided in a part of the display screen of the effect display device 9. Moreover, you may make it implement | achieve the 4th symbol display area common with respect to a 1st special symbol and a 2nd special symbol using light-emitting bodies, such as a lamp | ramp and LED. In this case, when executing the variation display of the fourth symbol in synchronization with the variation display of the first special symbol, and when executing the variation display of the fourth symbol in synchronization with the variation display of the second special symbol, For example, the display of different display colors at certain time intervals may be performed by distinguishing and executing the variation display of the fourth symbol by performing display that repeatedly turns on and off. In addition, when the variation display of the fourth symbol is executed in synchronization with the variation display of the first special symbol, and when the variation display of the fourth symbol is performed in synchronization with the variation display of the second special symbol, for example, The display of the fourth symbol may be distinguished and executed by performing a display that repeatedly turns on and off at different time intervals. In addition, for example, when the stop symbol is derived and displayed corresponding to the variation display of the first special symbol, and when the stop symbol is derived and displayed corresponding to the variation display of the second special symbol, the same big hit symbol is obtained. However, you may make it stop-display the stop symbol of a different aspect.

  On the right side of the effect display device 9, a first special symbol display (first variable display unit) 8a for variably displaying the first special symbol as identification information is provided. In this embodiment, the first special symbol display 8a is realized by a simple and small display (for example, 7 segment LED) capable of variably displaying numbers 0 to 9. In other words, the first special symbol display 8a is configured to variably display numbers (or symbols) from 0 to 9. Further, on the right side of the effect display device 9 (next to the right of the first special symbol display 8a), a second special symbol display (second variable display unit) 8b for variably displaying the second special symbol as identification information. Is also provided. The second special symbol display 8b is realized by a simple and small display (for example, 7 segment LED) capable of variably displaying numbers 0 to 9. That is, the second special symbol display 8b is configured to variably display numbers (or symbols) from 0 to 9.

  The small display is formed in a square shape, for example. In this embodiment, the type of the first special symbol and the type of the second special symbol are the same (for example, both 0 to 9), but the types may be different. Further, the first special symbol display 8a and the second special symbol display 8b may be configured to variably display numbers (or two-digit symbols) of, for example, 00 to 99, for example.

  Hereinafter, the first special symbol and the second special symbol may be collectively referred to as a special symbol, and the first special symbol indicator 8a and the second special symbol indicator 8b are collectively referred to as a special symbol indicator (variable display unit). There are things to do.

  Although this embodiment shows a case where two special symbol indicators 8a and 8b are provided, the gaming machine may be provided with only one special symbol indicator.

  For the variable display of the first special symbol or the second special symbol, the first start condition or the second start condition, which is the variable display execution condition, is satisfied (for example, the game ball has the first start winning opening 13 or the second start winning opening) 14 after passing (including winning)), the variable display start condition (for example, when the number of reserved memories is not 0 and the variable display of the first special symbol and the second special symbol is not executed) The state is started and the big hit game is not executed), and when the variable display time (fluctuation time) elapses, the display result (stop symbol) is derived and displayed. Note that the passing of a game ball means that the game ball has passed through a predetermined area such as a prize opening or a gate, and that includes a game ball entering (winning) a prize opening. It is. Deriving and displaying the display result is to finally stop and display a symbol (an example of identification information).

  A winning device having a first start winning port 13 is provided below the effect display device 9. The game ball won in the first start winning opening 13 is guided to the back of the game board 6 and detected by the first start opening switch 13a.

  A variable winning ball device 15 having a second starting winning port 14 through which a game ball can be won is provided below a winning device having a first starting winning port (first starting port) 13. The game ball that has won the second start winning opening (second start opening) 14 is guided to the back of the game board 6 and detected by the second start opening switch 14a. The variable winning ball device 15 is opened by a solenoid 16. When the variable winning ball device 15 is in the open state, the game ball can be awarded to the second starting winning port 14 (it is easier to start winning), which is advantageous for the player. In the state where the variable winning ball apparatus 15 is in the open state, it is easier for the game ball to win the second start winning opening 14 than the first starting winning opening 13. In addition, in a state where the variable winning ball device 15 is in the closed state, the game ball does not win the second start winning opening 14. Therefore, in a state where the variable winning ball device 15 is in the closed state, it is easier for the game ball to win the first starting winning port 13 than the second starting winning port 14. In the state where the variable winning ball apparatus 15 is in the closed state, it may be configured that the winning is possible (that is, it is difficult for the gaming ball to win) although it is difficult to win a prize.

  Hereinafter, the first start winning opening 13 and the second start winning opening 14 may be collectively referred to as a start winning opening or a starting opening.

  When the variable winning ball device 15 is controlled to be in the open state, the game ball heading for the variable winning ball device 15 is very likely to win the second start winning port 14. The first start winning opening 13 is provided directly under the effect display device 9, but the interval between the lower end of the effect display device 9 and the first start winning opening 13 is further reduced, or the first start winning opening is set. The nail arrangement around the first start winning opening 13 is made difficult to guide the game balls to the first starting winning opening 13 so that the winning rate of the second starting winning opening 14 is increased. It is also possible to make the direction higher than the winning rate of the first start winning opening 13.

  In this embodiment, as shown in FIG. 1, the variable winning ball apparatus 15 that opens and closes only the second start winning opening 14 is provided. Any of the start winning ports 14 may be provided with a variable winning ball device that performs an opening / closing operation.

  Above the second special symbol display 8b, there is a second special symbol hold memory display 18b comprising four displays for displaying the number of effective winning balls that have entered the second start winning opening 14, that is, the second reserved memory number. Is provided. The second special symbol storage memory display 18b increases the number of indicators to be lit by 1 every time there is an effective start winning. Then, each time the variable display on the second special symbol display 8b is started, the number of indicators to be turned on is reduced by one.

  Further, above the second special symbol hold memory display 18b, the number of effective winning balls that have entered the first start winning opening 13, that is, the first hold memory number (the hold memory is also referred to as start memory or start prize memory). ) Is displayed, a first special symbol reservation storage display 18a is provided. The first special symbol storage memory indicator 18a increases the number of indicators to be lit by 1 each time there is an effective start winning. Then, each time the variable display on the first special symbol display 8a is started, the number of indicators to be turned on is reduced by one.

  Also, at the lower part of the display screen of the effect display device 9, there are provided a first reserved memory display unit 18c for displaying the first reserved memory number and a second reserved memory display unit 18d for displaying the second reserved memory number. ing. In addition, you may make it provide the area | region (sum total pending | holding memory display part) which displays the total number (sum total pending memory count) which is the sum total of the 1st pending memory count and the 2nd pending memory count. As described above, if the summation pending storage display section for displaying the total number is provided, it is possible to easily grasp the total number of execution conditions that are not satisfied with the variable display start condition.

  The effect display device 9 is for decoration (for effects) during the variable display time of the first special symbol by the first special symbol display 8a and during the variable display time of the second special symbol by the second special symbol display 8b. A variable display of the effect symbol as the symbol is performed. The variable display of the first special symbol on the first special symbol display 8a and the variable display of the effect symbol on the effect display device 9 are synchronized. Further, the variable display of the second special symbol on the second special symbol display 8b and the variable display of the effect symbol on the effect display device 9 are synchronized. Further, when the jackpot symbol is stopped and displayed on the first special symbol display 8a and when the jackpot symbol is stopped and displayed on the second special symbol display 8b, the effect display device 9 reminds the jackpot The combination of is stopped and displayed.

  Further, as shown in FIG. 1, a special variable winning ball apparatus 20 that forms a big winning opening is provided below the variable winning ball apparatus 15. The special variable winning ball apparatus 20 includes an opening / closing plate, and is specified when a specific display result is derived and displayed on the first special symbol display 8a and when a specific display result is derived and displayed on the second special symbol display 8b. Controlled to gaming state. The specific display result is a predetermined display result. For example, in the present embodiment, there is a jackpot symbol. The specific game state is to change the variable winning means that can be changed between the first state advantageous to the player and the second state unfavorable to the player to the first state. There is a big hit gaming state in which the special variable winning ball apparatus 20 that can be changed to a closed state is opened. For example, when the big hit symbol is derived and displayed as the specific display result, the big hit game state is controlled as the specific game state. In each specific game state, the open / closed version that is in the closed state is controlled to be in the open state by the solenoid 21, so that the large winning opening that becomes the winning area is in the open state. The game ball that has won the big winning opening is detected by the count switch 23.

  On the left side of the effect display device 9, a normal symbol display 10 for variably displaying normal symbols is provided. In this embodiment, the normal symbol display 10 is realized by a simple and small display (for example, 7 segment LED) capable of variably displaying numbers 0 to 9. That is, the normal symbol display 10 is configured to variably display numbers (or symbols) from 0 to 9. Moreover, the small display is formed in, for example, a square shape. Note that the normal symbol display 10 may be configured to variably display a number (or a two-digit symbol) of, for example, 00 to 99. In addition, the normal symbol display 10 is not limited to a 7-segment LED or the like, for example, a display capable of lighting a predetermined symbol display (for example, a decoration lamp capable of alternately lighting and displaying “O” and “X”). It may be comprised.

  When the game ball passes through the gate 32 and is detected by the gate switch 32a, variable display of the normal symbol display 10 is started. When the stop symbol in the normal symbol display 10 is a predetermined symbol (a winning symbol, for example, a symbol “7”), the variable winning ball apparatus 15 is opened for a predetermined number of times. In other words, the state of the variable winning ball apparatus 15 is a state that is advantageous from a disadvantageous state for the player when the normal symbol is a stop symbol (a state in which a game ball can be awarded at the second start winning port 14). To change. In the vicinity of the normal symbol display 10, a normal symbol holding storage display 41 having a display unit with four LEDs for displaying the number of winning balls that have passed through the gate 32 is provided. Each time there is a game ball passing through the gate 32, that is, every time a game ball is detected by the gate switch 32a, the normal symbol storage memory display 41 increases the number of LEDs to be turned on by one. Each time variable display on the normal symbol display 10 is started, the number of LEDs to be lit is reduced by one. In addition, a probability variation state in which the probability of being determined to be a big hit compared to the normal state is high (a state in which the probability of being determined to be a big hit as a result of fluctuation display of special symbols is increased compared to the normal state). Then, there is a case where the probability that the stop symbol in the normal symbol display 10 becomes a winning symbol is increased, and the variable winning ball apparatus 15 is shifted to a high base state where the opening time and the number of times of opening are increased.

  At the lower part of the game board 6, there is an out port 26 into which a hit ball that has not won a prize is taken. In addition, four speakers 27 that utter sound effects and sounds as predetermined sound outputs are provided on the upper left and right and lower left and right outside the game area 7. On the outer periphery of the game area 7, a frame LED 28 provided on the front frame is provided.

  In the gaming machine, a ball striking device (not shown) that drives a driving motor in response to a player operating the batting operation handle 5 and uses the rotational force of the driving motor to launch a gaming ball to the gaming area 7. ) Is provided. A game ball launched from the ball striking device enters the game area 7 through a ball striking rail formed in a circular shape so as to surround the game area 7, and then descends the game area 7. When the game ball enters the first start winning opening 13 and is detected by the first start opening switch 13a, if the variable display of the first special symbol can be started (for example, the variable display of the special symbol ends, 1), the variable display (variation) of the first special symbol is started on the first special symbol display 8a, and the variable display of the effect symbol is started on the effect display device 9. That is, the variable display of the first special symbol and the effect symbol corresponds to winning in the first start winning opening 13. If the variable display of the first special symbol cannot be started, the first reserved memory number is increased by 1 on the condition that the first reserved memory number has not reached the upper limit value.

  When the game ball enters the second start winning opening 14 and is detected by the second start opening switch 14a, if the variable display of the second special symbol can be started (for example, the special symbol variable display ends, 2), the second special symbol display 8b starts variable display (variation) of the second special symbol, and the effect display device 9 starts variable display of the effect symbol. That is, the variable display of the second special symbol and the effect symbol corresponds to winning in the second start winning opening 14. If the variable display of the second special symbol cannot be started, the second reserved memory number is increased by 1 on condition that the second reserved memory number has not reached the upper limit value.

  In this embodiment, when the 15R probability variation big hit or the 4R probability variation big hit is reached, the game state is shifted to a high probability state, and the game ball becomes easy to start winning (that is, the special symbol indicators 8a, 8b, A transition is made to the high base state, which is a gaming state controlled so that the variable display execution condition in the effect display device 9 is easily established. In the high base state, for example, the frequency at which the variable winning ball device 15 is in the open state is increased or the time in which the variable winning ball device 15 is in the open state is extended compared to the case in which the high base state is not in the high base state. It becomes easier to win a start.

  Instead of extending the time during which the variable winning ball apparatus 15 is in the open state (also referred to as the open extended state), the normal symbol display unit 10 shifts to a normal symbol probability changing state in which the probability that the stop symbol in the normal symbol display unit 10 is a hit symbol is increased. Depending on the situation, the high base state may be entered. When the stop symbol in the normal symbol display 10 becomes a predetermined symbol (winning symbol), the variable winning ball device 15 is opened for a predetermined number of times. In this case, by performing the transition control to the normal symbol probability changing state, the probability that the stop symbol in the normal symbol display 10 becomes a winning symbol is increased, and the frequency at which the variable winning ball apparatus 15 is opened is increased. Therefore, if the normal symbol probability changing state is entered, the opening time and the number of opening times of the variable winning ball device 15 are increased, and a state where it is easy to start a winning (high base state) is achieved. That is, the opening time and the number of times of opening of the variable winning ball device 15 can be increased when the stop symbol of the normal symbol is a winning symbol or the stop symbol of the special symbol is a probabilistic symbol. It changes to an advantageous state (a state where it is easy to win a start). It should be noted that increasing the number of times of opening is a concept including changing from a closed state to an open state.

  Moreover, you may transfer to a high base state by shifting to the normal symbol time short state where the fluctuation time (variable display period) of the normal symbol in the normal symbol display 10 is shortened. In the normal symbol short-time state, the variation time of the normal symbol is shortened, so that the frequency of starting the variation of the normal symbol increases, and as a result, the frequency of hitting the normal symbol increases. Therefore, when the frequency that the normal symbol is hit increases, the frequency that the variable winning ball apparatus 15 is opened is increased, and the start winning state is easily set (high base state).

  In addition, by changing to the short time state (special symbol short time state) in which the variation time (variable display period) of special symbols and staging symbols is shortened, the variation time of special symbols and staging symbols is shortened. The frequency at which the production symbol changes is increased (in other words, the reserved memory is quickly digested), and the situation in which an invalid start prize is generated can be reduced. Therefore, an effective start winning is likely to occur, and as a result, the possibility of a big hit game being increased.

  Furthermore, by making transitions to all the states shown above (open extended state, normal symbol probability change state, normal symbol short time state, and special symbol short time state), it will be easier to win a start (shift to a high base state). May be. In addition, it is easier to win a start (high base) by shifting to any one of the above states (open extended state, normal symbol probability changing state, normal symbol short time state, and special symbol short time state). Transition to a state). In addition, it is easier to win a start by shifting to any one of the above states (open extended state, normal symbol probability changing state, normal symbol short time state, and special symbol short time state). You may make it move to a base state.

  FIG. 2 is a block diagram showing an example of the circuit configuration of the main board (game control board) 31. FIG. 2 also shows a payout control board 37, an effect control board 80, and the like. A game control microcomputer (corresponding to game control means) 560 for controlling the pachinko gaming machine 1 according to a program is mounted on the main board 31. The game control microcomputer 560 includes a ROM 54 for storing a game control (game progress control) program and the like, a RAM 55 as storage means used as a work memory, a CPU 56 for performing control operations in accordance with the program, and an I / O port unit 57. including. In this embodiment, the ROM 54 and the RAM 55 are built in the game control microcomputer 560. That is, the game control microcomputer 560 is a one-chip microcomputer. The one-chip microcomputer only needs to incorporate at least the CPU 56 and the RAM 55, and the ROM 54 may be external or built-in. The I / O port unit 57 may be externally attached. The game control microcomputer 560 further includes a random number circuit 503 that generates hardware random numbers (random numbers generated by the hardware circuit).

  The RAM 55 is a backup RAM as a non-volatile storage means, part or all of which is backed up by a backup power source created on the power supply substrate 910. That is, even if the power supply to the gaming machine is stopped, a part or all of the contents of the RAM 55 is stored for a predetermined period (until the capacitor as the backup power supply is discharged and the backup power supply cannot be supplied). In particular, at least data (special symbol process flag, probability variation flag, etc.) corresponding to the game state, that is, the control state of the game control means, and data indicating the number of unpaid prize balls are stored in the backup RAM. The data corresponding to the control state of the game control means is data necessary for restoring the control state before the occurrence of a power failure or the like based on the data when the power is restored after a power failure or the like occurs. Further, data corresponding to the control state and data indicating the number of unpaid winning balls are defined as data indicating the progress state of the game. In this embodiment, it is assumed that the entire RAM 55 is backed up.

  In the game control microcomputer 560, the CPU 56 executes control in accordance with the program stored in the ROM 54, so that the game control microcomputer 560 (or CPU 56) executes (or performs processing) hereinafter. Specifically, the CPU 56 executes control according to a program. The same applies to microcomputers mounted on substrates other than the main substrate 31.

  The random number circuit 503 is a hardware circuit that is used to generate a random number for determination to determine whether or not to win a jackpot based on a display result of variable symbol special display. The random number circuit 503 updates numerical data in accordance with a set update rule within a numerical range in which an initial value (for example, 0) and an upper limit value (for example, 65535) are set, and starts at a random timing Based on the fact that the winning time is the reading (extraction) of the numerical data, it has a random number generation function in which the numerical data to be read becomes a random value.

  The random number circuit 503 includes a numeric data update range selection setting function (initial value selection setting function and upper limit value selection setting function), numeric data update rule selection setting function, and numeric data update rule selection. It has various functions such as a switching function. With such a function, the randomness of the generated random numbers can be improved.

  Further, the game control microcomputer 560 has a function of setting an initial value of numerical data updated by the random number circuit 503. For example, a predetermined calculation is performed using the ID number of the game control microcomputer 560 stored in a predetermined storage area such as the ROM 54 (an ID number assigned with a different value for each product of the game control microcomputer 560). The numerical data obtained by the execution is set as the initial value of the numerical data updated by the random number circuit 503. By performing such processing, the randomness of the random number generated by the random number circuit 503 can be further improved.

  Further, an input driver circuit 58 that provides detection signals from the gate switch 32a, the first start port switch 13a, the second start port switch 14a, and the count switch 23 to the game control microcomputer 560 is also mounted on the main board 31. The main board also includes an output circuit 59 for driving the solenoid 16 for opening and closing the variable winning ball device 15 and the solenoid 21 for opening and closing the special variable winning ball device 20 that forms a big winning opening in accordance with a command from the game control microcomputer 560. 31.

  In addition, the game control microcomputer 560 includes a first special symbol display 8a, a second special symbol display 8b that variably displays special symbols, a normal symbol display 10 that variably displays normal symbols, and a first special symbol hold memory. Display control of the display 18a, the second special symbol storage memory display 18b, and the normal symbol storage memory display 41 is performed.

  An information output circuit 64 that outputs information output signals such as jackpot information indicating the occurrence of a jackpot gaming state to an external device such as a hall computer via the terminal board 160 is also mounted on the main board 31.

  In this embodiment, the effect control means (configured by the effect control microcomputer) mounted on the effect control board 80 instructs the effect contents from the game control microcomputer 560 via the relay board 77. An effect control command is received, and display control of the effect display device 9 for variably displaying effect symbols is performed.

  The effect control means mounted on the effect control board 80 controls the display of the frame LED 28 provided on the frame side via the lamp driver board 35 and from the speaker 27 via the audio output board 70. Control the sound output.

  FIG. 3 is a block diagram illustrating a circuit configuration example of the relay board 77, the effect control board 80, the lamp driver board 35, and the audio output board 70. In the example shown in FIG. 3, the lamp driver board 35 and the audio output board 70 are not equipped with a microcomputer, but may be equipped with a microcomputer. Further, without providing the lamp driver board 35 and the audio output board 70, only the effect control board 80 may be provided for effect control.

  The effect control board 80 includes an effect control CPU 101 and an effect control microcomputer 100 including a RAM for storing information related to effects such as effect symbol process flags. The RAM may be externally attached. In this embodiment, the RAM in the production control microcomputer 100 is not backed up. In the effect control board 80, the effect control CPU 101 operates in accordance with a program stored in a built-in or external ROM (not shown), and receives a capture signal from the main board 31 input via the relay board 77 ( In response to the (effect control INT signal), an effect control command is received via the input driver 102 and the input port 103. Further, the effect control CPU 101 causes the VDP (video display processor) 109 to perform display control of the effect display device 9 based on the effect control command.

  In this embodiment, a VDP 109 that performs display control of the effect display device 9 in cooperation with the effect control microcomputer 100 is mounted on the effect control board 80. The VDP 109 has an address space independent of the production control microcomputer 100, and maps a VRAM therein. VRAM is a buffer memory for developing image data. Then, the VDP 109 outputs the image data in the VRAM to the effect display device 9 via the frame memory.

  The effect control CPU 101 outputs to the VDP 109 a command for reading out necessary data from a CGROM (not shown) in accordance with the received effect control command. The CGROM stores character image data and moving image data displayed on the effect display device 9, specifically, a person, characters, figures, symbols (including effect symbols), and background image data in advance. ROM. The VDP 109 reads image data from the CGROM in response to the instruction from the effect control CPU 101. The VDP 109 executes display control based on the read image data.

  The effect control command and the effect control INT signal are first input to the input driver 102 on the effect control board 80. The input driver 102 passes the signal input from the relay board 77 only in the direction toward the inside of the effect control board 80 (does not pass the signal in the direction from the inside of the effect control board 80 to the relay board 77). It is also a unidirectional circuit as a regulating means.

  As a signal direction regulating means, the signal inputted from the main board 31 is allowed to pass through the relay board 77 only in the direction toward the effect control board 80 (the signal is not passed in the direction from the effect control board 80 to the relay board 77). The unidirectional circuit 74 is mounted. For example, a diode or a transistor is used as the unidirectional circuit. FIG. 3 illustrates a diode. A unidirectional circuit is provided for each signal. Furthermore, since the effect control command and the effect control INT signal are output from the main board 31 via the output port 571 that is a unidirectional circuit, the signal from the relay board 77 toward the inside of the main board 31 is restricted. That is, the signal from the relay board 77 does not enter the inside of the main board 31 (the game control microcomputer 560 side). The output port 571 is a part of the I / O port unit 57 shown in FIG. Further, a signal driver circuit that is a unidirectional circuit may be further provided outside the output port 571 (on the relay board 77 side).

  In addition, the effect control CPU 101 inputs an operation detection signal as an information signal indicating that the player's operation action on the trigger button 121 of the stick controller 122 has been detected from the trigger sensor 125 via the input port 106. Further, the effect control CPU 101 inputs an operation detection signal as an information signal indicating that a player's operation action on the push button 120 has been detected from the push sensor 124 via the input port 106. In addition, the production control CPU 101 inputs an operation detection signal as an information signal indicating that the player's operation action with respect to the operation rod of the stick controller 122 has been detected from the tilt direction sensor unit 123 via the input port 106. . Further, the effect control CPU 101 outputs a drive signal to the vibrator motor 126 via the output port 105 to cause the stick controller 122 to vibrate.

  Further, the effect control CPU 101 outputs a signal for driving the LED to the lamp driver board 35 via the output port 105. Further, the production control CPU 101 outputs sound number data to the audio output board 70 via the output port 104.

  In the lamp driver board 35, a signal for driving the LED is input to the LED driver 352 via the input driver 351. The LED driver 352 supplies a current to a light emitter such as the frame LED 28 based on a signal for driving the LED.

  In the voice output board 70, the sound number data is input to the voice synthesis IC 703 via the input driver 702. The voice synthesizing IC 703 generates voice or sound effect according to the sound number data, and outputs it to the amplifier circuit 705. The amplification circuit 705 outputs an audio signal obtained by amplifying the output level of the speech synthesis IC 703 to a level corresponding to the volume set by the volume 706 to the speaker 27. The voice data ROM 704 stores control data corresponding to the sound number data. The control data corresponding to the sound number data is a collection of data showing the output form of the sound effect or sound in a time series in a predetermined period (for example, the changing period of the effect design). The voice synthesis IC 703 generates a voice and outputs the voice to the speaker 27 when a predetermined request is received from the effect control board 80.

  Next, the operation of the gaming machine will be described. FIG. 4 is a flowchart showing main processing executed by the CPU 56 of the game control microcomputer 560 in response to the start of power supply to the game machine and the reset signal to the game control microcomputer 560 becoming high level. It is. When the input level of the reset terminal to which the reset signal is input becomes a high level, the CPU 56 of the game control microcomputer 560 executes a security check process that is a process for confirming whether the contents of the program are valid. The main processing after step S1 is started. In the main process, the CPU 56 first performs necessary initial settings.

  In the initial setting process, the CPU 56 first sets the interrupt prohibition (step S1). Next, an interrupt mode for maskable interrupts is set (step S2), and a stack pointer designation address is set for the stack pointer (step S3). In step S2, the address synthesized from the value (1 byte) of the specific register (I register) of the game control microcomputer 560 and the interrupt vector (1 byte: least significant bit 0) output from the built-in device is Set to the mode indicating the interrupt address. When a maskable interrupt occurs, the CPU 56 automatically sets the interrupt disabled state and saves the contents of the program counter in the stack.

  Next, the built-in device register is set (initialized) (step S5). By the processing in step S5, the CTC (counter / timer) and PIO (parallel input / output port) which are built-in devices (built-in peripheral circuits) are set (initialized).

  The game control microcomputer 560 used in this embodiment also includes an I / O port (PIO) and a timer / counter circuit (CTC) 504.

  Next, the CPU 56 sets the RAM 55 in an accessible state (step S6), and proceeds to a clear signal check process.

  Note that a software delay process for delaying the start timing of the game device control process (game control process) for controlling the progress of the game by software may be executed. By such software delay processing, the start timing of the game control processing can be delayed as compared with the case where the software delay processing is not executed. When the delay process is executed, a situation occurs in which the microcomputer of the other control board cannot receive the command transmitted from the game control board (main board 31) to the other control board (for example, the payout control board 37). Can be prevented.

  Next, the CPU 56 checks whether or not the clear switch is turned on (step S7). Note that the CPU 56 may confirm the state of the clear signal only once via the input port 0, but may confirm the state of the clear signal a plurality of times. For example, if it is confirmed that the state of the clear signal is an off state, after a delay time of a predetermined time (for example, 0.1 seconds), the state of the clear signal is reconfirmed. If it is confirmed that the clear signal is in the on state at that time, it is determined that the clear signal is in the on state. Further, at this time, if it is confirmed that the state of the clear signal is the off state, after a delay time of a predetermined time, the state of the clear signal may be confirmed again. Here, the number of reconfirmations is not limited to once or twice, but may be three or more times. It is also possible to check twice and check again when the check results do not match.

  If the clear switch is not turned on in step S7, whether or not data protection processing of the backup RAM area (for example, power supply stop processing such as addition of parity data) has been performed when power supply to the gaming machine is stopped Confirm (step S8). In this embodiment, when power supply is stopped, a process for protecting data in the backup RAM area is performed. When it is confirmed that such power supply stop processing has been performed, the CPU 56 determines that the power supply stop processing has been performed, that is, the control state at the time of power supply stop is stored. . When it is confirmed that the power supply stop process is not performed, the CPU 56 executes an initialization process.

  Whether or not the power supply stop process has been performed is determined by the value of the backup monitoring timer stored in the backup RAM area in the power supply stop process corresponding to the execution of the power supply stop process (for example, 2). ) Is confirmed by whether or not. Note that such a confirmation method is an example. For example, a flag indicating that the power supply stop process has been executed is set in the backup flag area in the power supply stop process, and the flag is set in step S8. If it is confirmed that the power supply is stopped, it may be determined that the power supply stop process has been performed.

  If it is determined that the control state at the time of stopping power supply is stored, the CPU 56 performs data check (parity check in this example) in the backup RAM area (step S9). In this embodiment, clear data (00) is set in the checksum data area, and the checksum calculation start address is set in the pointer. Also, the number of checksum calculations corresponding to the number of data to be checksum is set. Then, the exclusive OR of the contents of the checksum data area and the contents of the RAM area pointed to by the pointer is calculated. The calculation result is stored in the checksum data area, the pointer value is incremented by 1, and the checksum calculation count value is decremented by 1. The above processing is repeated until the value of the checksum calculation count becomes zero. When the value of the checksum calculation count becomes 0, the CPU 56 inverts the value of each bit of the contents of the checksum data area and uses the inverted data as the checksum.

  In the power supply stop process, a checksum is calculated by the same process as described above, and the checksum is stored in the backup RAM area. In step S9, the calculated checksum is compared with the stored checksum. When the power supply is stopped after an unexpected power failure or the like, the data in the backup RAM area should be saved, so the check result (comparison result) is normal (matched). That the check result is not normal means that the data in the backup RAM area may be different from the data when the power supply is stopped. In such a case, since the internal state cannot be returned to the state when the power supply is stopped, the initialization process (the process of steps S10 to S14) executed when the power is turned on, not when the power supply is stopped is stopped. Run.

  If the check result is normal, the CPU 56 performs a game state restoration process for returning the internal state of the game control means and the control state of the electrical component control means such as the effect control means to the state when the power supply is stopped. Specifically, the start address of the backup setting table stored in the ROM 54 is set as a pointer (step S41), and the contents of the backup setting table are sequentially set in the work area (area in the RAM 55) (step S42). ). The work area is backed up by a backup power source. In the backup setting table, initialization data for an area that may be initialized in the work area is set. As a result of the processing in steps S41 and S42, the saved contents of the work area that should not be initialized remain as they are. The parts that should not be initialized include, for example, data indicating the gaming state before the power supply is stopped (special symbol process flag, probability variation flag, etc.), the area where the output state of the output port is saved (output port buffer), This is a portion where data indicating the number of payout prize balls is set.

  Further, the CPU 56 sets the head address of the backup command transmission table stored in the ROM 54 as a pointer (step S43). Further, the CPU 56 transmits a power failure recovery designation command as an initialization command at the time of power supply recovery (step S44). Then, the process proceeds to step S15.

  In the initialization process, the CPU 56 first performs a RAM clear process (step S10). Note that the predetermined data may be left as it is without initializing the entire area of the RAM 55. Also, the initial address of the initialization setting table stored in the ROM 54 is set as a pointer (step S11), and the contents of the initialization setting table are sequentially set in the work area (step S12).

  By the processing of steps S11 and S12, for example, a normal symbol determination random number counter, a normal symbol determination buffer, a special symbol buffer, a special symbol process flag, a winning ball flag, a ball-out flag, and the like are selectively processed according to the control state. An initial value is set in a flag for performing the above.

  Further, the CPU 56 sets the head address of the initialization command transmission table stored in the ROM 54 as a pointer (step S13), and transmits an initialization command for initializing the sub board according to the contents to the sub board. Processing is executed (step S14). As an initialization command, a command indicating an initial symbol displayed on the effect display device 9, an initialization command to the payout control board 37, or the like can be used.

  Further, the CPU 56 executes a random number circuit setting process for initially setting the random number circuit 503 (step S15).

  Then, the CPU 56 executes a timer interrupt setting process for setting a CTC register built in the game control microcomputer 560 so that a timer interrupt is periodically taken every predetermined time (for example, 4 ms) ( Step S16). That is, a value corresponding to, for example, 4 ms is set in a predetermined register (time constant register) as an initial value. In this embodiment, it is assumed that a timer interrupt is periodically taken every 4 ms.

  When the timer interrupt setting is completed, the CPU 56 first disables the interrupt (step S17), executes the initial value random number update process (step S18a) and the display random number update process (step S18b), The interrupt is permitted again (step S19). That is, the CPU 56 sets the interrupt disabled state when the initial value random number update process and the display random number update process are executed, and interrupts enable state when the initial value random number update process and the display random number update process are finished. To.

  The initial value random number update process is a process of updating the count value of the counter for generating the initial value random number. The initial value random number is a random number for determining the type of jackpot (for example, a jackpot symbol determining random number for determining a special symbol for generating a jackpot or whether to shift the gaming state to a probable state) Initial value of the count value such as a counter (determination random number generation counter) for generating a probability variation determining random number for generating, a normal random number for determining whether or not to generate a hit based on a normal symbol It is a random number for determining the value. A game control process described later (a process in which a game control microcomputer controls itself a game device such as an effect display device 9, a variable winning ball device 15, a ball payout device 97 provided in the gaming machine, or When the count value of the determination random number generation counter makes one round in a process of transmitting a command signal to cause another microcomputer to control, or a gaming apparatus control process), an initial value is set in the counter.

  The display random number is a random number for determining the display of the special symbol display 8. In this embodiment, as a display random number, a random number for determining a variation pattern for determining a variation pattern of a special symbol, or a random number for determining a reach for determining whether or not to reach when a big hit is not generated, is used. Used. The display random number update process is a process for updating the count value of the counter for generating the display random number.

  In addition, when the display random number update process is executed, the interrupt disabled state is executed by the display random number update process and the initial value random number update process also in the timer interrupt process described later (that is, the timer This is because the same process is executed in steps S26 and S27 of the interrupt process), so as to avoid conflict with the process in the timer interrupt process. That is, if a timer interrupt is generated during the processing of steps S18a and S18b and the count value of the counter for generating the initial value random number and the display random number is updated during the timer interrupt processing, The continuity of values may be impaired. However, such an inconvenience does not occur if the interrupt is prohibited during the processing of steps S18a and S18b.

  Next, the timer interrupt process will be described. FIG. 5 is a flowchart showing the timer interrupt process. When a timer interrupt occurs during execution of the main process, specifically, in a period during which interruption is permitted during execution of the loop process of steps S17 to S19, the CPU 56 of the game control microcomputer 560 A timer interrupt process that is activated in response to the occurrence of a timer interrupt is executed. In the timer interrupt process, the CPU 56 first executes a power-off process (power-off detection process) for detecting whether or not a power-off signal is output (whether the power-on signal is turned on) (step S20). Then, the CPU 56 inputs detection signals of switches such as the gate switch 32a, the first start port switch 13a, the second start port switch 14a and the count switch 23 through the switch circuit 58, and detects the input of each switch. (Switch process: Step S21). Specifically, if the state of the input port for inputting the detection signal of each switch is ON, the value of the switch timer provided corresponding to each switch is incremented by one.

  Next, the CPU 56 executes display control processing for performing display control of the special symbol display 8, the normal symbol display 10, the special symbol hold storage display 18, and the normal symbol hold storage display 41 (step S22). For the special symbol display 8 and the normal symbol display 10, control for outputting a drive signal to each display is executed according to the contents of the output buffer set in steps S36 and S37.

  Next, the CPU 56 executes a winning notification process for detecting the occurrence of an abnormal winning at the special winning opening and notifying the abnormality (step S24).

  After step S24, the CPU 56 performs a process of updating the count value of each counter for generating each determination random number such as a random number for determination per ordinary symbol used for game control (determination random number update process: step S25). ). Further, the CPU 56 performs a process of updating the count value of the counter for generating the initial value random number (initial value random number update process: step S26). Further, the CPU 56 performs a process of updating the count value of the counter for generating the display random number (display random number update process: step S27).

  Next, the CPU 56 performs special symbol process processing (step S28). In the special symbol process, the corresponding process is selected and executed according to a special symbol process flag for controlling the pachinko gaming machine 1 in a predetermined order according to the gaming state. The value of the special symbol process flag is updated during each process according to the gaming state. Further, normal symbol process processing is performed (step S29). In the normal symbol process, the corresponding process is selected and executed according to the normal symbol process flag for controlling the display state of the normal symbol display 10 in a predetermined order. The value of the normal symbol process flag is updated during each process according to the gaming state.

  Next, the CPU 56 performs a process of transmitting an effect control command related to the effect symbol synchronized with the variation of the special symbol to the effect control microcomputer 100 (effect symbol command control process: step S30). It should be noted that the fact that the variation of the effect symbol is synchronized with the variation of the special symbol means that the variation time (variable display period) is the same.

  Next, the CPU 56 performs an information output process for outputting data such as a start port signal supplied to the hall management computer, a symbol determination number 1 signal, a symbol determination number 2 signal, a jackpot 1 to 3 signal, a time reduction signal, and the like. (Step S31).

  Further, the CPU 56 executes prize ball processing for setting the number of prize balls based on detection signals from the first start port switch 13a, the second start port switch 14a and the count switch 23 (step S32). Specifically, the payout control micro mounted on the payout control board 37 in response to the winning detection based on any one of the first start port switch 13a, the second start port switch 14a and the count switch 23 being turned on. A payout control command (prize ball number signal) indicating the number of prize balls is output to the computer. The payout control microcomputer drives the ball payout device 97 in accordance with a payout control command indicating the number of winning balls.

  In addition, a test terminal process, which is a process for outputting a test signal for enabling the control state of the gaming machine to be confirmed outside the gaming machine, is executed (step S33). In this embodiment, a RAM area (output port buffer) corresponding to the output state of the output port is provided, but the CPU 56 outputs the contents related to the solenoid in the RAM area of the output port 0 to the output port. (Step S34: Output processing). And CPU56 performs the memory | storage process which checks the increase / decrease in a pending | holding memory | storage number (step S35).

  Further, the CPU 56 performs special symbol display control processing for setting special symbol display control data for effect display of the special symbol in the output buffer for setting the special symbol display control data according to the value of the special symbol process flag ( Step S36). Further, the CPU 56 performs a normal symbol display control process for setting normal symbol display control data for effect display of the normal symbol in an output buffer for setting the normal symbol display control data according to the value of the normal symbol process flag ( Step S37).

  Next, the CPU 56 performs a status display lamp display process for setting status display control data for displaying each status display lamp in an output buffer for setting the status display control data (step S38). In this case, when the gaming state is also controlled to a high probability state (for example, a probability variation state), the state display control data for displaying the state indicator lamp indicating the high probability state is set in the output buffer. You may make it do.

  Thereafter, the interrupt permission state is set (step S39), and the process is terminated.

  With the above control, in this embodiment, the game control process is started every 4 ms. The game control process corresponds to the processes in steps S21 to S39 (excluding steps S31 and 33) in the timer interrupt process. In this embodiment, the game control process is executed by the timer interrupt process. However, in the timer interrupt process, for example, only a flag indicating that an interrupt has occurred is set, and the game control process is performed by the main process. May be executed.

  When the shifted symbol is stopped and displayed on the first special symbol display 8a or the second special symbol display 8b and the effect display device 9, the variable display state of the effect symbol is started after the variable display of the effect symbol is started. There may be a case where a predetermined combination of effects that does not reach reach is stopped and displayed without reaching the reach state. Such a variable display mode of the effect symbol is referred to as a variable display mode of “non-reach” (also referred to as “normally shift”) in a case where the variable display result is a loss symbol.

  When the shifted symbol is stopped and displayed on the first special symbol display 8a or the second special symbol display 8b and the effect display device 9, the variable display state of the effect symbol is started after the variable display of the effect symbol is started. After reaching the reach state, a reach effect is executed, and a combination of predetermined effect symbols that do not eventually become a jackpot symbol may be stopped and displayed. Such a variable display result of the effect design is referred to as a variable display mode of “reach” (also referred to as “reach out”) when the variable display result is “out of”.

  In this embodiment, when the big win symbol is stopped and displayed on the first special symbol display 8a or the second special symbol display 8b, the reach effect is executed after the variable display state of the effect symbol becomes the reach state. Eventually, the effect symbols are all stopped and displayed in the “left”, “middle”, and “right” symbol display areas 9L, 9C, and 9R on the effect display device 9.

  FIG. 6 is an explanatory diagram showing the variation pattern of the effect symbol prepared in advance. As shown in FIG. 6, in this embodiment, the non-reach PA 1-1 to the non-reach are used as a variation pattern corresponding to the case where the variable display result is “out of” and the variable display mode of the effect design is “non-reach”. A variation pattern of reach PA1-4 is prepared. In addition, as variation patterns corresponding to the case where the variable display result is “out of” and the variable display mode of the effect symbol is “reach”, normal PA2-1 to normal PA2-2, multi-PA2-5, normal PB2-1 Variation patterns of normal PB2-2, super PA3-1 to super PA3-2, super PB3-1 to super PB3-2 are prepared. Note that, as shown in FIG. 6, re-variation is performed once for the variation pattern of the non-reach PA 1-4 that is used in the case where the reach is not performed and is accompanied by a pseudo-continuous effect. Of the variation patterns used for reaching and accompanied by pseudo-rendition, when normal PB2-1 is used, re-variation is performed once. The non-reach PA1-2 variation pattern used when not reaching is a variation pattern for shortening variation, and the variation time of the effect design is shortened to a short time (1.5 seconds in this example). . Of the variation patterns that are used for reaching and have a pseudo-continuous effect, when normal PB2-2 is used, re-variation is performed twice. Furthermore, when using super PA3-1 to super PA3-2 among the fluctuation patterns used for reaching and accompanied by pseudo-rendition effects, re-variation is performed three times. Note that the re-variation means that the variable display of the effect symbol is executed again after temporarily stopping the effect symbol that is once deviated from the start of the variable display of the effect symbol until the display result is derived and displayed. .

  Also, as shown in FIG. 6, in this embodiment, normal PA2-3 to normal PA2-4, multi-PA2-6, normal PA2-6, normal PA2-6 as a variation pattern corresponding to the case where the variable symbol display result of special symbols is a big hit symbol. Variation patterns of PB2-3 to normal PB2-4, super PA3-3 to superPA3-4, and super PB3-3 to super PB3-4 are prepared.

  Further, as a variation pattern having no specific effect, normal reach is performed when normal PA2-1 to normal PA2-4 are used, and super reach is performed when super PB3-1 to super PB3-4 are used. . Further, multi-reach is performed when multi-PA 2-5 to multi-PA 2-6 are used. Multi-reach is a reach in which the display area in the effect display device 9 is divided into a plurality of parts. Specifically, in the case of multi-reach, when the change of the effect symbol is started in the effect display device 9, the display area is divided into four display areas, and the effect symbol is changed in each display area. (See FIG. 35 (b)). In each of the divided display areas, the variable display of the three ornamental (effect) effect symbols, “left”, “middle”, and “right”, is executed in the same manner as the display area before the division. Then, after reaching the reach state in at least one display area among the divided display areas, the display areas are integrated and a reach effect is performed. It should be noted that the greater the number of display areas that will be in the reach state among the four divided display areas, the higher the probability that it will be in the big hit gaming state. Hereinafter, among the four divided display areas in the effect display device 9, the upper left display area is the first display area, the upper right display area is the second display area, the lower left display area is the third display area, and the lower right display area. The display area may be referred to as a fourth display area. In addition, the effect symbol variably displayed in the first display area is the first effect symbol, the effect symbol variably displayed in the second display area is the second effect symbol, and the effect symbol variably displayed in the third display area is the third effect symbol. The effect symbol and the effect symbol variably displayed in the fourth display area may be referred to as a fourth effect symbol.

  Moreover, as shown in FIG. 6, when using normal PB2-3 among the fluctuation patterns accompanied with the effect of a pseudo-continuous, re-change is performed once. Of the fluctuation patterns used for reaching and accompanied by pseudo-continuous effects, when normal PB2-4 is used, re-variation is performed twice. Furthermore, when using super PA3-3 to super PA3-4 among the fluctuation patterns that are used for reaching and have the effect of pseudo-ream, re-variation is performed three times.

  In this embodiment, as shown in FIG. 6, when the variation time is fixedly determined according to the type of reach (for example, the variation time is 32 in the case of Super Reach A with pseudo-ream). In the case of Super Reach A without pseudo-ream, the fluctuation time is fixed at 22.75 seconds). For example, even in the case of the same type of Super Reach Depending on the total number of pending storage, the variation time may be varied. For example, even with the same type of super reach, the variation time may be shortened as the total number of pending storage increases. Also, for example, even in the case of the same type of super reach, when the variable display of the first special symbol is performed, the variable time may be varied according to the first reserved memory number. When the variable display of the two special symbols is performed, the variable time may be varied according to the second reserved memory number. In this case, a separate determination table is prepared for each value of the first reserved memory number and the second reserved memory number (for example, the variation pattern type determination table for the reserved memory numbers 0 to 2 and the reserved memory numbers 3 and 4). For example, a determination table may be selected according to the value of the first reserved memory number or the second reserved memory number, and the change time may be varied.

FIG. 7 is an explanatory diagram showing each random number. Each random number is used as follows.
(1) Random 1 (MR1): Determines the type of jackpot (15R probability variation big hit, 4R probability variation big hit, which will be described later) (for jackpot type determination)
(2) Random 2 (MR2): The type (type) of the variation pattern is determined (for variation pattern type determination)
(3) Random 3 (MR3): A variation pattern (variation time) is determined (for variation pattern determination)
(4) Random 4 (MR4): Determines whether or not to generate a hit based on a normal symbol (for normal symbol hit determination)
(5) Random 5 (MR5): Determine the initial value of random 4 (for determining the initial value of random 4)

  In this embodiment, the variation pattern is first determined using the variation pattern type determination random number (random 2), and then the variation pattern determined using the variation pattern determination random number (random 3). One of the variation patterns included in the pattern type is determined. Thus, in this embodiment, the variation pattern is determined by a two-stage lottery process.

  The variation pattern type is a group of a plurality of variation patterns according to the characteristics of the variation mode. For example, a plurality of variation patterns are grouped by reach type, a variation pattern type including a variation pattern with normal reach, a variation pattern type including a variation pattern with multi-reach, and a variation including a variation pattern with super reach A It may be divided into a pattern type and a variation pattern type including a variation pattern with super reach B. Further, for example, a plurality of variation patterns are grouped by the number of re-variations of pseudo-continuations, a variation pattern type including a variation pattern without pseudo-ream, a variation pattern type including a variation pattern of one re-variation, It may be divided into a variation pattern type including a variation pattern of two variations and a variation pattern type including a variation pattern of three variations. Further, for example, a plurality of variation patterns may be grouped according to the presence or absence of a specific effect such as a pseudo-ream or a slip effect.

  In step S25 in the game control process shown in FIG. 5, the game control microcomputer 560 uses a counter for generating the jackpot type determination random number (1) and the random number for determination per ordinary symbol (4). Count up (add 1). That is, they are determination random numbers, and other random numbers are display random numbers (random 2, random 3) or initial value random numbers (random 5). In addition, in order to improve a game effect, you may use random numbers other than said random number. In this embodiment, a random number generated by hardware incorporated in the game control microcomputer 560 (or hardware external to the game control microcomputer 560) is used as the jackpot determination random number. Note that a software random number instead of a hardware random number may be used as the jackpot determination random number.

  FIG. 8A is an explanatory diagram showing a jackpot determination table. The jackpot determination table is a collection of data stored in the ROM 54 and is a table in which a jackpot determination value to be compared with the random R is set. The jackpot determination table includes a normal-time jackpot determination table used in a normal state (that is, a gaming state that is not a probability change state) and a probability change jackpot determination table used in a probability change state. Each value described in the left column of FIG. 8 (A) is set in the normal jackpot determination table, and each value described in the right column of FIG. 8 (A) is set in the probability change jackpot determination table. Is set. The numerical value described in FIG. 8A is a jackpot determination value.

  The CPU 56 extracts the count value of the random number circuit 503 at a predetermined time and sets the extracted value as the value of the big hit determination random number (random R). The big hit determination random number is shown in FIG. If it matches any of the big hit determination values, it is decided to make a big hit (15R probability variation big hit, 4R probability variation big hit, which will be described later) for the special symbol. Note that the “probability” shown in FIG. 8A indicates the probability (ratio) of a big hit. Further, deciding whether or not to win a jackpot means deciding whether or not to shift to the jackpot gaming state, but the stop symbol in the first special symbol display 8a or the second special symbol display 8b is determined. It also means deciding whether or not to make a jackpot symbol.

  FIGS. 8B and 8C are explanatory diagrams showing the jackpot type determination tables 131 a and 131 b stored in the ROM 54. Among these, FIG. 8 (B) determines the jackpot type using the hold memory based on the game ball winning the first start winning opening 13 (that is, when the variable display of the first special symbol is performed). This is a jackpot type determination table (for the first special symbol) 131a. FIG. 8C shows a case where the jackpot type is determined by using the hold memory based on the game ball having won the second start winning opening 14 (that is, when the second special symbol is displayed in a variable manner). Is a jackpot type determination table (for the second special symbol) 131b.

  The jackpot type determination tables 131a and 131b, when it is determined that the variable display result is a jackpot symbol, based on a random number (random 1) for determining the jackpot type, the jackpot type is set to “15R probability variable big hit”, It is a table that is referred to in order to determine one of “4R probability variation big hit”. In this embodiment, as shown in FIGS. 8B and 8C, 10 determination values are assigned to “15R probability variation big hit” in the big hit type determination table 131a (40 minutes). Is determined to be a 15R probability variation jackpot at a rate of 10), whereas 30 judgment values are assigned to the “15R probability variation jackpot” in the jackpot type determination table 131b (ratio of 30/40) Will be described as 15R probability variation big hit). Therefore, in this embodiment, the start prize is given to the second start prize port 14 and the second special symbol is displayed rather than the case where the first special symbol variation display is executed after the start prize is given to the first start prize slot 13. When the variable display is executed, the ratio determined as “15R probability variation big hit” is higher.

  In this embodiment, as shown in FIGS. 8B and 8C, there are “15R probability variation big hit” and “4R probability variation big hit” as the big hit types. In this embodiment, the number of rounds executed in the jackpot game is two types of 15 rounds and four rounds, but the number of rounds executed in the jackpot game is shown in this embodiment. It can't be limited to things. For example, a 10R probability variable jackpot that is controlled for a 10-round jackpot game, a 7R probability variable jackpot that is controlled for a 7-round jackpot game, and a 5R probability variable jackpot that is controlled for a 5-round jackpot game may be provided. In this embodiment, the case where there are two types of jackpot types, “15R probability variation jackpot” and “4R probability variation jackpot”, is not limited to two types, but for example, three or more types of jackpot types are provided. You may do it. Conversely, the jackpot type may be less than two types, for example, only one type may be provided as the jackpot type.

  The “15R probability variable big hit” is a big hit that is controlled to the 15-round big hit gaming state, and is shifted to the probability changed state after the big hit gaming state is finished (in this embodiment, the state is shifted to the probability changed state and the time reduction state is entered. Are also migrated). Then, until the variable display is executed a predetermined number of times (50 times), the probability variation state and the time reduction state continue. Hereinafter, the gaming state controlled to the probability variation state and the short time state may be referred to as “high probability high base state”, and the state that is not controlled to either the probability variation state or the short time state may be referred to as “low probability low base state”. .

  The “4R probability variable big hit” is a big hit that is controlled to a four-round big hit gaming state and shifts to the probability changed state after the big hit gaming state is finished (in this embodiment, the probability changed state is entered and the time-short state is changed). Are also migrated). Then, until the variable display is executed a predetermined number of times (50 times), the probability variation state and the time reduction state continue.

  In the jackpot type determination tables 131a and 131b, numerical values to be compared with a random value of 1, and determination values (big hit type determination values) corresponding to each of “15R probability variation big hit” and “4R probability variation big hit” are set. ing. When the value of random 1 matches any of the jackpot type determination values, the CPU 56 determines the jackpot type as a type corresponding to the matched jackpot type determination value.

  FIG. 9 and FIG. 10 are explanatory diagrams showing an example of contents of the effect control command transmitted by the game control microcomputer 560. In the example shown in FIGS. 9 and 10, the command 80XX (H) is an effect control command (variation pattern command) for designating a variation pattern of the effect symbol that is variably displayed on the effect display device 9 in response to the variable display of the special symbol. (Each corresponding to a variation pattern XX). That is, when a unique number is assigned to each variation pattern that can be used, there is a variation pattern command corresponding to each variation pattern specified by the number. “(H)” indicates a hexadecimal number. The effect control command for designating the variation pattern is also a command for designating the start of variation. Therefore, when receiving the command 80XX (H), the effect control microcomputer 100 controls the effect display device 9 to start variable display of effect symbols.

  Commands 8C01 (H) to 8C03 (H) are effect control commands indicating whether or not to make a big hit and the type of big hit. The effect control microcomputer 100 determines the display results of the effect symbols in response to the reception of the commands 8C01 (H) to 8C03 (H), so the commands 8C01 (H) to 8C03 (H) are referred to as display result designation commands.

  Command 8D01 (H) is an effect control command (first symbol variation designation command) indicating that variable display (variation) of the first special symbol is started. Command 8D02 (H) is an effect control command (second symbol variation designation command) indicating that variable display (variation) of the second special symbol is started. The first symbol variation designation command and the second symbol variation designation command may be collectively referred to as a special symbol specifying command (or symbol variation designation command). Note that information indicating whether to start variable display of the first special symbol or variable display of the second special symbol may be included in the variation pattern command.

  Command 8F00 (H) is an effect control command (symbol confirmation designation command) indicating that the variable display (fluctuation) of the fourth symbol is terminated and the display result (stop symbol) is derived and displayed. When receiving the symbol confirmation designation command, the effect control microcomputer 100 ends the variable display (fluctuation) of the fourth symbol and derives and displays the display result.

  Command 9000 (H) is an effect control command (initialization designation command: power-on designation command) transmitted when power supply to the gaming machine is started. Command 9200 (H) is an effect control command (power failure recovery designation command) transmitted when power supply to the gaming machine is resumed. When the power supply to the gaming machine is started, the gaming control microcomputer 560 transmits a power failure recovery designation command if data is stored in the backup RAM, and if not, initialization designation is performed. Send a command.

  Command 9F00 (H) is an effect control command (customer waiting demonstration designation command) for designating a customer waiting demonstration.

  Commands A001 to A002 (H) are effect control commands for displaying a fanfare screen, that is, designating the start of a big hit game (big hit start designation command: fanfare designation command). In this embodiment, depending on the type of jackpot, either a jackpot start 1 designation command or a jackpot start 2 designation command is used. Specifically, if it is “15R probability variation big hit”, the big hit start 1 designation command (A001 (H)) is used, and if it is “4R probability variation big hit”, the big hit start 2 designation command (A002 (H)) ) Is used.

  The command A1XX (H) is an effect control command (special command during opening of a big winning opening) indicating a display during the opening of the big winning opening for the number of times (round) indicated by XX. Since the value specifying the round is set in the EXT data for each round, and the command for opening a special prize opening is transmitted, a different command for opening a special prize opening is transmitted for each round. A2XX (H) is an effect control command (designation command after opening the big winning opening) indicating the closing of the big winning opening for the number of times (round) indicated by XX. In addition, since the value specifying the round is set in the EXT data for each round and the designation command after opening the special winning opening is transmitted, a different designation command after opening the special winning opening is transmitted for each round.

  The commands A301 (H) and A302 (H) display a jackpot end screen, that is, an effect control command for specifying the end of the jackpot game (a jackpot end 1 designation command: an ending 1 designation command, a jackpot end 2 designation command: an ending) 2 designation command). The big hit end 1 designation command (A301 (H)) is used when the big hit game by “15R probability variable big hit” is ended. The big hit end 2 designation command (A302 (H)) is used when the big hit game by “4R probability variable big hit” is ended.

  Command B000 (H) is an effect control command (normal state background designation command) for designating background display when the gaming state is the normal state. The command B001 (H) is an effect control command (probability change state background designation command) for designating a background display when the gaming state is the probability change state.

  Command C000 (H) is an effect control command (first reserved memory number addition designation command) that specifies that the first reserved memory number has increased by one. Command C100 (H) is an effect control command (second reserved memory number addition designation command) that specifies that the second reserved memory number has increased by one. Command C200 (H) is an effect control command (first reserved memory number subtraction designation command) that specifies that the first reserved memory number has decreased by one. Command C300 (H) is an effect control command (second reserved memory number subtraction designation command) that specifies that the second reserved memory number has decreased by one.

  The effect control microcomputer 100 (specifically, the effect control CPU 101) mounted on the effect control board 80 receives the effect control command described above from the game control micro computer 560 mounted on the main board 31. Then, the display state of the effect display device 9 is changed according to the contents shown in FIGS. 9 and 10, the display state of the lamp is changed, or the sound number data is output to the audio output board 70. To do.

  For example, the game control microcomputer 560 designates the variation pattern of the effect symbol every time there is a start prize and variable display of the special symbol is started on the first special symbol display 8a or the second special symbol display 8b. The variation pattern command and the display result designation command are transmitted to the production control microcomputer 100.

  In this embodiment, the effect control command has a 2-byte structure, the first byte represents MODE (command classification), and the second byte represents EXT (command type). The first bit (bit 7) of the MODE data is always set to “1”, and the first bit (bit 7) of the EXT data is always set to “0”. Note that such a command form is an example, and other command forms may be used. For example, a control command composed of 1 byte or 3 bytes or more may be used.

  In addition, as the transmission method of the effect control command, the effect control command data is output from the main board 31 to the effect control board 80 via the relay board 77 on the eight parallel signal lines of the effect control signals CD0 to CD7, In addition to the effect control command data, a method of outputting a pulse-like (rectangular wave) capture signal (effect control INT signal) for instructing capture of the effect control command data is used. The 8-bit effect control command data of the effect control command is output in synchronization with the effect control INT signal. The effect control microcomputer 100 mounted on the effect control board 80 detects that the effect control INT signal has risen, and starts a 1-byte data capturing process through an interrupt process.

  In the example shown in FIG. 9 and FIG. 10, the change pattern command and the display result designation command are displayed as variable display (change) and second special display of the effect symbol corresponding to the change of the first special symbol on the first special symbol display 8a. An effect display that can be used in common with the variable display (variation) of the effect symbol corresponding to the variation of the second special symbol on the symbol display 8b, and that produces an effect with the variable display of the first special symbol and the second special symbol. It is possible to prevent an increase in the types of commands transmitted from the game control microcomputer 560 to the effect control microcomputer 100 when controlling the effect parts such as the device 9.

  FIG. 11 is a flowchart showing an example of a special symbol process (step S26) program executed by the game control microcomputer 560 (specifically, the CPU 56) mounted on the main board 31. As described above, in the special symbol process, a process for controlling the first special symbol display 8a or the second special symbol display 8b and the special winning opening is executed. In the special symbol process, the CPU 56 detects that the first start port switch 13a for detecting that the game ball has won the first start winning port 13 or that the game ball has won the second start winning port 14. If the second start opening switch 14a is turned on, that is, if a start winning to the first start winning opening 13 or a start winning to the second start winning opening 14 has occurred, the start opening switch passing process is performed. Execute (Steps S311 and S312). Then, any one of steps S300 to S307 is performed. If the first start winning port switch 13a or the second start port switch 14a is not turned on, any one of steps S300 to S307 is performed according to the internal state.

  The processes in steps S300 to S307 are as follows.

  Special symbol normal processing (step S300): Executed when the value of the special symbol process flag is zero. When the game control microcomputer 560 is in a state where variable display of the special symbol can be started, the game control microcomputer 560 checks the number of numerical data stored in the reserved storage number buffer (total number of reserved storage). The stored number of numerical data stored in the pending storage number buffer can be confirmed by the count value of the total pending storage number counter. If the count value of the total pending storage number counter is not 0, it is determined whether or not the display result of the variable display of the first special symbol or the second special symbol is a big hit. In case of big hit, set big hit flag. Then, the internal state (special symbol process flag) is updated to a value (1 in this example) according to step S301. The jackpot flag is reset when the jackpot game ends.

  Fluctuation pattern setting process (step S301): This process is executed when the value of the special symbol process flag is 1. Also, the variation pattern is determined, and the variation time in the variation pattern (variable display time: the time from the start of variable display until the display result is derived and displayed (stop display)) is defined as the variation display variation time of the special symbol. Decide to do. Also, a variable time timer for measuring the special symbol variable time is started. Then, the internal state (special symbol process flag) is updated to a value (2 in this example) corresponding to step S302.

  Display result designation command transmission process (step S302): This process is executed when the value of the special symbol process flag is 2. Control for transmitting a display result designation command to the production control microcomputer 100 is performed. Then, the internal state (special symbol process flag) is updated to a value (3 in this example) corresponding to step S303.

  Special symbol changing process (step S303): This process is executed when the value of the special symbol process flag is 3. When the variation time of the variation pattern selected in the variation pattern setting process elapses (the variation time timer set in step S301 times out, that is, the variation time timer value becomes 0), the design control microcomputer 100 determines the symbol. Control to transmit the specified command is performed, and the internal state (special symbol process flag) is updated to a value (4 in this example) corresponding to step S304. The effect control microcomputer 100 controls the effect display device 9 to stop the fourth symbol when receiving the symbol confirmation designation command transmitted by the game control microcomputer 560.

  Special symbol stop process (step S304): executed when the value of the special symbol process flag is 4. When the big hit flag is set, the internal state (special symbol process flag) is updated to a value (5 in this example) corresponding to step S305. If the big hit flag is not set, the internal state (special symbol process flag) is updated to a value corresponding to step S300 (0 in this example). In this embodiment, as will be described later, a special symbol display control for stopping and displaying a special symbol stop symbol in the special symbol display control process based on the fact that the value of the special symbol process flag is 4. The data is set in the output buffer for setting the special symbol display control data, and the special symbol stop symbol is actually stopped and displayed according to the setting contents of the output buffer in the display control processing in step S22.

  Preliminary winning opening opening process (step S305): This is executed when the value of the special symbol process flag is 5. In the pre-opening process for the big prize opening, control for opening the big prize opening is performed. Specifically, a counter (for example, a counter that counts the number of game balls that have entered the big prize opening) is initialized and the solenoid 21 is driven to open the big prize opening. Also, the execution time of the special prize opening opening process is set by the timer, and the internal state (special symbol process flag) is updated to a value corresponding to step S306 (6 in this example). The pre-opening process for the big winning opening is executed for each round, but when the first round is started, the pre-opening process for the big winning opening is also a process for starting the big hit game.

  Large winning opening opening process (step S306): This process is executed when the value of the special symbol process flag is 6. A control for transmitting a presentation control command for round display during the big hit gaming state to the microcomputer 100 for the presentation control, a process for confirming that the closing condition for the big prize opening is satisfied, and the like are performed. If the closing condition for the special prize opening is satisfied and there are still remaining rounds, the internal state (special symbol process flag) is updated to a value (5 in this example) corresponding to step S305. When all the rounds are completed, the internal state (special symbol process flag) is updated to a value corresponding to step S307 (7 in this example).

  Big hit end process (step S307): executed when the value of the special symbol process flag is 7. Control is performed to cause the microcomputer 100 for effect control to perform display control for notifying the player that the big hit gaming state has ended. Further, a process for setting a flag (for example, a probability variation flag) indicating a gaming state is performed. Then, the internal state (special symbol process flag) is updated to a value (0 in this example) corresponding to step S300.

  FIG. 12 is a flowchart showing the start port switch passing process in step S312. In the start port switch passing process, the CPU 56 first checks whether or not the first start port switch 13a is in an ON state (step S211). If the first start port switch 13a is not on, the process proceeds to step S217. If the first start port switch 13a is on, the CPU 56 determines whether or not the first reserved memory number has reached the upper limit (specifically, the first reserved memory for counting the first reserved memory number). Whether or not the value of the number counter is 4 is confirmed (step S212). If the first reserved storage number has reached the upper limit value, the process proceeds to step S217.

  If the first reserved memory number has not reached the upper limit value, the CPU 56 increases the value of the first reserved memory number counter by 1 (step S213), and the value of the total reserved memory number counter for counting the total reserved memory number Is increased by 1 (step S214). Next, the CPU 56 extracts values from the random number circuit 503 and a counter for generating software random numbers, and executes a process of storing them in a storage area in the first reserved storage buffer (see FIG. 13) (step S215). . In the process of step S215, a random R (big hit determination random number) that is a hardware random number, a big hit type determination random number (random 1) that is a software random number, a variation pattern type determination random number (random 2), and a variation pattern A random number for determination (random 3) is extracted and stored in the storage area. Note that the variation pattern type determination random number (random 2) and the variation pattern determination random number (random 3) are not extracted and stored in advance in the storage area in the start port switch passing process (at the time of start winning). You may make it extract at the time of the change start of 1 special symbol. For example, the game control microcomputer 560 directly extracts a value from a variation pattern type determination random number counter for generating a variation pattern type determination random number (random 2) in a variation pattern setting process to be described later, A value may be directly extracted from a variation pattern determination random number counter for generating a determination random number (random 3).

  FIG. 13 is an explanatory diagram showing a configuration example of an area (hold buffer) for storing random numbers and the like corresponding to the hold memory. As shown in FIG. 13, a storage area corresponding to the upper limit value (4 in this example) of the first reserved storage number is secured in the first reserved storage buffer. In addition, a storage area corresponding to the upper limit value of the second reserved storage number (4 in this example) is secured in the second reserved storage buffer. In this embodiment, the first reserved storage buffer and the second reserved storage buffer include a random R (big hit determination random number) that is a hardware random number, a big hit type determination random number (random 1) that is a software random number, a variation A random number for pattern type determination (random 2) and a random number for variation pattern determination (random 3) are stored. The first reserved storage buffer and the second reserved storage buffer are formed in the RAM 55.

  Then, the CPU 56 performs control to transmit the first reserved memory number addition designation command to the effect control microcomputer 100 (step S216).

  Next, the CPU 56 checks whether or not the second start port switch 14a is on (step S217). If the second start port switch 14a is not in the ON state, the process is terminated as it is. If the second start port switch 14a is in the ON state, the CPU 56 determines whether or not the second reserved memory number has reached the upper limit value (specifically, the second reserved memory for counting the second reserved memory number). Whether or not the value of the number counter is 4 is confirmed (step S218). If the second reserved storage number has reached the upper limit value, the processing is terminated as it is.

  If the second reserved memory number has not reached the upper limit value, the CPU 56 increases the value of the second reserved memory number counter by 1 (step S219), and the value of the aggregate reserved memory number counter for counting the total reserved memory number Is increased by 1 (step S220). Next, the CPU 56 extracts values from the random number circuit 503 and a counter for generating software random numbers, and executes a process of storing them in a storage area in the second reserved storage buffer (see FIG. 13) (step S221). . In the process of step S221, a random R (big hit determination random number) that is a hardware random number, a big hit type determination random number (random 1) that is a software random number, a variation pattern type determination random number (random 2), and a variation pattern A random number for determination (random 3) is extracted and stored in the storage area. It should be noted that the random number for random pattern determination (random 3) is not extracted and stored in the storage area in advance in the start-port switch passing process (at the time of start winning), but is extracted at the start of the variation of the second special symbol. May be. For example, the game control microcomputer 560 may directly extract a value from a variation pattern determination random number counter for generating a variation pattern determination random number (random 3) in a variation pattern setting process described later.

  Then, the CPU 56 performs control to transmit the second reserved memory number addition designation command to the effect control microcomputer 100 (step S222).

  14 and 15 are flowcharts showing the special symbol normal process (step S300) in the special symbol process. In the special symbol normal process, the CPU 56 confirms the value of the total pending storage number (step S51). Specifically, the count value of the total pending storage number counter is confirmed. If the total pending storage number is 0, if the customer waiting demonstration designation command has not yet been transmitted, control is performed to send the customer waiting demonstration designation command to the production control microcomputer 100 (step S51A), and the processing is performed. finish. For example, when the CPU 56 transmits a customer waiting demonstration designation command in step S51A, the CPU 56 sets a customer waiting demonstration designation command transmitted flag indicating that the customer waiting demonstration designation command has been transmitted. When the special symbol normal processing after the next timer interruption is executed after sending the customer waiting demo designation command, the customer waiting demonstration request command is repeatedly set based on the fact that the customer waiting demo designation command transmission completed flag is set. Control should be performed so that the demo designation command is not transmitted. In this case, the customer waiting demonstration designation command transmission completion flag may be reset when the next special symbol variation display is started.

  If the total reserved memory number is not 0, the CPU 56 checks whether or not the second reserved memory number is 0 (step S52). Specifically, it is confirmed whether or not the value of the second reserved memory number counter is zero. If the second reserved memory number is not 0, the CPU 56 has a special symbol pointer (a flag indicating whether the special symbol process is being performed for the first special symbol or the special symbol process is being performed for the second special symbol). Is set to data indicating “second” (step S53). If the second reserved memory number is 0 (that is, only the first reserved memory number is accumulated), the CPU 66 sets data indicating “first” in the special symbol pointer (step S54).

  In this embodiment, by executing the processing of steps S52 to S54, the variation display of the second special symbol is executed with priority over the variation display of the first special symbol. In other words, control is performed so that the second start condition for starting the variable display of the second special symbol is established in preference to the first start condition for starting the variable display of the first special symbol.

  Next, the CPU 56 reads out each random number value stored in the storage area corresponding to the reserved storage number = 1 indicated by the special symbol pointer in the RAM 55 and stores it in the random number buffer area of the RAM 55 (step S55). Specifically, when the special symbol pointer indicates “first”, the CPU 56 determines each disturbance stored in the storage area corresponding to the first reserved memory number = 1 in the first reserved memory number buffer. The numerical value is read and stored in the random number buffer area of the RAM 55. In addition, when the special symbol pointer indicates “second”, the CPU 56 reads each random number value stored in the storage area corresponding to the second reserved memory number = 1 in the second reserved memory number buffer. And stored in the random number buffer area of the RAM 55.

  Then, the CPU 56 decrements the count value of the reserved storage number counter indicated by the special symbol pointer, and shifts the contents of each storage area (step S56). Specifically, when the special symbol pointer indicates “first”, the CPU 56 decrements the count value of the first reserved memory number counter by 1 and saves each storage area in the first reserved memory number buffer. Shift the contents of. When the special symbol pointer indicates “second”, the count value of the second reserved memory number counter is decremented by 1, and the contents of each storage area in the second reserved memory number buffer are shifted.

  That is, when the special symbol pointer indicates “first”, the CPU 56 saves the first reserved memory number = n (n = 2, 3, 4) in the first reserved memory number buffer of the RAM 55. Are stored in a storage area corresponding to the first reserved memory number = n−1. Further, when the special symbol pointer indicates “second”, it is stored in the storage area corresponding to the second reserved memory number = n (n = 2, 3, 4) in the second reserved memory number buffer of the RAM 55. Each random number value is stored in a storage area corresponding to the second reserved memory number = n−1.

  Therefore, the order in which each random value stored in each storage area corresponding to each first reserved memory number (or each second reserved memory number) is extracted is always the first reserved memory number (or (Second reserved storage number) = 1, 2, 3, 4 in order.

  Then, the CPU 56 decreases the value of the total pending storage number by one. That is, 1 is subtracted from the count value of the total pending storage number counter (step S58). The CPU 56 stores the value of the total pending storage number counter before the count value is decremented by 1 in a predetermined area of the RAM 55.

  Moreover, CPU56 performs control which transmits a background designation | designated command to the microcomputer 100 for effect control according to the present game state (step S60). In this case, when the probability variation flag indicating the probability variation state is set, the CPU 56 performs control to transmit a probability variation state background designation command. Further, if the probability variation flag is not set, the CPU 56 performs control to transmit a normal state background designation command.

  In this embodiment, the background designation command is transmitted every time for each variation. For example, it is determined at the start of the variation whether or not the gaming state has changed since the previous variation. Only when the state changes, the background designation command corresponding to the changed gaming state may be transmitted. With such a configuration, the number of transmissions of the background designation command can be reduced, and the processing burden on the game control microcomputer 560 can be reduced.

  Specifically, when the CPU 56 transmits an effect control command to the effect control microcomputer 100, the address of the command transmission table corresponding to the effect control command (preliminarily set for each command in the ROM) is given. Set to pointer. Then, the address of the command transmission table corresponding to the effect control command is set in the pointer, and the effect control command is transmitted in the effect symbol command control process (step S30). In this embodiment, when the variation of the special symbol is started, the effect control microcomputer in the order of the background designation command, the variation pattern command, the display result designation command, and the reserved memory number subtraction designation command for each timer interrupt. 100 will be transmitted. Specifically, when the change of the special symbol is started, first, the background designation command is transmitted, the variation pattern command is transmitted after 4 ms elapses, the display result designation command is transmitted after elapse of 4 ms, and further after 4 ms elapses. A pending storage count subtraction designation command is transmitted. In addition, the symbol variation designation command (the first symbol variation designation command, the second symbol variation designation command) is also transmitted when the special symbol variation starts, but the symbol variation designation command is the same timer interrupt as the variation pattern command. Is transmitted to the production control microcomputer 100.

  In the special symbol normal process, first, data indicating “first” indicating that the process is executed for the first start winning opening 13, that is, “first” indicating that the process is executed for the first special symbol. ”Or“ second ”indicating that the process is performed on the second special symbol, that is,“ second ”indicating that the process is performed on the second start winning opening 14. Data is set in the special symbol pointer. In the subsequent processing in the special symbol process, processing corresponding to the data set in the special symbol pointer is executed. Therefore, the process of steps S300 to S307 can be shared between the case where the first special symbol is the target and the case where the second special symbol is the target.

  Next, the CPU 56 reads a random R (a jackpot determination random number) from the random number buffer area and executes a jackpot determination module. In this case, the CPU 56 reads out the jackpot determination random numbers extracted in steps S215 and S221 of the start port switch passage processing and stored in advance in the first hold storage buffer and the second hold storage buffer, and performs the jackpot determination. The jackpot determination module is a program that compares a jackpot determination value (see FIG. 8) determined in advance with a jackpot determination random number, and executes a process of determining a jackpot if they match. In other words, this is a program for executing the big hit determination process.

  The jackpot determination process is configured such that when the gaming state is in a probable change state (high probability state), the probability of winning a big hit is higher than in the case where the gaming state is a non-probability change state (normal game state). Specifically, a jackpot determination table (a table in which the numerical values on the right side of FIG. 8A in the ROM 54 are set) in which a large number of jackpot determination values are set in advance and the number of jackpot determination values are definitely changed. There is provided a normal big hit determination table (a table in which the numerical values on the left side of FIG. 8A in the ROM 54 are set) set to be smaller than the big hit determination table. Then, the CPU 56 checks whether or not the gaming state is a probability variation state. If the gaming state is a probability variation state, the jackpot determination process is performed using the probability variation jackpot determination table, and the gaming state is normal. When in the gaming state, the big hit determination process is performed using the normal big hit determination table. That is, when the value of the big hit determination random number (random R) matches one of the big hit determination values shown in FIG. 8A, the CPU 56 determines that the special symbol is a big hit. If it is determined to be a big hit (step S61), the process proceeds to step S62. Note that deciding whether to win or not is to decide whether or not to shift to the big hit gaming state, but to decide whether or not to stop the special symbol display as a big hit symbol. But there is.

  Note that whether or not the current gaming state is the probability variation state is determined by whether or not the probability variation flag is set. The probability variation flag is set when the gaming state is shifted to the probability variation state, and is reset when the probability variation state is terminated. Specifically, it is determined to be 15R probability variation big hit or 4R probability variation big hit, and it is set in the process of ending the big hit game. Is reset at the timing of ending the display of 50 special symbols.

  If the value of the jackpot determination random number (random R) does not match any of the jackpot determination values (N in step S61), the CPU 56 proceeds to step S66 as it is.

  In step S62, the CPU 56 sets a big hit flag indicating that it is a big hit. Then, the jackpot type determination table indicated by the special symbol pointer is selected as a table used to determine the jackpot type as one of a plurality of types (step S63). Specifically, when the special symbol pointer indicates “first”, the CPU 56 selects the jackpot type determination table 131a for the first special symbol shown in FIG. 8B. Further, when the special symbol pointer indicates “second”, the CPU 56 selects a big hit type determination table 131b for the second special symbol shown in FIG. 8C.

  Next, the CPU 56 uses the selected jackpot type determination table to select the type corresponding to the value of the random number (random 1) for determining the big hit type stored in the random number buffer area (“15R probability variable big hit”, “ 4R probability variation jackpot ") is determined as the jackpot type (step S64). In this case, the CPU 56 reads out the jackpot type determination random numbers extracted in steps S215 and S221 of the start port switch passing process and stored in advance in the first hold memory buffer and the second hold memory buffer, and determines the jackpot type. .

  Further, the CPU 56 sets data indicating the determined jackpot type in the jackpot type buffer in the RAM 55 (step S65). For example, when the big hit type is “15R probability variable big hit”, “01” is set as data indicating the big hit type, and when the big hit type is “4R positive variable big hit”, “02” is set as the data indicating the big hit type. Is done.

  Next, the CPU 56 determines a special symbol stop symbol (step S66). Specifically, when the big hit flag is not set, “−” as a special symbol is determined as a stop symbol of the special symbol. When the big hit flag is set, one of the big hit symbols is determined as a special symbol stop symbol according to the determination result of the big hit type. That is, when “15R probability variation big hit” is determined, “7” is determined as a special symbol stop symbol, and when “4R probability variation big hit” is determined, “3” is determined as a special symbol stop symbol.

  In this embodiment, the case where the jackpot type is first determined and the stop symbol of the special symbol corresponding to the determined jackpot type is shown, but the method for determining the jackpot type and the stop symbol of the special symbol is as follows. It is not limited to what is shown in the embodiment. For example, a table in which a special symbol stop symbol and a jackpot type are associated in advance is prepared, and when a special symbol stop symbol is first determined based on the random number for determining the big hit type, the corresponding jackpot is determined based on the determination result. You may comprise so that a classification may also be determined.

  Then, the value of the special symbol process flag is updated to a value corresponding to the variation pattern setting process (step S301) (step S67).

  FIG. 16 is a flowchart showing the variation pattern setting process (step S301) in the special symbol process. In the variation pattern setting process, the CPU 56 checks whether or not the big hit flag is set (step S91). When the big hit flag is set, the CPU 56 determines which of the big hit variation pattern type determination tables as a table used to determine the variation pattern type as one of a plurality of types according to the big hit type. Is selected (step S92). Then, control goes to a step S98.

  When the big hit flag is not set, the CPU 56 checks whether or not the probability variation flag indicating the probability variation state is set (step S93). The probability variation flag is set when the gaming state is shifted to the probability variation state, and is reset when the probability variation state is terminated. Specifically, it is determined to be 15R probability variation big hit or 4R probability variation big hit, and is set in the process of ending the big hit game. When the big hit is decided, the special symbol variation display is terminated and the stop symbol is stopped. Is reset at the timing of ending or 50 variable display ends. If the probability variation flag is set (Y in step S93), the CPU 56 uses a variation pattern type determination table for deviation for probability variation as a table used to determine one of the plurality of variation pattern types. Select (step S97). Then, control goes to a step S98.

  If the probability variation flag is not set (N in Step S93), the CPU 56 checks whether or not the total number of pending storages is 3 or more (Step S94). If the total number of pending storages is less than 3 (N in step S94), the CPU 56 uses a normal deviation variation pattern type determination table as a table used to determine one of a plurality of variation pattern types. Is selected (step S95). Then, control goes to a step S98.

  When the total number of pending storages is 3 or more (Y in step S94), the CPU 56 uses the table for determining the variation pattern type as one of a plurality of types as a table used for declining the variation time. A variation pattern type determination table is selected (step S96). Then, control goes to a step S98.

  In this embodiment, when the total number of pending storages is 3 or more by executing the processing of steps S93 to S96, the deviation variation pattern type determination table for variation time reduction is selected. Further, when the gaming state is a probability variation state, a probability variation variation pattern type determination table is selected. In this case, non-reach CA2-3 may be determined as the variation pattern type in the process of step S98 described later, and when the variation pattern type of non-reach CA2-3 is determined, the process changes in step S99. Short reach variation non-reach PA1-2 is determined as a pattern. Therefore, in this embodiment, when the gaming state is the probability variation state or when the total number of pending storages is 3 or more, the variation display of the shortening variation may be performed.

  In this embodiment, the variation pattern type determination table for shortening variation used in the probability variation state and the variation pattern type determination table for shortening variation based on the number of reserved storages are different tables. A common table may be used as the variation pattern type determination table for variation.

  Even if the gaming state is a probable change state, if the total number of pending storage is almost 0 (for example, 0, 0, or 1), a change display of a shortened change is performed. It may not be possible. In this case, for example, when the CPU 56 determines Y in step S93, the CPU 56 checks whether or not the total pending storage number is almost zero. A determination table may be selected.

  Next, the CPU 56 reads random 2 (random number for variation pattern type determination) from the random number buffer area (the first reserved storage buffer or the second reserved storage buffer) and selects it in the process of steps S92, S83, S97, S95 or S96. By referring to the table, the variation pattern type is determined as one of a plurality of types (step S98). In the case where the random number 2 (variation pattern type determination random number) is not extracted at the start winning timing, the CPU 56 determines the variation pattern type for generating the random number for variation pattern type determination (random 2). A value may be directly extracted from the random number counter for use, and the variation pattern type may be determined based on the extracted random value.

  Next, based on the determination result of the variation pattern type in step S98, the CPU 56 uses a jackpot variation pattern determination table and a loss variation pattern determination table as tables used to determine one of a plurality of variation patterns. One of them is selected (step S99). Further, the random pattern 3 (random number for variation pattern determination) is read from the random number buffer area (first reserved storage buffer or second reserved storage buffer), and the variation pattern is determined by referring to the variation pattern determination table selected in the process of step S99. Is determined as one of a plurality of types (step S100). When the random number 3 (variation pattern determination random number) is not extracted at the start winning timing, the CPU 56 uses the variation pattern determination random number counter for generating the variation pattern determination random number (random 3). It is also possible to extract the value directly from and to determine the variation pattern based on the extracted random number value.

  Next, the CPU 56 performs control to transmit the symbol variation designation command indicated by the special symbol pointer to the production control microcomputer 100 (step S101). Specifically, when the special symbol pointer indicates “first”, the CPU 56 performs control to transmit a first symbol variation designation command. In addition, when the special symbol pointer indicates “second”, the CPU 56 performs control to transmit a second symbol variation designation command. Further, the CPU 56 performs control to transmit an effect control command (variation pattern command) corresponding to the determined variation pattern to the effect control microcomputer 100 (step S102).

  Next, the CPU 56 sets a value corresponding to the variation time corresponding to the selected variation pattern in the variation time timer formed in the RAM 55 (step S103). Then, the value of the special symbol process flag is updated to a value corresponding to the display result designation command transmission process (step S302) (step S104).

  In the case where it is determined to be out of place, instead of suddenly determining the variation pattern type, first, it may be determined whether or not to reach by a lottery process using a random number for reach determination. Then, based on the determination result as to whether or not to reach, the processing of steps S93 to S96 and S98 may be executed to determine the variation pattern type. In this case, a variation pattern type determination table for non-reach and a variation pattern type determination table for reach are prepared in advance, and one of the variation pattern type determination tables is selected based on the reach determination result. The variation pattern type may be determined.

  In addition, when determining whether or not to reach by a lottery process using a reach determination random number, depending on the total reserved memory number (which may be the first reserved memory number or the second reserved memory number), Reach determination tables having different selection ratios may be selected, and it may be determined whether or not to reach so that the reach probability decreases as the number of reserved memories increases.

  FIG. 17 is a flowchart showing the display result designation command transmission process (step S302). In the display result designation command transmission process, the CPU 56 performs control to transmit any effect control command (see FIG. 9) of display result 1 designation to display result 3 designation according to the determined type of jackpot or loss. Do. Specifically, the CPU 56 first checks whether or not the big hit flag is set (step S105). If not set, the process proceeds to step S109. When the big hit flag is set, if the big hit type is “15R probability variation big hit”, control for transmitting a display result 2 designation command is performed (steps S106 and S107). Whether or not it is “15R probability variation big hit” is specifically determined by checking whether or not the data set in the big hit type buffer in step S65 of the special symbol normal processing is “01”. it can. Further, when the big hit type is “4R probability variation big hit”, the CPU 56 performs control to transmit a display result 3 designation command (steps S106 and S108). Whether or not it is “4R probability variation big hit” is specifically determined by checking whether or not the data set in the big hit type buffer in step S65 of the special symbol normal processing is “02”. it can.

  On the other hand, when the big hit flag is not set (N in Step S105), that is, when it is out of place, the CPU 56 performs control to transmit a display result 1 designation command (Step S109).

  Then, the CPU 56 updates the value of the special symbol process flag to a value corresponding to the special symbol changing process (step S303) (step S110).

  FIG. 18 is a flowchart showing the special symbol stop process (step S304) in the special symbol process. In the special symbol stop process, the CPU 56 checks whether or not the big hit flag is set (step S131). If the big hit flag is set, the CPU 56 resets the probability variation flag indicating the probability variation state if it is set (step S132).

  Next, the CPU 56 performs control to transmit a big hit start designation command to the production control microcomputer 100 (step S133). Specifically, when the type of jackpot is a 15R probability variable jackpot, a jackpot start 1 designation command is transmitted. When the jackpot type is 4R probability variation jackpot, a jackpot start 2 designation command is transmitted. Whether the big hit type is 15R probability variation big hit or 4R probability variation big hit is determined based on the data indicating the big hit type stored in the RAM 55 (data stored in the big hit type buffer).

  In addition, the CPU 56 sets a value corresponding to the jackpot display time (time for notifying that the jackpot has occurred, for example, in the effect display device 9) in the timer before opening the big prize opening (step S134). Note that the pre-winner pre-opening timer is a timer for measuring the time until the big winning opening is opened during the big hit game. Specifically, at the start of the big hit game, in step S134, the time required from the start of the variable display to the start of the first round (the variable display is stopped on the effect control microcomputer 100 side and the jackpot symbol is displayed). The time before the first round is started until the start of the first round is set as the pre-opening timer. For the first and subsequent rounds, the interval time between the rounds (apparatus at the time of performing the interval effect between the rounds on the effect control microcomputer 100 side) is set as the timer before opening the big prize opening.

  Further, the CPU 56 sets the number of releases corresponding to the jackpot type in the number-of-release counter (step S135). For example, 15 times is set in the open count counter for 15R probability variation big hit, and 4 times is set for 4R probability variation big hit.

  Then, the CPU 56 updates the value of the special symbol process flag to a value corresponding to the special winning opening opening pre-processing (step S305) (step S137).

  If the big hit flag is not set in step S131, the CPU 56 determines whether or not the probability variation flag is set (step S141). If it is not set, that is, if it is in the normal state, step 56 is performed. The process proceeds to S150. When the probability variation flag is set, that is, when the probability variation state is set, the value of the probability variation counter is decremented by 1 (step S142), and it is determined whether or not the value of the probability variation counter is 0 (step S143). . If not 0, the process proceeds to step S150. If it becomes 0, the probability variation flag is reset (step S144), and the process proceeds to step S150. As a result, the state is changed from the certain change state to the normal state when triggered by a predetermined number of times (50 times). In step S150, the CPU 56 updates the value of the special symbol process flag to a value corresponding to the special symbol normal process (step S300) (step S150).

  FIG. 19 is a flowchart showing the jackpot end process (step S307) in the special symbol process. In the jackpot end process, the CPU 56 checks whether or not the jackpot end display timer is set (step S160). If the jackpot end display timer is set, the process proceeds to step S164. If the jackpot end display timer is not set, the jackpot flag is reset (step S161), and control for transmitting a jackpot end designation command is performed (step S162). Here, in the case of 15R probability variation big hit, a big hit end 1 designation command is transmitted, and in the case of 4R probability variation big hit, a big hit end 2 designation command is transmitted. Then, a value corresponding to the display time corresponding to the time during which the big hit end display is performed in the effect display device 9 (big hit end display time) is set in the big hit end display timer (step S163), and the processing is ended.

  In step S164, 1 is subtracted from the value of the jackpot end display timer. Then, the CPU 56 checks whether or not the value of the jackpot end display timer is 0, that is, whether or not the jackpot end display time has elapsed (step S165). If not, the process ends.

  If the big hit end display time has elapsed (Y in step S165), the CPU 56 sets the probability change flag and shifts the gaming state to the probability change state (step S167). Then, “50” is set in the probability variation counter (step S168), and the process proceeds to step S171.

  In step S171, the CPU 56 updates the value of the special symbol process flag to a value corresponding to the special symbol normal process (step S300) (step S171).

  FIG. 20 is a flowchart showing an example of a program of the special symbol display control process (step S36) executed by the game control microcomputer 560 (specifically, the CPU 56) mounted on the main board 31. In the special symbol display control process, the CPU 56 checks whether or not the value of the special symbol process flag is 3 (that is, whether or not the special symbol changing process is being executed) (step S3201). If the value of the special symbol process flag is 3 (that is, if the special symbol variation processing is being executed), the CPU 56 sets the special symbol display control data for special symbol variation display for setting the special symbol display control data. Processing for setting or updating the output buffer is performed (step S3202). In this case, the CPU 56 sets or updates the special symbol display control data for performing variable symbol special display. For example, if the fluctuation speed is 1 frame / 0.2 seconds, the value of the special symbol display control data set in the output buffer is incremented by 1 every time 0.2 seconds elapse. After that, display control processing (see step S22) is executed, and a drive signal is output to the special symbol displays 8a and 8b in accordance with the contents of the output buffer for setting the special symbol display control data. The special symbol display on the special symbol indicators 8a and 8b is executed.

  If the value of the special symbol process flag is not 3, the CPU 56 checks whether the value of the special symbol process flag is 4 (that is, whether the special symbol stop process is being executed) (step S3203). ). If the value of the special symbol process flag is 4 (that is, when the special symbol process is shifted to the special symbol stop process), the CPU 56 stops the special symbol stop symbol set in the special symbol normal process. Processing for setting the display control data in the output buffer for setting the special symbol display control data is performed (step S3204). In this case, the CPU 56 sets special symbol display control data for stopping and displaying the special symbol stop symbol. After that, display control processing (see step S22) is executed, and a drive signal is output to the special symbol displays 8a and 8b in accordance with the contents of the output buffer for setting the special symbol display control data. The special symbol stop symbols are stopped and displayed on the special symbol indicators 8a and 8b. In addition, since the setting data is not changed after the process of step S3204 is executed and the special symbol display control data for the stop symbol display is set, the latest special symbol display control data is displayed in the display control process of step S22. Based on this, the latest stop symbol is stopped and displayed until the next variable display is started. If the value of the special symbol process flag is 2 or 3 in step S3201 (that is, if either the display result designation command transmission process or the special symbol variation process), the special symbol variation display is performed. The special symbol display control data may be updated. In this case, the display result designation command transmission process also varies in order to prevent a deviation between the variation time recognized on the game control microcomputer 560 side and the variation time recognized on the effect control microcomputer 100 side. What is necessary is just to comprise so that 1 may subtract a time timer.

  In this embodiment, the special symbol display control data is set in the output buffer according to the value of the special symbol process flag. However, in the special symbol process, the start flag is set at the start of the variation of the special symbol. In addition, an end flag may be set at the end of the variation of the special symbol. In the special symbol display control process (step S36), the CPU 56 starts updating the value of the special symbol display control data based on the start flag being set, and based on the end flag being set. Thus, special symbol display control data for stopping and displaying the stop symbol may be set.

  Next, the operation of the effect control means will be described. FIG. 21 is a flowchart showing a main process executed by the effect control microcomputer 100 (specifically, the effect control CPU 101) as effect control means mounted on the effect control board 80. The effect control CPU 101 starts executing the main process when the power is turned on. In the main processing, first, initialization processing for clearing the RAM area, setting various initial values, and initializing a timer for determining the activation control activation interval (for example, 4 ms) is performed (step S701). . Thereafter, the effect control CPU 101 proceeds to a loop process for monitoring a timer interrupt flag (step S702). When a timer interrupt occurs, the effect control CPU 101 sets a timer interrupt flag in the timer interrupt process. If the timer interrupt flag is set in the main process, the effect control CPU 101 clears the flag (step S703) and executes the following effect control process.

  Next, the effect control CPU 101 analyzes the received effect control command and performs a process of setting a flag according to the received effect control command (command analysis process: step S704).

  Next, the effect control CPU 101 performs effect control process processing (step S705). In the effect control process, the process corresponding to the current control state (effect control process flag) is selected from the processes corresponding to the control state, and display control of the effect display device 9 is executed.

  Next, the production control CPU 101 performs the fourth symbol process (step S706). In the 4th symbol process, the process corresponding to the current control state (4th symbol process flag) is selected from the processes corresponding to the control state, and the 4th symbol display areas 9c and 9d of the effect display device 9 are selected. The display control of the 4th symbol is executed.

  After step S706, a random number update process for updating a count value of a counter for generating a random number such as a jackpot symbol determining random number is executed (step S707). Thereafter, the process proceeds to step S702.

  FIG. 22 is an explanatory diagram showing a configuration example of a command reception buffer for storing the effect control command received from the game control microcomputer 560 of the main board 31. In this example, a command reception buffer of a ring buffer type capable of storing six 2-byte configuration effect control commands is used. Therefore, the command reception buffer is configured by a 12-byte area of reception command buffers 1 to 12. A command reception number counter indicating in which area the received command is stored is used. The command reception number counter takes a value from 0 to 11. The ring buffer format is not necessarily required.

  The effect control command transmitted from the game control microcomputer 560 is received by an interrupt process based on the effect control INT signal, and is stored in a buffer area formed in the RAM. In the command analysis process, it is analyzed which command (see FIGS. 9 and 10) the effect control command stored in the buffer area is. Note that the interrupt process based on the effect control INT signal is executed in preference to the timer interrupt process executed every 4 ms.

  23 and 24 are flowcharts showing a specific example of the command analysis process (step S704). The effect control command received from the main board 31 is stored in the reception command buffer, but in the command analysis process, the effect control CPU 101 confirms the contents of the command stored in the command reception buffer.

  In the command analysis process, the effect control CPU 101 first checks whether or not a reception command is stored in the command reception buffer (step S611). Whether it is stored or not is determined by comparing the value of the command reception number counter with the read pointer. The case where both match is the case where the received command is not stored. When the reception command is stored in the command reception buffer, the effect control CPU 101 reads the reception command from the command reception buffer (step S612). When read, the value of the read pointer is incremented by +2 (step S613). The reason for +2 is that two bytes (one command) are read out.

  If the received effect control command is a variation pattern command (step S614), the effect control CPU 101 stores the received variation pattern command in a variation pattern command storage area formed in the RAM (step S615). Then, a variation pattern command reception flag is set (step S616).

  If the received effect control command is a display result designation command (step S617), the effect control CPU 101 forms the received display result designation command (display result 1 designation command to display result 10 designation command) in the RAM. Is stored in the display result designation command storage area (step S618A).

  If the received effect control command is a symbol confirmation designation command (step S619), the effect control CPU 101 sets a confirmed command reception flag (step S620). The confirmation command reception flag is a flag indicating that the symbol confirmation designation command has been normally received.

  If the received effect control command is a jackpot start 1 designation command or a jackpot start 2 designation command (step S621), the effect control CPU 101 sets a jackpot start 1 designation command reception flag or a jackpot start 2 designation command reception flag ( Step S622). In this embodiment, the jackpot start 1 designation command reception flag and the jackpot start 2 designation command reception flag set in step S622 are also referred to as fanfare flags.

  If the received effect control command is a normal state background designation command (step S679), the effect control CPU 101 changes the background screen displayed on the effect display device 9 to a background screen corresponding to the normal state (for example, a blue display color). Background screen) (step S680).

  If the received effect control command is a probability change state background designation command (step S682), the effect control CPU 101 uses the background screen displayed on the effect display device 9 as a background screen (for example, a red display). Color background screen) (step S683).

  If the received effect control command is a customer waiting demonstration designation command (step S685), the effect control CPU 101 controls to display the customer waiting demonstration screen on the effect display device 9 after 30 seconds (step S687). . Specifically, a timer for measuring 30 seconds is set, and when the timer times out, a customer waiting demonstration screen is displayed on the effect display device 9. If a variation pattern command or the like is received during measurement, the timer is reset and the measurement ends. After step S687, the number of reserved memories stored in each reserved memory number storage area is cleared (step S688).

  If the received effect control command is another command, the effect control CPU 101 sets a flag according to the received effect control command or executes a process (step S691). Then, control goes to a step S611.

  FIG. 25 is a flowchart showing the effect control process (step S705) in the main process shown in FIG. In the effect control process, the effect control CPU 101 performs an operation reception process (step S800A). The operation acceptance process is a process during the effective period of the operation effect, and details thereof will be described later with reference to FIG.

  Here, the operation effect will be described. The operation effect is an effect that improves the game entertainment by causing the player to perform a predetermined operation (operation on the push button 120). When the operation effect is executed, first, an operation instruction image that prompts the player to operate the push button 120 is displayed on the effect display device 9 at a predetermined timing during the change of the effect symbol. And a specific effect is performed based on having accepted operation to push button 120 during the effective period defined beforehand. The specific effect is an effect performed when a predetermined operation is detected during the effective period. As the content of the specific effect in the present embodiment, “Chance!” Is displayed on the effect display device 9, but the present invention is not limited to this, and a character is displayed on the effect display device 9 or a predetermined effect is displayed. The movable member for operation (so-called accessory) may be operated, a predetermined light emitting member may be caused to emit light, or a predetermined sound may be output. Further, in the case of fluctuations that do not result in big hits, even if an operation to the push button 120 is accepted during the effective period, the specific effect may not be executed, or a specific effect with content that suggests that it is out of place. It may be something to do. Furthermore, the presence or absence of execution of a specific effect when an operation to the push button 120 is accepted during the effective period, and the content of the specific effect (contents to suggest or control) at different ratios based on whether or not it is a big hit It is good also as determining the production device to perform. In this embodiment, as described later, the specific effect is executed even when the operation to the push button 120 is not received until the expiration of the effective period. However, the present invention is not limited to this. When a predetermined operation (operation on the push button 120 in this example) is not detected during the effective period, the specific effect may not be performed. Thus, the operation effect in the present embodiment includes an effect for displaying an operation instruction image and a specific effect.

  In addition, the operation effect in the present embodiment is an effect performed in a multi-reach variation. Specifically, when the display area of the effect display device 9 is divided in the multi-reach variation and the reach state is reached in any of the display areas, the operation instruction image is displayed in the reach display area. Is displayed. For example, when the first effect symbol and the fourth effect symbol are in the reach state, the operation instruction image is displayed in the first display area and the fourth display area. That is, the same number of operation instruction images as the number of display areas in the reach state (hereinafter referred to as “reach number”) are displayed on the effect display device 9.

  Then, after the operation instruction image is displayed in the display area in the reach state, the display mode of the displayed operation instruction image is changed. Specifically, the operation instruction image displayed for each of the divided display areas is integrated into one operation instruction image and displayed at a substantially central portion of the effect display device 9. A plurality of types of display modes of the operation instruction image after the change are provided, and it is determined to change the operation instruction image to any display mode based on the number of display of the operation instruction image before the display mode is changed. After the display mode of the operation instruction image is changed, an effective period for enabling the player to operate the push button 120 is started.

  After step S800A, the effect control CPU 101 performs one of steps S800 to S807 according to the value of the effect control process flag. In each process, the following process is executed. In the effect control process, the display state of the effect display device 9 is controlled and variable display of the effect symbol is realized. However, control related to variable display of the effect symbol synchronized with the change of the first special symbol is also the second. Control related to the variable display of the effect symbol synchronized with the change of the special symbol is also executed in one effect control process. It should be noted that the variable display of the effect symbol synchronized with the variation of the first special symbol and the variable display of the effect symbol synchronized with the variation of the second special symbol may be executed by separate effect control process processing. Good. Further, in this case, it may be determined which special symbol variation display is being executed depending on which representation control process processing is performing the variation display of the representation symbol.

  Fluctuation pattern command reception waiting process (step S800): It is confirmed whether or not a variation pattern command has been received from the game control microcomputer 560. Specifically, it is confirmed whether or not the variation pattern command reception flag set in the command analysis process is set. If the change pattern command has been received, the value of the effect control process flag is changed to a value corresponding to the effect symbol change start process (step S801).

  Production symbol variation start processing (step S801): Control is performed so that the variation of the production symbol is started. Then, the value of the effect control process flag is updated to a value corresponding to the effect symbol changing process (step S802).

  Production symbol variation processing (step S802): Controls the switching timing of each variation state (variation speed) constituting the variation pattern and monitors the end of the variation time. When the variation time ends, the value of the effect control process flag is updated to a value corresponding to the effect symbol variation stop process (step S803).

  Effect symbol variation stop processing (step S803): Control is performed to stop the variation of the effect symbol and derive and display the display result (stop symbol). Then, the value of the effect control process flag is updated to a value corresponding to either the jackpot display process (step S804) or the variation pattern command reception wait process (step S800).

  Big hit display process (step S804): When the big hit is reached, after the variation time is over, the effect display device 9 is controlled to display a screen for notifying the occurrence of the big hit. For example, when a fanfare designation command designating the start of a big hit is received, a fanfare effect is executed. Then, the value of the effect control process flag is updated to a value corresponding to the in-round processing (step S805).

  In-round processing (step S805): Display control during round is performed. For example, if a display command indicating that the special winning opening is open is received, the display control of the number of rounds is performed.

  Post-round processing (step S806): Display control between rounds is performed. For example, when a display command after opening the big prize opening indicating that the big prize opening is after being opened (closed), an interval display is performed.

  Big hit end effect processing (step S807): In the effect display device 9, display control is performed to notify the player that the big hit game state has ended. For example, when an ending designation command for designating the end of the big hit is received, an ending effect is executed. Then, the value of the effect control process flag is updated to a value corresponding to the variation pattern command reception waiting process (step S800).

  FIG. 26 is a flowchart showing the operation reception process. In the operation reception process, the effect control CPU 101 determines whether or not the valid period flag is set (step S2601), and if it is not set, the operation reception process is terminated. The valid period flag is a flag indicating that the valid period during which the operation on the push button 120 is valid. When the valid period flag is set, that is, during the valid period, the effect control CPU 101 determines whether or not an operation to the push button 120 has been accepted. That is, it is determined whether or not an operation detection signal as an information signal indicating that the player's operation action on the push button 120 is detected is input from the push sensor 124.

  When the operation to the push button 120 has not been accepted, the effect control CPU 101 determines whether or not the validity period timer has timed out (step S2603). The effective period timer is a timer that measures the remaining time of the effective period, and is a timer that is set when the effective period starts. If the timeout has not occurred, the operation acceptance process is terminated. When an operation on the push button 120 is accepted in step S2602, or when the validity period timer times out in step S2603, a specific effect is executed (step S2604). Then, the validity period flag is reset (step S2605), and the operation reception process is terminated. As described above, when an operation to the push button 120 is received during the effective period, the specific effect is executed and the operation effect is ended.

  FIG. 27 is a flowchart showing a variation pattern command reception waiting process (step S800) in the effect control process shown in FIG. In the variation pattern command reception waiting process, the effect control CPU 101 confirms whether or not the variation pattern command reception flag is set (step S811). If the variation pattern command reception flag is set, the variation pattern command reception flag is reset (step S812). Then, the value of the effect control process flag is updated to a value corresponding to the effect symbol variation start process (step S801) (step S813).

  FIG. 28 is a flowchart showing the effect symbol variation start process (step S801) in the effect control process shown in FIG. In the effect symbol variation start process, the effect control CPU 101 first reads a variation pattern command from the variation pattern command storage area (step S8001). Next, the CPU 101 for effect control displays the display result (stop) of the effect symbol according to the variation pattern command read in step S8001 and the data stored in the display result specifying command storage area (that is, the received display result specifying command). (Design) is determined (step S8002). That is, when the CPU 101 for effect control executes the process of step S8002, the display result of the variable display of the identification information (stop of the effect symbol) according to the variable display pattern (variation pattern) determined by the variable display pattern determination means. A display result determining means for determining (design) is realized. If a variation pattern that designates a pseudo-ream is also used and the pseudo-ream is designated by the variation pattern command, the effect control CPU 101, in step S8002, obtains a chance eye symbol (as a temporary stop symbol in the pseudo-ream) ( For example, a combination of symbols that are not reachable, such as “223” and “445”, but that is not one reach and one symbol is shifted) is also determined. The effect control CPU 101 stores data indicating the determined effect stop symbols in the effect symbol display result storage area. In step S8002, the effect control CPU 101 may determine whether or not it is a big hit based on the received variation pattern command, and may determine the stop symbol of the effect symbol based only on the variation pattern command. .

  FIG. 29 is an explanatory diagram showing an example of the stop symbol of the effect symbol in the effect display device 9. In the example shown in FIG. 29, when the received display result designation command indicates “15R probability variation big hit” (when the received display result designation command is a display result 2 designation command), the effect control CPU 101 A combination of effect symbols in which the three symbols are arranged in the same odd number as the stop symbols is determined. When the received display result designation command indicates “4R probability variation big hit” (when the received display result designation command is a display result 3 designation command), the effect control CPU 101 uses 3 symbols as stop symbols. Determines the combination of performance symbols arranged with the same even number of symbols.

  In the case of “out of” (when the received display result designation command is a display result 1 designation command), a combination of effect symbols other than the above is determined. However, when a reach effect is involved, a combination of effect symbols in which two left and right symbols are aligned is determined. The combination of the three symbols derived and displayed on the effect display device 9 is the “stop symbol” of the effect symbol.

  The effect control CPU 101 extracts, for example, a random number for determining the stop symbol, and uses the stop symbol determination table in which the data indicating the combination of effect symbols and numerical values are associated with each other to generate the stop symbol of the effect symbol. decide. That is, the stop symbol is determined by selecting data indicating the combination of effect symbols corresponding to the numerical value matching the extracted random number.

  In addition, as for the effect symbols, a stop symbol reminiscent of a big hit (a combination of symbols in which the left, middle and right are all the same symbols) is called a big hit symbol. In addition, a stop symbol that recalls a loss is called a loss symbol.

  Next, the effect control CPU 101 executes a notice effect setting process for setting the notice effect (step S8003A). Here, for example, whether or not the starting change is a big hit, if it is a big hit, which type of big hit, or a predetermined notice effect other than the operation effect (for example, Decide whether or not to execute a step-up notice that develops to a stage according to the reliability for the big hit. Then, an operation effect setting process for setting an operation effect is performed (step S8003B). Details of the operation effect setting process will be described later with reference to FIG.

  Then, the CPU 101 for effect control creates a process table corresponding to the display number (that is, the reach number) of the operation instruction image determined in the change effect, the notice effect when the notice effect is executed, and the operation effect setting process. Select (step S8004). Then, the process timer in the process data 1 of the selected process table is started (step S8005).

  FIG. 30 is an explanatory diagram of a configuration example of the process table. The process table is a table in which process data referred to when the effect control CPU 101 executes control of the effect device is set. That is, the effect control CPU 101 controls effect devices (effect components) such as the effect display device 9 according to the process data set in the process table. The process table includes data in which a plurality of combinations of process timer set values, display control execution data, lamp control execution data, and sound number data are collected. The display control execution data includes, for example, data indicating each variation mode constituting the variation mode during the variable display time (variation time) of the variable display of the effect symbol (display of the effect display device 9 in addition to the display mode of the effect symbol) (Including other aspects of the screen) Specifically, data relating to the change of the display screen of the effect display device 9 is described. Further, the production time in the production mode is set in the process timer set value. The effect control CPU 101 refers to the process table, displays the effect design in the form set in the display control execution data for the time set in the process timer set value, and displays the character image or background displayed on the display screen. Control to display. In addition, the flashing of the light emitter is controlled in a manner set in the lamp control execution data and the sound number data, and the sound output from the speaker 27 is controlled.

  The process table shown in FIG. 30 is stored in the ROM of the effect control board 80. The process table is prepared according to each variation pattern, the content of the notice effect, and the number of operation instruction images displayed in the divided display areas. If it is decided to execute the notice effect in the process of step S8004 or the like, the data corresponding to the notice effect is set, the process table is selected, and it is not decided to execute the notice effect. The process table for which data corresponding to the notice effect is not set is selected.

  In addition, in the process table used when effect control is executed for a fluctuation pattern with reach effects other than multi-reach, the left symbol is stopped when a predetermined time has elapsed from the start of the change, and when the predetermined time has elapsed. Process data indicating that the right symbol is to be stopped and displayed is set. In addition, instead of setting the symbols to be stopped and displayed in the process table, an image for displaying the symbols is synthesized and generated according to the determined stop symbol, the temporary stop symbol in the pseudo-ream and the sliding effect. May be.

  In addition, in the process table used when effect control is performed for a variation pattern with multi-reach, the display area is divided when a predetermined time has elapsed from the start of variation, and the left symbols in each display region are stopped and displayed. Further, process data indicating that the right symbol in each display area is stopped and displayed when the predetermined time elapses and the operation instruction image is displayed in the display area in the reach state is set. In addition, instead of setting the symbols to be stopped and displayed in the process table, an image for displaying the symbols is synthesized and generated according to the determined stop symbol, the temporary stop symbol in the pseudo-ream and the sliding effect. May be.

  After step S8005, the effect control CPU 101 controls the effect device (effect display device 9, speaker 27, LED, and accessory) according to the contents of the process data 1 (step S8006). Thereafter, the effect control CPU 101 sets a value corresponding to the variation time specified by the variation pattern command in the variation time timer (step S8007). Then, the effect control CPU 101 sets the value of the effect control process flag to a value corresponding to the effect symbol changing process (step S802) (step S8008).

  FIG. 31 is a flowchart showing the operation effect setting process. In the operation effect setting process, the effect control CPU 101 determines whether or not the change pattern of the change to be started is a change pattern indicating multi-reach (step S3121). Specifically, if the variation pattern command read in step S8001 is not a variation pattern command indicating any one of multi-PA2-5 and multi-PA2-6, it is determined that the variation pattern command does not indicate multi-reach and the operation is performed as it is. The effect setting process ends. If the change pattern command indicates any one of multi-PA 2-5 and multi-PA 2-6, it is determined that the change pattern indicates multi-reach, and the process proceeds to step S3122.

  In step S3122, the production control CPU 101 performs a reach number determination lottery process for determining the reach number R (step S3122). Specifically, the reach number is determined using a reach number determination table described later in FIG.

  FIG. 32 is an explanatory diagram of a reach number determination table. In the reach number determination table, determination values corresponding to the reach number R (1 to 4) are assigned to the jackpot and the loss, but in the example shown in FIG. 32, assignment is made in order to simplify the explanation. The ratio of the determined judgment value is shown. The effect control CPU 101 extracts, for example, a random number for determining the reach number, and determines the determination item to which a determination value matching the extracted random number is assigned.

  Therefore, in the example shown in FIG. 32, when the fluctuation pattern is a fluctuation pattern (multi-PA2-5) indicating a deviation, the reach number R is “1” at a ratio of 4/10 and “2” is 3/10. In the ratio, “3” is selected at a ratio of 2/10, and “4” is selected at a ratio of 1/10. When the variation pattern is a variation pattern indicating a big hit (multi-PA2-6), as the reach number R, “1” is a ratio of 1/10, “2” is a ratio of 2/10, and “3” is At a ratio of 3/10, “4” is selected at a ratio of 4/10.

  In this way, a larger value is more likely to be selected as the reach number R in the case of a big hit than in the case of a loss. Accordingly, it is possible to give a player a sense of expectation that a big hit will occur as the reach state is reached in many display areas.

  The display area to be in the reach state is predetermined for each reach number R. Specifically, when the reach number R is “1”, only the first display area is in the reach state, and when the reach number R is “2”, the first display area and the second display area are in the reach state. If the number R is “3”, it is determined that the first display region to the third display region are in the reach state, and if the reach number R is “4”, it is determined that the entire display region is in the reach state. . The display area to be in the reach state may be determined by a predetermined lottery. For example, the display area to be in the reach state may be selected at a different ratio based on whether or not it is a big hit, if it is a big hit, the type of big hit, or which variation pattern it is. Specifically, as the display area to be reached, the fourth display area is easier to select than the first display area when it is a big hit, and the first display area is the first when it is out of place. If it is configured so that it can be easily selected as a display area to be in the reach state than the four display areas, the reliability in the big hit is higher in the reach state in the fourth display area than in the reach state in the first display area. It can give players a sense of expectation.

  Further, as described above, after the reach number R is determined, the display area to be in the reach state may be determined according to the reach number R, but the reach number R and the display area to be in the reach state are simultaneously determined. It's good. Specifically, the reach number R and the reach are determined by repeating the process of determining whether or not to reach the reach state in each display area by the amount corresponding to the first display area to the fourth display area (four times). The display area to be set is determined at the same time. For example, when it is determined to reach the reach state in the first display area and the third display area, “2” is simultaneously determined as the reach number R. If it is determined not to reach the reach state in any display area (reach number R = 0) in spite of the reach variation pattern, any display area is forcibly set to the reach state. It is good also as deciding to do.

  After step S 3122, the effect control CPU 101 determines whether or not the determined reach number R is “1” or “2” (step S 3123). If it is “1” or “2”, The display mode determination table after 1 change is selected (step S3124). In step S3123, if the determined reach number R is not “1” or “2”, that is, “3” or “4”, the presentation control CPU 101 uses the second post-change display mode determination table. Is selected (step S3125). The first post-change display mode determination table and the second post-change display mode determination table (hereinafter, the first post-change display mode determination table and the second post-change display mode determination table are collectively referred to as “post-change display mode determination table”). Will be described later with reference to FIG. After selecting the post-change display mode determination table in step S3124 or step S3125, the effect control CPU 101 executes a post-change display mode determination lottery process for determining the post-change display mode (step S3126). Specifically, the display mode of the operation instruction image after change (hereinafter, also referred to as “post-change display mode”) is determined using the selected post-change display mode determination table, and the determined post-change display mode is stored. .

  FIG. 33 is an explanatory diagram of a post-change display mode determination table. In the post-change display mode determination table, a determination value corresponding to the post-change display mode is assigned for each jackpot and loss, but in the example shown in FIG. 33, for the sake of simplification of description, the assigned determination is made. The percentage of values is shown. The effect control CPU 101 extracts, for example, a random number for determining the post-change display mode, and determines the determination item to which a determination value that matches the extracted random number is assigned.

  As described above, the first post-change display mode determination table shown in FIG. 33 (1) is the post-change display mode determination table selected when the reach number is “1” or “2”. The second post-change display mode determination table shown in FIG. 33 (2) is a post-change display mode determination table selected when the reach number is “3” or “4”.

  Further, the first display mode is a display mode in which a white icon image simulating the push button 120 is displayed in a small display range, and the second display mode is a red icon image simulating the push button 120 in a small display range. Is a display mode to be displayed. The third display mode is a display mode in which a white icon image simulating the push button 120 is displayed in a large display range, and the fourth display mode is a red icon image simulating the push button 120 in a large display range. This is the display mode.

  Accordingly, in the first post-change display mode determination table shown in FIG. 33 (1), when the jackpot is large, the “first display mode” is the ratio of 3/10 as the post-change display mode. Is selected at a ratio of 7/10. Further, in the case of disparity, the “first display mode” is selected at a rate of 7/10 and the “second display mode” is selected at a rate of 3/10 as the post-change display mode. In any case, the “third display mode” and the “fourth display mode” are not selected.

  Similarly, in the second post-change display mode determination table shown in FIG. 33 (2), in the case of a big hit, as the post-change display mode, the ratio of “third display mode” is 3/10, “fourth display mode. Is selected at a ratio of 7/10. Further, in the case of being out of place, the “third display mode” is selected at a rate of 7/10 and the “fourth display mode” is selected at a rate of 3/10 as the post-change display mode. In any case, the “first display mode” and the “second display mode” are not selected.

  Thus, in this Embodiment, it is set as the structure which determines the display mode after a change with a different ratio based on the reach number R. As described above, since the number of operation instruction images displayed in the divided display area is the same as the number of reach, such a configuration allows the number of operation instruction images to be displayed in the divided display area. Thus, the post-change display mode is determined at different ratios. Thereby, the improvement of interest can be aimed at.

  As described above, in the present embodiment, the post-change display mode is determined at a different rate based on whether or not the game is a big hit. Thereby, the reliability with respect to a big hit can be suggested by the display mode after a change, and the improvement of an interest can be aimed at. It should be noted that, as in this embodiment, the selection ratio of the display mode after change may be different from the big hit, and if there are multiple types of multi-reach with different big hit reliability, it changes depending on the reach type. Even if the selection ratio of the post-display mode is different, the same effect can be obtained.

  In the present embodiment, when the reach number is “1” or “2”, only the first display mode or the second display mode can be selected, and the reach number is “3” or “4”. In some cases, only the third display mode or the fourth display mode can be selected. However, the present invention is not limited to this. For example, if the selection ratio differs depending on the reach number, the first display mode to the fourth display mode may be selected regardless of the reach number. Further, the selectable display mode may be different depending on the reach number. For example, if the reach number is “1”, the first display mode is selected, and if the reach number is “2”, the second display mode is selected. If the reach number is “3”, the third display mode may be selected, and if the reach number is “4”, the fourth display mode may be selected. Further, the change display mode is selected at a common selection ratio between the case where the reach number is “1” and the case where it is “2”, and the case where the reach number is “3” and “4”. Although the change display mode is selected at a selection ratio common to the case, the post-change display mode may be selected at a different rate for each reach number.

  After step S3126, an operation effect flag indicating that the operation effect is changed is set (step S3127), and the operation effect setting process is terminated.

  FIG. 34 is a flowchart showing the effect symbol changing process (step S802) in the effect control process. In the effect symbol variation processing, the effect control CPU 101 first determines whether or not the operation effect flag is set (step S8100A), and if it is not set, proceeds to step S8101. If set, the production control CPU 101 determines whether or not a predetermined time has elapsed from the start of the change (step S8100B), and if not, the process proceeds to step S8101.

  In step S8100B, when a predetermined time has elapsed from the start of variation, the effect control CPU 101 switches and displays the operation instruction image according to the display mode after change (step S8100C). Specifically, the post-change display mode selected and stored in step S3126 is read, and image data corresponding to the read post-change display mode is output to the effect display device 9. Note that the process data is provided so that the display control of the operation instruction image (the operation instruction image before the change) displayed in the divided display area ends when a predetermined time has elapsed from the start of the change. .

  After step S8100C, the effect control CPU 101 sets an effective period flag (step S8100D), sets an effective period timer (step S8100E), and proceeds to step S8101. Thereby, the effective period in the operation effect is started.

  In step S8101, the process timer value is decremented by 1 (step S8101), and the variable time timer value is decremented by 1 (step S8102). Next, when the process timer times out (step S8103), the effect control CPU 101 switches the process data. That is, the process timer setting value set next in the process table is set in the process timer (step S8104). Further, the control state for the effect device is changed based on the display control execution data, lamp control execution data, and sound number data set next (step S8105).

  Then, if the change time timer has timed out (step S8111), the effect control CPU 101 updates the value of the effect control process flag to a value corresponding to the effect symbol change stop process (step S803) (step S8112).

  FIG. 35 is an explanatory diagram showing a display example in the effect display device 9 when performing an operation effect. The display example illustrated in FIG. 35 illustrates a display example for each timing in the variation in which the operation effect is performed. First, as shown in FIG. 35 (a), the effect display device 9 starts to change the effect symbol corresponding to the multi-reach change pattern, and the display area of the effect display device 9 is divided as shown in FIG. 35 (b). Thus, the effect design varies in each display area.

  Here, when “2” is determined as the reach number R, the reach state is reached in two display areas (here, the first display area and the fourth display area) as shown in FIG. The display of the operation instruction image 50A is started in the display area that has reached the reach state. Thereafter, as shown in FIG. 35 (d), the display mode of the operation instruction image is changed, the operation instruction image 50B in the first display mode is displayed, and the effective period starts. Then, the specific effect is executed when the operation of the push button 120 from the player is detected during the effective period or when the effective period ends.

  When “4” is determined as the reach number R after FIG. 35B, the reach state is reached in all display areas (first display area to fourth display area) as shown in FIG. At the same time, the display of the operation instruction image 50A is started in the display area in the reach state. Thereafter, as shown in FIG. 35 (f), the display mode of the operation instruction image is changed, the operation instruction image 50C in the fourth display mode is displayed, and the effective period starts. Then, the specific effect is executed when the operation of the push button 120 from the player is detected during the effective period or when the effective period ends.

  As described above, according to this embodiment, an operation instruction image (in this example, an operation instruction image) that prompts the player to perform an operation is displayed (in this example, the production control microcomputer 100 performs the steps S8004 and S8105 are executed), and the display mode of the displayed operation instruction image is selected from among a plurality of display modes (in this example, the first display mode to the fourth display mode) according to the display number of the operation command images (In this example, the production control microcomputer 100 determines the post-change display mode based on the reach number (that is, the display count of the operation instruction image) in steps S3123 to S3126, and step S8100C. The display mode is switched to the display mode after change determined in step 1). Thereby, the interest regarding an operation effect can be improved by the mode change of an operation instruction image.

  Further, according to this embodiment, control can be performed in a specific gaming state (in this example, a big hit gaming state) advantageous to the player (in this example, the game control microcomputer 560 performs steps S305 to S307. One of the plurality of display modes at a different ratio based on at least one of whether the display mode of the displayed operation instruction image is the number of display of the operation instruction image and the specific gaming state. (In this example, the production control microcomputer 100 determines the post-change display mode using the post-change display mode determination table shown in FIG. 33 in step S3126, and determines it in step S8100C. The display mode is switched to the display mode after the change). Thereby, since there are a plurality of types of aspect changes, it is possible to further improve the interest related to the operation effect (operation effect).

  Further, according to this embodiment, the detection means (in this example, the push sensor 124) for detecting the player's movement and the display means of the operation instruction image are changed by the changing means, and then the player is detected by the detection means. (In this example, the production control microcomputer 100 operates the push button 120 during the effective period that is started after the display mode of the operation instruction image is changed). If step S2604 is detected, a plurality of operation instruction images are displayed before the display mode of the operation instruction image is changed (in this example, the production control microcomputer 100 performs the reach shown in FIG. 32). The number of reach is determined using the number determination table (step S3122), and the process according to the reach number (that is, the display number of the operation instruction image) Select Buru (step S8004), step S8004, performs the S8105) was decided. As a result, it is possible to make it appear as if a production requiring a plurality of motion detections (a plurality of motion productions) is combined into one production, so that the player can have a sense of expectation for the production, and the interest is further enhanced. Can be improved.

  In addition, although the operation effect (operation effect) in this Embodiment was made into the effect performed after becoming a reach state, it is not restricted to this. For example, when the normal reach production is started during the notice production before the reach is established, it will be large after it is announced that it will be a big hit during the super reach production from the start of the normal reach production to the development of the super reach production. Until the winning opening opening control is started, the action effect may be executed in the big hit gaming state or in the specific gaming state transferred via the big hit gaming state.

  For example, an operation effect may be executed as an effect (so-called re-lottery effect) that makes it appear as if a lottery is performed again after notifying that it is a big hit. In addition, an operation effect may be executed as an effect for notifying the number of rounds or the advantage after the big hit (which game state is shifted to) during the big hit game state. Also, when “0” is reported as the remaining number in the advantageous game (time-short state, probability variation state) that informs the remaining number of times, the effect of increasing the number of times shortened (the shorter number of times determined internally is reported) If the number of times is shorter than the number of short hours, the production is shown as if the number of time has been increased) or the probable promotion effect (internally it is in the probabilistic state, but it appears as if it is not in the probable state) In this case, the operation effect may be executed as an effect that makes it appear as if it has been promoted from the non-probability change state to the probability change state. In addition, for example, an operation effect may be executed as an effect (so-called pre-reading effect) that suggests that the stored memory that is stored includes a specific hold memory that is a big hit. Further, even when the operation effect is executed when not in the reach state, one or a plurality of operation instruction images are displayed and the operation instruction image is displayed in a display mode based on the display number, as in the present embodiment. It is good also as changing.

  In the present embodiment, the display mode, display range, and color of the operation instruction image are different between the display mode of the operation instruction image before the change and the display mode of the operation instruction image after the change. When characters such as numbers are included in the shape, display number, display range, color, pattern, or operation instruction image, at least one of the character modes may be different. Further, as the display mode of the operation instruction image after the change, a plurality of display modes (first display mode to fourth display mode) having different display ranges and colors are provided. However, the shape, the number of displays, the display range, and the color are displayed. In the case where characters such as numbers are included in the pattern or the operation instruction image, it is limited to this, provided that a plurality of display modes different from each other in at least one of the character modes are provided. It is not a thing.

In the present embodiment, when the reach number (display number of operation instruction images) is 1 or 2, the post-change display mode for displaying the operation instruction image small is selected, while the reach number (operation instruction image) is selected. When the display number is 3 or 4, the post-change display mode for displaying the operation instruction image is selected. However, the size of the operation instruction image is increased for each reach number (display number of operation instruction images). May be different. For example, a post-change display mode that displays a larger operation instruction image as the number of operation instruction images displayed increases may be selected.

  In this embodiment, the push operation on the push button 120 is “operation”, but the present invention is not limited to this. For example, an operation (for example, long press, continuous hit) in another mode on the push button 120 may be “operation”, or an operation member different from the push button 120 (for example, the trigger button 121 and the stick controller 122). An operation that can be detected by a non-contact sensor such as an infrared sensor or a camera may be referred to as an “operation”.

  In the present embodiment, when the reach state is changed, the reach number is determined by performing the reach number determination lottery process based on the change pattern command received by the production control microcomputer 100. The reach number may be associated with each variation pattern selected by the game control microcomputer 560 in advance.

  In the present embodiment, the operation effect is performed in the multi-reach in which the display area of the effect display device 9 is divided into four. However, the number of divisions is not limited to this, and the display area is three or less. It may be divided into two or more display areas. Further, the presence / absence of division and the number of divisions may be determined by a predetermined lottery. For example, the presence / absence of division and the number of divisions may be determined at different ratios based on whether or not they are big hits, big hit types, or fluctuation patterns.

  Moreover, in this Embodiment, although it was decided to perform an operation effect in what is integrated after the display area in the effect display apparatus 9 was divided | segmented during a fluctuation | variation, it is not restricted to this, From a fluctuation | variation start to a fluctuation | variation end It is good also as performing an operation effect in what is integrated from the change start to the end of change as performing an operation effect in what is divided.

  In the present embodiment, in the case of a big hit, the same effect symbol is stopped and displayed in the display area of a plurality of effect symbols arranged in the horizontal direction, but the effect symbols are arranged in the vertical direction. The same effect symbol may be stopped and displayed in the display area, or the same effect symbol may be stopped and displayed in the display area where the effect symbols are arranged in an oblique direction. In addition, when a plurality of display area sets in which a plurality of display areas are arranged side by side are provided and the jackpot is set, the same effect design is provided in the display area arranged in any one of the horizontal direction, the vertical direction, and the diagonal direction. May be stopped and displayed. For example, three display area sets in which three display areas are arranged in the horizontal direction are displayed in three vertical arrangements (that is, nine display areas are displayed in a square shape). The same effect symbol may be stopped and displayed in the area. In that case, multiple reach states may occur simultaneously. For example, when the same effect design is stopped and displayed in the upper left display area, the upper right display area, the lower left display area, and the lower right display area (ie, the four corner display areas) among the nine display areas, the vertical direction Since two reach states occur in the horizontal direction and the diagonal direction, the reach number may be controlled as “6”. For the diagonal direction, the reach state in the display area set from the upper right display area to the lower left display area and the reach state in the display area set from the upper left display area to the lower right display area occur. Any reach state disappears if the display symbol in the central display area stops (becomes a big hit), so it is assumed that one reach state has occurred, and the number of reach is controlled to “5”. It is good as well.

  In this embodiment, the number of operation instruction images displayed is the same as the reach number. However, a value unrelated to the reach number may be determined as the operation instruction image display number. . For example, the number of operation instruction images displayed may be determined at a different rate based on whether or not the game is a big hit, the type of big hit, or the variation pattern.

  In the present embodiment, the operation effect is executed on the condition that the change is multi-reach. However, the present invention is not limited to this, and the effect contents and effects determined by the effect control microcomputer 100 are not limited thereto. The condition (for example, the effect mode) may be a condition for executing the action effect that a predetermined content or state is obtained.

  In the present embodiment, the specific effect is executed when the operation is received from the player after the display mode of the operation instruction image is changed. However, the present invention is not limited to this. For example, when an operation is accepted from a player after the display mode of the operation instruction image is changed, the display mode of the operation instruction image may be changed again. Specifically, a description will be given using the following modification. Note that description of the same portions as those in the above-described embodiment is omitted.

  FIG. 36 is a flowchart illustrating an operation reception process in the modification. In the operation reception process in the modification, the CPU 101 for effect control adds 1 to the operation detection count P when an operation to the push button 120 is received in step S2602 (step S3700). The operation detection count P is the number of times an operation on the push button 120 is detected during the effective period.

  Next, the effect control CPU 101 determines whether or not the operation detection count P is “1” (step S3701). When the operation detection count P is “1”, that is, when the received operation on the push button 120 is the first operation, the display mode of the operation instruction image is switched (step S3702). Specifically, the display mode is changed to a display mode (that is, the same display mode as the display mode before the start of the effective period) in which the operation instruction image is displayed in each display area in the reach state. Until the display mode is switched in step S3702, the operation instruction image is displayed in any one of the first display mode to the fourth display mode switched in step S8100C. In step S3702, the operation instruction image is displayed. The display mode is returned to the state before the start of the effective period. In other words, in this modification, first, an operation instruction image is displayed in each display area that has reached a reach state, and then one operation instruction image is integrated and displayed when a predetermined time has elapsed from the start of fluctuation (at the start of an effective period). Then, by detecting a predetermined operation by the player, an operation instruction image is displayed in each display area that has reached the reach state again.

  Then, the effect control CPU 101 executes a specific effect in one display area (step S3703). The one display area is any display area in the display area where the operation instruction image is displayed (that is, the display area in the reach state). In this modification, when an operation instruction image is displayed in a plurality of display areas (reach state), the specific effect is executed according to the priority set in advance for each display area. Specifically, the display area is the first display area, the second display area, the third display area, and the fourth display area in order from the display area with the highest priority. In step S3703, the specific effect is executed in the reach state. Among the display areas that are not displayed (the operation instruction image is displayed), the specific effect is executed in the display area with the highest priority. Note that the order of display areas in which a specific effect is executed when a predetermined operation is detected may be determined in advance or may be determined by random lottery. In step S3703, the specific effect is executed in the specific effect mode determined for each display area in step S3801 described later. That is, in step S3703, the effect control CPU 101 first selects the display area with the highest priority from among the display areas that are in the reach state and the specific effect is not executed (the operation instruction image is displayed). Next, the specific effect mode determined in step S3801 is read out for the selected display area, the display of the operation instruction image in the selected display area is finished, and the specific effect is displayed in the read specific effect mode. Run.

  After step S3703, the effect control CPU 101 determines whether or not the operation detection count P and the reach count R are the same value (step S3704). If the operation detection count P and the reach number R are not the same value, the operation acceptance process is terminated. If the operation detection count P and the reach number R are the same value, the process proceeds to step S2605, and the operation reception process is terminated.

  If the effective period timer times out in step S2603, the effect control CPU 101 proceeds to step S2605 and ends the operation reception process.

  FIG. 37 is a flowchart showing an operation effect setting process in the modification. In the operation effect setting process in the modification, the effect control CPU 101 sets “0” to the operation detection count P after step S3126 (step S3800). And the specific production | presentation determination process which determines a specific production | generation aspect is performed (step S3801). Specifically, for each display area where the specific effect is executed, the specific effect mode determination lottery using the specific effect mode determination table shown in FIG. 38 is performed, and the determined specific effect mode is stored in association with the display area.

  FIG. 38 is an explanatory diagram showing a specific effect mode determination table in the modification. In the specific effect mode determination table shown in FIG. 38, determination values corresponding to the specific effect modes (first specific effect mode and second specific effect mode) are assigned for each jackpot and gap. In the example, in order to simplify the description, the ratio of the assigned determination value is shown. For example, the effect control CPU 101 extracts a random number for determining a specific effect mode, and determines the determination item to which a determination value that matches the extracted random number is assigned. The specific effect in the first specific effect mode is “Chance!”, And the specific effect in the second specific effect mode is “...”.

  Therefore, in the example shown in FIG. 38, in the case of disparity, the first specific effect mode is selected at a ratio of 3/10 and the second specific effect mode is selected at a ratio of 7/10 as the number of specific effect modes. In the case of a big hit, the number of specific effect modes is selected at a ratio of 7/10 for the first specific effect mode and at a ratio of 3/10 for the second specific effect mode.

  As described above, the first specific effect mode is more easily selected in the case of the big hit than the case of the loss, and the second specific effect mode is selected in the case of the big win than in the case of the big win. It is easy to configure. Thereby, the specific effect by the 1st specific effect aspect becomes a specific effect with higher reliability with respect to the big hit than the specific effect by the 2nd specific effect aspect, and a big expectation degree can be given to a player.

  FIG. 39 is an explanatory diagram showing a display example in the effect display device when performing an operation effect in the modified example. The display example shown in FIG. 39 shows a display example for each timing in the variation in which the operation effect is performed. First, as shown in FIG. 39A, in the effect display device 9, the effect display device 9 starts to change the effect symbol corresponding to the multi-reach change pattern. As shown in FIG. 39B, the effect display device 9 The display area is divided, and the effect design varies in each display area.

  Here, when “4” is determined as the reach number R, as shown in FIG. 39 (c), the reach state is reached in all the display areas (the first display area to the fourth display area), and the reach state is The display of the operation instruction image 50A is started in the displayed area. Thereafter, as shown in FIG. 39 (d), the display mode of the operation instruction image is changed, the operation instruction image 50C in the fourth display mode is displayed, and the effective period starts. Then, when an operation on the push button 120 from the player is detected during the effective period (that is, when the first operation in the operation effect is accepted), as shown in FIG. The operation instruction image is displayed in the display area (second display area to fourth display area), and the specific effect is executed in the first specific effect mode in the first display region.

  When the second operation in the operation effect is received, the specific effect is executed in the second specific effect mode in the second display area, as shown in FIG. When the third operation in the operation effect is received, the specific effect is executed in the first specific effect mode in the third display area as shown in FIG. When the fourth operation in the operation effect is received, as shown in FIG. 39 (h), the specific effect is executed in the first specific effect mode in the fourth display area. Then, reach production is performed.

  As described above, according to this modification, the detection means (in this example, the push sensor 124) for detecting the player's movement is provided, and after the display mode of the action instruction image is changed, the detection means When the movement of the player is detected, the display mode of the changed operation instruction image is changed to another display mode (in this example, the presentation control microcomputer 100 has changed the display mode of the operation instruction image. Step S3701 is executed when an operation on the push button 120 is detected during the effective period started later). Thereby, since an operation instruction image is changed into a different display mode after detecting a player's operation, interest can be improved.

  In this modification, when the player's motion is detected after changing the display mode of the operation instruction image, the display mode of the operation instruction image is returned to the display mode before the change. Instead, it may be changed to an operation instruction image having a display mode different from the display mode before the change and the display mode after the change.

  Further, according to this modification, it is possible to control to a specific gaming state (in this example, a big hit gaming state) advantageous to the player (in this example, the gaming control microcomputer 560 executes steps S305 to S307. After the display mode of the action instruction image is changed, the specific effect is executed based on the detection of the player's action (in this example, the effect control microcomputer 100 displays the operation instruction image). Step S2604 is executed when an operation on the push button 120 is detected during the effective period that starts after the mode changes), and a plurality of types of specific effects (differences based on whether or not the specific gaming state is entered) In this example, one of the first specific effects and the second specific effect is executed (in this example, the effect control microcomputer). 100 determines a specific effect embodiments with reference to the specific effect mode determination table shown in FIG. 38 in step S3801, executes step S3702) was decided. Thereby, since there is diversity about the production after the operation is detected, the interest can be improved.

  Note that, in this modification, in the gaming machine that changes the display mode of the operation instruction image again when the operation by the player is detected after changing the display mode of the operation instruction image, it is based on whether or not it is a big hit. In a gaming machine that executes a specific effect when an action by a player is detected after changing the display mode of the operation instruction image, a big hit is made. It is good also as selecting and performing a specific production | presentation aspect in a different ratio based on whether there exists.

  In the present modification, the specific effect is executed when an operation by the player is detected after the display mode of the operation instruction image is changed again. However, the present invention is not limited to this. For example, the display mode of the operation instruction image may be changed every time an operation by the player is detected. Specifically, the display mode of the operation instruction image may continue to change every time an operation by the player is detected. For example, the display range may be reduced gradually by repeating the change of the display mode to a narrow display mode, or divided display (displayed for each divided display area) and integrated display (first display mode to first display mode). 4 display modes) may be repeated.

  In this modification, the upper limit number of operations during the effective period is the same as the reach number, but the number of operations is not limited to this as long as a plurality of operations can be accepted. For example, if it is a plurality of times, the number of times may be less than the number of reach, or the number of times may be greater than the number of reach.

  Further, in this modification, when the operation instruction image is displayed and the player's movement is detected during the effective period, the specific effect is always executed. However, the operation instruction image is displayed during the effective period. Even if it is a case where a player's operation | movement is detected, it is good also as including the pattern which does not perform a specific production.

  In addition, when the first player's motion is detected after the effective period is started, the first pattern (see the above-described embodiment) for executing the specific effect as it is, and the display mode of the motion instruction image are changed. Two patterns (see the above-described modification example) may be selected at a predetermined ratio, and control may be performed according to the selected pattern. For example, the first pattern is selected at a higher rate than the second pattern if it is a big hit, and the second pattern is selected at a higher rate than the first pattern if it is out of place. For example, since the reliability for the big hit is shown by the behavior when the first player's motion is detected, it is possible to give the player a sense of expectation.

  In addition, about embodiment mentioned above, although the game machine (what is called a 1st type game machine) which transfers to a jackpot game state based on the variable display result of a special symbol and an effect design was demonstrated, the variable provided in the game area | region was demonstrated. A gaming machine (so-called second type gaming machine) that shifts to a big hit gaming state based on the winning of a gaming ball (V winning) in a specific winning opening (V winning opening) in a winning ball apparatus (so-called role) It is good also as applying in the game machine which combined 1st type and 2nd type.

  Further, in the present embodiment, it is possible to shift to the probability change state based on the type of jackpot that has occurred, but the present invention is not limited to this. For example, a specific area through which a game ball can pass is provided in the big winning opening, and when the game ball passes through the specific area during a big hit, the game moves to a probable change state, while the specific area is played during the big hit. It is also possible to shift to the normal state when does not pass. In that case, substantial probability variation big hit and non-probability big hit may be realized by changing the ease of passing of the game ball to the specific area according to the big hit type. For example, the easiness of passage of the game ball to the specific area may be changed by changing the opening time of the big winning opening according to the big hit type. Specifically, a big hit type with a long opening time of the big winning opening is set as a big hit (substantial probable big hit) that allows a game ball to easily pass to a specific area, and a big hit type with a short opening time of the big winning opening is set to a specific area. It is good also as a big hit (substantial non-probable big hit) that a sphere does not easily pass.

  In the above-described embodiment, in order to notify the effect control microcomputer 100 of the change pattern indicating the change mode such as the change time, the type of reach effect, the presence / absence of the pseudo-ream, etc., 1 is used when the change is started. Although an example in which one variation pattern command is transmitted has been shown, the variation pattern may be notified to the effect control microcomputer 100 by two or more commands. Specifically, in the case of notifying by two commands, the game control microcomputer 560 uses the first command to indicate whether there is a pseudo-ream, a slip effect, etc. before reaching (so-called if not reach). A command indicating the variation time and variation mode before the second stop) is transmitted, and the second command has reached the reach such as the type of reach and presence / absence of re-lottery effect (if the reach is not reach, so-called first) You may make it transmit the command which shows the fluctuation | variation time and fluctuation | variation aspect (after 2 stop). In this case, the effect control microcomputer 100 may perform effect control in variable display based on the variable time derived from the combination of two commands. The game control microcomputer 560 notifies the change time by each of the two commands, and the effect control microcomputer 100 selects the specific change mode executed at each timing. It may be. When sending two commands, two commands may be sent within the same timer interrupt. After sending the first command, a certain period of time has passed (for example, the next timer interrupt). The second command may be transmitted. Note that the variation mode indicated by each command is not limited to this example, and the order of transmission can be appropriately changed. In this way, by notifying the variation pattern by two or more commands, the amount of data that must be stored as the variation pattern command can be reduced.

  In the above-described embodiment, the production control board 80, the audio output board 70, and the lamp driver board 35 are provided as the boards on which the circuit for controlling the production apparatus is mounted. You may mount on one board | substrate. Further, a first effect control board (display control board) on which a circuit for controlling the effect display device 9 and the like is mounted and a circuit for controlling other effect devices (lamps, LEDs, speakers 27, etc.) are mounted. You may make it provide two board | substrates with two production | presentation control boards.

  In the above embodiment, “the ratios are different” is not limited to those having different ratios such as A: B = 70%: 30% or A: B = 30%: 70%, This is a concept including a ratio that is different in a relationship of A: B = 100%: 0% (that is, one with 100% allocation and the other with 0% allocation).

  In the above-described embodiment, the game control microcomputer 560 directly transmits a command to the effect control microcomputer 100. However, the game control microcomputer 560 transmits another command (for example, FIG. 3). The sound output board 70 and the lamp driver board 35 shown in FIG. 5 or the sound / lamp board having the function of the circuit mounted on the sound output board 70 and the function of the circuit mounted on the lamp driver board 35). A control command may be transmitted and transmitted to the effect control microcomputer 100 on the effect control board 80 via another board. In that case, the command may simply pass through another board, or the sound output board 70, the lamp driver board 35, and the sound / lamp board are equipped with control means such as a microcomputer, and the control means receives the command. In response to this, control related to sound control and lamp control is executed, and the received command is changed as it is or, for example, to a simplified command to control the effect display device 9. You may make it transmit to. Even in that case, the effect control microcomputer 100 performs the display control in accordance with the effect control command directly received from the game control microcomputer 560 in the above-described embodiment. Display control can be performed in accordance with commands received from the board 35 or the sound / lamp board.

  In the above embodiment, a pachinko machine is taken as an example of the gaming machine. However, according to the present invention, a predetermined number of bets are set by inserting medals, and a plurality of types are set according to the operation of the operation lever by the player. When the symbol is rotated and the symbol is stopped according to the stop button operation by the player, if the combination of the stop symbol becomes a specific symbol combination, it applies to a slot machine in which a predetermined number of medals are paid out to the player It is also possible.

  In the above embodiment, the game machine uses a game medium as an example. However, the game machine according to the present invention is not limited to a game machine that pays out a predetermined number of game media, and a game ball The present invention can also be applied to an enclosed game machine that encloses game media such as the above and gives a score when a prize granting condition is satisfied.

  The present invention is applicable to gaming machines such as pachinko gaming machines and slot machines.

DESCRIPTION OF SYMBOLS 1 Pachinko machine 8a 1st special symbol display device 8b 2nd special symbol display device 9 Production display device 13 1st starting winning port 14 2nd starting winning port 20 Special variable winning ball device 27 Speaker 31 Game control board (main board)
56 CPU
DESCRIPTION OF SYMBOLS 70 Audio | voice output board | substrate 560 Game control microcomputer 80 Production control board 100 Production control microcomputer 101 Production control CPU
109 VDP
120 Push Button 122 Stick Controller 123 Tilt Direction Sensor Unit 124 Push Sensor

Claims (1)

A gaming machine capable of playing a game,
Display control means for displaying an operation instruction image for prompting the player to perform an action;
Changing means for changing the display mode of the operation instruction image displayed by the display control unit to any one of a plurality of display modes in accordance with the number of display of the operation instruction images. A gaming machine.

Images