JP5654766B2 - Game machine - Google Patents

Description

  The present invention relates to a gaming machine that executes a variable display game that displays a plurality of identification information in a variable manner on a display device.

  In the pachinko machine gaming board, identification information consisting of two start winning openings, one special symbol display device consisting of 7-segment (SEG) LEDs, and two LEDs arranged in the vicinity of the periphery of this special symbol display device A display device, and a special symbol indicating a winning to one of the two starting winning ports is displayed in a variable manner on the special symbol displaying device, and an identification information displaying device for indicating which starting winning port has been won There is known a gaming machine in which any one of the identification information display devices corresponding to the two LEDs is turned on (for example, Patent Document 1). In this gaming machine, the lighting display of the LED of the identification information display device allows the player to identify the winning start winning opening without moving the line of sight between the special symbol display device and the identification information display device. It can be done.

JP 2009-45343 A

  As shown in FIG. 7 of Patent Document 1, the gaming machine described in Patent Document 1 displays eleven types of symbols (identification information) on the special symbol display device 123a. Only one type of symbol is a missing symbol, and the other ten types are winning symbols.

Therefore, if the processing of the control device stops due to the occurrence of an error such as noise while the 11 types of symbols are being displayed in order, a special gaming state is generated on the special symbol display device 123a with a probability of 10/11. Control of the gaming machine is stopped while the winning symbol for informing is fixedly displayed. In this case, the player is likely to misunderstand that do not became special game state. If such a problem occurs frequently, a trouble may occur between the player and the store staff, which may interfere with the sales of the game store.

  Therefore, the present invention reduces the possibility that the identification information that is variably displayed on the display device is stopped due to an error such as noise or the like by the identification information that informs the occurrence of the special gaming state, so that the player can The purpose is to prevent the occurrence of a gaming state from being misidentified.

The present invention comprises a display unit for executing a variable display game for displaying the identification information in a variable manner based on the establishment of a predetermined start condition, and a game control device for performing control for executing the variable display game, In a gaming machine capable of generating a special gaming state that gives a privilege to a player according to a result of a variable display game, the game control device performs variable display by switching the identification information of the display unit every predetermined time A variable display control means; and a stop display control means for performing a stop display of the identification information displayed on the display unit, wherein the variable display game is displayed after the variable display is performed. And when the identification information that is stopped and displayed becomes specific identification information, the special gaming state occurs, and there are a plurality of types of identification information candidates that are stopped and displayed by the stop display control means. One of the plurality of types of identification information candidates is set as off-identification information to be stopped and displayed on the display unit when the special gaming state does not occur, and the plurality of types of identification information candidates The identification information excluding the detachment identification information is set as hit identification information to be stopped and displayed on the display unit when the special gaming state occurs, and is given to the player by the corresponding identification information to be stopped and displayed. The type of privilege is set to be different, and the variable display control means is a state in which only the off-identification information that is stopped and displayed on the display unit when the special gaming state does not occur is lit and displayed on the display unit, The variation display is performed by alternately switching a state in which the display unit is turned off .

According to the present invention, since the variable display is performed by the identification information other than the specific identification information in which the special gaming state occurs, the identification information for notifying the occurrence of the special gaming state even if the identification information in the variable display stops by any chance Can reduce the possibility of stopping and prevent the player from misidentifying the occurrence of a special gaming state. At this time, even if there are a plurality of types of benefits to be given to the player, the number of candidates for specific identification information is sufficiently secured in advance, so the types of benefits and specific identification information are associated with each other. Display control can be performed.

It is a front view which shows one Embodiment of the game machine which concerns on this invention. It is a front view which shows the structural example of the game board in the game machine of embodiment. It is a block diagram which shows the structural example of the control system and game control apparatus which are provided in the back surface of the game machine of embodiment. It is a block diagram which shows the structural example of the presentation control apparatus in the control system of FIG. It is an enlarged explanatory view showing details of the collective display device provided in the game board of the embodiment. It is a flowchart which shows an example of the specific procedure of a main process among the game controls performed by the game microcomputer of the game control apparatus of embodiment. It is a flowchart which shows the continuation of the main process of FIG. 7 is a flowchart illustrating an example of a specific procedure of initial value random number update processing executed during the main processing of FIG. 6. It is a flowchart which shows an example of the specific procedure of a timer interruption process among the game controls performed by the game microcomputer of the game control apparatus of embodiment. 10 is a flowchart illustrating an example of a specific procedure of input processing executed during the timer interrupt processing of FIG. 9. FIG. 11 is a flowchart illustrating an example of a specific procedure of a switch reading process executed during the input process of FIG. 10. 10 is a flowchart illustrating an example of a specific procedure of output processing executed during the timer interrupt processing of FIG. 9. 10 is a flowchart showing an example of a specific procedure of command transmission processing executed during the timer interrupt processing of FIG. 9. It is a flowchart which shows an example of the specific procedure of the effect control command transmission process performed during the command transmission process of FIG. (A) is a flowchart showing an example of a specific procedure of an effect control command output process executed during the effect control command transmission process of FIG. 14, and (B) is a command data output executed during the effect control command output process. It is a flowchart which shows an example of the specific procedure of a process. It is a flowchart which shows an example of the specific procedure of the payout command transmission process performed during the command transmission process of FIG. 10 is a flowchart showing an example of a specific procedure of random number update processing 1 executed during the timer interrupt processing of FIG. 9. It is a flowchart which shows an example of the specific procedure of the random number update process 2 performed during the timer interruption process of FIG. FIG. 10 is a flowchart illustrating an example of a specific procedure of a winning opening switch / error monitoring process executed during the timer interrupt process of FIG. 9. FIG. FIG. 20 is a flowchart showing an example of a specific procedure of a winning number counter update process executed during the winning opening switch / error monitoring process of FIG. 19. FIG. FIG. 20 is a flowchart showing an example of a specific procedure of winning prize monitoring processing executed during the winning mouth switch / error monitoring processing of FIG. 19. FIG. It is a flowchart which shows an example of the specific procedure of the status update process performed during the winning monitoring process of FIG. (A) is explanatory drawing of the 1st special figure fluctuation display game management storage area of embodiment, (B) is explanatory drawing of the 2nd special figure fluctuation display game management storage area of embodiment. It is explanatory drawing of the 7 segment display of the special figure 1 display 51 and the special figure 2 display 52. FIG. (A) is explanatory drawing of the fluctuation pattern data which shows the fluctuation pattern of the special figure identification information in the special figure fluctuation display game of embodiment, (B) is the special figure which stops in the 1st special figure fluctuation display game of embodiment. Explanatory drawing of the symbol data during stop which shows the lighting pattern of identification information (stop special figure identification information), (C) is the special figure identification information which stops in the 2nd special figure fluctuation display game of embodiment of this invention of embodiment. It is explanatory drawing of the symbol data during a stop which shows the lighting pattern of (stop special figure identification information). FIG. 10 is a flowchart showing an example of a specific procedure of special figure game processing executed during the timer interrupt processing of FIG. 9. FIG. It is a flowchart which shows an example of the specific procedure of the start port switch monitoring process performed during the special figure game process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure start port switch common process performed during the start port switch monitoring process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure holding | maintenance information determination process performed during the special figure start port switch common process of FIG. 27 is a flowchart showing an example of a specific procedure of a count switch monitoring process executed during the special figure game process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure normal process performed during the special figure game process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure 1 fluctuation start process performed during the special figure normal process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure 2 fluctuation start process performed during the special figure normal process of FIG. It is a flowchart which shows an example of the specific procedure of the big hit flag 1 setting process performed during the special figure 1 fluctuation start process of FIG. It is a flowchart which shows an example of the specific procedure of the big hit determination process performed during the big hit flag 1 setting process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure 1 stop symbol setting process performed during the special figure 1 fluctuation start process of FIG. It is a flowchart which shows an example of the specific procedure of the stop symbol information setting process performed during the special symbol 1 stop symbol setting process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure information setting process performed during the special figure 1 fluctuation start process of FIG. It is a flowchart which shows an example of the specific procedure of the latter half fluctuation pattern setting process performed during the special figure 1 fluctuation start process of FIG. It is a flowchart which shows an example of the specific procedure of the fluctuation | variation pattern setting process performed during the special figure 1 fluctuation | variation start process of FIG. It is a flowchart which shows an example of the specific procedure of the fluctuation | variation start information setting process performed during the special figure 1 fluctuation | variation start process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure change process performed during the special figure game process of FIG. It is a flowchart which shows an example of the specific procedure of the special figure display process performed during the special figure game process of FIG. It is a flowchart which shows the continuation of the special figure display process of FIG. FIG. 27 is a flowchart illustrating an example of a specific procedure of fanfare / interval processing executed during the special game processing of FIG. 26. It is a flowchart which shows an example of the specific procedure of the special winning opening open | release process performed during the special figure game process of FIG. FIG. 27 is a flowchart illustrating an example of a specific procedure of a special winning opening remaining ball process executed during the special figure game process of FIG. 26. FIG. 27 is a flowchart showing an example of a specific procedure of a jackpot end process executed during the special figure game process of FIG. 26. It is a flowchart which shows an example of the specific procedure of the symbol fluctuation | variation control process performed during the special figure game process of FIG. It is explanatory drawing of the decoration special figure fluctuation display game in the display apparatus of embodiment. It is explanatory drawing of the relationship between the decoration special figure fluctuation display game and the special figure fluctuation game when the decoration special figure fluctuation display game of an embodiment does not generate reach. It is explanatory drawing of the relationship between the decoration special figure fluctuation display game in case the decoration special figure fluctuation display game of embodiment produces reach, and a special figure fluctuation display game. It is explanatory drawing of the special figure 1 display and the special figure 2 display of the 1st modification of embodiment. It is explanatory drawing of the special figure 1 display of the 2nd modification of embodiment, and a special figure 2 display.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the drawings.

  FIG. 1 is an explanatory diagram of a gaming machine according to an embodiment of the present invention.

  The gaming machine 10 of the present embodiment includes a front frame 12, and the front frame 12 is assembled to a main body frame (outer frame) 11 via a hinge 13 so as to be openable and closable. The game board 30 (see FIG. 2) is stored in a storage portion (not shown) formed on the front side of the front frame 12. Further, a glass frame 15 having a cover glass (transparent member) 14 covering the front surface of the game board 30 is attached to the front frame (inner frame) 12.

  Further, an illuminating device (moving light) 16 having a built-in lamp and motor and a lamp (LED) 17 for paying out abnormality notification are provided in the upper part of the glass frame 15. Further, on the left and right of the glass frame 15, there are provided a frame decoration device 18 that has a lamp or the like built therein and emits light for decoration or production, and a speaker (upper speaker) 19a that emits sound (for example, sound effects). Yes. Further, a speaker (lower speaker) 19 b is also provided below the front frame 12.

  In addition, at the lower part of the front frame 12, an upper plate 21 for supplying game balls to a not-shown hitting ball launcher, and game balls paid out from a ball payout device provided on the back side of the gaming machine 10 flow out. There are provided a dish tray outlet 22, a lower dish 23 for storing game balls paid out in a state in which the upper dish 21 is full, an operation unit 24 of a ball striking device, and the like. Further, an effect button 25 having a built-in operation switch for receiving an operation input from the player is provided on the upper edge of the upper plate 21. Further, a key 26 for opening and locking the front frame 12 is provided on the lower right side of the front frame 12.

  In the gaming machine 10 of this embodiment, when the player rotates the operation unit 24, the hitting ball launching device directs the game ball supplied from the upper plate 21 toward the game area 32 on the front surface of the game board 30. And fire. Further, when the player operates the effect button 25, an effect or the like in which the player's operation is intervened is performed in the variable display game (decoration special map variable display game) on the display device 41 (see FIG. 2). Can do. Further, on the front surface of the glass frame 15 above the upper plate 21, a ball lending button 27 that is operated when a player receives a ball lending from an adjacent ball lending machine, and a prepaid card to be discharged from the card unit of the ball lending machine. A discharge button 28 for operating the balance, a balance display section (not shown) for displaying the balance of the prepaid card, and the like are provided.

  Next, an example of the game board 30 will be described with reference to FIG. FIG. 2 is a front view of the game board 30 of the present embodiment.

  On the surface of the game board 30, a substantially circular game area 32 surrounded by the guide rail 31 is formed. The game area 32 is surrounded by resin side cases 33 and guide rails 31 provided at the four corners of the game board 30. In the game area 32, a center case 40 provided with a display device 41 is disposed substantially at the center. The display device 41 is attached to a recessed portion provided in the center case 40 at a position deeper than the front surface of the center case 40. That is, the center case 40 surrounds the display area of the display device 41 and is formed to protrude forward from the display surface of the display device 41. Further, a sub-display unit 43 for performing an effect during the game is provided on the upper part of the center case 40.

  The display device 41 is configured by a device having a display screen such as an LCD (Liquid Crystal Display) or a CRT (CRT). A plurality of pieces of identification information (special symbols), a character that produces a special figure variation display game, a background image that enhances the effect, and the like are displayed in an area (display area) in which an image of the display screen can be displayed. On the display screen of the display device 41, a plurality of special symbols assigned as decoration identification information are variably displayed (variably displayed), and a decoration variation display game (decoration special figure variation display game) is played. In addition, an image for an effect based on the progress of the game (for example, a jackpot display image, a fanfare display image, an ending display image, etc.) is displayed on the display screen.

  On the left side of the center case 40 in the game area 32, a normal symbol start gate (ordinary start gate) 34 is provided. Three general winning openings 35 are arranged on the lower left side of the center case 40, and one general winning opening 35 is arranged on the lower right side of the center case 40.

  In each of the general winning ports 35,..., Winning port switches 35a to 35n (see FIG. 3) for detecting a game ball that has entered each of the general winning ports 35 are arranged.

  A start winning opening 36 is provided below the center case 40 for giving a start condition for the special figure variation display game, and a game ball easily flows into the upper portion by opening a reverse “C” shape at the top. An ordinary variable winning device (general power) 37 having a pair of movable members 37b and 37b for converting into a state and having a second start winning port is disposed therein.

  The pair of movable members 37b, 37b of the normal variation winning device 37 always holds a closed state (a disadvantageous state for the player) with an interval of about the diameter of the game ball. However, since the start winning port 36 is provided above the normal variation winning device 37, the game ball cannot be won in the closed state.

  When the result of the normal variation display game becomes a predetermined stop display mode, it is opened in a reverse “C” shape by a general electric solenoid 37c (see FIG. 3) as a driving device, and a normal variation prize is awarded. The device 37 can be changed to an open state (a state advantageous to the player) in which a game ball easily flows.

  Further, below the normal variable winning device 37, there is a special variable winning device (large winning mouth) 38 that can be converted into a state where the game ball is not accepted and a state where it is easy to accept depending on the result of the variable display game on the display device 41. It is arranged.

  The special variation winning device 38 has an attacker-type open / close door 38c that can be opened by rotating in a direction in which the upper end side is tilted toward the near side, depending on the result of the special figure variation display game as an auxiliary game. The state is converted from a closed state (closed state unfavorable for the player) to an open state (a state advantageous to the player).

  That is, the special variable winning device 38 includes a large winning opening that is opened and closed by an open / close door 38c that is driven by a large winning port solenoid 38b (see FIG. 3) as a driving device. By converting the closed state from the closed state to the open state, the inflow of game balls into the special winning opening is facilitated, and a predetermined game value (prize ball) is given to the player.

  In addition, a count switch 38a (see FIG. 3) as a detecting means for detecting a game ball that has entered the special winning opening is disposed inside the special winning opening (winning area).

  Below the special variable winning device 38, there is provided an out port 39 for collecting game balls that have not won a winning port.

  Further, on the outside of the game area 32 (for example, the upper part of the game board 30), a special figure change display game (first special figure change display) executed in synchronization with the decoration change display game executed on the display device 41. A collective display device 50 is provided that executes a game and a second special figure fluctuation display game) and a common figure fluctuation display game triggered by winning a prize to the ordinary figure start gate 34 in one place.

  As shown in FIG. 5 (A), the collective display device 50 includes a first special figure fluctuation display unit (special figure 1 display) for a variable display game configured by a 7 segment type display (LED lamp) or the like. 51 and the second special figure fluctuation display part (special figure 2 display) 52, a fluctuation display part (general figure display) 53 for the usual figure fluctuation display game, and each fluctuation display game similarly constituted by LED lamps. Storage display units 54 to 56 for informing the start memory number are provided. Further, the collective display device 50 is turned on when a big hit occurs and a first gaming state display unit (first gaming state indicator) 57 that notifies the occurrence of the big hit, and lights up when a short time state occurs to notify the occurrence of a short time state. A second gaming state display unit (second gaming state indicator) 60, an error indicator 58 for displaying an error in which the probability state of the jackpot is a high probability state when the gaming machine 10 is turned on, and the number of rounds at the time of the jackpot A round display section 59 for displaying (the number of times the special variable winning device 38 is opened and closed) is provided.

  The special figure fluctuation display game in the special figure 1 display 51 or the special figure 2 display 52 is a 7 segment type while the fluctuation display game is being executed, that is, while the decoration special figure fluctuation display game is being performed on the display device 41. By flickering the segments of the indicator, special display information (special drawing, special symbol) is changed and displayed in a changing manner every predetermined time.

  When the variation time determined at the start of the variation display of the special identification information has elapsed, the variation display is stopped at the special identification information corresponding to the result of the variation display game, and the special figure 1 display 51 or special figure is displayed. 2 The special figure fluctuation display game on the display 52 is ended.

  Details of the special identification information change display mode and stop special identification information in the special figure change display game in the special figure 1 display 51 or the special figure 2 display 52 will be described in detail with reference to FIG.

  The normal display 53 blinks the lamp during the change and displays that the change is in progress. When the game result is “out of”, for example, the lamp is turned off, and when the game result is “hit”, the lamp is turned on to display the game result.

  The special figure 1 hold display 54 displays the number of undigested balls (starting memory number = holding number) among the number of winning balls to the start winning opening 36, which is the variation start condition of the special figure 1 display 51. Specifically, as shown in FIG. 5B, when the hold number is “0”, all four lamps are turned off, and when the hold number is “1”, only lamp 1 is turned on. When the number of holdings is “2”, the lamps 1 and 2 are turned on. When the number of holdings is “3”, the lamps 1, 2 and 3 are turned on. When the number of holdings is “4”, 4 is set. All the lamps 1 to 4 are turned on.

  The special figure 2 hold indicator 55 displays the start memory number (= hold number) of the second start winning opening (ordinary variable prize device 37), which is the fluctuation start condition of the special figure 2 indicator 52, and the special figure 1 hold indicator. It is displayed in the same manner as 54 (see FIG. 5B).

  As shown in FIG. 5 (C), the general-purpose hold display 56 displays the start memory number (= holding number) of the general-purpose start gate 34 which is the variation start condition of the general-purpose display 53. For example, when the hold number is “0”, the lamps 1 and 2 are turned off, and when the hold number is “1”, only the lamp 1 is turned on. When the number of hold is “2”, lamps 1 and 2 are turned on. When the number of hold is “3”, lamp 1 is blinked, lamp 2 is turned on, and when the number of hold is “4”. Lamps 1 and 2 are blinked.

  For example, the first gaming state indicator 57 turns off the lamp in the normal gaming state, and turns on the lamp when the big hit has occurred.

  For example, the second gaming state indicator 60 turns off the lamp in the normal gaming state, and turns on the lamp when the time-short state occurs.

  The error indicator 58 turns the lamp off when the jackpot probability state is low when the gaming machine 10 is turned on, and when the jackpot probability state is high when the gaming machine 10 is turned on. Turns on the lamp.

  For example, the round display unit 59 turns off the lamp in the normal gaming state, and turns on the lamp corresponding to the number of rounds (2 rounds or 15 rounds) when the big hit occurs. The round display unit 59 may be configured by a 7 segment type display.

  In the gaming machine 10 of the present embodiment, a game is played by launching a game ball (pachinko ball) from a launcher (not shown) toward the game area 32. The launched game balls flow down the game area 32 while changing the rolling direction by means of direction change members such as obstacle nails and windmills arranged at various locations in the game area 32, and the normal start gate 34 and the general winning opening 35 The winning prize opening 36, the normal variable prize winning device 37 or the special variable prize winning device 38 is won, or it flows into the out port 39 provided at the bottom of the game area 32 and is discharged from the game area. When a game ball wins the general winning opening 35, the start winning opening 36, the normal variation winning apparatus 37, or the special variable winning apparatus 38, the number of winning balls corresponding to the type of the winning opening is awarded by the payout control apparatus 200. It is discharged from the controlled dispensing unit to the upper plate 21 or the lower plate 23 of the front frame 12.

  On the other hand, a gate switch 34a (see FIG. 3) including a non-contact type switch for detecting a game ball that has passed through the general diagram start gate 34 is provided in the general diagram start gate 34. When a game ball that has been driven into the area 32 passes through the usual figure start gate 34, it is detected by the gate switch 34a and a usual figure change display game is played.

  In addition, the normal variation display game cannot be started, for example, the normal variation display game has already been played and the normal variation display game has not been completed, When 37 is converted to the open state and the game ball passes through the general figure start gate 34, if it is less than the upper limit of the normal figure start memory number, the general figure start memory number is added (+1) and the general figure start memory number is increased. One figure start memory is stored. The number of memorized start prizes is displayed on the memory display unit 56 for notifying the number of start prizes of the collective display device 50.

  In addition, in the normal chart start memory, a random number value for hit determination for determining a hit error of the normal figure fluctuation display game is stored, and when the random number value for hit determination coincides with the determination value In addition, a specific result mode (specific result) is derived by hitting the common map fluctuation display game.

  The usual map change display game is executed by a change display unit (common figure display) 53 provided in the collective display device 50. The general-purpose indicator 53 is composed of LEDs indicating normal identification information (normal diagrams, normal symbols) in the lit state and indicating misalignment in the unlit state, and the normal identification information is displayed by blinking this LED. The fluctuation display is performed, and after a predetermined fluctuation display time has elapsed, the LED is turned on or off to display the result.

  Note that, for example, numbers, symbols, character designs, and the like may be used as the normal identification information, which is displayed by variably displaying for a predetermined time and then stopped. If the stop display of the usual figure change display game is a specific result, the pair of movable members 37b of the normal fluctuation winning device 37 is opened for a predetermined time (for example, 0.3 seconds). It becomes a state. This makes it easier for the game ball to win the second start winning opening inside the normal fluctuation winning device 37, and the number of times the second special figure changing display game is executed increases.

  When the random number value extracted at the time of detection of the passage to the general chart start gate 34 is a winning value, the normal symbol displayed on the universal chart display unit 53 stops in a winning state and enters a winning state. At this time, the normal variation winning device 37 is in a state in which the movable member 37b is opened for a predetermined time (for example, 0.3 seconds) by driving the built-in general-purpose solenoid 37c (see FIG. 3). It is converted and the winning of the game ball to the second start winning opening is allowed.

  The winning ball to the starting winning port 36 and the winning ball to the normal variation winning device 37 are respectively detected by the starting port 1 switch 36a and the starting port 2 switch 37a provided inside. The game balls won at the start winning opening 36 are detected as the start winning balls of the first special figure variable display game, and are stored in a limit of four, and the game balls won at the normal variable prize winning device 37 are the second special figure. It is detected as the start winning ball of the variable display game and is stored up to four.

  In addition, when the starting winning ball is detected, a big hit random number value, a big hit symbol random number value, and each variation pattern random number value are extracted. Each area (a part of the RAM) is stored as a special figure start winning memory for a predetermined number of times (for example, a maximum of four times). The stored number of the special figure start winning memory is displayed on the storage display units 54 and 55 for notifying the start winning number of the collective display device 50, and also on the display device 41 or the sub display unit 43 of the center case 40. Is displayed.

  The game control device 100 uses the special figure indicator (variable display device) 51 or 52 to change the first or second special figure on the basis of the winning entry to the start winning opening 36 or the normal variable prize winning device 37 or the start memory thereof. Play a display game.

  The first special figure fluctuation display game and the second special figure fluctuation display game are performed by variably displaying a plurality of special symbols (special figures, identification information) and then stopping and displaying a predetermined result form. In addition, a decorative special figure fluctuation display game for displaying a plurality of types of identification information (for example, numbers, symbols, character designs, etc.) corresponding to each special figure fluctuation display game on the display device 41 is executed. ing.

  As a result of the special figure fluctuation display game, when the display mode of the special figure 1 display 51 or the special figure 2 display 52 becomes a special result mode, a special game state (so-called big hit state) ) Correspondingly, the display mode of the display device 41 is also a special result mode.

  In the decorative special symbol variation display game on the display device 41, for example, the decorative special symbol (identification information) composed of the above-described numbers is left (first special symbol), right (second special symbol), middle (third special symbol). The change display is started in the order of symbols), and the symbols that have changed after a predetermined time are sequentially stopped and the result of the special symbol change display game is displayed. In addition, the display device 41 performs a decoration special figure variation display game with special decoration patterns corresponding to the number of special figure winning memories stored, and various effect displays such as the appearance of characters to enhance the interest.

  The special figure 1 display 51 and the special figure 2 display 52 may be separate displays or the same display, but each special figure variation display is performed so as not to be executed independently or simultaneously. The game is displayed. In addition, the display device 41 may use different display devices and different display areas in the first special map variable display game and the second special map variable display game, or use the same display device and display area. However, the decoration special figure variation display game is displayed so as not to be executed independently or simultaneously.

  Further, the second special figure variation display game is executed with priority over the first special figure variation display game. That is, if there is a start memory of the first special figure fluctuation display game and the second special figure fluctuation display game, and the execution of the special figure fluctuation display game becomes possible, the second special figure fluctuation display game is It is supposed to be executed.

  In addition, in the state where the first special figure fluctuation display game (second special figure fluctuation display game) can be started and the number of start memories is zero, the start winning opening 36 (or the normal fluctuation prize winning device 37) is entered. When the game ball wins, the start memory is stored as the start right is generated, the start memory number is incremented by 1, and the first special figure variation display game (second special figure) is immediately added based on the start memory. (Variable display game) is started, and at this time, the starting memory number is decremented by one.

  On the other hand, a state in which the first special figure fluctuation display game (second special figure fluctuation display game) cannot be started immediately, for example, the first or second special figure fluctuation display game has already been performed, and the special figure fluctuation display game has ended. If the game ball is won in the start winning opening 36 (or the normal variable prize winning device 37) in a state that is not in the special game state or in the special game state, the start memory number is 1 if the start memory number is less than the upper limit number. By adding, one start memory is stored. Then, in a state where the starting memory number becomes 1 or more, a state in which the first special figure fluctuation display game (second special figure fluctuation display game) can be started (the end of the previous special figure fluctuation display game or the special game state) (End), the start memory number is decremented by 1, and the first special figure fluctuation display game (second special figure fluctuation display game) is started based on the stored start memory.

  In the following description, when the first special figure fluctuation display game and the second special figure fluctuation display game are not distinguished, they are simply referred to as a special figure fluctuation display game.

  Although not particularly limited, the starting port 1 switch 36a in the starting winning port 36, the starting port 2 switch 37a in the normal variation winning device 37, the gate switch 34a, the winning port switches 35a to 35n, the count switch 38a is a non-contact type magnetic proximity sensor (hereinafter referred to as a proximity switch) that includes a coil for magnetic detection and detects a game ball using a phenomenon in which a magnetic field changes when a metal approaches the coil. ing. A micro switch having a mechanical contact is used for the front frame opening detection switch 63 provided on the glass frame 15 or the like of the gaming machine 10 or the game frame opening detection switch 64 provided on the front frame (game frame) 12 or the like. be able to.

  FIG. 3 is a block diagram of the control system of the pachinko gaming machine 10 according to the present embodiment.

  The gaming machine 10 includes a game control device 100. The game control device 100 is a main control device (main board) for comprehensively controlling games, and a gaming microcomputer (hereinafter referred to as a gaming microcomputer) 111 is provided. The CPU unit 110 includes an input unit 120 having an input port, an output unit 130 having an output port, a driver, and the like, and a data bus 140 connecting the CPU unit 110, the input unit 120, and the output unit 130.

  The CPU section 110 receives signals (starting winning detection signals) from a gaming microcomputer (CPU) 111 called an amusement chip (IC) and a proximity switch interface chip (proximity I / F) 121 in the input section 120. An inversion circuit 112 composed of an inverter or the like that is logically inverted and input to the gaming microcomputer 111 and an oscillator such as a crystal oscillator are provided to generate a clock for a CPU operation clock, a timer interrupt, and a random number generation circuit. An oscillation circuit (crystal oscillator) 113 is included. The game control device 100 and electronic components such as a solenoid and a motor driven by the game control device 100 are supplied with a DC voltage of a predetermined level such as DC32V, DC12V, and DC5V generated by the power supply device 400 so as to be operable. Is done.

  The power supply apparatus 400 includes a normal power supply including an AC-DC converter that generates the DC 32V DC voltage from a 24V AC power source, a DC-DC converter that generates a lower level DC voltage such as DC 12V and DC 5V from the DC 32V voltage, and the like. Unit 410, backup power supply unit 420 for supplying power supply voltage to RAM 111C in game microcomputer 111 at the time of power failure, and power failure monitoring circuit and initialization switch, to notify game control device 100 of occurrence and recovery of power failure A control signal generation unit 430 that generates and outputs control signals such as a power failure monitoring signal, an initialization switch signal, and a reset signal is provided.

  In this embodiment, the power supply device 400 is configured separately from the game control device 100, but the backup power supply unit 420 and the control signal generation unit 430 are integrated on a separate board or the game control device 100, that is, the main control device 100. You may comprise so that it may provide on a board | substrate. Since the game board 30 and the game control device 100 are to be replaced when the model is changed, the backup power supply unit 420 and the control signal generation unit 430 are provided on a board different from the power supply apparatus 400 or the main board as in the embodiment. By providing, it can remove from the object of replacement | exchange and can aim at cost reduction.

  The backup power supply unit 420 can be composed of one large-capacity capacitor such as an electrolytic capacitor. The backup power is supplied to the game microcomputer 111 (particularly, the built-in RAM) of the game control device 100, and the data stored in the RAM 111C is held even during a power failure or after the power is shut off. The control signal generation unit 430 monitors the voltage of 32V generated by the normal power supply unit 410, for example, detects the occurrence of a power failure when the voltage drops below 17V, for example, changes the power failure monitoring signal, and resets the signal after a predetermined time. Is output. In addition, a reset signal is output after a predetermined time has elapsed from the time when the power is turned on or the power is restored.

  The initialization switch signal is a signal generated when the initialization switch is turned on, and forcibly initializes information stored in the RAM 111C in the gaming microcomputer 111 and the RAM in the payout control device 200. . Although not particularly limited, the initialization switch signal is read when the power is turned on, and the power failure monitoring signal is repeatedly read in the main loop of the main program executed by the gaming microcomputer 111. The reset signal is a kind of forced interrupt signal and resets the entire control system.

  The gaming microcomputer 111 has a CPU (central processing unit: microprocessor) 111A, a non-rewritable (read-only) ROM (read only memory) (non-volatile storage means) 111B, and a rewritable memory. A random access memory (RAM) (volatile storage means) 111C (which can be read and written as needed) is provided.

  The ROM 111B stores invariant information (programs, fixed data, various random number judgment values, etc.) for game control in a nonvolatile manner (non-rewritable), and the RAM 111C stores the work area of the CPU 111A, various signals, Used as a storage area for random values. As the ROM 111B or the RAM 111C, an electrically rewritable nonvolatile memory such as an EEPROM may be used.

  In addition, the ROM 111B stores, for example, variation pattern distribution information for determining a variation pattern that defines the execution time of the special figure variation display game, the contents of the effects, the presence or absence of the reach state, and the like.

  The variation pattern distribution information is distribution information for the CPU 111A to determine the variation pattern by referring to the variation pattern random numbers 1 to 3 stored as the start memory. The variation pattern distribution information includes out-of-range variation pattern distribution information selected when the result is out of range, large hit variation pattern distribution information selected when the result is per 15R or per 2R, and the like. For example, the special pattern fluctuation display game is a fluctuation pattern distribution information related to a fluctuation pattern without reach, a fluctuation pattern distribution information related to a fluctuation pattern in which normal (N) reach is executed in the special figure fluctuation display game, and a special figure fluctuation display game. Fluctuation pattern distribution information related to a fluctuation pattern for executing a special (SP) 1 reach, Fluctuation pattern distribution information relating to a fluctuation pattern for executing a special (SP) 2 reach in a special figure fluctuation display game, Special figure fluctuation for a big hit For example, there is variation pattern distribution information related to a variation pattern in which the premier reach is executed in the display game.

  Further, the pattern distribution information includes the latter half variation pattern distribution information and the first half variation pattern distribution information.

  Here, the ROM 111B constitutes a change distribution information storage unit that stores a plurality of change distribution information related to the execution time setting in the special figure change display game.

  Reach (reach state) has a display device whose display state can change, and the display device derives and displays a plurality of display results at different times, and the plurality of display results are predetermined. In the gaming machine 10 in which the gaming state becomes a gaming state advantageous to the player (special gaming state) when the special result mode is entered, the game is already derived at the stage where some of the plurality of display results are not yet derived and displayed. This means a display state in which the displayed display result satisfies the condition for the special result mode. In other words, the reach state is deviated from the display condition that is the special result mode even when the display device's variable display control progresses and reaches the stage before the display result is derived and displayed. There is no display mode. For example, a state where so-called full-rotation reach is performed in a variable display region while maintaining a state in which special result modes are aligned (so-called full rotation reach) is also included in the reach state. The reach state is a display state at the time when the display control of the display device has progressed to reach a stage before the display result is derived and displayed, and is determined before the display result is derived and displayed. The display state in the case where at least a part of the display results of the plurality of variable display areas satisfies the condition for the special result mode.

  Thus, for example, a decorative special figure fluctuation display game displayed on a display device corresponding to a special figure fluctuation display game fluctuates a plurality of identification information for a predetermined time in each of the left, middle, and right fluctuation display areas on the display device. After displaying, when the display of the result mode is stopped in the order of left, right, and middle, the condition that becomes the special result mode is satisfied in the left and right variable display areas (for example, The state in which the variable display is stopped with the same identification information) is the reach state. In addition to this, when the variable display of all the variable display areas is temporarily stopped, the condition that the special result mode is satisfied in any two of the left, middle, and right variable display areas (for example, the same The state in which the identification information is obtained (except for the special result mode) may be set as the reach state, and the remaining one variable display area may be variably displayed from the reach state. This reach state includes a plurality of reach effects, and the possibility that a special result mode is derived (different reliability) includes normal reach, special 1 reach, special 2 reach, premier reach, etc. Is set. The reliability increases in the order of no reach <normal reach <special 1 reach <special 2 reach <premier reach. In addition, this reach state is included in a variable display mode at least in a case where a special result mode is derived in a special figure variable display game (when a big hit is achieved). That is, when it is determined that the special result mode is not derived in the special figure variable display game (when it is out of date), it may be included in the variable display mode. Therefore, the state in which the reach state has occurred is a state that is more likely to be a big hit than the case in which the reach state does not occur.

  The CPU 111A executes a game control program in the ROM 111B, generates control signals (commands) for the payout control device 200 and the effect control device 300, and generates and outputs drive signals for the solenoid and the display device. 10 overall control.

  Although not shown, the game microcomputer 111 is a jackpot determining random number for the special figure variation display game, a big hit symbol random number for determining the big hit symbol, and a variation pattern (various reach, A random number generation circuit for generating a variation pattern random number for determining a variation display game execution time (variation time) and the like in a variation display without reach), a hit determination random number for a normal variation display game, and the like; Based on an oscillation signal (original clock signal) from the oscillation circuit 113, a clock generator for generating a timer interrupt signal for a predetermined period (for example, 4 milliseconds) for the CPU 111A and a clock for giving update timing of the random number generation circuit is provided.

  In addition, the CPU 111A can select any one of a plurality of variation pattern distribution information stored in the ROM 111B in the start port switch monitoring process (step A1) and the special figure routine process (step A9) in the special figure game process described later. Get the one variation pattern distribution information. Specifically, the CPU 111A determines the game result (big hit or miss) of the special figure fluctuation display game, the probability state (normal probability state or high probability state) of the special figure fluctuation display game as the current game state, and the current game. Based on the operation state (normal operation state or short-time operation state) of the normal variation winning device 37 as a state, the start memory number, etc., one of the variation pattern distribution information is selected from a plurality of variation pattern distribution information. Get.

  Here, when executing the special figure variation display game, the CPU 111A serves as a variation distribution information acquisition unit that acquires any one of the plurality of variation pattern distribution information stored in the ROM 111B.

  Although not shown, the payout control device 200 includes a CPU, a ROM, a RAM, an input interface, an output interface, and the like, and drives a payout motor of the payout unit in accordance with a prize ball payout command (command or data) from the game control device 100. , Control for paying out a prize ball. In addition, the payout control device 200 drives the payout motor of the payout unit based on the ball rental request signal from the card unit, and performs control for paying out the ball.

  The input unit 120 of the gaming microcomputer 111 includes a start port 1 switch 36a in the start winning port 36, a start port 2 switch 37a in the normal variation winning device 37, a gate switch 34a in the usual start gate 34, and a winning port switch. 35a-35n, an interface chip connected to the count switch 38a, which receives a negative logic signal such as a high level of 11V and a low level of 7V supplied from these switches and converts it to a positive logic signal of 0V-5V (Proximity I / F) 121 is provided. Proximity I / F 121 seems to be floating because the input range is 7V-11V, the lead wire of the proximity switch is improperly shorted, the switch is disconnected from the connector, or the lead wire is disconnected. An abnormal state can be detected, and an abnormality detection signal is output.

  All the outputs of the proximity I / F 121 are supplied to the second input port 122 and read into the gaming microcomputer 111 via the data bus 140, and also supplied from the main board 100 to the test firing test apparatus (not shown) via the relay board 70. It is like that. In addition, the detection signals of the start port 1 switch 36a and the start port 2 switch 37a among the outputs of the proximity I / F 121 are input to the gaming microcomputer 111 via the inverting circuit 112 in addition to the second input port 122. It is configured. The inversion circuit 112 is provided because the signal input terminal of the gaming microcomputer 111 detects that a signal from a micro switch or the like is input, and detects negative logic, that is, low level (0 V) as an effective level. Because it is designed to do.

  Therefore, when a micro switch is used as the start port 1 switch 36a and the start port 2 switch 37a, the detection signal can be directly input to the gaming microcomputer 111 without providing the inverting circuit 112. That is, when it is desired to directly input negative logic signals from the start port 1 switch 36a and the start port 2 switch 37a to the gaming microcomputer 111, the proximity switch cannot be used. As described above, the proximity I / F 121 has a signal level conversion function. In order to enable such a level conversion function, the proximity I / F 121 is supplied with a voltage of 12 V from the power supply device 400 in addition to a voltage such as 5 V required for normal IC operation. It has become.

  Further, the input unit 120 includes a start winning opening 36 converted by signals from the fraud detection magnetic sensor switch 61 and the vibration sensor switch 62 provided on the front frame 12 of the gaming machine 10 and the proximity I / F 121. A start port 1 switch 36a in the inside, a start port 2 switch 37a in the normal variation winning device 37, a gate switch 34a, winning port switches 35a to 35n, a signal from the count switch 38a and a microcomputer for gaming via the data bus 140 A second input port 122 for supplying to 111 is provided. The data held by the second input port 122 is read by asserting the enable signal CE1 (changing to an effective level) by the gaming microcomputer 111 decoding the address assigned to the second input port 122. be able to. The same applies to other ports described later.

  Further, the input unit 120 receives signals and payouts from the front frame opening detection switch 63 provided on the glass frame 15 and the like of the gaming machine 10 and the game frame opening detection switch 64 provided on the front frame (game frame) 12 and the like. A status signal indicating a payout abnormality from the control device 200, a shot ball break switch signal indicating a shortage of game balls before payout, and an overflow switch signal indicating overflow are fetched and supplied to the game microcomputer 111 via the data bus 140. One input port 123 is provided. The overflow switch signal is a signal that is output when it is detected that a predetermined amount or more of game balls are stored in the lower plate 23 (full).

  Further, the input unit 120 is provided with a Schmitt trigger circuit 124 for inputting signals such as a power failure monitoring signal, an initialization switch signal, and a reset signal from the power supply device 400 to the gaming microcomputer 111 and the like. The circuit 124 has a function of removing noise from these input signals. Of the signals from the power supply device 400, the power failure monitoring signal and the initialization switch signal are once inputted to the first input port 123 and taken into the gaming microcomputer 111 via the data bus 140. That is, it is treated as a signal equivalent to the signal from the various switches described above. This is because the number of terminals receiving external signals provided in the gaming microcomputer 111 is limited.

  On the other hand, the reset signal RST from which noise has been removed by the Schmitt trigger circuit 124 is directly input to a reset terminal provided in the gaming microcomputer 111 and is supplied to each port of the output unit 130. Further, the reset signal RST is directly output to the relay board 70 without going through the output unit 130, thereby turning off the test test signal held in the port (not shown) of the relay board 70 for output to the test board. It is configured as follows. Further, the reset signal RST may be configured to be output to the test firing test apparatus via the relay board 70. The reset signal RST is not supplied to the ports 122 and 123 of the input unit 120. Data set to each port of the output unit 130 by the gaming microcomputer 111 immediately before the reset signal RST is input needs to be reset to prevent malfunction of the system, but each data of the input unit 120 is input immediately before the reset signal RST is input. This is because the data read by the gaming microcomputer 111 from the port is discarded when the gaming microcomputer 111 is reset.

  The output unit 130 is connected to the data bus 140 and outputs a 4-bit data signal output to the payout control device 200, a control signal (data strobe signal) indicating validity / invalidity of the data, and a data strobe signal SSTB output to the effect control device 300. 1 and a second output port 132 for generating an 8-bit data signal to be output to the effect control device 300. Data is transmitted from the game control device 100 to the payout control device 200 and the effect control device 300 by parallel communication. In addition, the data strobe signal from the first output port 131 is input to the output unit 130 in order to prevent a signal from being input to the game control device 100 from the side of the effect control device 300, that is, to ensure one-way communication. A unidirectional buffer 133 that outputs an 8-bit data signal from the SSTB and the second output port 132 is provided. A buffer may be provided for a signal output from the first output port 131 to the payout control device 200.

  Further, the output unit 130 is connected to the data bus 140 and outputs data indicating special symbol information of the variable display game to a test firing test apparatus of an accredited organization (not shown), a signal indicating the probability of jackpot, and the like via the relay board 70. The buffer 134 is configured to be mountable. This buffer 134 is a component that is not mounted on a game control device (main board) of a pachinko gaming machine as an actual machine (mass production product) installed in the game store. A detection signal output from the proximity I / F 121, such as a start port switch, that is not required to be processed is supplied to the test firing test apparatus via the relay board 70 without passing through the buffer 134.

  On the other hand, detection signals such as the magnetic sensor switch 61 and the vibration sensor switch 62 that cannot be supplied to the test fire testing device as they are are once taken into the gaming microcomputer 111 and processed into other signals or information. An error signal indicating that the control is not possible is supplied from the data bus 140 to the trial test apparatus via the buffer 134 and the relay board 70. The relay board 70 is provided with a port that takes in the signal output from the buffer 134 and supplies it to the test test apparatus, a connector that relays and transmits a signal line of a switch detection signal that does not pass through the buffer, and the like. ing. A chip enable signal CE output from the gaming microcomputer 111 is also supplied to the port on the relay board 70, and the signal of the port selected and controlled by the signal CE is supplied to the test firing test apparatus.

  In addition, the output unit 130 is connected to the data bus 140 and is connected to the data bus 140 to open a special variation winning device 38 (a large winning opening solenoid) 38b and a solenoid (normal electric solenoid) 37c to open a movable member 37b of the normal variation winning device 37. The third output port 135 for outputting the opening / closing data of the LED and the ON / OFF data of the digit line to which the cathode terminal of the LED of the collective display device 50 is connected. A fourth output port 136 for outputting ON / OFF data of the segment line connected to the anode terminal, and a fifth output port 137 for outputting information related to the gaming machine 10 such as jackpot information to the external information terminal 71 are provided. It has been. Information relating to the gaming machine 10 output from the external information terminal 71 is supplied to, for example, an information collection terminal installed in a game store or a game hall internal management device (not shown).

  Further, the output unit 130 receives the opening / closing data signal of the big prize opening solenoid 38b output from the third output port 135, and receives the solenoid driving signal and the opening / closing data signal of the power solenoid 37c to generate the solenoid driving signal. A first driver (drive circuit) 138a for outputting, a second driver 138b for outputting an on / off drive signal for a digit line on the current drawing side of the collective display device 50 outputted from the third output port 135, and a fourth output port 136 The external information signal supplied to the external device such as the management device from the third driver 138c and the fifth output port 137 for outputting the ON / OFF drive signal of the segment line on the current supply side of the collective display device 50 output from the external information A fourth driver 138d for outputting to the terminal 71 is provided.

  The first driver 138a is supplied with DC32V from the power supply device 400 as a power supply voltage so that a solenoid operating at 32V can be driven. Also, DC12V is supplied to the third driver 138c that drives the segment lines of the collective display device 50. Since the second driver 138b for driving the digit line is for extracting the digit line corresponding to the display data with a current, the power supply voltage may be either 12V or 5V. A dynamic drive method is achieved by flowing current to the anode terminal of the LED through the segment line by the third driver 138c that outputs 12 V, and drawing the current from the cathode terminal through the segment line by the second driver 138b that outputs the ground potential. The power supply voltage flows through the LEDs sequentially selected in step 1 so that the LEDs are lit. The fourth driver 138d that outputs the external information signal to the external information terminal 71 is supplied with DC12V in order to give the external information signal a level of 12V. Note that the buffer 134, the third output port 135, the first driver 138a, and the like may be provided on the output board 130 of the game control device 100, that is, on the relay board 70 side instead of the main board.

  Further, the output unit 130 is provided with a photocoupler 139 for transmitting information such as an identification code and a program of each gaming machine to the external inspection device 500. The photocoupler 139 is configured to be capable of bi-directional communication so that the gaming microcomputer 111 can transmit and receive data to and from the inspection device 500 through serial communication. Note that such data transmission / reception is performed using a serial communication terminal of the gaming microcomputer 111 as in the case of a general general-purpose microprocessor, and therefore, ports such as the input ports 122 and 123 are not provided.

  Next, the configuration of the effect control device 300 will be described with reference to FIG.

  The effect control device 300 includes a main control microcomputer (1st CPU) 311 formed of an amusement chip (IC), as with the game microcomputer 111, and a video control microcomputer (2nd CPU) 312 that performs video control exclusively under the control of the 1st CPU 311. , VDP (Video Display Processor) 313 as a graphic processor that performs image processing for video display on the display device 41 in accordance with commands and data from the 2nd CPU 312 and various melody and sound effects are reproduced from the speakers 19a and 19b. The sound source LSI 314 for controlling the sound output is provided.

  The main control microcomputer (1st CPU) 311 and the video control microcomputer (2nd CPU) 312 are connected to program ROMs 321 and 322 each composed of a PROM (programmable read only memory) storing a program executed by each CPU. Is connected to an image ROM 323 storing character images and video data, and a sound ROM 324 storing sound data is connected to the sound source LSI 314. The main control microcomputer (1st CPU) 311 analyzes the command from the game microcomputer 111, decides the contents of the presentation, instructs the video control microcomputer 312 about the contents of the output video, and instructs the sound source LSI 314 about the reproduced sound. Then, processing such as lighting of the decoration lamp, motor drive control, and production time management is executed. RAMs that provide work areas for the main control microcomputer (1st CPU) 311 and the video control microcomputer (2nd CPU) 312 are provided in the respective chips. Note that the RAM that provides the work area may be provided outside the chip.

  Although not particularly limited, the main control microcomputer (1stCPU) 311 and the video control microcomputer (2ndCPU) 312 and the main control microcomputer (1stCPU) 311 and the sound source LSI 314 are serially connected. Data transmission / reception is performed, and data transmission / reception is performed in parallel with the video control microcomputer (2ndCPU) 312 and between the main control microcomputer (1stCPU) 311 and the VDP 313. By transmitting and receiving data in parallel, commands and data can be transmitted in a shorter time than in the case of serial. The VDP 313 includes an ultra-high speed VRAM (video RAM) 313a used for developing and processing image data such as characters read from the image ROM 323, and a scaler for enlarging and reducing images. 313b, a signal conversion circuit 313c that generates a video signal to be transmitted to the display device 41 by an LVDS (small amplitude signal transmission) method, and the like are provided.

  A vertical synchronization signal VSYNC is input from the VDP 313 to the main control microcomputer 311 in order to synchronize the image of the display device 41 and the lighting of the decorative lamps provided on the front frame 12 and the game board 30. In addition, the VDP 313 notifies the video control microcomputer 312 that it is waiting to receive an interrupt signal INT0-n and a command or data from the video control microcomputer 312 in order to notify the processing status such as the end of drawing in the VRAM. A wait signal WAIT is input. Further, the video control microcomputer 312 receives from the main control microcomputer 311 a synchronization signal SYNC that informs that the video control microcomputer 312 is operating normally and gives command transmission timing. A call signal CTS and a response signal RTS are exchanged between the main control microcomputer 311 and the tone generator LSI 314 in order to transmit and receive commands and data in the handshake method.

  Note that the video control microcomputer (2ndCPU) 312 uses a CPU that is faster or more expensive than the main control microcomputer (1stCPU) 311. By providing a video control microcomputer (2ndCPU) 312 separately from the main control microcomputer (1stCPU) 311 and sharing the processing, it is possible to display a fast moving image on a large screen that is difficult to achieve with the main control microcomputer (1stCPU) 311 alone. It is possible to display on the display device 41, and it is possible to suppress an increase in cost compared to the case where two CPUs having processing capabilities equivalent to the video control microcomputer (2nd CPU) 312 are used. Also, by providing two CPUs, it becomes possible to separately develop the control programs for the two CPUs in parallel, thereby shortening the development period of the new model.

  In addition, the effect control device 300 is provided with an interface chip (command I / F) 331 that receives a command transmitted from the game control device 100. A variation start command, a customer waiting demo command, a fanfare command, a probability information command, an error designation command, and the like transmitted from the game control device 100 to the effect control device 300 via the command I / F 331 are used as an effect control command signal. Receive. Since the game microcomputer 111 of the game control device 100 operates at DC 5V and the main control microcomputer (1st CPU) 311 of the effect control device 300 operates at DC 3.3V, the command I / F 331 has a signal level conversion function. Is provided.

  Further, the effect control device 300 includes a board decoration LED control circuit 332 for driving and controlling the sub display unit 43 having LEDs (light emitting diodes) provided on the game board 30 (including the center case 40), and the front frame 12. Frame decoration LED control circuit 333 for driving and controlling a frame decoration device (for example, the frame decoration device 18 and the like) having LEDs (light emitting diodes) and board effects provided on the game board 30 (including the center case 40). A board effect motor / SOL control circuit 334 for driving and controlling a device (for example, an electric accessory that enhances effect effects in cooperation with effect display on the display device 41), and a motor (for example, the moving device) provided on the front frame 12 A frame effect motor control circuit 335 for driving and controlling the light 45 is provided. Note that these control circuits 332 to 335 that drive and control lamps, motors, solenoids, and the like are connected to a main control microcomputer (1st CPU) 311 via an address / data bus 304.

  Further, the effect control device 300 includes an on / off state of a switch 25a built in the effect button 25 provided on the front frame 12 and an effect motor switch for detecting the initial position of the motor in the panel effect device 44. A switch input circuit 336 for detecting and inputting a detection signal to the main control microcomputer (1st CPU) 311; an amplifier circuit 337a including an audio power amplifier for driving an upper speaker 19a provided on the front frame 12; An amplifier circuit 337b for driving the lower speaker 19b is provided.

  The normal power supply unit 410 of the power supply apparatus 400 drives a motor or a solenoid to supply a desired level of DC voltage to the effect control apparatus 300 having the above-described configuration and electronic components controlled thereby. DC32V for driving the display device 41 composed of a liquid crystal panel, DC5V serving as the power supply voltage for the command I / F 331, DC18V for driving the LED and speaker, and a reference for these DC voltages It is configured to generate a voltage of NDC 24V used to turn on the monitor lamp. Further, when an LSI that operates at a low voltage such as 3.3 V or 1.2 V is used as the main control microcomputer (1st CPU) 311 or the video control microcomputer (2nd CPU) 312, DC 3. The effect control device 300 is provided with a DC-DC converter for generating 3V or DC 1.2V. The DC-DC converter may be provided in the normal power supply unit 410.

  The reset signal RST generated by the control signal generation unit 430 of the power supply apparatus 400 includes a main control microcomputer 311, a video control microcomputer 312, a VDP 313, a sound source LSI 314, control circuits 332 to 335 for driving and controlling lamps and motors, speakers, and the like. Are supplied to the amplifier circuits 337a and 337b, which are in a reset state. In this embodiment, a general-purpose port of the video control microcomputer 312 is used to generate and supply a reset signal to the VDP 313. Thereby, the cooperation of the operations of the video control microcomputer 312 and the VDP 313 can be improved.

  Next, game control performed in these control circuits will be described.

  The CPU 111A of the game microcomputer 111 of the game control device 100 extracts a random number for determining the hit of the usual figure based on the input of the detection signal of the game ball from the gate switch 34a provided in the usual figure start gate 34, and the ROM 111B. Is compared with the determination value stored in, and a process for determining whether or not the normal-game fluctuation display game is hit is performed. Then, after the identification symbol is variably displayed for a predetermined time on the general symbol display 53, a processing for displaying a general symbol variation display game to be stopped is performed. If the result of this normal map change display game is a win, a special result mode is displayed on the general map display 53, and the general electric solenoid 37c is operated to move the movable members 37b and 37b of the normal variable prize winning device 37 to a predetermined value. Time (for example, 0.3 seconds) is controlled to be released as described above.

  In addition, when the result of the normal map change display game is out of order, control is performed on the general map display 53 to display the result form of the shift.

  Further, a start winning (starting memory) is stored based on an input of a detection signal of a game ball from a starting port 1 switch 36a provided in the starting winning port 36, and based on this start memory, the first special figure variation display game is stored. The random number value for jackpot determination is extracted and compared with the determination value stored in the ROM 111B, and a process for determining whether or not the first special figure variation display game is missed is performed.

  In addition, the start memory is stored based on the input of the detection signal of the game ball from the start port 2 switch 37a provided in the normal variation winning device 37, and based on this start memory, for the big hit determination of the second special figure variable display game A random number value is extracted and compared with a determination value stored in the ROM 111B, and a process of determining whether or not the second special figure variation display game is missed is performed.

  Then, the CPU 111 </ b> A of the game control device 100 outputs a control signal (effect control command) including the determination results of the first special figure variation display game and the second special figure variation display game to the effect control device 300. Then, after the identification symbol is variably displayed for a predetermined time on the special figure 1 display 51 or the special figure 2 display 52, a process for displaying a special figure fluctuation display game to be stopped is performed.

  In addition, in the production control device 300, based on the control signal from the game control device 100, the display device 41 performs a process of displaying the decoration special figure change display game corresponding to the special figure change display game.

  Furthermore, in the production control device 300, based on the control signal from the game control device 100, the sound output from the speakers 19a and 19b, the process of controlling the light emission of various LEDs, and the like are performed.

  Then, the CPU 111A of the game control device 100 displays the special result mode on the special figure 1 display 51 and the special figure 2 display 52 and generates a special game state when the result of the special figure variation display game is successful. To perform the process.

  In the process of generating the special game state, the CPU 111A performs control for allowing the game ball to flow into the special winning opening by, for example, opening the open / close door 38c of the special variable winning apparatus 38 by the special winning opening solenoid 38b. .

  Then, a condition that either a predetermined number (for example, 10) of game balls wins the grand prize opening or a predetermined time (for example, 25 seconds or 1 second) elapses from the opening of the big prize opening is achieved. Opening the grand prize opening until one is made is defined as one round, and control (cycle game) is performed to continue (repeat) this for a predetermined number of rounds (for example, 15 times or 2 times).

  Whether the number of rounds is 15 or 2 is determined according to the identification information displayed on the special figure 1 display 51 or the special figure 2 display 52.

  Further, when the result of the special figure variation display game is out of order, the special figure 1 display 51 and the special figure 2 display 52 are controlled to display the result form of the deviation.

  In addition, the game control device 100 can generate a probability change state as a game state after the special game state ends based on the result mode of the special figure variation display game. Also in this case, corresponding to the identification information displayed on the special figure 1 display 51 or the special figure 2 display 52, the probability that the special figure variation display game executed after the end of the special game state will be a hit result, Decide whether to change to a probable state (high probability state) or a normal state (low probability state). Details will be described later with reference to FIG.

  This probability variation state is a state in which the probability of a hit result in the special figure variation display game is higher than the normal probability state. In addition, the first special figure variation display game and the second special figure variation display game, regardless of which one of the first special figure variation display game and the second special figure variation display game results in a certain variation state. Both display games are in a probable state.

  In addition, the game control device 100 can generate a short time state as a gaming state after the high probability state ends. Also in this case, it is determined whether or not to generate a time-short state corresponding to the identification information displayed on the special figure 1 display 51 or the special figure 2 display 52.

  In this time-short state, control is performed so that the normal-variation display game and the normal variation winning device 37 are in the time-short operation state. Specifically, in the short-time state, the execution time of the above-described usual-variable display game is controlled to be a second variable display time shorter than the first variable display time (for example, 10 seconds is 1 second). Thus, the number of times of opening of the normal variation winning device 37 per unit time is controlled to be substantially increased. Further, in the short time state, when the normal variation winning device 37 is released as a result of the normal variation display game being won, the release time becomes a second release time longer than the first release time in the normal state. (For example, 0.3 seconds is 2 seconds). In the short-time state, the number of times of opening of the normal variation winning device 37 is not the first opening number of one time but a plurality of times of two or more times (for example, (3 times) the second number of times of opening.

  It should be noted that the execution time of the normal variation display game is set to the second variation display time (for example, 1 second), and the release mode of the normal variation winning device 37 is the second opening time (for example, 2 seconds). In addition, the control in which the number of times of opening with respect to one hit result of the normal fluctuation display game is the second number of times of opening (for example, 3 times) may be performed only one or both. good. In the short-time operation state, control may be performed so that the probability of a hit result of the normal-variable display game is higher than that in the normal operation state.

  As a result, the game ball can easily win the normal variation winning device 37, and the second special figure variation display game can be easily started.

  In addition, the time variation operation state of the probability variation state, the normal variation display game, and the normal variation prize winning device 37 can be generated independently, and both can be generated at the same time, or only one can be generated. Is possible.

  Next, control executed by the game microcomputer (game microcomputer) 111 of the game control apparatus 100 will be described.

  Control processing by the gaming microcomputer 111 mainly includes main processing shown in FIGS. 6 and 7 and timer interrupt processing shown in FIG. 9 performed at a predetermined time period (for example, 4 msec).

[Main processing]
First, the main process will be described.

  The main process is started when the power is turned on. In this main process, as shown in FIG. 6, first, an interrupt prohibition process (step S1) is performed, and then an interrupt vector setting process (step S1) for setting a jump destination vector address to be executed when an interrupt occurs. S2), a stack pointer setting process (step S3) for setting a stack pointer that is the start address of an area in which a value of a register or the like is saved when an interrupt occurs, and an interrupt mode setting process (step S4) for setting an interrupt processing mode. )I do.

  Next, in order to wait for the program of the payout control device (payout board) 200 to start up normally, for example, a time of 4 msec is waited (step S5). As a result, when the power is turned on, the game control device 100 rises first and sends the command to the payout control device 200 before the payout control device 200 starts up, thereby avoiding the payout control device 200 from losing the command. be able to. Thereafter, access to a readable / writable RWM (read / write memory) such as a RAM or EEPROM is permitted, and all output ports are set to off (no output) (steps S6 and S7). In addition, the serial port ((port previously installed in the gaming microcomputer 111) is not used in this embodiment because it is in parallel communication with the payout control device 200 and the effect control device 300). Processing is performed (step S8).

  Subsequently, it is determined whether or not the initialization switch in the power supply device 400 is turned on (step S9). Here, if it is determined that the initialization switch is off (step S9; No), in step S10, after checking the data of the power failure inspection area in the RWM, it is determined whether or not the power failure is restored (step S11). If it is determined in step S11 that the power failure has been restored (step S11; Yes), the process proceeds to step S12, and a process of calculating data called a checksum and whether the calculated checksum is normal or abnormal are determined (step S13).

  If it is determined in step S9 that the initialization switch is on (step S9; Yes), if it is determined in step S11 that the power failure is not restored (step S11; No), and if the checksum is not normal in step S13 (step If it is determined as S13; No), the process jumps to step S20 in FIG.

  If it is determined in step S13 that the checksum is normal (step S13; Yes), the process proceeds to step S14 in FIG. 7, and a power failure occurs in the area to be initialized in the RWM (read / write memory: RAM in the embodiment). After the initial value at the time of recovery is saved (stored), the area related to error and fraud monitoring is reset (step S15). Next, an area for storing the game state in the RWM is examined to determine whether or not the lottery probability state of the special figure 1 variable display game and the special figure 2 variable display game described later is a high probability state ( Step S16). If it is determined that the probability is not high (step S16; No), steps S17 and S18 are skipped and the process proceeds to step S19.

  If it is determined in step S16 that the probability is high (step S16; Yes), a high probability notification flag is set in the collective display device 50 after the high probability notification flag is set in step S17. The display 58) is set to ON (lighted) (step S18), and the process proceeds to step S19. In step S19, a process for transmitting a power restoration command corresponding to a process number prepared for reasonably executing a special figure game process described later to the effect control device 300 is performed, and the process proceeds to step S23.

  On the other hand, when jumping from step S9, S11, S13 to step S20, the work area in the RAM used by the CPU is first reset, and then the initial value at power-on is saved in the area to be initialized (step S21). Then, in step S22, a process of transmitting a power-on command to the effect control device 300 is performed, and the process proceeds to step S23. In step S23, a process of starting a CTC (Counter / Timer Circuit) circuit that generates a timer interrupt signal and a random number update trigger signal (CTC) in the gaming microcomputer 111 (clock generator) is performed.

  The CTC circuit is provided in a clock generator in the gaming microcomputer 111. The clock generator divides an oscillation signal (original clock signal) from the crystal oscillator 113, and a timer interrupt signal having a predetermined period (for example, 4 milliseconds) for the CPU 111A based on the divided signal. And a CTC circuit for generating a signal CTC that gives a trigger for updating a random number to be supplied to the random number generation circuit.

  After the CTC activation process in step S23, a process for activating and setting the random number generation circuit is performed (step S24). Specifically, the CPU 111A performs setting of a code (specified value) for starting the random number generation circuit in a predetermined register (CTC update permission register) in the random number generation circuit. Then, the values of the predetermined registers (soft random number registers 1 to n) in the random number generation circuit at the time of power-on are changed to various initial value random numbers (random numbers for determining the big hit symbol (big hit symbol random number 1, big hit symbol random number 2) Then, an initial value (start value) of a random number (a random number for determining a normal hit) is saved in a predetermined area of the RWM, and then an interrupt is permitted (step S26). The random number generation circuit in the CPU 111A used in this embodiment is configured so that the initial value of the soft random number register changes every time the power is turned on, and this value is used as an initial value (start value) of various initial value random numbers. By doing so, it is possible to break the regularity of random numbers generated by software, making it difficult for a player to obtain illegal random numbers.

  Subsequently, an initial value random number update process (step S27) is performed to update the values of various initial value random numbers to break the regularity of the random numbers. In the present embodiment, although not particularly limited, the big hit random number is configured to be generated using a random number (big hit random number) generated in a random number generation circuit. That is, the big hit random number is a hard random number generated by hardware, and the big hit symbol random number, the hit random number, and the variation pattern random number are soft random numbers generated by software.

  After the initial value random number update process in step S27, the power failure monitoring signal input from the power supply device 400 is read through the port and data bus and checked to determine whether or not a power failure has occurred (step S28). If no power failure has occurred (step S28; No), the process returns to step S27, and the initial value random number update processing and the power failure monitoring signal check (loop processing) are repeated. By permitting an interrupt before the initial value random number update process (step S27) (step S26), when a timer interrupt occurs during the initial value random number update process, the interrupt process is preferentially executed. Can be prevented from being interrupted by waiting for the initial value random number update process.

  Note that the initial value random number update process in step S27 includes a method of performing the initial value random number update process in the timer interrupt process in addition to the main process. In order to avoid execution of value random number update processing, when performing initial value random number update processing in the main processing, it is necessary to disable interrupt and then update to cancel the interrupt. In the timer interrupt process, the initial value random number update process is not performed. If it is only in the main process, there is no problem even if the interrupt is canceled before the initial value random number update process, thereby simplifying the main process. There is an advantage that

  If it is determined in step S28 that a power failure has occurred (step S28; Yes), processing for temporarily prohibiting interruption (step S29) and processing for turning off all output ports (step S30) are performed. After that, after the process of saving the power failure recovery inspection area check data in the power interruption recovery inspection area (step S31) and the process of calculating the checksum when the RWM is turned off (step S32), access to the RWM is prohibited. After performing the process (step S33), it waits for the power supply of the gaming machine to be cut off. In this way, the check data is saved in the power failure recovery inspection area and the checksum at the time of power shutdown is calculated, so that whether or not the information stored in the RWM before the power shutdown is correctly backed up can be checked. This can be determined when power is turned on again.

[Initial value random number update processing]
Next, details of the initial value random number update process (step S27) in the main process described above will be described.

  As shown in FIG. 8, in the initial value random number update process, the big hit symbol initial value random number 1 is incremented (updated (+1)) (step S271), and the hit initial value random number is incremented (updated (+1)) ( Step S272), the process of incrementing (updating (+1)) the jackpot symbol initial value random number 2 (step S273) is sequentially performed. Here, the “big hit symbol initial value random number 1” is a random number that is the initial value of the random number that determines the big hit symbol stop symbol of the special figure 1, and the “big hit symbol initial value random number 2” is the big hit symbol stop value of the special figure 2 This is the initial random number of the random number to be used. The “hit initial value random number” is a random number that is an initial value of a random number that determines the hit of the usual game. In this way, the randomness of the random number can be increased by continuing to increment the random number as long as time permits in the main process.

[Timer interrupt processing]
Next, timer interrupt processing will be described.

  As shown in FIG. 9, the timer interrupt process is started when a periodic timer interrupt signal generated by the CTC circuit in the clock generator is input to the CPU 111A. When a timer interrupt occurs in the gaming microcomputer 111A, the timer interrupt process of FIG. 8 is started.

  When the timer interrupt process is started, a register saving process (step S41) is performed in which a value held in a predetermined register is transferred to the RWM. In the Z80 microcomputer used as the gaming microcomputer in this embodiment, the processing can be replaced by saving the value held in the front register to the back register. Next, an input process (step S42) for taking in inputs from various sensors (start port 1 switch 36a, start port 2 switch 37a, gate switch 34a, count switch 38a, etc.), that is, reading the state of each input port. )I do. Then, based on the output data set in various processes, an output process (step S43) for performing drive control of an actuator such as a solenoid (large winning opening SOL38b, general electric power SOL37c) is performed.

  Next, a command transmission process (step S44), a random number update process 1 (step S45), and a random number update process 2 (steps) for outputting commands set in the transmission buffer in various processes to the effect control device 300, the payout control device 200, and the like. S46) is performed. Thereafter, it is monitored whether a normal signal is input from the start port 1 switch 36a, the start port 2 switch 37a, the usual gate switch 34a, the winning port switch 35a... 35n, and the count switch 38a. A prize opening switch / error monitoring process (step S47) is performed to determine whether the front frame and the glass frame are open. Also, a special figure game process (step S48) for performing a process related to the special figure variation display game and a general figure game process (step S49) for performing a process related to the common figure variation display game are performed.

  Next, a segment LED editing process (step S50) that is provided in the gaming machine 10 and that drives a segment LED that displays special-figure-changing game display and various information related to the game to display desired contents, magnetic sensor switch 61 And the magnet fraud monitoring process (step S51) which checks the detection signal from the vibration sensor switch 62 and determines whether there is any abnormality is performed. Then, an external information editing process (step S52) for setting a signal to be output to the external management apparatus in the output buffer is performed. Subsequently, a process of clearing the interrupt request and declaring the end of the interrupt (step S53), a process of restoring the register data saved in step S41 (step S54), and a process of permitting an interrupt (step S54) Step S55) is performed, and the timer interrupt process is terminated.

[Input processing]
Next, details of the input process (step S42) in the timer interrupt process described above will be described.

  As shown in FIG. 10, in the input process, first, the state of the switch detection signal taken into the input port 1, that is, the first input port 123 is read (step S421). If there is an unused bit in the 8-bit port, the bit state is cleared (step S422).

  Subsequently, the read state of the input port 1 is saved (stored) in the switch control area 1 in the RWM (step S423). Thereafter, in step S424, a parameter for reading the state of the signal taken into the input port 2, that is, the second input port 122 is prepared, and then the process proceeds to the switch reading process (step S425). Here, “preparation” in this embodiment means setting a value in a register, but is not limited thereto, and a value may be set in an RWM or other memory.

[Switch read processing]
Next, details of the switch reading process (step S425) in the above-described input process will be described.

  As shown in FIG. 11, in the switch reading process, first, the state of the signal taken into the input port designated by the parameter prepared in step S424, that is, the second input port 122 is read (step S251). If there is an unused bit in the 8-bit port, the bit state is cleared (step S252). Subsequently, the read state of the input port 2 is saved (stored) in the switch control area 2 in the RWM (step S253). Then, it waits for the delay time (0.1 ms) until the second reading to elapse (step S254).

  When the delay time (0.1 ms) elapses, a second reading of the state of the signal taken into the second input port 122 is performed (step S255). If there is an unused bit in the 8-bit port, the bit state is cleared (step S256). Subsequently, the read state of the input port 2 is saved (stored) in the switch control area 2 (step S257). Then, a bit, that is, a signal changed by the first reading and the second reading is detected (step S258).

  Thereafter, a bit that can be determined by the current two readings, that is, the processing of steps S251 to S258 is extracted (step S259). On the other hand, for bits that cannot be determined by two readings, the values read in the switch reading process at the previous interruption are extracted (step S260). As a result, it is possible to obtain a signal state from which noise due to chattering of the switch or the like is removed. Next, the values extracted in steps S259 and S260 are combined and saved in the RWM as the final state of the reading process (step S261). Thereafter, a bit whose definite state has changed to a high level is detected, saved in the RWM as detection of the rising edge of the corresponding signal, and the switch reading process is terminated (step S262).

  When the timer interrupt cycle is short (for example, 2 ms), the switch reading is performed once for each interrupt processing, and the signal changes by comparing the result with the previous reading. There is a method for determining whether or not the switch has been made. However, if the switch state read by the previous interrupt is lost before the next interrupt processing, the correct determination may not be made. On the other hand, it is possible to avoid the above-described problems by performing the switch reading process twice in one interrupt process at a predetermined time difference as in the present embodiment.

[Output processing]
Next, details of the output process (step S43) in the above-described timer interrupt process will be described.

  As shown in FIG. 12, in the output process, first, the port 136 (see FIG. 3) for outputting the segment data of the batch display device (LED) 50 is reset (step S431). Subsequently, the digit counter value for sequentially scanning the digit lines of the collective display device (LED) 50 is updated (step S432), and the output data of the LED digit line corresponding to the digit counter value is loaded (step S432). S433). Next, after the output data of the special winning opening solenoid 38b is loaded and combined with the digit output data, the output data of the ordinary solenoid 37c is loaded and further combined (steps S434 and S435). The synthesized data is output to the solenoid / test terminal / digit data output port 135 (step S436).

  Thereafter, the segment line output data is obtained from the segment data area in the RWM corresponding to the value of the digit counter (step S437). Then, the acquired data is output to the segment output port 136 (step S438). Subsequently, the data to be output to the external information terminal 71 is loaded and synthesized, and output to the external information output port 137 (steps S439 and S440). Next, the output data 1 to 3 of the test signal to be output to the test firing test apparatus are loaded and combined, and the combined data is output to the test terminal output port 1 provided on the relay board 70 (steps S441 and S442). ).

  Thereafter, the test signal output data 4 to 6 to be output to the test firing test apparatus are loaded and combined, and the combined data is output to the test terminal output port 2 provided on the relay board 70 (steps S443 and S444). ). Next, the test signal output data 7 to 8 to be output to the test firing test apparatus are loaded and combined, and the combined data is output to the test terminal output port 3 provided on the relay board 70 (steps S445 and S446). ). Further, the test signal output data 9 to 10 to be output to the test firing test apparatus are loaded and synthesized, and the synthesized data is outputted to the test terminal output port 4 provided on the relay board 70 (steps S447 and S448). . Furthermore, the output data 11 of the test signal output to the test firing test apparatus is loaded and synthesized, and the synthesized data is output to the test terminal output port 5 provided on the relay board 70 (steps S449 and S450). The output process in FIG. 12 is terminated.

[Command transmission processing]
Next, details of the command transmission process (step S44) in the above-described timer interrupt process will be described.

  As illustrated in FIG. 13, the command transmission process includes an effect control command transmission process (step S410) for the effect control device 300 and a payout command transmission process (step S420) for the payout control device 200.

[Direction control command transmission processing]
First, details of the effect control command transmission process (step S410) in the command transmission process described above will be described.

  As shown in FIG. 14, in the effect control command transmission process, first, the value of the light counter that is “+1” when the transmission command is set to RWM, and “+1” when the transmission command is read from the RWM. The read counter value is compared to check whether a command is set (step S411). Specifically, if the value of the write counter and the value of the read counter are the same, it is determined that there is no setting command. If the value of the write counter does not match the value of the read counter, an unsent command Is set (step S412).

  If it is determined in step S412 that there is no setting command (step S412; No), the effect control command transmission process is skipped, and a command is set in step S412 (step S412; Yes). If it is determined, the read counter is updated (+1) in the next step S413. Then, the command is loaded from the command transmission area (MODE (upper byte)) corresponding to the value of the read counter (step S414). Then, the area containing the acquired command is reset (step S415). Further, a command is loaded from the command transmission area (ACTION (lower byte)) corresponding to the value of the read counter (step S416). Then, the area containing the acquired command is reset (step S416). Thereafter, the process proceeds to an effect control command output process (step S418).

[Direction control command output processing]
Next, details of the effect control command output process (step S418) in the effect control command transmission process described above will be described.

  As shown in FIG. 15A, in the effect control command output process, first, an off time of the strobe signal indicating that the command (MODE) is being output is prepared (step S181), and the command data output process (step S182). Execute. Thereafter, a command (ACTION) is output (step S183), and a strobe signal OFF time indicating that the command (ACTION) is being output is prepared (step S184), and then command data output processing (step S185) is executed.

[Command data output processing]
Next, details of the command data output process (steps S182 and S185) in the above-described effect control command output process will be described.

  As shown in FIG. 15B, in the command data output process, first, in order to prevent the state immediately before the port from being lost, the port state holding data of the output port 131 including the strobe signal of the effect control command output. Is loaded (step S821). Then, the production control command is output to the output port 132 (step S822), and the strobe signal in the off state (for example, low level indicating data reading invalidity) is held in the output port 131 with the signal excluding the strobe signal held in the previous state. Is added and output (step S823). Then, in the next step S824, it is determined whether or not the time for turning off the strobe signal (off time) has ended. If it is determined that the off time has not ended (step S824; No), the process returns to step S822 and the above process is repeated.

  On the other hand, if it is determined in step S824 that the off time has expired (step S824; Yes), the process proceeds to step S825, and the time for the strobe signal to be in an on state (for example, a high level indicating that data reading is valid) is set. Subsequently, the strobe signal is set to the on state while the signals excluding the strobe signal of the output port 131 are held in the immediately previous state on the register holding the data loaded in step S821 (step S826). Then, an effect control command is output (step S827), and an on-state (high level) strobe signal is output (step S828).

  Then, in the next step S829, it is determined whether or not the time during which the strobe signal should be turned on (on time) has ended. If it is determined that the on-time has not ended (step S829; No), the process returns to step S827 and the above process is repeated. If it is determined in step S829 that the on-time has ended (step S829; Yes), the process proceeds to step S830, the off-state strobe signal is set, and the off-state strobe signal is output (step S831). Then, the command data output process ends. The reason why the effect control command is output again in step S827 is to prevent the effect control command being output from being output after the power failure is restored when a power failure occurs during the loop processing of steps S827 to S829. is there. It is also possible to avoid changing the command code due to noise. In addition, it is also possible to loop only each process in this step S824 and step S829.

[Payout command transmission processing]
First, details of the payout command transmission process (step S420) in the command transmission process described above will be described.

  As shown in FIG. 16, in the payout command transmission processing, first, it is checked whether there is a count number other than “0” in the winning number counter area provided for each winning opening (step S201). Here, when it is determined that there is no count number (step S202: No), the process proceeds to step S203 to update the address of the winning number counter area to be checked and check the counting number of all the winning number counter areas. It is determined whether or not has been completed (step S204). If it is determined that all checks have been completed (step S204; Yes), the command transmission process ends. On the other hand, if it is determined in step S204 that all checks have not been completed (step S204; No), the process returns to step S201 and the above process is repeated.

  If it is determined in step S202 that there is a count number (step S202; Yes), the process proceeds to step S205, and the count number in the winning number counter area is subtracted (-1). Thereafter, a payout command (negative logic data) corresponding to the winning number counter area, that is, the winning opening is acquired (step S206). Then, an off time of the strobe signal indicating whether data reading is valid or invalid (for example, a time during which the data reading is maintained at a low level) is set (step S207). In the next step S208, the payout command (negative logic data) acquired in step S206 and the off-state (low level) strobe signal are output to the port 131 (see FIG. 3).

  Thereafter, it is determined whether or not the OFF time set in step S207 has elapsed (step S209). If it has not elapsed (step S209; No), the process returns to step S208, and if it has elapsed (step S209; Yes). Then, the process proceeds to step S210. In step S210, the strobe signal is set to an on state (high level), and then the remaining output time of negative logic data is set (step S211). In the next step S212, the payout command (negative logic data) is continuously output and the on-state (high level) strobe signal is output to the port 131. Thereafter, it is determined whether or not the remaining output time of the negative logic data set in step S211 has elapsed (step S213). If it has not elapsed (step S213; No), the process returns to step S212, and if it has elapsed (step S213). In step S213; Yes, the process proceeds to step S214.

  In step S214, the negative logic payout command data is inverted to generate positive logic payout command data. Then, the remaining on-time (high level time) of the strobe signal is set (step S215). In the next step S216, the payout command (positive logic data) generated in step S214 and the strobe signal in the on state (high level) are output to the port 131. Thereafter, it is determined whether or not the on-time set in step S215 has elapsed (step S217). If it has not elapsed (step S217; No), the process returns to step S216, and if it has elapsed (step S217; Yes). Then, the process proceeds to step S218.

  In step S218, the strobe signal is set to the off state (low level), and then the remaining output time of the positive logic data is set (step S219). In the next step S220, the payout command (positive logic data) is continuously output and the off-state (low level) strobe signal is output to the port 131. Thereafter, it is determined whether or not the remaining output time of the positive logic data set in step S219 has elapsed (step S221). If it has not elapsed (step S221; No), the process returns to step S220, and if it has elapsed (step S221). In step S221; Yes, the process proceeds to step S222. In step S222, positive logic payout command data is saved in the RWM as port state holding data, and the command transmission process is terminated.

  As described above, by outputting negative logic payout command data and then outputting positive logic payout command data, the command receiving side reads and compares negative logic payout command data and positive logic payout command data. Thus, it can be determined whether or not a correct command has been received. For example, the negative logic payout command data received earlier is logically inverted and compared with the positive logic payout command data received later. It is possible to receive an accurate command by making a request to the game control device.

[Random number update process 1]
Next, details of the random number update process 1 (step S45) in the timer interrupt process described above will be described.

  The random number update process 1 is a process for updating the initial values (start values) of the jackpot symbol random number 1, the hit random number, and the jackpot symbol random number 2 that are the targets of the initial value random number update process of FIG.

  As shown in FIG. 17, in the random number update process 1, first, the value of the soft random number status register indicating the update state of the random number is read (step S451). Then, it is checked whether there is a random number waiting for the next initial value (start value) setting after one round of the random number (step S452). Here, if there is no random number waiting for initial value setting, the random number update processing 1 is terminated (step S453: No). On the other hand, when there is a random number waiting for initial value setting, the process proceeds to step S454 (step S453: Yes).

  In step S454, it is checked whether there is a random number waiting for the next initial value (start value) setting for the usual random number. Here, if not waiting for the initial value setting, the process jumps to step S457 (step S455: No). On the other hand, when the normal hit random number is waiting for the initial value setting, the process proceeds to step S456 (step S455: Yes). In step S456, the next initial value of the normal hit random number is set in the register holding the start value of the corresponding random number counter (random number area), and the process proceeds to step S457.

  In step S457, it is checked whether the jackpot symbol random number 1 is waiting for the next initial value (start value) setting. Here, if not waiting for the initial value setting, the process jumps to step S460 (step S458: No). On the other hand, when the big hit symbol random number 1 is waiting for the initial value setting, the process proceeds to step S459 (step S458: Yes). In step S459, the next initial value of jackpot symbol random number 1 is set in the register holding the start value of the corresponding random number counter (random number region), and the flow proceeds to step S460.

  In step S460, it is checked whether the jackpot symbol random number 2 has a random number waiting for the next initial value (start value) setting. If the initial value setting is not awaited, the random number update process 1 ends (step S461: No). On the other hand, when the big hit symbol random number 2 is waiting for the initial value setting, the process proceeds to step S462 (step S461: Yes). In step S462, the next initial value of the jackpot symbol random number 2 is set in the register holding the start value of the corresponding random number counter (random number area), and the random number update processing 1 is terminated.

[Random number update process 2]
Next, details of the random number update process 2 (step S46) in the timer interrupt process described above will be described.

  The random number update process 2 is a process for updating a variation pattern random number for determining a variation pattern and a distribution information selection pattern determination random number for determining the variation pattern in the variation display game shown in FIG.

  In this embodiment, there are a 1-byte random number and a 2-byte random number as the variation pattern random numbers. The random number update process 2 in FIG. 18 sets both as update targets, and switches the update targets every time an interrupt occurs. To process. In addition, when the random number to be updated is 2 bytes, the update process is performed for different interrupts for the upper byte and the lower byte.

  As shown in FIG. 18, in the random number update process 2, first, a random number update scan counter for sequentially specifying which of the plurality of random numbers to be updated is targeted for the current update process is updated. (Step S601). Next, a table address corresponding to the value of the random number update scan counter is calculated (step S602). Then, a random number upper limit determination value is acquired from the table referred to based on the calculated address (step S603). The table to be referred to at this time stores an upper limit value for each type of random number, that is, a value for determining whether or not the random number has made a round.

  Subsequently, for example, a random value such as a refresh register (hereinafter referred to as an R register) used for refreshing a DRAM provided in a Z80 microcomputer used as a gaming microcomputer in this embodiment. The value of the register in which is set is read (step S604). By using the value of the R register, randomness can be given to the random number. After step S604, a mask value for masking the value of the R register is acquired, and the value of the R register is masked (step S605). The mask value is set to a different number of bits depending on the random number to be updated. This is because the upper limit varies depending on the type of random number.

  Next, a value obtained by adding “1” to a value remaining after masking the value of the R register with the mask value (hereinafter referred to as a masked value) is set as a mask update value (step S606). The reason why “1” is added to the masked value is that the masked value may be “0”, and if “0” is added later, it does not change from the value before the addition, so that it is avoided. Then, the upper 1 byte is set to “0” and the lower 1 byte is set to the mask update value as an addition value (step S607).

  Then, in the next step S608, it is checked whether the random number area (random number counter) to be updated is the upper 1 byte of the 2-byte random number. If it is not the upper 1 byte, the process jumps to step S611 (step S609: No). On the other hand, when the random number area is the upper 1 byte of the 2-byte random number, the process proceeds to step S610 (step S609: Yes). In step S610, the upper 1 byte is set as the mask update value and the lower 1 byte is set to “0”, and the process proceeds to step S611.

  In step S611, “0” is set as the upper 1 byte of the random value. Thereafter, the lower byte of the 1-byte random number or the lower byte of the 2-byte random number is loaded as the lower byte of the random value (step S612). Then, it is checked whether or not the random number to be updated is a 1-byte random number (step S613). If the random number to be updated is a 1-byte random number, the process jumps to step S616 (step S614: Yes). On the other hand, when the random number to be updated is not a 1-byte random number, the process proceeds to step S615 (step S614: No). In step S615, the upper 1 byte of the 2-byte random number is loaded as the upper 1 byte of the random value, and the process proceeds to step S616.

  In step S616, a value obtained by adding the addition value determined in steps S607 and S610 to the random value is calculated. Further, an updated value is obtained by subtracting the upper limit determination value acquired in step S603 from the calculated value (step S617). Then, it is determined whether the updated value is smaller than “0” (step S618). In this step, if the updated value is not smaller than “0” (step S618; No), the process jumps to step S620. On the other hand, when the updated value is smaller than “0”, the process proceeds to step S619 (step S618: Yes). In step S619, a value obtained by adding the upper limit determination value acquired in step S603 to the update value updated in step S617 is set as a new update value, and the process proceeds to step S620.

  In step S620, the lower 1 byte of the update value is saved on the lower side of the random number area. Then, it is checked whether or not the random number to be updated is a 1-byte random number (step S621). If the random number to be updated is a 1-byte random number, step S623 is skipped and the random number update process 2 is terminated (step S622: Yes). On the other hand, when the random number to be updated is not a 1-byte random number, the process proceeds to step S623 (step S622: No). In step S623, the upper 1 byte of the update value is saved on the upper side of the random number area, and the random number update process 2 is terminated.

[Prize mouth switch / error monitoring process]
Next, details of the winning opening switch / error monitoring process (step S47) in the above-described timer interrupt process will be described.

  The winning opening switch / error monitoring process is a process for monitoring whether or not there is a signal input (signal change) from a switch provided in each of the various winning openings and for monitoring an error.

  As shown in FIG. 19, in the prize opening switch / error monitoring process, first, a prize monitoring table (for example, a list showing switches not requiring error monitoring) of a prize opening switch that does not require an error monitoring process is prepared (step S471). For a winning prize switch that does not require error monitoring processing, error detection is not performed, but winning detection processing is performed. In step S471, a winning monitoring table is prepared for the processing, and the winning number is updated in the next step. Number counter update processing (step S472) is executed. The detailed procedure of the winning number counter updating process will be described later with reference to FIG.

  After the winning number counter updating process (step S472), the error monitoring table of the count switch 38a in the special variable winning device (large winning opening) 38 (for example, the number of the port to which the detection signal from the count switch is input and the signal) (Data indicating the bit position and the like in the port) is prepared (step S473). Then, a prize monitoring process S474 is performed to monitor whether the prize winning opening is illegal even though the prize winning opening is not open, and to detect a normal prize winning. The detailed procedure of the winning monitoring process will be described later with reference to FIG. That is, the count switch 38a is one of the prize opening switches removed in step S471 on the assumption that an error monitoring process is necessary.

  After the winning monitoring process (step S474), an error monitoring table of the start port 2 switch 37a in the ordinary electric power (ordinary variable winning device 37) is prepared (step S475). Then, a winning monitoring process S476 is performed to monitor whether there is an illegal winning in the ordinary power even though the ordinary power is not open, and to detect a normal winning. In other words, the start port 2 switch 37a is one of the winning port switches removed in step S471 because error monitoring processing is required.

  Next, an error scan counter for sequentially specifying which switch or signal of the plurality of switches and signals to be monitored for errors is to be monitored this time is updated (step S477). Subsequently, an error monitoring table for monitoring an abnormality of the chute ball switch, overflow switch, and payout control device from the payout control device 200 is prepared (step S478). Then, an error check process S479 for determining whether an abnormality has occurred in these switches and the payout control device with reference to a timer is executed.

  Thereafter, an error monitoring table for monitoring the opening of the front frame (glass frame 15) and the game frame (front frame 12) based on signals from the front frame release detection switch 63 and the game frame release detection switch 64 is prepared (step S480). . Then, an error scan counter for monitoring the opening of the front frame and the game frame is prepared (step S481), and an error check process (step S482) for determining whether an abnormality has occurred in these switches with reference to a timer is executed. To do.

[Input counter update processing]
Next, the details of the input number counter updating process (step S472) in the above-described winning opening switch / error monitoring process will be described.

  As shown in FIG. 20, in the input number counter update process, first, the number of winning port switches to be monitored is acquired from the winning monitoring table acquired in step S471 (step S711). Next, the rising edge of the switch input signal saved in the RWM in step S262 of FIG. 11 is acquired (step S712). Then, it is checked whether or not there is an input of detection signals (more precisely, changes in input) from the winning prize switch to be monitored (step S713). If it is determined that there is no input (S714: No), the process jumps to step S719. If it is determined that there is an input (S714: Yes), the value of the winning counter area to be updated is loaded in the next step S715. To do.

  Then, the value loaded in step S715 is updated (+1) to check whether it overflows (step S716). If it is determined that no overflow has occurred (step S717: No), the process proceeds to step S718 to save the updated value in the winning number counter area, and then proceeds to step S719. On the other hand, if it is determined in step S717 that an overflow has occurred (S717; Yes), step S718 is skipped and the process jumps to step S719. For example, in the case where the maximum storage number (for example, 4) is set in advance, such as a start winning prize, the updated value is not saved. In step S719, it is determined whether the monitoring process for all the switches has been completed. If the monitoring process has been completed (step S719: Yes), the input number counter update process is terminated, and if not completed (step S719: In No), it returns to step S712 and repeats the said process.

[Winning monitoring process]
Next, details of the winning a prize monitoring process (steps S474 and S476) in the above-described winning opening switch / error monitoring process will be described.

  The winning monitoring process is a process that is performed on the count switch 38a of the big winning opening or the start opening 2 switch 37a in the ordinary electric power, and performs illegal monitoring in addition to the detection of the winning. This is because the large winning opening (special variable winning device 38) and the ordinary electric power (ordinary variable winning device 37) are likely to be fraudulently forcibly opening the opening / closing member to insert the game ball and paying out the winning ball.

  As shown in FIG. 21, in the winning monitoring process, first, “0” is set as the added value of the number of illegal winnings (step S741). Then, the rising edge of the switch input signal saved in the RWM in step S262 of FIG. 11 is loaded (step S742). Then, it is checked whether or not there is an input to the winning port switch subject to error monitoring (the count switch 38a of the large winning port or the start port 2 switch 37a in the ordinary electric power station) (step S743). Here, if it is determined that there is no input (step S744: No), the process jumps to step S746, and if it is determined that there is an input (step S744: Yes), the process proceeds to step S745, and “1” is added as the added value of the illegal winning number. Set and proceed to step S746. In step S746, the fraud monitoring period flag of the winning mouth switch subject to error monitoring is loaded from the RWM.

  Thereafter, an illegal winning error occurrence command of the winning mouth switch subject to error monitoring is acquired (step S747). Then, in the next step S748, it is checked whether it is a fraud monitoring period, that is, a period during which the big prize opening (special variable prize winning device 38) is closed as a gaming state or the ordinary power (normal fluctuation winning prize device 37) is closed. If it is determined that the period is not the monitoring period (step S749: No), the process jumps to step S758. . Here, if it is determined that the unauthorized prize amount addition value is “0” (step S751: Yes), the process jumps to step S760, and if it is determined that the unauthorized prize number addition value is not “0” (step S751: No), step is performed. Proceeding to S752, "1" is added to the number of illegal winnings subject to error monitoring.

  Next, it is checked whether the number of fraudulent winnings after addition exceeds the number of fraud determinations to be monitored (for example, 5) (step S753). The number of judgments is five, for example, when a large winning opening in the open state is converted to a closed state, the game ball is caught by the door member of the large winning opening, and the gaming ball passes the valid period of the count switch. This is because it is not determined to be illegal when winning a prize or when noise is added to the signal, and it is not determined to be an error easily even if it is not illegal. If it is determined that the number of determinations has not been exceeded (step S754: No), the process jumps to step S758, and if it is determined that the number of determinations has been exceeded (step S754: Yes), the process proceeds to step S755.

  In step S755, the number of fraudulent winnings is limited to the fraud occurrence determination number, and in step S756, an initial value is saved in the notification timer area, and then an error occurrence flag is prepared (step S757). Thereafter, the process proceeds to step S767, where the error flag area of the winning prize switch to be monitored for error is prepared, and the status update process S768 is executed. The status update process will be described later with reference to FIG. 22, but when an error has occurred, an error notification command is transmitted to the effect control device 300 and an error notification is made.

  On the other hand, in step S758, where it is determined that the number of determinations has not been exceeded in step S754 (step S754; No) and the process proceeds to step S758, an error monitoring target winning port switch (a large winning port count switch 38a or a start port 2 in the public power system). A winning monitoring table for the switch 37a) is prepared. After that, the winning timer counter is updated, that is, the processing S759 for counting the number of winning prizes as a target for the winning ball discharge is executed, and then the notification timer area is updated (-1) (step S760). Then, in the next step S761, it is determined whether or not the timer has expired. If it is determined that the timer has not expired (step S761: No), the winning monitoring process is temporarily exited. If it is determined that the notification timer has timed out (step S761: Yes), the process proceeds to step S762 to set an illegal winning error release command for the error monitoring target winning mouth switch. That is, if a predetermined number of illegal prizes do not occur even after a predetermined time has elapsed, an illegal prize error cancel command is set.

  After step S762, an error release flag is prepared (step S763), and it is checked whether the error release timing is reached (step S764). Here, if it is determined that it is not the error release timing (step S765: No), the process jumps to step S767, and if it is determined that it is the error release timing (step S765: Yes), the process proceeds to step S766, and the number of illegal winnings is reset. The process proceeds to step S767. In step S767, the error flag area of the winning prize switch to be monitored for error is prepared, and the setting corresponding to the error occurrence flag prepared in step S757 or the error release flag prepared in step S763 is performed, and then the status update process S768 is performed. Transition. The illegal winning error cancel command set in step S762 is transmitted to the effect control device 300 in the status update process S768, and the error notification is cancelled.

[Status update processing]
Next, details of the status update process (step S768) in the above-described winning monitoring process will be described.

  As shown in FIG. 22, in the status update process, the error occurrence flag prepared in step S757 or the error release flag prepared in step S763 is changed with the value of the error flag target for error monitoring prepared in step S767. Whether or not (different) is checked (step S681).

  Here, when it is determined that there is no change from the value of the error flag area (step S682: No), the status update process is terminated. When it is determined that the value has changed from the value in the error flag area (step S682: Yes), the process proceeds to step S683, and the error flag is saved in the RWM. Thereafter, an error notification command (MODE) is prepared (step S684), a command setting process (step S685) for transmitting the error notification command to the effect control device 300 is executed, and the status update process ends.

  Next, the first special figure fluctuation display game management storage area 2300 and the second special figure fluctuation display game management storage area 2310 for managing the special figure fluctuation display game, which are rewritten by executing the special figure game processing shown in FIG. Will be described with reference to FIGS.

  Hereinafter, when the first special figure variable display game management storage area 2300 and the second special figure variable display game management storage area 2310 are not distinguished, they are referred to as a special figure variable display game management storage area.

  The special figure variable display game management storage area is a storage area provided in the RAM 111C (see FIG. 3) of the game control apparatus 100. The first special figure fluctuation display game management storage area 2300 stores data for managing the first special figure fluctuation display game, and the second special figure fluctuation display game management storage area 2310 stores the second special figure fluctuation display game management storage area 2300. Data for managing the display game is stored.

  Since the first special figure variable display game management storage area 2300 and the second special figure variable display game management storage area 2310 have the same configuration, the configuration of the first special figure variable display game management storage area 2300 will be described as an example. To do.

  The first special figure variable display game management storage area 2300 is a variable / stopped identification information storage area 2301, a variable timer 2302, a variable symbol number storage area (fluctuation specific information storage area) 2303, and a fixed symbol number storage. An area (stop specific information storage area) 2304 and an output symbol data storage area 2305 are included.

  In the changing / stopped identification information storage area 2301, a flag for identifying whether the first special figure change display game is being changed or displayed is stored.

  The change timer 2302 is a predetermined display until the special figure identification information is displayed by switching to the other special figure identification information in the fluctuation display of the special figure identification information of the special figure fluctuation display game on the special figure 1 display 51. Stores a value indicating time. Details of the variation timer 2302 will be described with reference to FIG.

  In the variation symbol number storage area 2303, a symbol number for identifying the special symbol identification information currently displayed on the special symbol 1 display 51 executing the first special symbol variation display game is stored.

  In the stop symbol number storage area 2304, a symbol number for identifying the special symbol identification information to be stopped and displayed as the final result of the first special symbol variation display game being executed is displayed at the start of the first special symbol variation display game. Stored.

  The output symbol data storage area 2305 stores data for identifying a segment that is lit on the 7-segment display that constitutes the special figure 1 display 51 that is executing the first special figure variation display game.

  Fluctuating / stopped identification information storage area 2301, fluctuation timer 2302, fluctuation symbol number storage area (fluctuation specific information storage area) 2303, symbol number at stop included in the second special figure fluctuation display game management storage area 2310 The storage area (stop specific information storage area) 2304 and the output symbol data storage area 2305 are the same as the first special figure variable display game management storage area 2300 except that the second special figure variable display game is managed. Therefore, explanation is omitted.

  FIG. 24 is an explanatory diagram of the 7-segment display of the special figure 1 display 51 and the special figure 2 display 52 according to the embodiment of the present invention.

  In the 7-segment display of the special figure 1 display 51 and the special figure 2 display 52, the segments A to F are arranged so as to form a vertically long rectangle like the normal 7 segment display. A segment G is arranged at the center of the formed rectangle. A segment on the upper side of the rectangle is referred to as segment A, and segments B to F are called clockwise from the segment.

  Although not particularly limited, one segment is constituted by one LED.

  Next, the lighting pattern of the 7-segment display of the special figure 1 display 51 and the special figure 2 display 52 will be described with reference to FIGS.

  FIG. 25 (A) is displayed when the fluctuation pattern of the special figure identification information in the special figure fluctuation display game of the embodiment of the present invention (the special figure identification information is variably displayed on the special figure 1 display 51). In the explanatory diagram of the changing symbol data table showing the lighting pattern of the segment and each lighting pattern of the segment displayed when the special figure identification information is variably displayed on the special figure 2 display 52 is there.

  The changing symbol data table is stored in the changing symbol data storage area of the ROM 111B provided in the game control apparatus 100.

  The changing symbol data table is a symbol data that is a lighting pattern of a 7-segment display when the special symbol identification information is displayed in a variable manner in the special symbol variable display game in the special symbol 1 display 51 and the special graph 2 display 52; It consists of a symbol number that identifies the lighting pattern.

  Specifically, the changing symbol data table includes two symbol data specified by symbol numbers “0” and “1”.

  The symbol data specified by the symbol number “0” is a lighting pattern in which all the segments A to G are turned off without lighting any of the segments A to G.

  The symbol data specified by the symbol number “1” is a lighting pattern in which only the segment G is turned on and the segments A to F are turned off.

  FIG. 25 (B) shows that the final result of the first special figure variation display game of the embodiment of the present invention is finalized and shows a lighting pattern of special figure identification information (stop special figure identification information) to be stopped and displayed. It is explanatory drawing of a symbol data table.

  The stopped symbol data table is stored in the stopped symbol data table storage area of the ROM 111B provided in the game control apparatus 100.

  The stopped symbol data table is similar to the changing symbol data table shown in FIG. 25 (A), the symbol data that is the lighting pattern of the 7-segment display of the stop special symbol identification information, and the symbol number that identifies the lighting pattern. Consists of.

  The stop special figure identification information notifies the player (and an attendant of the game shop) of the result of the special figure fluctuation display game being executed, and the special figure fluctuation display game is special in the stop special figure identification information. Stop special identification information when no game state is generated (out), special figure fluctuation display information Special stop state identification information when the game generates a special game state that does not generate a probability change state (normal jackpot), and special figure fluctuation display There is stop special identification information when the game generates a special game state that generates a probability change state (probability big hit).

  The symbol data of the stop special symbol identification information of the outage is specified by one symbol number “0”, and the symbol data of the stop special symbol identification information of the normal jackpot is identified by four symbol numbers “1” to “4”. The symbol data of the stop special symbol identification information for the probable big hit is six and is specified by symbol numbers “5” to “10”.

  In this embodiment, more than a majority of the symbol data of the stop special symbol identification information is set to the symbol of the special symbol identification information for generating the special game state. That is, 11 candidates corresponding to symbol numbers “0” to “10” are preset as candidates for stop special symbol identification information, and 10 candidates (symbol numbers “1” to “10”), which are the majority of them. "Candidate corresponding to") corresponds to the one that generates the special gaming state.

  Moreover, in this embodiment, the privilege given to a player is set differently depending on the stop special figure identification information that is stopped and displayed when the special game state occurs.

  That is, in the case of the stop special symbol identification information of the symbol numbers “1” to “4”, it is a normal big hit that does not generate the probability variation state, and in the case of the special symbol identification information of the symbol numbers “5” to “10” It is a probable big hit when the condition occurs.

  Furthermore, in the case of the stop special symbol identification information of symbol numbers “1” to “4”, it is a normal big hit that does not generate a probability variation state, but the number of rounds described above is set to be different depending on the symbol number. In addition, the symbol number also determines whether or not the above-mentioned time-short state occurs after the big hit ends.

  Similarly, in the case of stop special symbol identification information of symbol numbers “5” to “10”, the probability variation state is a probability variation big hit, but the number of rounds described above is set to be different depending on the symbol number. In addition, the symbol number also determines whether or not the above-mentioned time-short state occurs after the big hit ends.

  The symbol data specified by symbol number “0” indicates that the result of the special symbol variation display game is out of order, and is a lighting pattern in which only the segment G is lit and the segments A to F are extinguished. It is the same lighting pattern as the symbol data specified by the symbol number “1” of the table.

  The symbol data identified by the symbol number “1” indicates that the result of the special symbol fluctuation display game is usually a big hit, the segments B, C, E, and F are turned on, and the segments A, D, and G are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “2” indicates that the result of the special symbol variation display game is usually a big hit, the segments C, D, G are turned on, and the segments A, B, E, F are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “3” indicates that the result of the special symbol variation display game is usually a big hit, the segments B, C, E are turned on, and the segments A, D, F, G are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “4” indicates that the result of the special symbol variation display game is usually a big hit, the segments A, B, D, and F are turned on, and the segments C, E, and G are turned off. It is a lighting pattern.

  The symbol data identified by the symbol number “5” indicates that the result of the special symbol fluctuation display game is a probable big hit, turns on the segments B, C, F, and turns off the segments A, D, E, G. It is a lighting pattern.

  The symbol data specified by the symbol number “6” indicates that the result of the special symbol fluctuation display game is a probable big hit, the segments A, D, F, and G are turned on, and the segments B, C, and E are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “7” indicates that the result of the special symbol fluctuation display game is a probable big hit, the segments A, B, F, and G are turned on, and the segments C, D, and E are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “8” indicates that the result of the special symbol fluctuation display game is a probable big hit, the segments B, C, D, E, and G are turned on, and the segments A and F are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “9” indicates that the result of the special symbol variation display game is a probable big hit, the segments A, D, and G are turned on, and the segments B, C, E, and F are turned off. It is a lighting pattern.

  The symbol data identified by the symbol number “10” indicates that the result of the special symbol variation display game is a probable big hit, the segments A, B, D, and E are turned on, and the segments C, F, and G are turned off. It is a lighting pattern.

  FIG. 25C shows that the final result of the second special figure variation display game according to the embodiment of the present invention is finalized, and shows a lighting pattern of special figure identification information (stop special figure identification information) to be stopped and displayed. It is explanatory drawing of a symbol data table.

  The stopped symbol data table is stored in the stopped symbol data table storage area of the ROM 111B provided in the game control apparatus 100.

  Since the stopped symbol data table of FIG. 25C is the same as the stopped symbol data of FIG. 25B except for the lighting pattern, the description of the same portions is omitted.

  The symbol data identified by the symbol number “0” indicates that the result of the special symbol variation display game is out of order, is a lighting pattern in which only the segment G is lit and the segments A to F are extinguished. Is the same lighting pattern as the symbol data specified by the symbol number “1”.

  The symbol data identified by the symbol number “1” indicates that the result of the special symbol variation display game is usually a big hit, the segments A, B, E, and F are turned on, and the segments C, D, and G are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “2” indicates that the result of the special symbol fluctuation display game is usually a big hit, the segments B, E, G are turned on, and the segments A, C, D, F are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “3” indicates that the result of the special symbol fluctuation display game is usually a big hit, the segments B, F, and G are turned on, and the segments A, C, D, and E are turned off. It is a lighting pattern.

  The symbol data identified by the symbol number “4” indicates that the result of the special symbol fluctuation display game is usually a big hit, the segments B, C, and D are turned on, and the segments A, E, F, and G are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “5” indicates that the result of the special symbol fluctuation display game is a probable big hit, turns on the segments A, C, E, and turns off the segments B, D, F, G. It is a lighting pattern.

  The symbol data specified by the symbol number “6” indicates that the result of the special symbol fluctuation display game is a probable big hit, turns on the segments B, D, and F, and turns off the segments A, C, E, and G. It is a lighting pattern.

  The symbol data specified by the symbol number “7” indicates that the result of the special symbol variation display game is a probable big hit, the segments C, D, and F are turned on, and the segments A, B, E, and G are turned off. It is a lighting pattern.

  The symbol data identified by the symbol number “8” indicates that the result of the special symbol variation display game is a probable big hit, turns on the segments E, F, and G, and turns off the segments A, B, C, and D. It is a lighting pattern.

  The symbol data identified by the symbol number “9” indicates that the result of the special symbol variation display game is a probable big hit, the segments B and G are turned on, and the segments A, C, D, E, and F are turned off. It is a lighting pattern.

  The symbol data specified by the symbol number “10” indicates that the result of the special symbol fluctuation display game is a probable big hit, turns on the segments C, D, E, and turns off the segments A, B, F, G. It is a lighting pattern.

  The special symbol identification information constituting the changing symbol data table of FIG. 25 (A) is the stop special symbol identification information (symbol) that generates the special game state of the stopped symbol data table shown in FIGS. 25 (B) and (C). It is set differently from the symbol data specified by the numbers “1” to “10”.

  In other words, as shown in FIGS. 25A to 25C, the special figure identification information constituting the fluctuation pattern is the stop special figure identification information indicating that the result of the special figure fluctuation display game generates a special gaming state. It consists of special figure identification information other than.

  This indicates that a special game state is generated even if an error such as noise occurs during special display identification information fluctuation display of the special figure variation display game and the special figure identification information is forcibly stopped and displayed. Since the stop special figure identification information is not stopped, it is possible to prevent the player from misidentifying when a special game state occurs.

  In addition, the special figure identification information constituting the changing symbol data table shown in FIG. 25 (A) is the identification shown in FIGS. 25 (B) and 25 (C) even if any of the segments to be lit is turned off. Special figure identification information different from the stop special figure identification information for generating the gaming state is used.

  For example, since the symbol data specified by the symbol number “1” in FIG. 25A is a pattern in which only the segment G is lit, even if the segment G of the display device fails, It does not become the same lighting pattern as the stop special figure identification information for generating the specific gaming state shown in (C). In the changing symbol data table shown in FIG. 25A, such lighting pattern symbol data is intentionally set.

  For this reason, even if any of the segments to be turned on during the change is turned off, it is possible to prevent the player from misidentifying when the special gaming state occurs.

[Special Figure Game Processing]
Next, details of the special game process (step S48) in the above-described timer interrupt process will be described.

  In the special figure game process, the input of the start port 1 switch 36a and the start port 2 switch 37a is monitored, the entire process related to the special figure variation display game is controlled, and the special figure display is set.

  As shown in FIG. 26, in the special figure game process, first, a start switch monitoring process (step A1) for monitoring a winning of the start port 1 switch 36a and the start port 2 switch 37a is performed.

  In the start port switch monitoring process, when a game ball is won in the normal variable winning device 37 that forms the start winning port 36 and the second starting winning port, various random numbers (such as big hit random numbers) are extracted, and a special feature based on the winning is obtained. Prior to the start of the figure variation display game, a game result preliminary determination is performed in which a game result based on a prize is determined in advance.

  The details of the start port switch monitoring process (step A1) will be described later.

  Next, a count switch monitoring process (step A2) is performed. In this count switch monitoring process, a process of monitoring the count number of the count switch 38a provided in the special variation winning device 38 is performed.

  The details of the count switch monitoring process (step A2) will be described later.

  Next, the special figure game process timer is updated (-1) to check whether or not the game process timer has expired (step A3), and the special figure game process timer has expired (step A4; If the determination is Yes), a special figure game sequence branch table to be referred to for branching to a process corresponding to the special figure game process number is set in the register (step A5), and the special figure game is used using the table. A process (step A6) of acquiring a branch destination address of the process corresponding to the process number is performed.

  Then, after performing the process of saving the return address after the branch process to the stack area (step A7), the game branch process (step A8) is performed according to the game process number.

  If the game process number is “0” in step A8, the fluctuation start of the special figure fluctuation display game is monitored, the fluctuation start setting of the special figure fluctuation display game, the setting of the effect, and the special figure fluctuation processing are performed. A special figure routine process (step A9) for setting information necessary for the execution is performed.

  The details of the special figure routine process (step A9) will be described later.

  If the game process number is “1” in step A8, the special figure changing process for setting the stop display time of the special figure and setting the information necessary for performing the special figure display process is performed. (Step A10) is performed.

  The details of the special figure changing process (step A10) will be described later.

  In step A8, if the game process number is “2”, if the game result of the special figure variation display game is a big hit, the fanfare command setting corresponding to the big hit type (2R big hit or 15R big hit) Special chart display processing (step A11) for setting the fanfare time according to the big winning opening opening pattern of each jackpot (2R jackpot or 15R jackpot), setting information necessary for performing the fanfare / interval processing, etc. Do.

  Details of the special figure display processing (step A11) will be described later.

  In step A8, when the game process number is “3”, setting of the opening time of the big prize opening, updating of the number of times of opening, setting of information necessary for performing the processing during opening of the big prize opening, etc. are performed. Processing during fanfare / interval (step A12) is performed.

  The details of the fanfare / interval processing (step A12) will be described later.

  If the game process number is “4” in step A8, an interval command is set if the big hit round is not the final round, while a big hit end screen command is set if the big round is the final round. A large winning opening opening process (step A13) for setting information necessary for performing the winning opening remaining ball processing is performed.

  The details of the special winning opening opening process (step A13) will be described later.

  If the game process number is “5” in step A8, if the big hit round is the final round, a process for setting a time for discharging the remaining balls in the big prize opening and a big hit end process are performed. A big winning opening remaining ball process (step A14) for setting information necessary for the execution is performed.

  Details of the winning prize remaining ball processing (step A14) will be described later.

  If the game process number is “6” in step A8, a big hit end process (step A15) for setting information necessary for performing the special figure routine process (step A9) is performed.

  The details of the jackpot end process (step A15) will be described later.

  Thereafter, each data of the table prepared by the branch process is saved in the work area of the RWM (step A16).

  And after preparing the table for controlling the fluctuation | variation of the special figure 1 indicator 51 (step A17), the symbol fluctuation | variation control process (step A18) which concerns on the special figure 1 indicator 51 is performed. Then, after preparing the table for controlling the fluctuation | variation of the special figure 2 indicator 52 (step A19), the symbol fluctuation | variation control process (step A20) which concerns on the special figure 2 indicator 52 is performed.

  Details of the symbol variation control process (steps A18 and A20) will be described later.

  On the other hand, if it is determined in step A4 that the special figure game process timer has not expired (step A4; No), the process proceeds to step A17, and the subsequent processes are performed.

[Starter switch monitoring process]
Next, details of the start port switch monitoring process in the above-described special figure game process will be described.

  As shown in FIG. 27, in the start port switch monitoring process, first, a table for setting a start port winning effect command by the start winning port 36 (first start port) is prepared (step A111), and further, the first start port is set. After preparing the table for setting the hold information by (Step A112), the special start port switch common processing (Step A113) is performed.

  The details of the special figure start port switch common process in step A113 will be described later together with the special figure start port switch common process in step A120.

  Next, it is checked whether or not the ordinary electric accessory (ordinary variation winning device 37) is in operation, that is, whether or not the ordinary variation winning device 37 is activated and the game ball can be won. (Step A114) If it is determined that the ordinary electric accessory is in operation (Step A115; Yes), the process proceeds to Step A118, and the subsequent processes are performed. On the other hand, if it is determined in step A115 that the ordinary electric accessory is not operating (step A115; No), it is checked whether the number of fraudulent winnings to the normal variation winning device 37 is equal to or greater than the fraud occurrence determination number (step A116), a process of determining whether or not the number of fraudulent winnings is equal to or greater than the fraud determination number (step A117).

  The normal variation winning device 37 cannot win a game ball in the closed state, and can win a game ball only in the open state. Therefore, when the game ball wins in the closed state, it is a case where some abnormality or fraud has occurred. When there is a game ball won in such a closed state, the number is counted as the number of illegal wins. Then, it is determined whether or not the number of illegal winnings thus counted is equal to or greater than a predetermined fraud occurrence determination number (upper limit value).

  If it is determined in step A117 that the number of fraudulent winnings is not equal to or greater than the number of fraud determinations (step A117; No), a table for setting a start opening prize effect command by the normal variation winning device 37 (starting opening 2) is prepared (step A118). ) Further, after preparing a table for setting information on hold by the start port 2 (step A119), a special-purpose start port switch common process (step A120) is performed, and the process proceeds to step A121.

  On the other hand, when it is determined in step A117 that the number of fraudulent winnings is equal to or greater than the number of fraud determinations (step A117; Yes), the process proceeds to step A121 and the subsequent processes are performed. That is, the second start memory is not generated any more.

  Thereafter, a process of determining whether or not the ending game is being executed (step A121) is performed.

  If it is determined in step A121 that the ending game is not being executed (step A121; No), the start port switch monitoring process is terminated. On the other hand, if it is determined that the ending game is being executed (step A121; Yes), it is determined whether or not there is a game ball winning at the starting winning opening 36 (starting opening 1), that is, the game won at the starting winning opening 36. Processing for determining whether or not there is a game ball detection signal output from the start port 1 switch 36a for detecting a ball is performed (step A122).

  If it is determined in step A122 that there is a game ball winning at the starting port 1 (step A122; Yes), the ending winning ball counter is updated (+1) (step A123), and the starting port switch monitoring process is terminated. . On the other hand, if it is determined that there is no game ball winning in the starting port 1 (step A122; No), the starting port switch monitoring process is terminated.

[Special figure start port switch common processing]
Next, details of the special start port switch common process (steps A113 and A120) in the start port switch monitoring process described above will be described.

  The special figure start port switch common process is a process performed in common for each input when there is an input from the start port 1 switch 36a or the start port 2 switch 37a.

  As shown in FIG. 28, in the special figure start port switch common process, first, of the start port 1 switch 36a and the start port 2 switch 37a, an input is made to the start port switch to be monitored (for example, the start port 1 switch 36a). Is checked (step A201), and if it is determined that there is no input to the monitored start port switch (step A202; No), the special-purpose start port switch common process is terminated. On the other hand, if it is determined in step A202 that there is an input to the monitored start port switch (step A202; Yes), after saving the start port winning flag of the monitored start port switch (step A203), the big hit random number Is loaded (a big hit random number is extracted) (step A204).

  Subsequently, of the start port 1 switch 36a and the start port 2 switch 37a, information regarding the number of winnings to the start port switch to be monitored (for example, the start port 1 switch 36a) is sent to the management device outside the gaming machine 10. On the other hand, the number of times output (starting port signal control output number) is loaded (step A205). Then, the loaded value is updated (+1), it is checked whether or not the output count overflows (step A206), and if it is determined that the output count does not overflow (step A207; No), the updated value is set to RWM. Is saved in the start port signal output frequency area (step A208), and the process proceeds to step A209. On the other hand, if it is determined in step A207 that the number of outputs does not overflow (step A207; Yes), the process proceeds to step A209.

  Then, in step A209, among the start port 1 switch 36a and the start port 2 switch 37a, the update target special figure holding corresponding to the monitored start port switch (for example, the start port 1 switch 36a, etc.) is held (start memory). It is checked whether or not the number is less than the upper limit value (step A209), and processing for determining whether or not the special figure holding number is less than the upper limit value (step A210) is performed.

  If it is determined in step A210 that the number of special figure hold is less than the upper limit (step A210; Yes), a process for updating (+1) the number of special figure hold to be updated (for example, the special figure 1 hold number) ( After performing step A211), processing for calculating the address of the random number save area corresponding to the special figure reservation number (step A212) is performed.

  Subsequently, after preparing the decoration special figure reservation number command (MODE) of the start port switch to be monitored (for example, the start port 1 switch 36a) among the start port 1 switch 36a and the start port 2 switch 37a (step A213). ), Load the jackpot symbol random number of the start switch to be monitored (extract the jackpot symbol random number) (step A214), and prepare a decoration special symbol hold number command (ACTION) corresponding to the number of special symbol hold (step) A215), command setting processing (step A216) is performed.

  The jackpot random number is saved in the RWM random number save area (step A217), and the corresponding jackpot symbol random number is saved in the RWM random number save area, and the jackpot symbol random number is saved in the register (step A218). . Next, the corresponding fluctuation pattern random number 1 is loaded (the fluctuation pattern random number 1 is extracted), the loaded value is saved in the random number saving area of the RWM (step A219), and then the corresponding fluctuation pattern random number 2 is loaded ( (Variable pattern random number 2 is extracted), the loaded value is saved in the random number save area of the RWM (step A220), and then the corresponding variable pattern random number 3 is loaded (variable pattern random number 3 is extracted) and the loaded value Is saved in the random number saving area of the RWM (step A221).

  Subsequently, the jackpot symbol random number corresponding to the monitored start port switch saved in the register in step A218 is loaded, and the loaded value is prepared for use in the special figure hold information determination process (step A223) described later. (Step A222). Then, a special figure hold information determination process (step A223) is performed, and the special figure start port switch common process is terminated.

  On the other hand, if it is determined in step A210 that the special figure hold number is not less than the upper limit (step A210; No), it is checked whether or not the input of the start port switch according to step A202 is the input of the start port 1 switch 36a. (Step A224), if it is determined that the input of the start port 1 switch 36a is (Step A225; Yes), a decoration special figure hold number command (overflow command) is prepared (Step A226), and command setting processing (Step A227) ) To complete the special figure start port switch common process.

  On the other hand, when it is determined in step A225 that the input of the start port 1 switch 36a is not input (step A225; No), the special drawing start port switch common process is terminated.

[Special figure hold information judgment processing]
Next, the details of the special figure hold information determination process (step A223) in the above-described start port switch common process will be described.

  The special figure hold information determination process is a look-ahead process for determining the result related information corresponding to the start memory before the start timing of the special figure variation display game based on the corresponding start memory.

  As shown in FIG. 29, first, it is checked whether or not the input of the start port switch according to step A202 of the special-purpose start port switch common process is the input of the start port 2 switch 37a (step A231). If it is determined that the input of the two switches 37a is not input (step A232; No), the process of determining whether or not the open extension function of the normal variation winning device 37 is operating, that is, whether or not the normal variation winning device 37 is being supported (step) A233) is performed.

  Here, if it is determined that the normal variation winning device 37 is not being supported (step A233; No), a process of determining whether or not the gaming machine 10 is in a big hit (special game state) (step A234) is performed.

  If it is determined in step A234 that the jackpot is not being hit (step A234; No), the jackpot determination process for determining whether or not the acquired jackpot random number value matches the jackpot determination value is a jackpot determination process (step A235) is performed. The jackpot determination process in step A235 is the same as the jackpot determination process in the special figure routine process (see FIG. 35), and details thereof will be described later.

  On the other hand, if it is determined in step A233 that the normally variable winning device 37 is being supported (step A233; Yes), or if it is determined in step A234 that it is a big hit (step A234). ; Yes), the special figure hold information determination process is terminated.

  In other words, when the input of the start port switch according to step A202 of the special-purpose start port switch common processing is the start port 1 switch 36a, when the normal variation winning device 37 is being supported or is a big hit, the start memory is stored in the start memory. The prefetch process for determining the corresponding result related information is not performed.

  If it is determined in step A232 that the input is the start port 2 switch 37a (step A232; Yes), the process proceeds to step A235 without performing the processes in step A233 and step A234. The subsequent processing is performed.

  In other words, when the input of the start port switch according to step A202 of the special figure start port switch common processing is the start port 2 switch 37a, the start is performed regardless of whether the normal variation winning device 37 is being supported or the big hit. A prefetching process for determining the result related information corresponding to the storage is performed.

  And after performing the process (step A236) which sets a loss information table, if it determines with the determination result of the big hit determination process in step A235 not being a big hit (step A237; No), a process will transfer to step A245.

  On the other hand, if it is determined that the determination result of the jackpot determination process in step A235 is a jackpot (step A237; Yes), the jackpot symbol random number check table 1 is prepared (step A238).

  Next, it is checked whether or not the input of the start port switch according to step A202 of the special processing of the start port switch is the input of the start port 1 switch 36a (step A239), and it is not the input of the start port 1 switch 36a. If it determines with (step A240; No), it replaces with the jackpot symbol random number check table 1 prepared at step A238, and the jackpot symbol random number check table 2 is prepared (step A241).

  Then, after performing a process of acquiring a winning information pointer corresponding to the jackpot symbol random number (step A242), a process of setting the address table of the jackpot information table (step A243) is performed, and the jackpot information corresponding to the winning information pointer A process of acquiring a table (step A244) is performed.

  If it is determined in step A240 that the input is the start port 1 switch 36a (step A240; Yes), the process proceeds to step A242, and the big hit symbol random number check table 1 prepared in step A238 is displayed. Based on this, the subsequent processing is performed.

  Next, a process for obtaining start opening prize effect information from the jackpot information table (step A245) is performed, and the start opening prize effect information is saved in the symbol information area for work of the RWM (step A246).

  Subsequently, a process for obtaining a start opening prize effect symbol command from the jackpot information table (step A247) is performed, and the start opening prize effect symbol command is saved in the winning effect symbol command area of the RWM (step A248).

  Next, after preparing the start port winning flag of the start port switch to be monitored among the start port 1 switch 36a and the start port 2 switch 37a (step A249), the special information set for the start port to be monitored Special figure information setting processing (step A250) is performed. Subsequently, after performing the latter half variation pattern setting process (step A251) for setting the latter half variation pattern among the variation modes in the special figure variation display game, the variation pattern setting process (step A251) is performed. Step A252) is performed.

  Note that the special figure information setting process in step A250, the latter half fluctuation pattern setting process in step A251, and the fluctuation pattern setting process in step A252 are the special figure information setting process in the special figure ordinary process (see FIG. 38), the latter half fluctuation pattern, respectively. This is the same as the setting process (see FIG. 39) and the variation pattern setting process (see FIG. 40), and details thereof will be described later.

  Then, a start opening winning effect command corresponding to the variation pattern is prepared (step A253), and a command setting process (step A254) is performed. Subsequently, a start opening winning effect command command is loaded and prepared from the winning effect symbol command area (step A255), a command setting process (step A256) is performed, and the special figure hold information determination process is terminated.

  In other words, a start opening prize command command is prepared in step A253, and a starting opening prize drawing command command is prepared in step A255, so that the determination result (prefetch result) of the result related information corresponding to the start memory can be handled. The effect control device 300 can be notified before the start timing of the special figure variation display game based on the starting memory to be performed, and in particular, by changing the number of special figure hold displayed on the display device 41, the special figure The result related information can be notified to the player before the start timing of the variable display game.

[Count switch monitoring processing]
Next, details of the count switch monitoring process in the special figure game process described above will be described.

  As shown in FIG. 30, in the count switch monitoring process, first, it is checked whether or not the special winning opening of the special variable winning device 38 is open (step A261), and the special winning opening is open (step A261). If it is determined that there is an input from the count switch 38a (step A263), and if it is determined that there is an input from the count switch 38a (step A264; Yes), the winning prize counter is checked. A process of updating (+1) the numerical value (step A265) is performed.

  Subsequently, it is checked whether or not the count number of the winning prize counter has reached the upper limit (step A266), and if it is determined that the winning prize count has reached the upper limit (step A267; Yes), A process of clearing the figure game process timer to 0 (step A268) is performed, and the count switch monitoring process is terminated.

  Whether it is determined in step A262 that the special winning opening is not open (step A262; No), or whether it is determined in step A264 that there is no input from the count switch 38a (step A264; No). ) Alternatively, if it is determined in step A267 that the number of winning prizes has not reached the upper limit (step A267; No), the count switch monitoring process is terminated.

[Special figure routine processing]
Next, the details of the special figure routine process (step A9) in the special figure game process described above will be described.

  As shown in FIG. 31, in the special figure normal processing, first, it is checked whether or not the second special figure holding number (second starting memory number) is 0 (step A301).

  When it is determined that the second special figure hold number is 0 (step A302; Yes), it is checked whether or not the first start memory number (first special figure hold number) is 0 (step A303).

  If it is determined that the number of first special figure hold is 0 (step A304; Yes), it is checked whether the customer waiting demo has already started (step A305), and the customer waiting demo has not started. That is, if it is determined that the process has not been started (step A306; No), a process of setting the customer waiting demo flag during the customer waiting demo (step A307) is performed.

  Subsequently, a customer waiting demonstration command is prepared (step A308), and command setting processing (step A309) is performed.

  On the other hand, if it is determined in step A305 that the customer waiting demo has already started (step A306; Yes), the customer waiting demo flag is already set during the customer waiting demo (step A307), and the customer waiting demo command is also prepared ( Step A308) and the command setting process (Step A309) are also executed, so the process proceeds to Step A310 without performing these processes.

  Next, a process for preparing a table for shifting to the special figure normal process (step A310), specifically, the process number “0” related to the special figure normal process, and the special prize opening fraud monitoring period are included in the table. A process for setting a prescribed flag (big prize opening fraud monitoring information) or the like is performed, and the special figure routine process is terminated.

  On the other hand, if it is determined in step A302 that the second special figure reservation number is not 0 (step A302; No), special figure 2 fluctuation start processing (step A311) is performed. Details of the special figure 2 fluctuation start process in step A311 will be described later.

  Then, a process (step A312) for preparing a table (for the second special figure) for shifting to the special figure changing process (step A312), specifically, the process number “1” relating to the special figure changing process is included in the table. , Information relating to the end of the customer waiting demonstration, test signals relating to the fluctuation of the second special figure, information for controlling the second special figure fluctuation display game in the special figure 2 display 52 (for example, the special figure 2 display 52 And the like, and a special figure normal processing is completed.

  If it is determined in step A304 that the first special figure hold number is not 0 (step A304; No), special figure 1 fluctuation start processing (step A313) is performed. Details of the special figure 1 fluctuation start process in step A313 will be described later.

  Then, a process (step A314) for preparing a table (for the first special figure) for shifting to the special figure changing process (step A314), specifically, the process number “1” relating to the special figure changing process is included in the table. , Information related to the end of the customer waiting demonstration, test signals related to the fluctuation of the first special figure, information for controlling the first special figure fluctuation display game in the special figure 1 display 51 (for example, the special figure 1 display 51 And the like, and a special figure normal processing is finished.

  In this way, the second special figure hold number in step A301 and step A302 is checked before the first special figure hold number check in step A303 and step A304, so that the second special figure hold number is zero. If not, the special figure 2 fluctuation start process (step A311) will be executed.

  That is, the second special figure variation display game is executed with priority over the first special figure variation display game.

[Special Figure 1 Change Start Processing]
Next, the details of the special figure 1 fluctuation start process (step A313) in the above-described special figure ordinary process will be described.

  The special figure 1 fluctuation start process is a process performed at the start of the first special figure fluctuation display game. Specifically, as shown in FIG. 32, first, whether or not the first special figure fluctuation display game is a big hit. The big hit flag 1 for determining whether or not the big hit flag 1 is set (step A321). Details of the big hit flag 1 setting process in step A321 will be described later.

  Next, the special figure 1 stop symbol setting process (step A322) related to the setting of the first special figure stop symbol (special figure 1 stop symbol) is performed. In this process, the stop symbol number is set in the stop symbol number storage area 2304 of the first special figure variation display game management storage area 2300. Details of the special figure 1 stop symbol setting process in step A322 will be described later. Next, the test signal corresponding to the first special figure stop symbol number (special figure 1 stop symbol) is saved (step A323).

  Subsequently, after the stop symbol pattern information set in the special symbol 1 stop symbol setting process is loaded (step A324), the stop symbol pattern information is saved in the symbol information area for work of the RWM (step A325).

  Next, a special figure 1 fluctuation flag (a flag indicating that fluctuation is in progress) is loaded and prepared (step A 326), and this special figure 1 fluctuation flag is displayed in the RWM special figure fluctuation flag area (first special figure fluctuation display). It is saved in the changing / stopped identification information storage area 2301) of the game management storage area 2300 (step A327).

  Subsequently, a table relating to the setting of the special figure second half fluctuation is prepared (step A328), and the special figure information setting process (step A329) for setting the special figure information is performed. Subsequently, among the variation modes in the first special figure variation display game, after performing the latter half variation pattern setting process (step A330) for setting the latter half variation pattern, the variation for setting the variation aspect of the first special figure variation display game. Pattern setting processing (step A331) is performed. Then, the fluctuation start information setting process (step A332) for setting the fluctuation start information of the first special figure is performed, and the special figure 1 fluctuation start process is ended.

  Details of the special figure information setting process in step A329, the latter half fluctuation pattern setting process in step A330, the fluctuation pattern setting process in step A331, and the special figure 1 fluctuation start process in step A332 will be described later.

[Special Figure 2 Variation Start Processing]
Next, the details of the special figure 2 fluctuation start process (step A311) in the above-described special figure ordinary process will be described.

  The special figure 2 fluctuation start process is a process performed at the start of the second special figure fluctuation display game. Specifically, as shown in FIG. 33, first, whether or not the second special figure fluctuation display game is a big hit. The big hit flag 2 for determining whether or not the big hit flag 2 is set (step A341).

  Next, the special figure 2 stop symbol setting process (step A342) related to the setting of the second special figure stop symbol is performed. In this process, the stop symbol number is set in the stop symbol number storage area 2304 of the second special figure variation display game management storage area 2310. Next, the test signal corresponding to the special figure 2 stop symbol number is saved (step A343). Note that the details of the special figure 2 stop symbol setting process in step A342 may be read as the special figure 1 stop symbol setting process described later in FIG.

  Subsequently, after the stop symbol pattern information set in the special symbol 2 stop symbol setting process is loaded (step A344), the stop symbol pattern information is saved in the symbol information area for work of the RWM (step A345).

  Next, a special figure 2 fluctuation flag (a flag indicating that fluctuation is in progress) is loaded and prepared (step A346), and this special figure 2 fluctuation flag is displayed in the RWM special figure fluctuation flag area (second special figure fluctuation display). It is saved in the changing / stopped identification information storage area 2301) of the game management storage area 2310 (step A347).

  Subsequently, a table relating to the setting of the special figure second half fluctuation is prepared (step A348), and special figure information setting processing (step A349) for setting special figure information is performed. Subsequently, among the variation modes in the second special figure variation display game, after performing the latter half variation pattern setting process (step A350) for setting the second half variation pattern, the variation for setting the variation aspect of the second special figure variation display game. Pattern setting processing (step A351) is performed. Thereafter, the fluctuation start information setting process (step A352) for setting the fluctuation start information of the second special figure is performed, and the special figure 2 fluctuation start process is ended.

  32 is a big hit flag 1 setting process (step A321), a special figure 1 stop symbol setting process (step A322), a special figure information setting process (step A329), and a latter half fluctuation pattern in the special figure 1 fluctuation start process shown in FIG. Each of the setting process (step A330), the fluctuation pattern setting process (step A331), and the fluctuation start information setting process (step A332) will be described.

  33, the big hit flag 2 setting process (step A341), the special figure 2 stop symbol setting process (step A342), the special figure information setting process (step A349), and the latter half fluctuation pattern setting in the special figure 2 fluctuation start process shown in FIG. Each of the process (step A350), the fluctuation pattern setting process (step A351), and the fluctuation start information setting process (step A352) is a big hit flag 1 setting process (step A321) and a special figure 1 stop in the special figure 1 fluctuation start process. Symbol setting process (step A322), special figure information setting process (step A329), second half fluctuation pattern setting process (step A330), fluctuation pattern setting process (step A331), and fluctuation start information setting process (step A332). This is the same, and detailed description thereof is omitted.

[Big hit flag 1 setting process]
Next, the details of the big hit flag 1 setting process (step A321) in the above-described special figure 1 fluctuation start process will be described.

  As shown in FIG. 34, in the big hit flag 1 setting process, first, after losing information to the big hit flag 1 (step A361), the big hit random number is loaded from the random number saving area of the RWM and prepared (step A362). A jackpot determination process (step A363) is performed for determining whether or not the acquired jackpot random number value matches the jackpot determination value.

  Details of the big hit determination process in step A363 will be described later.

  If it is determined that the determination result of the big hit determination process in step A363 is a big hit (step A364; Yes), after the big hit information 1 is overwritten and saved in the big hit flag 1 in which the lost information is saved in step A361 (step A365) ), The RWM random number save area is cleared to 0 (step A366), and the big hit flag 1 setting process is terminated.

  On the other hand, if it is determined that the determination result of the big hit determination process in step A363 is not big hit (step A364; No), the process shifts to step A366 with the shift information saved in the big hit flag 1, and the subsequent processing I do.

[Big hit judgment processing]
Next, the details of the jackpot determination process (step A363) in the above jackpot flag 1 setting process will be described.

  As shown in FIG. 35, in the big hit determination process, first, a process (step A371) for setting a lower limit determination value for big hit determination is performed. Thereafter, it is checked whether or not the value of the big hit random number is less than the lower limit judgment value, that is, whether or not the value of the big hit random number read in step A362 of FIG. 34 is less than the lower limit value of the big hit random number hit judgment value. If it is checked (step A372) and it is determined that the value of the big hit random number is not less than the lower limit determination value (step A373; No), the upper limit determination is made when the probability of the hit result in the special figure variation display game is in a low probability state Processing for setting a value (step A374) is performed.

  Next, a process of determining whether or not the probability of the winning result in the special figure variation display game is in a high probability state (probability variation state) (step A375) is performed. Here, if it is determined that the state is in a high probability state (step A375; Yes), a process for setting an upper limit determination value when the probability of a hit result in the special figure variation display game is in a high probability state (step A376). ), Whether or not the value of the big hit random number exceeds the upper limit judgment value, that is, the value of the big hit random number read in step A362 in FIG. 34 is larger than the upper limit value of the hit judgment value of the big hit random number. It is checked whether it is larger (step A377), and the big hit determination process is terminated.

  On the other hand, if it is determined in step A375 that the high probability state is not reached (step A375; No), step A376 is skipped and whether the value of the big hit random number is larger than the upper limit determination value set in step A374. Is checked (step A377), and the big hit determination process is terminated.

  Further, if it is determined in step A373 that the value of the big hit random number is less than the lower limit determination value (step A373; Yes), the steps A374 to A377 related to the determination as to whether or not the value of the big hit random number is larger than the upper limit determination value. The jackpot determination process is terminated without performing the process.

[Special figure 1 stop symbol setting process]
Next, the details of the special figure 1 stop symbol setting process (step A322) in the special figure 1 fluctuation start process described above will be described.

  The special figure 1 stop symbol setting process is a process for setting a stop symbol in the first special figure variation display game. First, as shown in FIG. 36, the first special figure variation display game management storage area 2300 is stopped. In the number storage area 2304, the stop symbol number (value of “0”) at the time of loss is stored (step A381). Next, the stop symbol pattern number at the time of losing is stored in a stop symbol pattern information area (not shown) (step A382).

  Next, it is checked whether or not the big hit flag 1 is a big hit, that is, whether or not the special figure 1 fluctuation display game to be executed is a big hit (step A383), and is a big hit (step A384; Yes). If it is determined, the process of setting the jackpot symbol table of the first special figure (step A385) is performed.

  Subsequently, the jackpot symbol random number is loaded from the random number saving area of the RWM (step A386), the process of obtaining the stop symbol number corresponding to the jackpot symbol random number is performed (step A387), and the first special figure variable display game management is performed. The stop symbol number at the time of big hit is saved in the stop symbol number storage region 2304 of the storage area 2300 (step A388).

  At this time, the stop symbol number at the time of loss stored in the stop symbol number confirmation area 2304 in step A381 is overwritten by the stop symbol number at the time of big hit. Then, by hitting the jackpot symbol random number, the type of jackpot given to the player (presence / absence of occurrence of probability variation state, presence / absence of short-time state, number of rounds) is determined, and the stop corresponding to the type of jackpot The symbol number (any value from “1” to “10”) is stored in the symbol number storage area 2304 when stopped.

  Next, stop symbol information setting processing (step A389) for setting stop symbol information corresponding to the first special symbol stop symbol (big hit symbol) is performed. Details of the stop symbol information setting process in step A389 will be described later.

  Next, a process for setting a decoration special figure command table (step A390) is performed. When it is determined in step A384 that the big hit flag 1 is not big hit (step A384; No), the processing of step A385 to step A389 is not performed. In the state where the stop symbol number at the time of failure saved in step A382 is saved in the stop symbol pattern information and the stop symbol number at the time of failure saved in step A382 is saved, the process proceeds to step A390, and the subsequent processing I do.

  Subsequently, after performing the process (step A391) of acquiring the decoration special figure 1 command (ACTION) corresponding to the stop symbol pattern information (step A391), the process of acquiring the decoration special figure 1 command (MODE) (step A392) is performed. These commands are saved in the decoration special figure command area of the RWM (step A393).

  Then, the RWM random number save area is cleared to 0 (step A394), and the special figure 1 stop symbol setting process is terminated.

  The same applies to the special figure 2, and when the special figure 2 variable display game is to be removed, the stopped special symbol number storage area 2304 in the second special figure variable display game management storage area 2310 is stopped. The number is stored in the same manner as described above. Also, when the special figure 2 variable display game is a big hit, the stop symbol corresponding to the type of the big hit given to the player is stored in the stop symbol number storage area 2304 of the second special figure variable display game management storage area 2310. The number is stored in the same manner as described above.

[Stop symbol information setting process]
Next, details of the stop symbol information setting process (step A389) in the above-described special symbol 1 stop symbol setting process will be described.

  As shown in FIG. 37, in the stop symbol information setting process, first, a process (step A401) of setting a big hit stop symbol information table when the probability of a hit result in the special symbol variation display game is in a low probability state. Do.

  Next, a process of determining whether or not the opening extension function of the normal variation winning device 37 is operating, that is, whether or not the normal variation winning device 37 is being supported (step A402) is performed.

  Here, if it is determined that the normal variation winning device 37 is being supported (step A402; Yes), the probability of being a hit result in the special figure variation display game is a high probability state (probability variation state), or a normal variation winning device. A process of setting a jackpot stop symbol information table when the operation state of 37 is a short-time operation state (step A403) is performed.

  If it is determined in step A402 that the normally variable winning device 37 is not supported (step A402; No), the process proceeds to step A404 without performing the big hit stop symbol information table setting process in step A403.

  Subsequently, the processing after step A404 is performed using the jackpot stop symbol information table set at step A401 or step A403.

That is, after the process of obtaining the stop symbol pattern number corresponding to the stop symbol number (step A404), the stop symbol pattern number is saved in the stop symbol information storage area of the RWM (step A405).
That is, after performing the process (step A404) of acquiring one symbol number (stop symbol number) as a stop symbol pattern number from the jackpot stop symbol information table set in steps A401 and A403, the stop symbol pattern number Is saved in the stop symbol information storage area of the RWM (step A405).

  Subsequently, after performing a process (step A406) of acquiring a probability variation determination flag corresponding to the stop symbol number (step A406), the probability variation determination flag is saved in the probability variation determination flag area of the RWM (step A407).

  Next, after performing processing for obtaining round number upper limit data corresponding to the stop symbol number (step A408), the round number upper limit data is saved in the round number upper limit determination flag area of the RWM (step A409). .

  Subsequently, after performing a process (step A410) of acquiring the big prize opening data corresponding to the stop symbol number, the big prize opening data is saved in the big prize opening data determination flag area of the RWM (step A411). ).

  Next, after performing the process of obtaining the fluctuation distribution data corresponding to the stop symbol number (step A412), the fluctuation distribution data is saved in the fluctuation distribution determination flag area of the RWM (step A413), and the stop symbol information setting is performed. The process ends.

[Special figure information setting process]
Next, the details of the special figure information setting process (step A349) in the special figure 1 fluctuation start process described above will be described.

  As shown in FIG. 38, in the special figure information setting process, first, of the first special figure and the second special figure, a flag indicating the special figure to be set (for example, the first special figure) is used as the special figure flag. Save (Step A421). Next, of the first special figure and the second special figure, the number of holdings of the target special figure is loaded as a holding number pointer (step A422). Next, after performing the process of setting the basic value 0 as the fluctuation distribution pointer (step A423), the process of setting the value of the probability that the hit result is the low probability state in the special figure variable display game as the game mode pointer ( Step A424) is performed.

  Next, a process of determining whether or not the opening extension function of the normal variation winning device 37 is operating, that is, whether or not the normal variation winning device 37 is being supported (step A425) is performed.

  If it is determined that the normal variation winning device 37 is currently supported (step A425; Yes), after loading the variation pattern distribution information as the variation distribution pointer (step A426), the basic value 0 is set as the hold number pointer. Processing (step A427) is performed, and subsequently processing (step A428) for setting the value of the operation state of the normal variation winning device 37 as the game mode pointer to the time-short operation state is performed.

  Next, a process of determining whether or not the probability of a hit result in the special figure variation display game is in a high probability state (probability variation state) (step A429) is performed.

  Here, if it is determined that the probability of a hit result in the special figure fluctuation display game is in a high probability state (step A429; Yes), a value selected when the special figure fluctuation display game is in a high probability state is determined. Then, a process of setting as a game mode pointer (step A430) is performed.

  Here, when a plurality of game modes are set as the game mode and the probability for determining the hit in the special figure variation display game is in a high probability state, the game mode has a high probability mode A and a high probability mode B. It is configured as follows. In the high probability mode A and the high probability mode B, the probability of hit determination in the special figure variation display game is common, but the variation pattern (effect pattern) of the special figure variation display game in each mode is set differently. ing.

  Then, in step A430, a game mode pointer corresponding to the high probability mode A is set, and a process (step A431) for checking the variation pattern distribution information to determine whether or not the game mode pointer needs to be corrected is performed. That is, it is checked whether the current game mode is the high probability mode A or the high probability mode B.

  Subsequently, when it is determined that correction is necessary (step A432; Yes) based on the check process in step A431, a process for correcting the game mode pointer (step A433) is performed. That is, if it is determined by the check process in step 431 that the current game mode is the high probability mode B, the game mode pointer corresponding to the high probability mode B is set (corrected).

  In the present embodiment, a special number variation display game that is executed a predetermined number of times (for example, four times) after the special game state is finished has a high probability state that the probability of being a hit result (the probability of deriving a special result mode) is high. In this state, the high probability mode B corresponds to the game mode. That is, in the special figure information setting process in the special figure variation display game executed a predetermined number of times (for example, four times) executed after the special game state is finished, it is determined that correction is necessary in step A432 based on the check process in step A431. (Step A432; Yes), a game mode pointer corresponding to the high probability mode B is set.

  Subsequently, it is checked whether or not the number of reservations of the special figure to be set (for example, the first special figure) is less than 2 among the first special figure and the second special figure (step A434).

  In step A429, it is determined that the probability of the winning result in the special figure variation display game is not in a high probability state (step A429; No), or in step A432, the game mode pointer is set. Even when it is determined that correction is not necessary (step A432; No), the process proceeds to step A434, and the subsequent processes are performed.

  If it is determined that the number of holds is not less than 2 (step A435; No), a process of setting 1 as a hold number pointer is performed (step A436).

  Next, a process of adding the number-of-holds pointer as a hold / game mode pointer and the game mode pointer (step A437) is performed, and the hold / game mode pointer is saved in the first half variation information 1 area targeted for RWM ( Step A438).

  If it is determined in step A425 that the normally variable winning device 37 is not supported (step A425; Yes), or if it is determined in step A435 that the number of holds is less than two ( Step A435; Yes), the process proceeds to step A437, and the subsequent processing is performed.

  Subsequently, after the fluctuation distribution pointer is saved in the first half fluctuation information 2 area to be the target of RWM (step A439), the stop symbol pattern information is loaded (step A440), and the variation selection group corresponding to the stop symbol pattern information A process of setting information (step A441) is performed.

  Next, the flag saved in the special figure flag is checked (step A442). Of the first special figure and the second special figure, the flag indicating the first special figure has not been saved. If it is determined that the flag indicating the special figure is saved (step A443; No), a process of correcting the variation selection group information (step A444) is performed.

  Here, since the variation selection group information corresponding to the stop symbol pattern information set in step A441 corresponds to the first special diagram variation display game, the second special diagram is shown by the check process in step A442. When it is determined that the flag is saved, the variation selection group information corresponding to the stop symbol pattern information is set to the one corresponding to the second special diagram variation display game.

  That is, the variation selection group information corresponding to the stop symbol pattern information set in step A441 is corrected to the one corresponding to the second special diagram variation display game.

  On the other hand, if it is determined that the flag indicating the first special figure is saved (step A443; Yes), the process proceeds to step A445 without performing the process of step A444.

  That is, the subsequent processing is executed based on the variation selection group information corresponding to the stop symbol pattern information set in step A441.

  Subsequently, after the pending number pointer is saved in the fluctuation selection group information 1 (step A445), the fluctuation selection group information is saved in the fluctuation selection group information 2 (step A446).

  Next, processing for setting the address of the variation selection table corresponding to the stop symbol pattern is performed (step A447), and the address is saved in the variation table save area to be the target of RWM (step A448).

  Subsequently, a process of calculating special figure information from the fluctuation selection group information and the fluctuation distribution pointer (step A449) is performed, and the special figure information setting process is terminated.

[Second half fluctuation pattern setting process]
Next, details of the latter half variation pattern setting process (step A350) in the above-described special figure 1 variation start process will be described.

  As shown in FIG. 39, in the latter-half variation pattern setting process, first, the special figure information set in the special figure information setting process (for example, the first special figure) among the first special figure and the second special figure. The process of calculating the address of the variation group selection table corresponding to (Step A451) is performed.

  Next, it is checked whether or not the stop symbol pattern set in the special symbol 1 stop symbol setting process is an off symbol pattern (step A452), and the stop symbol pattern is an off symbol pattern (step A453; Yes). ), After loading the hold number pointer from the variable selection group information 1 to be set (step A454), processing for calculating the address of the change group selection table corresponding to the hold number pointer is performed (step A455).

  Subsequently, as a random number for determination for selecting the latter half variation pattern group of the special figure variation display game, the variation pattern random number 1 is loaded from the target area and prepared (step A456), and then the address is calculated in step A455. The prepared variation group selection table is prepared (step A457), and a 2-byte distribution process (step A458) relating to the specification of the latter half variation selection table is performed.

  In step A453, if it is determined that the stop symbol pattern is not a deviant symbol pattern (step A453; No), the process proceeds to step A456, and the variation pattern random number 1 is loaded from the target area and prepared. Later (step A456), a variation group selection table whose address is calculated in step A451 is prepared (step A456), and a 2-byte distribution process (step A458) related to the specification of the latter half variation selection table is performed.

  Next, after obtaining and preparing the address of the latter half variation selection table obtained by performing the 2-byte distribution process (step A459), as a determination random number for selecting the latter half variation pattern of the special figure variation display game Then, the fluctuation pattern random number 2 is loaded and prepared from the target area (step A460), and a distribution process (step A461) for specifying the latter half fluctuation number is performed.

  Next, a process for obtaining the latter half variation number obtained by performing the distribution process (step A462) is performed, and the latter half variation number is saved in the latter half variation number area that is the target of the RWM (step A463). The latter half variation pattern setting process is terminated.

[Variation pattern setting process]
Next, the details of the variation pattern setting process (step A351) in the above-described special figure 1 variation start process will be described.

  As shown in FIG. 40, in the variation pattern setting process, first, the variation selection group information 2 is loaded (step A471), and the first half variation selection address table (1st) corresponding to the variation selection group information 2 is set. (Step A472) is performed.

  Next, the second half variation number is loaded from the target second half variation number area (step A473), and an address corresponding to the second half variation number in the first half variation selection address table (1st) is calculated (step A474). Subsequently, after performing the process of obtaining the address of the first half variation selection address table (2nd) from the calculated address (step A475), the target first half variation information 1 is loaded as a table pointer (step A476).

  Next, it is checked whether or not the latter half variation number is 1 (step A477), and if the latter half variation number is not 1 (step A478; No), the target first half variation information 2 is loaded as a table pointer. (Step A479).

  Subsequently, a process of calculating the address of the first half variation selection address table (2nd) corresponding to the table pointer (step A480) is performed.

  If it is determined in step A478 that the latter half change number is 1 (step A478; Yes), the process proceeds to step A480, and the subsequent processes are performed.

  Next, after obtaining and preparing the address of the first half variation selection table from the address calculated in step A480 (step A481), the variation is used as a determination random number for selecting the first half variation pattern of the special figure variation display game. The pattern random number 3 is loaded and prepared from the target area (step A482), and a distribution process (step A483) for specifying the first-half variation number is performed.

  Next, the process (step A484) of acquiring the first half variation number obtained as a result of the distribution process is performed, and the variation pattern setting process is terminated.

[Variation start information setting process]
Next, details of the variation start information setting process (step A352) in the above-described special figure 1 variation start process will be described.

  As shown in FIG. 41, in the change start information setting process, first, after clearing the RWM save area of the target change pattern random number (step A491), it corresponds to the first half change number acquired in the change pattern setting process. The process of obtaining the value of the first half fluctuation time value table (step A492) is performed, and the process of obtaining the value of the second half fluctuation time value table corresponding to the second half fluctuation number obtained in the second half fluctuation pattern setting process ( Step A493) is performed.

  Next, after the process of adding the acquired first-half variation time value and the latter-half variation time value (step A494), the addition value is saved in the special figure game process timer (step A495).

  Subsequently, after a fluctuation command (MODE) corresponding to the first half fluctuation number is calculated and prepared (step A496), the value of the second half fluctuation number is prepared as a fluctuation command (ACTION) (step A497), and command setting processing ( Step A498) is performed.

  Next, a decoration special figure command corresponding to the stop symbol pattern information related to the decoration special figure variation display game is loaded and prepared from the RWM special decoration command area (step A499), and command setting processing (step A500) is executed. Do.

  Subsequently, a decoration special figure 1 hold number command (MODE) relating to the special figure hold number displayed on the display device 41 is prepared (step A501), and the address of the random number save area of the first special figure of the RWM is prepared. (Step A502).

  Next, it is checked whether the special figure fluctuation flag saved in the special figure fluctuation flag area is the special figure 1 fluctuation flag or the special figure 2 fluctuation flag (step A503). That is, if it is determined that the special figure 2 variation flag is set (step A504; No), a decoration special figure 2 hold number command (MODE) relating to the special figure hold number displayed on the display device 41 is prepared (step A505). The address of the random number saving area of the second special figure of the RWM is prepared (step A506).

  Subsequently, a process (step A507) of updating (-1) the number of special figure reservations to be changed among the first special figure and the second special figure is performed.

  Also, when it is determined in step A504 that the flag is the special figure 1 fluctuation flag (step A504; Yes), the process proceeds to step A507 and the subsequent processes are performed.

  Next, among the first special figure and the second special figure, a decoration special figure holding number command (ACTION) to be changed is prepared (step A508), and a command setting process (step A509) is performed.

  Then, among the first special figure and the second special figure, the random number save area of the special figure to be changed is shifted (step A510), and the process of clearing the free area after the shift (step A511) is performed to start the change. The information setting process ends.

[Special figure changing process]
Next, the details of the special figure changing process (step A10) in the special figure game process described above will be described.

  As shown in FIG. 42, in the special figure changing process, first, a special figure stop time pointer is set (step A521) when a special result mode is derived in the special figure change display game and a big hit is made. .

  Next, the stop symbol pattern information set in the special symbol 1 stop symbol setting process is checked (step A522), and if it is determined that the stop symbol pattern is a big hit symbol (step A523; Yes), in step A521 When the special figure stop time pointer for the set big hit is set, the process proceeds to step A528.

  On the other hand, when it is determined in step A523 that the stop symbol pattern is not a big hit symbol, that is, it is an outlier symbol (step A523; No), the special result mode is not derived in the special symbol variation display game, and the symbol pattern is lost The special figure stop time pointer is set (step A524).

  Subsequently, it is checked whether or not the latter half fluctuation number set in the latter half fluctuation pattern setting process is a number without reach (step A525), and the latter half fluctuation number is not a number without reach, that is, with reach. If it is determined that it is a number (step A526; No), a special figure stop time pointer is set in the case where the special result mode is not derived in the special figure fluctuation display game and the reach state occurs. Processing (step A527) is performed.

  If it is determined in step A526 that the second half variation number is a non-reach number (step A526; Yes), the process proceeds to step A528 without performing the process in step A527. Therefore, the special figure stop time pointer is set when the special result mode is not derived in the special figure variation display game and the reach state is not generated and the reach state does not occur.

  Next, a process for setting a special figure stop time table (step A528) is performed.

  Then, the stop time corresponding to the special figure stop time pointer set in any of steps A521, A524, and A527, that is, the special figure stop time pointer at the big hit set in step A521, set in step A527 A process of acquiring a stop time corresponding to either the special figure stop time pointer at the time of reach failure or the special figure stop time pointer set at step A524 (at the time of release without reach occurrence). After performing step A529), the acquired stop time is saved in the special figure game processing timer (step A530).

  Then, a process for preparing a table for shifting to the special figure display process (step A531), specifically, the process number “2” relating to the special figure display process, the first special figure and the first (2) A process for setting a test signal for stopping the fluctuation of the special figure, a symbol determination number signal for the number of times of execution of the special figure fluctuation display game for output to the external information terminal, and the like are performed, and the special figure changing process is terminated.

  At this time, the special figure 1 stop flag (a flag indicating that it is stopped) is saved in the changing / stopped identification information storage area 2301 of the first special figure change display game management storage area 2300 of the RWM, A special figure 2 stop flag (a flag indicating that it is stopped) is saved in the changing / stopped identification information storage area 2301 of the second special figure change display game management storage area 2310 of the RWM.

[Special figure display processing]
Next, details of the special figure display process (step A11) in the special figure game process described above will be described.

  As shown in FIG. 43, in the special chart display process, first, the big hit flag 2 set in the big hit flag 2 setting process in the special figure 2 fluctuation start process is loaded (step A541), and the RWM big hit flag 2 is loaded. Processing for clearing the area (step A542) is performed.

  Next, the loaded jackpot flag 2 is checked (step A543), and if it is determined that the jackpot is a jackpot (step A544; Yes), a process of clearing the RWM jackpot flag 1 area (step A550) is performed. A test signal related to the big hit (special figure 2 big hit) of the special figure variation display game is saved in the RWM (step A551), and the process proceeds to step A552.

  On the other hand, if it is determined in step A544 that the big hit flag 2 is not big hit (step A544; No), the big hit flag 1 set in the big hit flag 1 setting process in the special figure 1 fluctuation start process is loaded. (Step A545), a process of clearing the RWM big hit flag 1 area (Step A546) is performed.

  Subsequently, the loaded jackpot flag 1 is checked (step A547), and if it is determined that the jackpot is a jackpot (step A548; Yes), a test signal related to the jackpot (special chart one jackpot) of the first special figure variation display game is obtained. The data is saved in the RWM (step A549), and the process proceeds to step A552.

  Then, after saving the test signal relating to the special figure 1 big hit in step A549 described above or saving the test signal relating to the special figure 2 big hit in step A551, a process of setting the round number upper limit value table (step A552) is performed.

  Next, after obtaining the round number upper limit value corresponding to the round number upper limit determination flag (step A553), the round number upper limit value is saved in the round number upper limit area of the RWM (step A554). Subsequently, after obtaining the round LED pointer corresponding to the round number upper limit determination flag (step A555), the round LED point is saved in the round LED pointer area of the RWM (step A556).

  Next, a probability information command related to information for setting the probability of a hit result in the normal map variation display game and the special map variation display game as a normal probability state (low probability state) is prepared (step A557), and command setting processing is performed. (Step A558) is performed.

  Subsequently, the stop symbol pattern number set in the stop symbol information setting process is loaded from the stop symbol information storage area of the RWM (step A559), and a fanfare command corresponding to the stop symbol pattern number is prepared (step A560). ), Command setting processing (step A561).

  After that, a decoration special figure command corresponding to the stop symbol pattern information related to the decoration special figure variation display game is loaded and prepared from the decoration special figure command area of the RWM (step A562), and a command setting process (step A563) is performed.

  Next, the special winning opening release information determination flag is loaded (step A564), and external information data corresponding to the special winning opening release information determination flag is saved in the RWM (step A565).

  Subsequently, after the external information data corresponding to the state of the probability of the winning result in the normal figure fluctuation display game and the special figure fluctuation display game is saved in the RWM (step A566), it corresponds to the big prize opening release information determination flag. The fanfare time is set (step A567), and the fanfare time is saved in the special game process timer (step A568).

  Thereafter, after resetting the number of illegal winnings to the special winning opening (step A569), the illegal winning period illegal monitoring period flag is saved in the special winning opening illegal monitoring period flag (step A570).

  Then, a process of preparing a table for shifting to the fanfare / interval process (step A571), specifically, the process number “3” relating to the fanfare / interval process, and switching of various states in the table. The process of setting information, the process of clearing (0 clearing) the variation pattern distribution information saved in the variation pattern distribution information area in step A654 in the big hit end process shown in FIG. .

  Here, as information for switching the various states, for example, a signal indicating that the game state for output is a special game state (big hit state), a universal map display game, and a special map display game on the external information terminal A test signal indicating that the probability of winning a hit result is a normal probability state (low probability state), information related to clearing the number of winnings in the big winning mouth during the illegal winning mouth fraud monitoring period, the number of rounds in the special gaming state Information relating to clearing, information relating to display of the game state display LED (error indicator 58) relating to display of a high probability state, probability of hitting result in a general variable display game is a normal probability state (low probability state) Information for turning off the game state display LED (error indicator 58) related to the display of the high probability state that was turned on when the power failure was restored, information for controlling the special figure variation display game (for example, special figure variable) Information that sets the probability of a hit result in a display game to be a normal probability state (low probability state), and a hit result in a normal map fluctuation display game or a special figure fluctuation display game that is output to the effect control device 300 when a power failure is restored For example, information indicating that the probability of becoming a normal probability state (low probability state), information on clearing the number of remaining time reduction fluctuations after a big hit), and the like.

  If it is determined in step A548 that the big hit flag 1 is not a big hit (step A548; No) as a result of the check, as shown in FIG. 44, the game state is changed to a special figure fluctuation display game and a general figure fluctuation display game. A process for determining whether or not the time-short operation state is set and whether or not the time-short state is set to extend the opening time of the normal variation winning device 37 is performed (step A572).

  Here, if it is determined that the gaming state is not in the short-time state (step A572; No), the gaming state has a high probability state (probability variation state) that the winning result is a normal figure variation display game and a special figure variation display game. Processing for determining whether or not there is (step A573) is performed.

  If it is determined in step A573 that the gaming state is a high probability state (step A573; Yes), the high probability variation related to the number of times (for example, 10,000 times) the special figure variation display game is performed in the high probability state. After the number of times is updated (−1) (step A574), a process of determining whether or not the number of high probability fluctuations after the update is 0 (step A575) is performed.

  Here, if it is determined that the number of high-probability fluctuations is not 0 (step A575; No), a process for preparing a table for shifting to the special figure normal process (step A576), specifically, a special figure is added to the table. A process for setting the process number “0” or the like related to the normal process is performed, and the special figure display process is terminated.

  Even when it is determined in step A573 that the gaming state is not a high probability state (step A573; No), that is, when the gaming state is the normal state, the process proceeds to step A576, and thereafter Perform the process.

  On the other hand, if it is determined in step A575 that the number of high probability fluctuations is 0 (step A575; Yes), that is, the special figure fluctuation display game is executed a predetermined number of times (for example, 10,000 times) in a high probability state. When the game is completed, a probability information command for ending the game with a high probability state of the winning result in the special figure variation display game is prepared (step A577), and the command setting process (step A578) is executed. Do.

  As a result, the effect control device 300 is notified that the high probability state has ended.

  Next, a process (step A579) for preparing a table (for high probability end) for shifting to the special figure normal process (step A579), specifically, in the table, the process number “0” relating to the special figure normal process, In the special figure variation display game, the probability of hitting the game is set to the normal probability state (low probability state), setting the information indicating the continuation of the short-time state, etc., and the variation pattern distribution in step A654 in the big hit end processing shown in FIG. The process of clearing (0 clearing) the variation pattern distribution information saved in the information area is performed, and the special figure display process is terminated.

  On the other hand, if it is determined in step A572 that the gaming state is the short-time state (step A572; Yes), the number of time-reduced fluctuations relating to the number of times (for example, 100) that the special figure variation display game is performed in the short-time operation state is calculated. After the update (−1) (step A580), a process (step A581) for determining whether or not the number of time-change fluctuations after the update is 0 is performed.

  Here, if it is determined that the number of time reduction fluctuations is not 0 (step A581; No), the process proceeds to step A576, and the subsequent processes are performed.

  On the other hand, if it is determined in step A581 that the number of time reduction fluctuations is 0 (step A581; Yes), that is, a predetermined number of times (for example, 100 times) in which the special figure fluctuation display game is in the time-short operation state in the time-short state. When the execution of is completed, the probability information command for ending the short-time operation state of the special figure fluctuation display game and the normal figure fluctuation display game and the state of extending the opening time of the normal fluctuation winning device 37 (short-time state) Preparation (step A582) and command setting processing (step A583) are performed.

  Next, a process (step A584) for preparing a table for transitioning to special figure normal processing (for time reduction end) (step A584), specifically, in the table, the process number “0” relating to the special figure normal process, A special figure display process is performed by performing processing for setting information relating to the end of the time-short operation state of the figure-variable display game and the normal-variation display game and the state of extending the opening time of the normal variable winning device 37 (time-short state) Exit.

[Fanfare / In-interval processing]
Next, the details of the fanfare / interval processing (step A12) in the above-described special figure game processing will be described.

  As shown in FIG. 45, in the fanfare / interval processing, first, the processing for updating (+1) the number of rounds in the special gaming state (step A591) is performed, and then the big winning opening is released in each round in the special gaming state. A process (step A592) of setting a short opening (for example, 1 second or the like) with a short opening time as the time (opening time of the opening / closing door 38c of the special variable winning device 38) is performed.

  Next, a special winning opening release information determination flag is loaded (step A593), and it is determined whether or not the special winning opening release information determination flag is a long opening with a long opening time of the special winning opening (for example, 25 seconds). If it is checked (step A594) and it is determined that the opening time of the big prize opening is long open (step A595; Yes), a round command corresponding to the number of rounds in the special gaming state is prepared (step A596) A setting process (step A597) is performed.

  Next, a special symbol command corresponding to the stop symbol pattern information related to the special symbol variation display game is loaded and prepared from the special symbol command area of the RWM (step A598), and command setting processing (step A599) is performed. Do.

  And after performing the process (step A600) which sets long opening with long opening time as opening time (opening time of a big winning opening) of the opening / closing door 38c of the special variable prize-winning apparatus 38 in each round of special game state, The opening time (opening time for long opening) is saved in the special game processing timer (step A601).

  Even when it is determined in step A595 that the opening time of the big winning opening is not long open (step A595; No), that is, when the opening time of the big winning opening is short open, the processing is performed in step A601. Then, the opening time (opening time for short opening) is saved in the special game processing timer (step A601).

  That is, when the number of rounds per jackpot is 15, the opening time related to long opening is saved as the opening time of the big prize opening in the special game processing timer, and when the number of rounds per jackpot is 2, As the opening time of the winning opening, the opening time related to the short opening is saved in the special game processing timer.

  Next, a process of preparing a table for shifting to the process for opening the big prize opening (step A602), specifically, in the table, the process number “4” relating to the process for opening the big prize opening, A process for setting a test signal relating to the opening of the game, a control signal (ON signal) relating to driving of the big prize opening solenoid 38b for opening the big prize opening, information relating to clearing the number of winnings in the big prize opening, etc. This completes the fanfare / interval process.

[Processing during the grand prize opening]
Next, details of the special winning opening opening process (step A13) in the above-described special figure game process will be described.

  As shown in FIG. 46, in the process for opening the special prize opening, first, the special prize opening information determination flag is loaded (step A611), and the special prize opening information determination flag is long for the opening time of the special prize opening. It is checked whether or not it is open (for example, 25 seconds, etc.) (step A612), and if it is determined that the opening time of the big prize opening is long open (step A613; Yes), the special game state being executed is The current round number is compared with the round number upper limit value in the RWM round number upper limit area to determine whether or not the current round is the final round (step A614).

  If it is determined in step A614 that the current round in the special gaming state is not the final round (step A615; No), an interval command relating to the interval between rounds is prepared (step A616), and command setting processing (step A617) is performed.

  Subsequently, a special symbol command corresponding to the stop symbol pattern information related to the special symbol variation display game is loaded and prepared from the special symbol command area of the RWM (step A618), and command setting processing (step A619) is executed. Do.

  Next, a process of preparing a table for shifting to the winning prize remaining ball process (step A620), specifically, the processing number “5” relating to the winning prize remaining ball process, the special game Processing for setting a processing time related to the processing of the winning ball remaining ball processing to be saved in the processing timer, a control signal (off signal) related to driving of the winning port solenoid 38b for closing the winning game port, etc. End the mouth open process.

  On the other hand, if it is determined in step A615 that the current round in the special gaming state is the final round (step A615; Yes), an ending command related to display control of the ending display screen is prepared when the special gaming state ends. (Step A621) After performing the command setting process (Step A622), the process proceeds to Step A618 and the subsequent processes are performed.

  That is, from the RWM decoration special command area, a special decoration command corresponding to the stop symbol pattern information related to the decorative special figure variation display game is loaded and prepared (step A618), and command setting processing (step A619) is performed. After that, a process (step A620) of preparing a table for shifting to the winning prize remaining ball process is performed. Specifically, in this table, the processing number “5” related to the winning ball remaining ball processing, the processing time related to the winning ball remaining ball processing to be saved in the special game processing timer, and the block for closing the winning ball A process for setting a control signal (off signal) and the like related to driving of the special winning opening solenoid 38b is performed, and the special winning opening opening process is completed.

  If it is determined in step A613 that the opening time of the big prize opening is not long open (step A613; No), that is, if the opening time of the big prize opening is short opening (for example, 1 second), the interval command Without changing the setting (step A617), the decoration special figure command setting (step A619), and the ending command setting (step A622), the process shifts to step A620 to shift to the big winning opening remaining ball process. The process of preparing the table (step A620) is performed. Specifically, in this table, the processing number “5” related to the winning ball remaining ball processing, the processing time related to the winning ball remaining ball processing to be saved in the special game processing timer, and the block for closing the winning ball A process for setting a control signal (off signal) and the like related to driving of the special winning opening solenoid 38b is performed, and the special winning opening opening process is completed.

  In addition, when the special game state is ended, the CPU 111A of the game control device 100 performs the special game state in a period from the end of the conversion of the open / close door 38c of the special variable winning device 38 to the end of the special game state. A control command for the ending display screen relating to the end of the transmission is transmitted to the effect control device 300. Then, under the control of the main control microcomputer (1stCPU) 311 of the effect control device 300, the video control microcomputer (2ndCPU) 312 controls the display device 41 based on the control command transmitted from the game control device 100. By displaying the ending display screen on the display screen, the end of the special gaming state is notified.

  Here, the CPU 111A of the game control device 100 and the main control microcomputer (1st CPU) 311 and the video control microcomputer (2nd CPU) 312 of the effect control device 300 have the special game state after the conversion of the special variable winning device 38 is completed. A special game state end notification means for notifying that the special game state is ended in the period until the end.

[Large winning ball remaining ball processing]
Next, details of the big winning opening remaining ball process (step A14) in the above-described special figure game process will be described.

  As shown in FIG. 47, in the winning prize remaining ball processing, first, the current round is determined by comparing the current round number in the special game state being executed with the round number upper limit value in the round number upper limit area of the RWM. A process of determining whether or not it is the final round (step A631) is performed.

  Then, as a result of the determination in step A631, if it is determined that the current round in the special gaming state is the final round (step A632; Yes), a process of setting an ending time (for example, at least 30 seconds) corresponding to the stop symbol pattern After performing (Step 634), the ending time is saved in the special figure game processing timer (Step A635), and the ending winning ball counter is cleared to 0 (Step A636).

  Next, a process (step A637) for preparing a table for shifting to the jackpot end process (step A637), specifically, the process number “6” related to the jackpot end process, a test signal related to the blockage of the big prize opening , Information related to clearing of each parameter in the special gaming state (for example, information related to clearing the number of winnings to the big prize opening, information related to clearing the number of rounds in the special gaming state, the upper limit of the number of rounds in the special gaming state Information related to clearing, information related to clearing the flag for determining the upper limit value of the number of rounds, information related to clearing a flag for determining whether or not the opening time of the big winning opening is long open or short open), etc. The process is performed, and the winning ball remaining ball process is terminated.

  On the other hand, as a result of the determination in step A631, if it is determined that the current round in the special gaming state is not the final round (step A632; No), a process for preparing a table for shifting to the fanfare / interval processing (step A633), Specifically, the table shows the processing number “3” related to the fanfare / interval processing, the processing time related to the fanfare / interval processing saved in the special game processing timer, and the end of the operation of the special variable winning device 38. Processing for setting a test signal and the like is performed, and the winning ball remaining ball processing is terminated.

[Big hits end processing]
Next, the details of the jackpot end process (step A15) in the above-described special figure game process will be described.

  As shown in FIG. 48, in the jackpot end process, first, a process of setting the address table of the jackpot end setting table (step A641) is performed. Subsequently, after loading the probability variation determination flag set in the stop symbol information setting process (step A642), a process of acquiring a jackpot end setting table corresponding to the probability variation determination flag (step A643) is performed, Each data of the acquired jackpot end setting table is saved in the work area of the RWM (step A644).

  At this time, the stop symbol number from the stop symbol number storage area 2304 of the special figure fluctuation display game management storage area 2300 corresponding to the first special figure (or the special figure fluctuation display game management storage area 2310 corresponding to the second special figure). Is acquired, and processing for generating a probability variation state is performed in correspondence with the symbol number. In addition, a time-short state may occur corresponding to the symbol number.

  Next, a probability information command corresponding to the probability variation determination flag is prepared (step A645), and command setting processing (step A646) is performed.

  Then, a predetermined number of jackpot random number values stored in a predetermined number (for example, four) of start memory (holding memory) are loaded (step A647), and the loaded jackpot random number value matches the jackpot determination value. A process of determining whether or not there is a winning value for the predetermined number of jackpot random numbers depending on whether or not to perform (step A648).

  Here, if it is determined that there is a winning value (step A648; Yes), the process of acquiring the first selection pattern determination table (step A649) is performed, while it is determined that there is no winning value (step A648; No), Processing for acquiring the second selection pattern determination table (step A650) is performed.

  The first selection pattern determination table is a table that is selected when there is a hit value for a predetermined number of big hit random numbers stored in the start memory (holding memory), while the second selection pattern determination table is It is a table selected when there is no hit value for a predetermined number of big hit random numbers stored in the start memory (holding memory).

  In the first selection pattern determination table and the second selection pattern determination table, a plurality of distribution information selection patterns for selecting variation pattern distribution information that defines the variation pattern of the special figure variation display game is defined. The distribution information selection pattern is set according to the value of a distribution information selection pattern determination random number (details will be described later) extracted in the big hit end process.

  Furthermore, the distribution rates of these distribution information selection patterns are different between the first selection pattern determination table and the second selection pattern determination table.

  Among the distribution information selection patterns, a distribution information selection pattern determination random number related to the determination of any one distribution information selection pattern is extracted (step A651).

  Next, using either the first selection pattern determination table acquired in step A649 or the second selection pattern determination table acquired in step A650, the distribution information selection pattern defined in the table Among them, a process of setting a distribution information selection pattern according to the distribution information selection pattern determination random number extracted in step A651 (step A652) is performed.

  Subsequently, a process of acquiring variation pattern distribution information based on the value of the ending winning ball counter in the variation pattern distribution information defined in the set distribution information selection pattern (step A653) is performed.

  Next, the acquired value is saved in the fluctuation pattern distribution information area of the RWM (step A654).

  Then, after performing the process of clearing the ending winning ball counter to 0 (step A655), preparing a table for shifting to the special figure normal process (step A656), specifically, The processing for setting the processing number “0” for the normal processing, the flag (big winning opening fraud monitoring information) for defining the big winning opening fraud monitoring period, etc. is performed, and the big hit ending processing is ended.

[Design variation control processing]
Next, the details of the symbol variation control process (steps A18 and A20 in FIG. 26) in the above-described special figure game process will be described.

  The symbol variation control processing is processing for controlling the variation of special symbols such as the first special symbol and the second special symbol and setting the display data of the special symbols, and is shown in FIG. In the symbol variation control process corresponding to step A18, the first special figure is a special figure to be controlled, and in the symbol fluctuation control process corresponding to step A20, the second special figure is a special figure to be controlled.

  First, a stopped symbol data table (FIG. 25B) corresponding to the first special chart to be controlled is acquired from the ROM 111B (step A671). If the control target is the second special figure, the stopped symbol data table (FIG. 25C) for the second special figure is acquired from the ROM 111B.

  Next, referring to the changing / stopped identification information storage area 2301 of the special figure fluctuation display game management storage area 2300 corresponding to the first special figure to be controlled, the special figure fluctuation display game to be controlled is changing. It is checked whether or not there is (step A672). If the control target is the second special figure, the changing / stopping identification information storage area 2301 of the variable display game management storage area 2310 corresponding to the second special figure is referred to.

  When it is determined that the special-figure display game to be controlled is changing (step A673; Yes), the stopped symbol data table (FIG. 25B or FIG. 25C) acquired in step A671 is discarded. Instead, the changing symbol data table (FIG. 25A) is acquired from the ROM 111B.

  Next, after updating (-1) the fluctuation timer 2302 in the special figure fluctuation display game management storage area 2300 corresponding to the first special figure to be controlled, it is checked whether or not the fluctuation timer 2302 has timed out. If it is determined that the time is up (step A676; Yes), the initial value for the fluctuation timer is saved in the fluctuation timer 2302 (step A677). If the control target is the second special figure, the variable timer 2302 in the variable display game management storage area 2310 corresponding to the second special figure is the processing target.

  After step A677 is executed, a process of updating (+1) the symbol number (step A678) in the symbol symbol number storage area 2303 at the time of fluctuation in the special symbol fluctuation display game management storage area 2300 corresponding to the first special figure to be controlled. Do. At this time, if the symbol number exceeds the upper limit value, a process of returning the value of the symbol number storage area 2303 at the time of change to 0 is also performed. If the control target is the second special figure, the variable symbol number storage area 2303 of the variable display game management storage area 2310 corresponding to the second special figure is the processing target.

  Next, display data (segment lighting pattern data) corresponding to the updated symbol number is acquired from the changing symbol data table acquired in step A674 (step A679). At this time, since the symbol number in the variable symbol number storage area 2303 is updated in the range of 0 to 1, the data of the lighting pattern in which all segments are turned off from the variable symbol data table (FIG. 25A). Alternatively, lighting pattern data in which only the G segment is lit is acquired.

  Even when it is determined in step A676 that the time is not up (step A676; No), the process proceeds to step A679. At this time, in step A679, the symbol number is obtained from the symbol symbol storage area 2303 at the time of fluctuation in the special symbol fluctuation display game management storage area 2300 corresponding to the first special symbol to be controlled, and the display data corresponding to the symbol number is obtained. (Segment lighting pattern data) is acquired from the changing symbol data table acquired in step A674. If the control target is the second special figure, the variable symbol number storage area 2303 in the management storage area 2310 of the variable display game corresponding to the second special figure is the processing target.

  If it is determined in step A673 that the special figure fluctuation display game is not changing in the first special figure to be controlled (step A673; No), that is, the special figure fluctuation display game to be controlled is executed. Even when the state is not, the process proceeds to step A679. At this time, in step A679, the symbol number stored in the symbol number storage area 2304 at the time of stoppage of the special symbol fluctuation display game management storage region 2300 corresponding to the first special symbol to be controlled is acquired and corresponds to the symbol number. Display data (segment lighting pattern data) to be acquired is acquired from the stopped symbol data table acquired in step A671. If the control object is the second special figure, the stop symbol number storage area 2304 of the management storage area 2310 corresponding to the second special figure is the object of processing.

  After that, the display data acquired in step A679 is saved in the output symbol data storage area 2305 of the special figure variation display game management storage area 2300 corresponding to the first special figure to be controlled (step A680). The control process ends. If the control object is the second special figure, the output symbol data storage area 2305 of the special figure variable display game management storage area 2310 corresponding to the second special figure is the object of processing.

  Then, when the output process (S43) of the timer interrupt process shown in FIG. 9 is executed, the display stored in the output symbol data storage area 2305 of the special figure variation display game management storage area 2300 corresponding to the first special figure. The data lighting pattern is output to the special figure 1 display 51. At this time, the lighting pattern of the display data stored in the output symbol data storage area 2305 of the special figure variation display game management storage area 2310 corresponding to the second special figure is output to the special figure 2 display 52.

  Thereby, in the special figure 1 display 51 and the special figure 2 display 52, the symbols are displayed in the lighting pattern of the display data stored in the corresponding output symbol data storage area 2305.

  As shown in FIG. 49, when the special figure variation display game is variably displayed, when the variation timer times out and the identification information is switched to the next identification information, the variation symbol number storage area 2303 is displayed. The symbol number (information specifying the identification information displayed during the fluctuation on the special figure indicators 51 and 52) is updated. Then, the lighting pattern data of the segment matching the symbol number is acquired from the changing symbol data table shown in FIG. 25A, and stored in the output symbol data storage area 2305.

  On the other hand, when the special figure variation display game is variably displayed, the symbol number stored in the symbol number storage area 2304 at the time of stop (identification displayed during the stop display on the special figure indicators 51 and 52) Information to identify information). Then, the lighting pattern data of the segment matching the symbol number is acquired from the stopped symbol data table shown in FIG. 25 (B) or FIG. 25 (C) and stored in the output symbol data storage area 2305.

  Thus, when the special symbol variation display game is displayed in a variable manner, only the value of the variation symbol number storage region 2303 needs to be updated at regular intervals without accessing the symbol number storage region 2304 when stopped. The calculation process is simplified, and the progress of the special figure variation display game is easily managed.

  When the special symbol variable display game is stopped and displayed, the symbol number in the stop symbol number storage region 2304 set at the start of the special symbol variable display game is not accessed without accessing the variable symbol number storage region 2303. Since the lighting pattern data of the segment can be acquired, the calculation process is simplified and the progress of the special figure variation display game is easily managed.

  Further, in any case, the processing efficiency is improved because it is only necessary to obtain the segment lighting pattern from the changing symbol data table or the stopped symbol data table previously set in the ROM 111B.

  Next, the decorative special figure variation display game on the display device 41 will be described with reference to FIG.

  First, the display screen displayed on the display device 41 will be described with reference to FIG.

  The display screen displayed on the display device 41 includes a first decorative symbol (first decorative symbol) display area 411, a second decorative symbol (second decorative symbol) display region 412, and a third decorative symbol (third decorative symbol). Display area 413, first special figure hold memory display area 414, second special figure hold memory display area 415, fourth decorative symbol (fourth decorative symbol) display region 416, and fifth decorative symbol (fifth decorative symbol) display Region 417 is included.

  The first decorative symbol display area 411 is an area for displaying the first decorative symbol (first decorative symbol) which is the left symbol. The second decorative symbol display area 412 is an area for displaying a second decorative symbol (second decorative symbol) which is a middle symbol. The third decorative symbol display area 413 is an area for displaying the third decorative symbol (third decorative symbol) which is the right symbol.

  The fourth decorative symbol display area 416 is an area for displaying the first symbol symbol, and the fifth decorative symbol display area 417 is an area for displaying the second symbol symbol.

  During the execution of the first special figure variation display game, the identification information is variably displayed on the special figure 1 display 51. At the same time, the decorative symbols are variably displayed in the decorative symbol display areas 411 to 413. The first symbol symbol in the four decorative symbol display area 416 is also variably displayed. However, at this time, the second symbol symbol in the fifth decorative symbol display area 417 remains stopped.

  When the execution of the first special figure variation display game is finished and the result is confirmed, the identification information is stopped and displayed on the special figure 1 display 51, but at the same time, the decorative symbols are displayed in the decorative symbol display areas 411 to 413. Is stopped and the first symbol symbol in the fourth decorative symbol display area 416 is also stopped.

  Here, as shown in each diagram of FIG. 50, the first symbol symbol is a symbol that imitates the symbols “Δ”, “▽”, and “O” during the execution of the first special symbol variation display game. At the end of the execution of the first special figure variation display game, any of these symbols is stopped and displayed.

  Specifically, when the first special figure fluctuation display game is out of play, “△” is stopped and displayed, and when the first special figure fluctuation display game has a normal big hit (a big hit that does not generate a certain variation state), “ “○” is stopped and “” is stopped and displayed when the first special figure fluctuation display game is a probable big hit (big hit that generates a probable change state). However, in each figure of FIG. 50, for convenience of explanation, the state in which the first symbol design is variably displayed is indicated by “*”.

  On the other hand, during the execution of the second special figure fluctuation display game, the identification information is displayed in a variable manner on the special figure 2 display 52, but at the same time, the decorative symbols are displayed in a variable manner in the decorative symbol display areas 411 to 413. The second symbol symbol in the fifth decorative symbol display area 417 is also displayed in a variable manner. However, at this time, the first symbol symbol in the fourth decorative symbol display area 416 remains stopped.

  When the execution of the second special figure variation display game is finished and the result is confirmed, the identification information is stopped and displayed on the special figure 2 display 52, but at the same time, the decorative symbols are displayed in the decorative symbol display areas 411 to 413. Is stopped and the second symbol design in the fifth decorative symbol display area 417 is also stopped.

  Here, as shown in each diagram of FIG. 50, the second symbol design changes in order the symbols simulating the symbols “◇”, “◆” and “◎” during the execution of the second special figure variation display game. At the end of the execution of the second special figure fluctuation display game, any of these symbols is stopped and displayed.

  Specifically, when the second special figure fluctuation display game is out of play, “◇” is stopped and displayed, and when the second special figure fluctuation display game has a normal big hit (a big hit that does not cause a probability change state), “◎” is stopped and “◆” is stopped and displayed when the second special figure fluctuation display game is a probable big hit (a big hit that generates a probable change state). However, in each figure of FIG. 50, since the second symbol design is not variably displayed, only “◇” is displayed.

  As described above, the combination of the variation display of the decoration symbols in the decoration symbol display areas 411 to 413 and the variation display of the first symbol symbol in the fourth decoration symbol display area 416 is executed simultaneously with the first special figure variation display game. The first decoration variation display game is executed.

  Further, it is executed simultaneously with the second special figure variation display game by combining the variation display of the decoration symbols in the decoration symbol display areas 411 to 413 and the variation display of the second symbol symbols in the fifth decoration symbol display area 417. A second decoration variation display game is executed.

  The first special figure hold memory display area 414 is an area for displaying the hold memory of the current first special figure fluctuation display game. The second special figure hold memory display area 415 is an area for displaying the hold memory of the current second special figure fluctuation display game.

  First, the case where the first decoration variation display game is shifted without causing reach will be described with reference to FIGS. The first decoration variation display game changes in order from (A) to (G) with time.

  (A) shows a case where the first decoration variation display game is stopped in an out-of-phase manner. At this time, since the first reserved memory number is 3 and the second reserved memory number is 0, the decorative symbols are simultaneously displayed in the decorative symbol display areas 411 to 413 in FIG. A decoration variation display game is newly started. The high-speed fluctuation display is a vertical scroll display in which the movement speed per symbol (unit symbol movement time) is about 0.1 seconds. At this time, it is displayed to the player's eyes. It is impossible to identify what symbol is present.

  Note that when the first decoration variation display game is newly started, the first reserved memory number is updated (−1). Therefore, the first special figure reserved memory display area 414 has a first reserved memory number of 2. It is displayed.

  In addition, since the first decoration variation display game is started, the first symbol symbol in the fourth decoration symbol display area 416 also starts to vary.

  (C) shows a state immediately after the first decorative symbol that has been displayed with high-speed fluctuation in the first decorative symbol display area 411 is switched to low-speed fluctuation display. The low-speed fluctuation display is a vertical scroll display in which the movement speed per symbol (unit symbol movement time) is about 0.5 seconds. At this time, it is displayed by the player's eyes. It is possible to identify what the symbol is.

  (D) shows a state in which the first decorative symbol that has been displayed with low-speed fluctuation in the first decorative symbol display area 411 is temporarily stopped at the symbol “5” and fluctuates up and down as it is (fluctuation fluctuation). Show. At this time, the second decorative symbol displayed at high speed in the second decorative symbol display area 412 is switched to low speed variable display.

  (E) shows a state in which the second decorative symbol that has been displayed in the second decorative symbol display area 412 with the low-speed fluctuation temporarily stops at the symbol “6” and fluctuates up and down (swing fluctuation). Show. At this time, the third decorative symbol displayed at high speed in the third decorative symbol display area 413 is switched to low speed variable display.

  (F) shows a state in which the third decorative symbol that has been displayed with low-speed fluctuation in the third decorative symbol display area 413 is temporarily stopped at the symbol “7” and fluctuates up and down as it is (fluctuation fluctuation). Show. At this time, the decorative symbols are in a state of fluctuation in the first decorative symbol display area 411 to the third decorative symbol display area 413.

  (G) stops at the mode "5, 6, 7" as a result of the first decorative symbol to the third decorative symbol swaying and fluctuating in the first decorative symbol display area 411 to the third decorative symbol display area 413. Indicates the state. In this case, “Δ” is stopped and displayed in the fourth decorative symbol display area 416.

  Next, a case where the first decoration variation display game is out of reach with a reach will be described with reference to (H) to (J) of FIG.

  In FIG. 50E, the first decorative symbol and the second decorative symbol did not stop because the first decorative symbol and the second decorative symbol did not stop, but the first decorative symbol and the second decorative symbol were the same symbol. If it stops, reach will occur. If the first decorative symbol and the second decorative symbol are temporarily stopped at the symbol “7”, the state becomes (H), and changes with time (I) and (J).

  (H) is a combination of symbols that can generate a big hit in the first decorative symbol display area 411 and the second decorative symbol display region 412, and fluctuation fluctuation is performed at “7, 7”, and in the third decorative symbol display region 413 The reach state where the 3rd decoration design is carrying out the super-low-speed fluctuation display is shown. The ultra-low speed fluctuation display is a slow crawl display in the vertical direction in which the movement speed per symbol (unit symbol movement time) is about 2.0 seconds.

  (I) shows a state where the third decorative symbol is temporarily stopped at the symbol “6” in which the third decorative symbol is a combination that does not generate a big hit in the third decorative symbol display area 413, and is swaying and fluctuating as it is.

  (J) stops at the mode “7, 7, 6” as a result of the first decorative symbol to the third decorative symbol that have fluctuated in the first decorative symbol display area 411 to the third decorative symbol display area 413 being off. Indicates the state. In this case, “Δ” is stopped and displayed in the fourth decorative symbol display area 416.

  Next, the case where the first decoration variation display game is a big hit will be described with reference to (K) to (L) of FIG.

  In (I) of FIG. 50, since the third decorative symbol stopped at the off symbol, the big hit was not made. However, when the third decorative symbol stopped at the big hit symbol, the state became (K) and the time elapsed. Along with (L).

  (K) shows a state in which the first decorative symbol to the third decorative symbol are swaying and changing in a combination in which the first decorative symbol to the third decorative symbol display area 413 generate a positive variation in the first decorative symbol display area 411 to the third decorative symbol display area 413.

  (L) is a combination of the first decorative symbol display area 411 to the third decorative symbol display area 413 in which the first decorative symbol to the third decorative symbol fluctuated in (K) (a combination that generates a probable variation). ), Indicating a stopped state. In this case, “▽” is stopped and displayed in the fourth decorative symbol display area 416.

The contents of the display screen displayed on the display device 41 when the first decoration variation display game is executed have been described. However, even when the second decoration variation display game is executed, the first decoration symbol display areas 411 to 3 are displayed. In the decorative symbol display area 413, the same display is performed. However, when the second decoration variation display game is executed, the second symbol design of the fifth decoration design display area 417 varies instead of the first symbol design of the fourth decoration design display area 416 varying. .

  The decorative display variable display time in the first decorative symbol display area 411 to the third decorative symbol display area 413 and the fourth decorative symbol display area 416 or the fifth decorative symbol display area 417 of the above-described decorative variable display game is a special figure. It synchronizes with the fluctuation display time of the special figure identification information of the special figure fluctuation display game on the 1 display 51 or the special figure 2 display 52.

  That is, when the special figure identification information starts to be displayed on the special figure 1 display 51 or the special figure 2 display 52 and the special figure fluctuation display game is started, the first decorative symbol display area 411 to the third decorative symbol display are displayed. In the area 413, the decorative symbols start to be displayed in a variable manner, and the special symbols executed in the special symbol display unit 51 or the special symbol two indicator 52 in the fourth decorative symbol display region 416 and the fifth decorative symbol display region 417. In the decorative symbol display area corresponding to the variable display game, the symbol symbol starts variable display.

  Then, when the fluctuation display time of the special figure fluctuation display game ends and the special figure identification information that has been variably displayed on the special figure 1 display 51 or the special figure 2 display 52 stops, the first decorative symbol display area 411 is displayed. The symbol design that is variably displayed in the fourth ornament symbol display region 417 or the symbol symbol that is variably displayed in the fourth ornament symbol display region 417 is stopped while the ornament symbol that is variably displayed in the third ornament symbol display region 413 is stopped. Stop at the symbol that shows the result. Whether the combination of the decorative symbols stopped in the first decorative symbol display area 411 to the third decorative symbol display region 413 is just a big hit or missed for the player. Needless to say, can be identified.

  Next, the relationship between the decoration change display game on the display device 41 and the special figure change display game on the special figure 1 display 51 or the special figure 2 display 52 will be described with reference to FIGS. 51 and 52. 51 and 52 are explanatory diagrams when the first special figure variation display game is executed.

  FIG. 51 is an explanatory diagram of the relationship between the decoration change display game and the special figure change game when the decoration change display game does not generate reach.

  First, in the special figure 1 display 51, special figure identification information starts a variable display. The fluctuation display of the special figure identification information is one in which the two lighting patterns in FIG. 25A are alternately turned on, that is, the fluctuation display of the special figure identification information is to blink the segment G. The fluctuation display speed of the special figure identification information (the time until the lighting pattern with the symbol number “0” in FIG. 25A switches to the lighting pattern with the symbol number “1”) is constant until the special figure fluctuation display game ends. Speed (for example, 0.2 seconds).

  51 is a case where the first special figure variation display game is executed, the design of the special figure 2 display 52 remains stopped.

  When the special figure identification information starts variably displayed on the special figure 1 display 51, the first decorative symbol in the first decorative symbol display area 411, the second decorative symbol in the second decorative symbol display area 412, and the third decorative symbol display. The third decorative symbols in the area 413 start to display all at once, and the decoration change display game starts.

  The variation display speed of the first decoration symbol to the third decoration symbol at the start of the decoration variation display game (the time until switching from one symbol to the next symbol) is 0.1 second.

  In addition, when the decorative special figure variation display game is started, the first symbol symbol in the fourth decorative symbol display area 416 also starts to be varied. The variation display speed of the first symbol design is a constant speed (for example, 0.4 seconds) until the decoration variation display game is finished.

  51 is a case where the first special figure variation display game is executed, the second symbol design in the fifth decorative design display area 417 remains stopped.

  When a predetermined time elapses after the first decorative symbol starts to be displayed in the first decorative symbol display area 411, the first decorative symbol is switched from the high-speed variable display to the low-speed variable display. The variable display speed of the low-speed variable display is 0.5 seconds.

  When a predetermined time elapses after the first decorative symbol variation display is switched to the low-speed variation display, the first decoration symbol is switched from the low-speed variation display to the shaking variation.

  At the timing when the first decorative symbol is switched from the low-speed variation display to the shaking variation, the second decorative symbol is switched from the high-speed variation display to the low-speed variation display.

  Then, when a predetermined time has elapsed since the variation display of the second decorative symbol is switched to the low-speed variation display, the second decorative symbol is switched from the low-speed variation display to the shaking variation.

  At the timing when the second decorative symbol is switched from the low-speed variation display to the shaking variation, the third decorative symbol is switched from the high-speed variation display to the low-speed variation display.

  Then, when a predetermined time has elapsed since the variation display of the third decorative symbol is switched to the low-speed variation display, the third decorative symbol is switched from the low-speed variation display to the shaking variation.

  When the preset fluctuation display time of the special figure fluctuation display game (decoration special figure fluctuation display game) elapses, the special figure identification information which has been variably displayed on the special figure 1 display 51 is the result of the special figure fluctuation display game. It stops at the identification information that informs (whether it is out of place, probability change or normal hit).

  In addition, when a preset change display time of the special figure change display game (decoration special figure change display game) elapses, the first to third decorative symbols that have fluctuated are stopped. The first decorative symbol to the third decorative symbol are stopped by a combination for notifying the result (whether it is out of place, probability variation, or normal variation) of the special diagram variation display game.

  Furthermore, when a preset fluctuation display time of the special figure fluctuation display game (decoration special figure fluctuation display game) elapses, the first symbol design is also a result of the special figure fluctuation display game (whether it is out of place, probability variation or normal variation). ) To stop at the identification information that broadcasts.

  FIG. 52 is an explanatory diagram of the relationship between the decoration special figure change display game and the special figure change display game when the decoration change display game generates reach. The description of the same parts as in FIG.

  When the second decorative symbol is switched from the low-speed fluctuation display to the shaking variation, the combination of the first decorative symbol that fluctuates and the second decorative symbol that fluctuates is a combination that generates a hit. Occur.

  The third decorative symbol is the timing when the second decorative symbol is switched from the low-speed variation display to the shaking variation (reaches have occurred), and the time from the high-speed variation display to the very low-speed variation display (the time from when one symbol is switched to the next symbol) 2.0 seconds).

  When a predetermined time elapses after the third decorative symbol is switched to the ultra-low speed fluctuation display, the ultra-low speed fluctuation display is switched to the shaking fluctuation.

  The time when the third decorative symbol is variably displayed with the ultra-low speed fluctuation display after the reach is generated is set longer than the time (see FIG. 51) when the third decorative symbol is variably displayed with the low-speed fluctuation display without the reach. ing.

  Thereby, it is possible to provide the player with interest even after reach occurs and the third decorative symbol swings and fluctuates.

  Here, display control of the display device 41 is performed by the effect control device 300, and display control of the special figure 1 display 51 and the special figure 2 display 52 is performed by the game control apparatus 100. Although the production control device 300 mainly performs display control of the display device 41, the game control device 100 does not mainly perform display control of the special figure 1 display 51 and the special figure 2 display 52. The main process shown in FIG. 6 and the timer interrupt process shown in FIG. 9 are mainly performed.

  For this reason, there is a request to reduce the display control load of the special figure display 51 and the special figure display 52 of the game control device 100.

  51 and 52, the variable display speeds of the first decorative symbol to the third decorative symbol vary depending on the progress of the special graphic variable display game. The variable display speed of the special figure identification information on the 2 display 52 is set to a constant speed.

  As a result, display variations on the display device 41 can be improved, the display processing of the special figure 1 display 51 and the special figure 2 display 52 can be made more efficient, and the load on the game control apparatus 100 can be reduced. .

  Next, a modification of the embodiment of the present invention will be described with reference to FIGS.

  FIG. 53 is an explanatory diagram of the special figure 1 display 51 and the special figure 2 display 52 of the first modification of the embodiment of the present invention.

  In the embodiment of the present invention, as described with reference to FIG. 24, the special figure 1 display 51 and the special figure 2 display 52 are configured by 7 segment LEDs, but may not be configured by 7 segment LEDs.

  For example, as shown in FIG. 53, special figure identification information may be displayed by causing a petal-like light emitting member to emit light.

  Of the two display areas surrounded by the dotted line, the left display area functions as the special figure 1 display 51A, and the right display area functions as the special figure 2 display 52A. In this example, a plurality of light emitting members constituting the special figure 1 display 51A and a plurality of light emitting members constituting the special figure 2 display 52A are mounted and integrated on the same substrate.

  FIG. 54 is an explanatory diagram of the special figure 1 display 51 and the special figure 2 display 52 of the second modification of the embodiment of the present invention.

  In the embodiment of the present invention and the first modification of the embodiment of the present invention, as shown in FIG. 53, all the seven light emitting members constituting the special figure 1 indicator 51A are gathered and arranged. .

  On the other hand, in the second modification, the light emitting members constituting the special figure 1 indicator 51 are distributed and arranged in two areas. As shown in FIG. 54, the first aggregate area 511 and the second aggregate are arranged. The region 512 is characterized in that the light emitting members are dispersedly arranged. Since the light emitting member can be distributed and arranged in two regions with respect to the special figure 2 display 52 as well, only the special figure 1 display 51 will be described in FIG.

  In FIG. 54, a light emitting body 541 that functions as the panel decoration device 42 shown in FIG. 4 and a board effect device that functions as the board effect device 44 shown in FIG. 4 between the first collection region 511 and the second collection region 512. A movable body 542 functioning as 44 is provided, and these members are arranged on the substrate 51C.

  Thus, since the light emitting member used in the special figure 1 display 51 is separated into the first collection area 511 and the second collection area 512, the player grasps the lighting pattern of the special figure 1 display 51. This makes it difficult to focus on a decoration variation display game in which a variation pattern is varied rather than a monotonous special variation display game whose lighting pattern is monotonous, thereby improving the interest of the player.

  In addition, the first gathering area 511 and the second gathering area 512 are configured by sandwiching a member such as the light emitter 541 and the movable body 542 that easily attracts the player's gaze. And the second gathering area 512 are difficult to view at the same time, and the presence of the special figure 1 indicator 51 is made unaware. Therefore, the decoration variation display game is watched, and the interest of the player is improved.

  It should be noted that the first collection area 511 and the second collection area 512 may be arranged at any position as long as the collection areas are separated from each other. For example, a configuration in which the first collective area 511 is arranged in the upper left corner of the game area 32 (see FIG. 2) and the second collective area 512 is arranged in the lower right corner of the game area 32 may be adopted.

  On the other hand, the player in the game store confirms the lighting state of each light emitting element in the first special figure display area 511 and the second special figure display area 512 so that the player does not recognize the gaming state after the big hit. In addition, it is possible for only the attendant of the amusement store to recognize. Further, such a configuration is convenient when confirming the gaming state after the big hit even when developing a gaming machine or at the time of inspection at an inspection organization.

  Of the seven petal-like light emitting members of the first collecting region 511 and the second collecting region 512, at least one petal-like light emitting member that is always lit when hitting and that does not light when disconnected is provided. Good. As a result, the store clerk of the game shop can easily grasp the execution state of the special figure variation display game.

  As described above, in the present invention, since the identification information that is variably displayed in the special figure fluctuation display game executed by the special figure display devices 51 and 52 is the identification information other than the identification information that causes the special gaming state, Even if the identification information being displayed in a variable manner on the display units 51 and 52 is stopped due to an error such as noise, the possibility of stopping with the identification information for notifying the occurrence of the special gaming state is reduced, and the player can generate the special gaming state. Can be prevented from being mistaken.

  At this time, the privilege given to the player varies depending on the identification information stopped and displayed when the special gaming state occurs (difference in whether or not the probability variation state occurs, difference in whether or not the short-time state occurs, difference in the number of rounds, etc.) However, since multiple types of such specific identification information are set in advance (a degree that occupies a majority of all identification information candidates to be stopped), each identification information is associated with a privilege type. be able to.

  Therefore, when developing a gaming machine, checking with an inspection organization, or checking the occurrence status of a special gaming state by a staff member at a gaming store during business, take correspondence with the identification information that is stopped and displayed. This is convenient.

  Note that the gaming machine 10 of the present invention is not limited to the pachinko gaming machine 10 as shown in the embodiment. For example, other gaming machines such as other pachinko gaming machines, arrange ball gaming machines, and sparrow ball gaming machines are used. It can be applied to all the gaming machines 10 to be used.

  Further, the types of big hits are not limited to the combination of two types of big hits such as 2R big hits and 15R big hits, but two or more types of big hits, for example, 6R big hits may be added to constitute three types of big hits. Furthermore, the type of big hit may be configured by only one type of big hit, for example, 9R big hit.

  In addition, it should be considered that the embodiment disclosed this time is illustrative and not restrictive in all respects. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

DESCRIPTION OF SYMBOLS 10 Game machine 30 Game board 36 Start prize opening 38 Special variation prize-winning device 41 Display device 51 Special figure 1 display 52 Special figure 2 display 100 Game control apparatus 111A CPU (fluctuation distribution information setting means, fluctuation distribution information setting condition judgment means) , Special gaming state end notification means, game control means, fluctuation distribution information acquisition means)
111B ROM
300 Production control device 311 Main control microcomputer 312 Video control microcomputer 2300 First special figure variable display game management storage area 2310 Second special figure variable display game management storage area

Claims (1)

A display unit for executing a variable display game for displaying the identification information in a variable manner based on establishment of a predetermined start condition; and a game control device for performing control for executing the variable display game. In a gaming machine capable of generating a special gaming state that grants a privilege to a player according to the result,
The game control device includes:
Fluctuation display control means for performing fluctuation display by switching the identification information of the display unit every predetermined time;
Stop display control means for performing stop display of identification information displayed on the display unit;
With
The variation display game is executed by performing the stop display after the variation display is performed,
The special gaming state occurs when the stop-displayed identification information becomes specific identification information,
A plurality of types of identification information candidates to be stopped and displayed by the stop display control means are set,
One of the plurality of types of identification information candidates is set as off-identification information to be stopped and displayed on the display unit when the special gaming state does not occur,
The identification information excluding the outlier identification information among the plurality of types of identification information candidates is set as hit identification information to be stopped and displayed on the display unit when the special gaming state occurs,
The type of privilege granted to the player is set differently depending on the corresponding identification information to be stopped,
The variable display control means alternately displays a state in which only the off-identification information that is stopped and displayed on the display unit when the special gaming state does not occur is lit on the display unit and a state in which the display unit is turned off. A gaming machine characterized in that the change display is performed by switching.

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