JP6715174B2 - Amusement machine - Google Patents

Description

The present invention relates to a gaming machine such as a pachinko gaming machine, and more particularly to a gaming machine that can play a game and can be controlled in an advantageous state advantageous to a player.

In a gaming machine such as a pachinko gaming machine, determination information indicating a determination result corresponding to the first display portion and the second display portion is stored in separate storage areas, and a symbol is stopped and displayed on one of the display portions to cause a big hit etc. In the case of being controlled to the advantageous state of, it is proposed to forcibly stop and display the symbol on the other display section and initialize (clear) the determination information corresponding to both display sections at once ( For example, Patent Document 1).

JP, 2016-87200, A

According to the technique described in Patent Document 1, when setting information such as determination information is erroneously stored, a control problem may occur.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a gaming machine capable of preventing a problem caused by incorrect setting of information.

(1) In order to achieve the above object, the gaming machine according to the claims of the present application plays a game, and is in an advantageous state advantageous to the player (for example, a big hit game state or an ordinary variable winning ball device 6B is in an open state, etc.). ) Is a controllable gaming machine (for example, a pachinko gaming machine 1 or the like), and a determination means for determining whether or not to control the advantageous state (for example, step S244 of special symbol normal processing or step S327 of normal symbol normal processing). And a setting means for setting the setting information after the determination by the determination means in a predetermined area (for example, CPU 103 for performing steps S245 to S247 of special symbol normal processing or step S328 of normal symbol normal processing). And, in order to execute the processing depending on whether or not to control to the advantageous state, the reading means for reading the setting information after the judgment of the judging means (for example, steps S284 to S286 of the special symbol stop processing or the normal symbol stop processing) CPU 103 for executing step S344), variable display means for performing variable display based on the setting information, and first initialization for initializing the predetermined area before setting the setting information by the setting means. means a (eg CPU103 for executing steps S236, S242 and normal symbol normal step S325 of the processing of the special symbol normal processing), after reading by Ri before symbol setting information to said reading means upon termination of the variable display, wherein Second initialization means for initializing a predetermined area (for example, CPU 103 executing steps S289 to S291 of special symbol stop processing and step S348 of normal symbol stop processing), and the predetermined area based on an operation on the operation means. Third initialization means for initialization (e.g., CPU 103 that executes steps S13 and S17 of game control main processing and steps S71 and S72 of switch processing).
With such a configuration, it is possible to prevent a problem caused by erroneous setting of information.

(2) In the gaming machine of (1) above, the predetermined area may be initialized by setting a value indicating that the advantageous state is not controlled (see, for example, FIG. 17).
With such a configuration, even if the storage content of the predetermined area is erroneously read out, it is possible to prevent a problem due to erroneous setting of information.

(3) In the gaming machine of (1) or (2), the first initialization means or the second initialization means initializes the predetermined area by an initialization method different from that of the third initialization means. (See FIG. 17, for example).
In such a configuration, it is possible to reduce the influence of incorrect setting of information and prevent a defect.

(4) In the gaming machine according to any one of (1) to (3), the third initialization means initializes an area different from the initialization by the first initialization means or the second initialization means. It may be possible (see, eg, FIG. 17).
With such a configuration, it is possible to reduce the processing load for initializing the predetermined area and prevent a problem due to erroneous setting of information.

(5) In the gaming machine according to any one of (1) to (4), the first variable display means (for example, the first special symbol display device 4A) and the second variable display means (for example, the second special display) that perform variable display. It is possible to control to the advantageous state corresponding to the variable display by the first variable display means or the second variable display means (for example, executing steps S114 to S117 of special symbol process processing). The setting information includes the first setting information capable of specifying the determination result of whether or not to control to the advantageous state corresponding to the variable display by the first variable display means, and the second variable display. Second setting information capable of specifying a determination result as to whether or not to control to the advantageous state corresponding to the variable display by the means, the first initialization means and the second initialization means include the predetermined area. Of the first predetermined area in which the first setting information is set (for example, the first big hit flag, etc.), first individual initializing means (for example, step S242 of special symbol normal processing or step of special symbol stop processing) CPU103 or the like that executes S290), and a second individual initialization means (for example, a special symbol) for initializing a second predetermined area (for example, a second jackpot flag or the like) in which the second setting information is set in the predetermined area. Common processing means for initializing the first predetermined area and the second predetermined area, including the normal processing step S236 and the CPU 103 executing step S291 of the special symbol stop processing). (For example, the CPU 103 that executes step S17 of the game control main processing or step S72 of the switch processing) may be included.
With such a configuration, it is possible to reduce the processing load of initializing the predetermined area by the third initializing means, and prevent a defect due to erroneous setting of information.

(6) In the gaming machine according to any one of (1) to (5), the ordinary variable display means (for example, the ordinary symbol display device 20) that performs the variable display of the ordinary identification information and the variable display of the special identification information are performed. Special variable display means (for example, the first special symbol display device 4A and the second special symbol display device 4B, etc.), and the ordinary variable state means (for example, normally variable) whose state can be changed corresponding to the variable display by the ordinary variable display device. The winning ball device 6B) and special variable state means (for example, the special variable winning ball device 7) whose state can be changed corresponding to the variable display by the special variable display means, and the advantageous state is the normal state. A first advantageous state in which the variable state means changes to an advantageous state for the player (for example, in the case of a hit game), and a second advantageous state in which the special variable state means changes to an advantageous state for the player (for example, a big hit). Game state, etc.), the setting information includes third setting information that can specify a determination result of whether to control the first advantageous state, and determination of whether to control the second advantageous state. And a fourth setting information capable of specifying a result, wherein the first initialization unit and the second initialization unit include a third predetermined area (for example, a general area) in which the third setting information is set in the predetermined area. Third individual initializing means (for example, CPU 103 that executes step S325 of normal symbol normal processing or step S348 of normal symbol stop processing) for initializing the per-figure flag, and the fourth setting in the predetermined area. Fourth predetermined initialization area in which information is set (for example, first big hit flag, second big hit flag, etc.) Fourth individual initializing means (eg, special symbol normal processing steps S236, S242 and special symbol stop processing step) Including the CPU 103 for executing S289 to S291), the third initialization means is a common initialization means for initializing the third predetermined area and the fourth predetermined area (for example, step S17 of the game control main processing or CPU103 etc. which perform step S72 of a switch process) may be included.
With such a configuration, it is possible to reduce the processing load of initializing the predetermined area by the third initializing means, and prevent a defect due to erroneous setting of information.

(7) In the gaming machine according to any one of (1) to (6) above, the first initialization means may initialize the predetermined area before the determination by the determination means (for example, FIG. 9). , See FIG. 14).
With such a configuration, it is possible to prevent a predetermined area from being initialized after the determination by the determination means and prevent a problem due to erroneous setting of information.

(8) In the gaming machine according to any one of (1) to (7) above, an effect determination means for determining effect based on the setting information (for example, steps S261 to S263 of variation pattern setting processing or normal symbol normal processing) The CPU 103 that executes S327 to S330) may be provided, and the second initialization unit may initialize the predetermined area after the effect is determined by the effect determination unit (see, for example, FIGS. 11 and 15). ).
In such a configuration, it is possible to prevent a predetermined area from being initialized before the determination by the effect determination means, and prevent a defect due to erroneous setting of information.

(9) In the gaming machine according to any one of (1) to (8) above, a value determining means for determining a game value to be given based on the setting information (for example, step S248 of special symbol normal processing or normal symbol normal processing) The CPU 103 which executes step S329) may be provided, and the second initialization means may initialize the predetermined area after the game value to be given is determined by the value determination means (for example, FIG. 11 and FIG. 15). See).
With such a configuration, it is possible to prevent a predetermined area from being initialized before the value is determined by the value determining means, and at the same time, it is possible to prevent a problem due to erroneous setting of information.

(10) In the gaming machine according to any one of (1) to (9) above, after the predetermined area is initialized by the first initialization means, the predetermined area is initialized by the third initialization means. May not be initialized by the second initialization means (see, for example, FIGS. 4, 11, and 15).
With such a configuration, it is possible to reduce the processing load for initializing the predetermined area and prevent a problem due to erroneous setting of information.

(11) In any one of the gaming machine (10) from above (1), numerical values generating means for generating a number value data (for example, random number generation unit 104A, etc.), the numerical data generated by the numerical generation means Numerical value holding means (for example, the first random number value register 104R1, second random number value register 104R2, etc.) held in the numerical value holding area, and a holding storage means capable of storing holding information regarding variable display (for example, the first special figure holding storage of the RAM 102). Section, a second special figure reservation storage unit, etc.), and the reservation storage unit stores the reservation information by acquiring the numerical value data from the numerical value holding area when a numerical value acquisition condition is satisfied. (Refer to steps S210 to S212 of the start winning determination process), first holding area initialization means for initializing the numerical value holding area before storing the holding information by the holding storage means (for example, step of the starting winning determination processing). CPU 103 that executes S209) and second holding area initialization means that initializes the numerical value holding area after storing the holding information by the holding storage means (for example, CPU 103 that executes step S213 of the start winning determination processing). Etc.) and may be further provided.
In such a configuration, it is possible to prevent erroneous holding information from being stored and prevent a problem due to erroneous setting of information.

It is a front view of the pachinko gaming machine in this embodiment. It is a block diagram showing various control boards and the like mounted on a pachinko gaming machine. It is explanatory drawing which shows the example of an internal structure of a random number circuit. It is a flow chart which shows an example of game control main processing. It is the flowchart which shows one example of the timer interruption processing for game control. It is a flow chart which shows an example of switch processing. It is a flowchart showing an example of a special symbol process processing. It is a flow chart which shows an example of a starting winning determination processing. It is a flow chart which shows an example of special design normal processing. It is a flow chart which shows an example of change pattern setting processing. It is a flow chart which shows an example of special symbol stop processing. It is a flowchart showing an example of a normal symbol process processing. It is a flow chart which shows an example of gate passage judging processing. It is a flowchart showing an example of a normal symbol normal process. It is a flowchart showing an example of a normal symbol stop process. It is the flowchart which shows one example of production control process treatment. It is explanatory drawing which shows the program part which performs initialization setting.

FIG. 1 is a front view of a pachinko gaming machine 1 according to the present embodiment. The pachinko gaming machine 1 includes a gaming board 2 and a gaming machine frame 3. In addition, the pachinko gaming machine 1 includes an outer frame that rotatably supports the gaming machine frame 3. The game board 2 is a gauge board that constitutes a game board surface. The gaming machine frame 3 is an underframe for fixing the gaming board 2. On the game board 2, a game area surrounded by guide rails and the like is formed. The game ball (game medium) launched from the launch device passes through the launch passage and is driven into the game area. A glass door frame having a glass window is rotatably provided in the gaming machine frame 3.

At a predetermined position on the game board 2, a first special symbol display device 4A, a second special symbol display device 4B, an image display device 5, a normal winning ball device 6A, a normal variable winning ball device 6B, a special variable winning ball device 7, The normal symbol display device 20, the first holding display device 25A, the second holding display device 25B, the general drawing holding display device 25C, the passage gate 41 and the like are provided. In addition, a windmill, a large number of obstacle nails, a general winning hole, an outlet, etc. may be provided on the game board surface in the game area. Speakers 8L and 8R and a game effect lamp 9 are provided in the periphery of the game area. At the lower right position of the gaming machine frame 3, a hit ball operation handle (operation knob) is provided. The hit ball operation handle is operated by a player or the like to shoot the game ball toward the game area, and the elastic force of the game ball is adjusted according to the operation amount (rotation amount). At a predetermined position of the gaming machine frame 3 below the game area, an upper plate (hit ball supply plate) for holding (reserving) game balls and a lower plate for holding (reserving) surplus balls from the upper plate are provided. Has been. A stick controller 31A is attached to a member forming the lower plate, and a push button 31B is provided to a member forming the upper plate.

On the screens of the first special symbol display device 4A, the second special symbol display device 4B, the image display device 5, etc., variable display of special symbols and decorative symbols is performed. These variable displays are based on the occurrence of the first starting prize due to the game ball passing (entering) the first starting winning opening formed on the normal winning ball device 6A, or on the ordinary variable winning ball device 6B. Execution is possible based on the occurrence of the second start prize due to the game ball passing (entering) the formed second start prize hole. The first special symbol display device 4A and the second special symbol display device 4B are respectively configured by using, for example, 7-segment or dot-matrix LEDs (light emitting diodes), etc., and are identified in the special symbol game as an example of the variable display game. Special symbols (special symbols) that are information (special identification information) are variably displayed (variably displayed). The image display device 5 is configured by using, for example, an LCD (liquid crystal display device), and forms a display area for displaying various effect images. On the screen of the image display device 5, the variable display of the special symbol (first special symbol) by the first special symbol display device 4A and the special symbol (second special symbol) by the second special symbol display device 4B in the special symbol game. Corresponding to each variable display, a decorative pattern that is identification information (decorative identification information) is variably displayed in a decorative pattern display area that is a plurality of variable display portions such as three. The variable display of the decorative pattern is also included in the variable display game. As an example, on the screen of the image display device 5, “left”, “middle”, and “right” decorative pattern display areas 5L, 5C, and 5R are arranged.

For example, each of the first special symbol display device 4A and the second special symbol display device 4B is a number indicating "0" to "9" or a symbol indicating "-", or a lighting pattern of each segment not limited to the number or symbol. Variable display of multiple types of special symbols composed of etc. Below, the special symbols variably displayed on the first special symbol display device 4A are also referred to as "first special symbols", and the special symbols variably displayed on the second special symbol display device 4B are also referred to as "second special symbols". ..

A reserved storage display area 5H is arranged on the screen of the image display device 5. In the hold storage display area 5H, a hold display for displaying the variable number of the variable display corresponding to the special figure game (special figure hold storage number) in a specifiable manner is performed. The hold display may be any display that can be displayed in correspondence with the hold storage of information regarding variable display. The reserved storage display area 5H may display the first special figure reserved storage number and the second special figure reserved storage number in a distinguishable manner. The first special figure reservation storage number is the variable display reservation number corresponding to the special figure game using the first special figure by the first special symbol display device 4A. The second special figure reservation storage number is a variable display reservation number corresponding to the special figure game using the second special figure by the second special symbol display device 4B. The variable display pending storage number obtained by adding the first special figure pending storage number and the second special figure pending storage number is also referred to as a total pending storage number in particular. When simply saying "the number of special figure reservation storages", it usually means a concept including all of the number of first special figure reservation storages, the number of second special figure reservation storages, and the total number of reservation storages. The first special figure reserved storage number and the second special figure reserved storage number are included, but the total reserved storage number is excluded). A hold display using the first hold display 25A and the second hold display 25B may be performed together with the hold storage display area 5H or instead of the hold storage display area 5H. The first reserved indicator 25A displays the number of the first special figure reserved memories so that it can be specified. The second hold indicator 25B displays the second special figure hold storage number in a identifiable manner. For example, the first pending display unit 25A and the second pending display unit 25B correspond to the upper limit value (eg, “4”) in each of the first special figure pending storage number and the second special figure pending storage number (for example, 4). Individual LEDs).

The normal winning ball device 6A forms a first starting winning opening as a starting region (first starting region) which is always kept in a constant open state by, for example, a predetermined ball receiving member below the image display device 5. .. The ordinary variable winning ball device 6B is an electric tulip type accessory having a pair of movable wing pieces which are changed to a closed state which is a vertical position and an open state which is a tilted position by a solenoid 81 for an ordinary electric accessory shown in FIG. The (normal electric accessory) is provided, and the second starting winning opening is formed below the first starting winning opening. As an example, in the normal variable winning ball device 6B, when the solenoid 81 for the normal electric accessory is in the off state, the movable wing piece is in the vertical position, so that the game ball passes (enters) the second starting winning port. Not closed. On the other hand, in the ordinary variable winning ball device 6B, when the solenoid 81 for the ordinary electric accessory is in the ON state, the movable wing piece is in the tilted position, so that the game ball passes (enters) the second starting winning port. ) Can be opened. The normal variable winning ball device 6B is normally opened when the solenoid 81 is in the off state, and the game ball can enter (pass) the second starting winning opening, while the solenoid 81 is in the on state. It may be configured such that the game ball is less likely to enter (pass) than in the open state. In this way, the normal variable winning ball device 6B has a first variable state such as an open state or an expanded open state in which the game ball can pass (enter) the second start winning port, and the game ball cannot pass (enter). It is configured to be able to change to a second variable state such as a closed state or a normally open state in which passage (entry) is difficult.

The game ball that has entered the first starting winning opening formed in the normal winning ball device 6A is detected by, for example, the first starting opening switch 22A shown in FIG. The game ball that has entered the second starting winning opening formed in the normally variable winning ball device 6B is detected by, for example, the second starting opening switch 22B shown in FIG. Based on the detection of the game ball by the first start opening switch 22A, a predetermined number (for example, 3) of game balls are paid out as prize balls (prize game medium), and the first special figure reservation storage number is predetermined. If the upper limit value (for example, “4”) or less, the first special figure reservation storage number is increased (1 is added). Based on the fact that the game ball is detected by the second starting opening switch 22B, a predetermined number (for example, 3) of game balls are paid out as a prize ball, and the second special figure reservation storage number is equal to or less than a predetermined upper limit value. For example, the number of second special figure reservation storages is increased (1 is added).

The special variable winning ball device 7 includes a special winning opening door that is opened and closed by a solenoid 82 for the special winning opening door shown in FIG. 2, and is located below the first starting winning opening and the second starting winning opening, for example. A special winning opening is formed as a specific area that changes between an open state and a closed state by the special winning opening door. As an example, in the special variable winning ball device 7, when the solenoid 82 for the special winning opening door is in the off state, the special winning opening door closes the special winning opening, and the game ball passes through (enters) the special winning opening. become unable. On the other hand, in the special variable winning ball device 7, when the solenoid 82 for the special winning opening door is in the ON state, the special winning opening door opens the special winning opening, and the game ball passes through (enters) the special winning opening. ) It becomes easy to do. In this way, the special winning opening as a specific area changes between an open state in which the game ball easily passes (enters) and is advantageous for the player, and a closed state where the game ball cannot pass (entry) and is disadvantageous to the player. To do. Instead of the closed state in which the game ball cannot pass (enter) the special winning opening, or in addition to the closed state, a partially open state in which the game ball does not easily pass (enter) the special winning opening may be provided.

The game ball that has passed (entered) the special winning opening is detected by the count switch 23 shown in FIG. 2, for example. Based on the detection of the game balls by the count switch 23, a predetermined number (for example, 14) of game balls are paid out as prize balls. In this way, when the game ball passes (enters) the large winning opening which is in the open state in the special variable winning ball device 7, the game ball is opened to another winning opening such as the first starting winning opening or the second starting winning opening. More prize balls will be paid out than when passing (entering). Therefore, when the special winning opening is opened in the special variable winning ball device 7, the game ball can enter the special winning opening, which is the first state advantageous for the player. On the other hand, if the special winning opening is closed in the special variable winning ball device 7, it becomes impossible or difficult for the player to get the winning ball by passing (entering) the game ball into the special winning opening. It becomes a disadvantageous second state.

Ordinary symbol display 20, for example, the first special symbol display device 4A and the second special symbol display device 4B is composed of 7-segment or dot matrix LED, and is a plurality of types of identification information different from the special symbol Ordinary A pattern (also referred to as "general drawing" or "normal drawing") is variably displayed (variable display). Such variable display of normal symbols is called a normal figure game (also called "normal figure game"). Above the normal symbol display device 20, a universal symbol holding display device 25C is provided. The universal figure hold indicator 25C is configured to include, for example, four LEDs, and displays the number of stored universal figure reserves as the number of effective passage balls that have passed through the passage gate 41.

The pachinko gaming machine 1 is equipped with various control boards such as a main board 11, a production control board 12, a sound control board 13, and a lamp control board 14 as shown in FIG. In addition, the pachinko gaming machine 1 is also equipped with a relay board 15 for relaying various control signals transmitted between the main board 11 and the effect control board 12. In addition, various boards such as a payout control board, an information terminal board, a launch control board, an interface board, and a touch sensor board are arranged on the back surface of the game board or the like of the pachinko gaming machine 1.

The main board 11 is a control board on the main side, and is equipped with various circuits for controlling the progress of a game in the pachinko gaming machine 1. The main board 11 is mainly intended for setting a random number used in a special drawing game, a function for inputting a signal from a switch or the like arranged at a predetermined position, and a sub-side control board including an effect control board 12 and the like. It also has a function of outputting a control command as an example of command information as a control signal and transmitting it, a function of outputting various information to a hall management computer, and the like. In addition, the main board 11 performs lighting control and extinguishing control of each LED (for example, segment LED) constituting the first special symbol display device 4A and the second special symbol display device 4B, and the first special symbol and the second special symbol. Controlling the variable display of special symbols, controlling the variable display of ordinary symbols by the ordinary symbol display 20 by performing lighting control and extinguishing control or color control of the ordinary symbol display 20, and the like, a predetermined display symbol It also has a function to control the variable display of.

On the main board 11, for example, a game control microcomputer 100, a switch circuit 110, a solenoid circuit 111, etc. are mounted. The switch circuit 110 takes in detection signals from various switches for detecting a game ball and transmits them to the game control microcomputer 100. The solenoid circuit 111 transmits the solenoid drive signal from the game control microcomputer 100 to the solenoid 81 for the normal electric accessory and the solenoid 82 for the special winning opening door.

The effect control board 12 is a sub-side control board that is independent of the main board 11, receives the control signal transmitted from the main board 11 via the relay board 15, and outputs the image display device 5 and the speakers 8L, 8R. And various circuits for controlling the production operation by the production electric parts such as the game effect lamp 9 and the decorative LED are mounted. That is, the production control board 12 performs all or part of the display operation in the image display device 5 and the sound output operation from the speakers 8L and 8R, and all of the lighting operation and the extinguishing operation in the game effect lamp 9, the LED for decoration, or the like. It is provided with a function, such as a part, for determining the control contents for causing the electric parts for performance to execute a predetermined performance operation.

The voice control board 13 is a control board for voice output control that is provided separately from the effect control board 12, and causes the speakers 8L and 8R to output audio based on commands and control data from the effect control board 12. A processing circuit for executing audio signal processing is installed. The lamp control board 14 is a control board for lamp output control that is provided separately from the effect control board 12, and based on commands and control data from the effect control board 12, the game effect lamp 9, the LED for decoration, and the like. A lamp driver circuit for performing lighting drive and extinction drive is installed.

As shown in FIG. 2, detection signals from various switches such as a gate switch 21, a starting opening switch (first starting opening switch 22A and second starting opening switch 22B), and a count switch 23 are transmitted to the main board 11. The wiring is connected. It should be noted that the various switches may be those having any configuration capable of detecting a game ball as a game medium, such as a sensor, for example. Further, the main board 11 is connected to a wiring for transmitting a command signal for performing display control of the first special symbol display device 4A, the second special symbol display device 4B, the ordinary symbol display device 20, the display monitor 29, and the like. ing.

The display monitor 29 is arranged, for example, in the central portion on the back surface side of the main board 11 enclosed in the board case, and is configured to be able to display information such as a gear ratio and a winning ratio using a 7-segment LED or the like. There is. The consecutive ratio is the proportion (%) of the total number of prize balls, which is occupied by the number of prize balls (the number of consecutive role winning balls) due to winning at the special winning opening (attacker). The winning ratio is the ratio of the number of prize balls from the second start prize hole (Den Chu) and the number of prize balls from the big prize hole (attacker) (%). In the pachinko gaming machine 1, for example, the number of prize balls (general prize balls) due to winning at the first start prize hole (belt) and the general prize hole (sode) of 6000 prize balls, the second start prize hole (electric Number of prize balls due to winning the prize (Chu) (Number of normal electric prize balls, Number of electric Chu prize balls), Number of prize balls due to winning the special winning prize (attacker) (Number of special electric prize balls, Attacker prize balls) Are summed up. The total is set as one set, and the continuous ratio (%) and the winning combination ratio (%) for 10 sets, that is, 60000 pieces are calculated. Further, when 6000 pieces are set as one set, a corresponding amount (for example, several bytes) of storage for 11 sets is stored, and a cumulative ratio (%) and a winning combination ratio (%) of these totals are calculated. On the display monitor 29, 6000 consecutive ratios (%), combination ratios (%), cumulative total ratios (%), and combination ratios (%) are switched and displayed every predetermined time (for example, 30 seconds). You should do so.

Wirings for transmitting detection signals from the RAM clear switch 26A, the flag clear switch 26B, and the total data clear switch 26C are connected to the main board 11. The detection signal from the RAM clear switch 26A is also referred to as "RAM clear signal". The detection signal from the flag clear switch 26B is also called a "flag clear signal". The detection signal from the aggregation data clear switch 26C is also referred to as "aggregation data clear signal". The RAM clear switch 26A, the flag clear switch 26B, and the total data clear switch 26C may be provided at predetermined positions inside the housing of the pachinko gaming machine 1, such as the back side of the game board 2. When operating each clear switch, it suffices if the game machine frame 3 can be opened and pressed.

The control signal transmitted from the main board 11 to the effect control board 12 is relayed by the relay board 15. The control command transmitted from the main board 11 to the effect control board 12 via the relay board 15 is, for example, an effect control command transmitted and received as an electric signal. The effect control command includes, for example, a display control command used to control the image display operation in the image display device 5, a voice control command used to control the voice output from the speakers 8L and 8R, and the game effect lamp 9. It also includes a lamp control command used to control the lighting operation of the decoration LED and the like. Each of these effect control commands has a 2-byte structure, for example, the first byte indicates MODE (classification of command), and the second byte indicates EXT (kind of command). It is sufficient that the head bit (bit 7) of the MODE data is always "1" and the head bit of the EXT data is "0".

The game control microcomputer 100 mounted on the main board 11 is, for example, a one-chip microcomputer, a ROM (Read Only Memory) 101 for storing a game control program, fixed data, and the like, and a game control work. A RAM (Random Access Memory) 102 that provides an area, a CPU (Central Processing Unit) 103 that executes a program for game control to perform a control operation, and a numerical data that indicates a random number value independently of the CPU 103 A random number circuit 104 for performing and an I/O (Input/Output port) 105 are provided.

As an example, in the game control microcomputer 100, the CPU 103 executes a program read from the ROM 101 to execute processing for controlling the progress of a game in the pachinko gaming machine 1. At this time, the CPU 103 reads fixed data from the ROM 101 to read fixed data, the CPU 103 writes variable data to the RAM 102 and temporarily stores the data, and the CPU 103 writes various variable data to the RAM 102. A variable data read operation for reading out, a receiving operation in which the CPU 103 receives an input of various signals from the outside of the game control microcomputer 100 via the I/O 105, and a CPU 103 to the outside of the game control microcomputer 100 via the I/O 105. The transmission operation for outputting various signals is also performed.

It should be noted that the one-chip microcomputer constituting the game control microcomputer 100 is required to include at least the RAM 103 in addition to the CPU 103, and the ROM 101, the random number circuit 104, the I/O 105, etc. may be externally attached.

In the game control microcomputer 100, for example, the random number circuit 104 or the like counts the numerical data indicating various random numbers used for controlling the progress of the game in an updatable manner. The random number used to control the progress of the game is also called a game random number. The game random number may be updated by hardware such as the random number circuit 104, or may be updated by software when the CPU 103 of the game controlling microcomputer 100 executes a predetermined computer program. May be. For example, a predetermined random number value is displayed on a random counter provided in a predetermined area (game control counter setting unit or the like) of the RAM 102 in the game control microcomputer 100 or a random counter provided in an internal register separate from the RAM 102. The numerical value may be stored, and the CPU 103 may update the stored value regularly or irregularly to update the random number value.

FIG. 3 shows an example of the internal configuration of the random number circuit 104. The random number circuit 104 includes a random number generation unit 104A, a first random value register 104R1, and a second random value register 104R2. The random number generation unit 104A may include a clock signal generation circuit, a random number generation counter, various setting circuits, and the like as long as it can generate a 16-bit random number. The first random number register 104R1 fetches the numerical data in the random number sequence output from the random number generation unit 104A according to the first latch signal supplied from the CPU 103 or the like and stores it as a random value. The first random number register 104R1 only needs to be able to store a random number value by capturing numerical data when the first latch signal changes from the off state to the on state, such as the rising edge of the first latch signal. The first random value register 104R1 may output the stored random value to the internal bus or the like in response to the first read signal supplied from the CPU 103 or the like. The second random number register 104R2 fetches the numerical data in the random number sequence output from the random number generation unit 104A according to the second latch signal supplied from the CPU 103 or the like and stores it as a random value. It suffices that the second random value register 104R2 be able to store the random number value by capturing numerical data when the second latch signal changes from the off state to the on state, such as the rising edge of the second latch signal. The second random value register 104R2 may output the stored random value to the internal bus or the like in response to the second read signal supplied from the CPU 103 or the like.

As described above, in the random number circuit 104, the numerical value data generated by the random number generation unit 104A can be held as a random number value in the numerical value holding area such as the first random number value register 104R1 and the second random number value register 104R2. The first random number value register 104R1 and the second random number value register 104R2 are configured to automatically set clear data when the random number value obtained by capturing and storing numerical data is acquired by the CPU 103. It should be possible to initialize.

The ROM 101 provided in the game control microcomputer 100 stores various selection data, table data, etc. used for controlling the progress of the game, in addition to the game control program. For example, the ROM 101 stores data that configures a plurality of determination tables, determination tables, setting tables, etc. prepared for the CPU 103 to make various determinations, determinations, and settings. Further, in the ROM 101, table data forming a plurality of command tables used by the CPU 103 to transmit control signals as various control commands from the main board 11 and a variation pattern table storing a plurality of types of variation patterns are configured. Table data etc. to be stored are stored.

The RAM 102 included in the game control microcomputer 100 temporarily stores rewritable (writable and readable) various data used for controlling the progress of the game in the pachinko gaming machine 1. For example, in a predetermined area of the RAM 102, a first special figure reservation storage section, a second special figure reservation storage section, a general figure reservation storage section, a game control flag setting section, a game control timer setting section, a game control counter setting section, a game control. A buffer setting unit or the like may be provided. In the storage area of the RAM 102, 1-byte (8-bit) data can be stored corresponding to each address. When each data is the number of bytes exceeding 1 byte (for example, 2 bytes), It suffices to divide each byte into a storage area corresponding to a plurality of consecutive addresses for storage.

The 1st special symbol reservation storage section, the 1st special design indicator 4A with the 1st special design indicator 4A, on the basis of the occurrence of the 1st starting prize due to the fact that the game sphere passes (enters) the 1st starting winning a prize mouth (the 1st starting area) (1) Store pending data regarding a special figure game using a special figure. For example, the 1st special figure reservation storage section associates with the reservation number in the order of occurrence of the 1st start winning, the numerical data indicating a predetermined random number value is used as the reservation data, and the stored number is a predetermined upper limit value (eg "4"). You can remember until you reach. The second special symbol reservation storage unit, by the second special symbol display device 4B, based on the occurrence of the second starting prize due to the game ball passing (entering) the second starting winning opening (second starting area) 2 Stores pending data relating to a special figure game using a special figure. For example, the second special figure reservation storage unit stores numerical data indicating a predetermined random number value as reservation data in association with the reservation number in the order of occurrence of the second start winning, and the stored number is a predetermined upper limit value (for example, "4. )) can be stored. In this way, the first special figure reservation storage unit and the second special figure reservation storage unit, the start winning due to the game ball passing (entry) through the starting winning opening (first starting winning opening, second starting winning opening) Based on the occurrence of (first start prize, second start prize), the hold information regarding the variable display of the special symbol is stored.

The ordinary figure hold storage unit stores, on the basis of the game ball passing through the passage gate 41, holding data relating to the ordinary figure game using the ordinary symbol by the ordinary symbol display device 20. For example, the universal figure reservation storage unit associates the retention numbers with the retention numbers in the order of passage of the passage gate 41 and sets the numerical data indicating the random number value for determining the universal figure display result as the retention data, and the number of storages has a predetermined upper limit value (for example, “4”). )) can be stored. That is, the ordinary figure hold storage unit stores the hold information regarding the variable display of the normal symbols based on the fact that the game ball has passed through the passage area such as the passage gate 41. In this way, the first special figure pending storage unit, the second special figure pending storage unit, and the general figure pending storage unit can store pending information regarding variable display.

In the game control flag setting section, setting information is set to be writable and readable corresponding to a plurality of types of flags (game control flags) whose states can be updated depending on the progress of the game in the pachinko gaming machine 1. It The setting information may be composed of data indicating the value of the flag, or may be composed of data indicating whether the flag is on or off. For example, the game control flag may include a special figure process flag, a universal figure process flag, a big hit flag, a universal figure hit flag, a probability variation flag, a time saving flag, and the like. The big hit flag indicates the judgment result of whether to control the big hit game state as an advantageous state so that it can be specified. For example, the judgment result that the special figure display result is "big hit" when the special figure game is started. Is set to the ON state. In addition, in response to the fact that the big hit symbol is stopped and displayed (derived display) as the finalized special symbol in the special figure game, the big hit flag is cleared and turned off. For the big hit flag, the first big hit flag provided corresponding to the special drawing game using the first special symbol by the first special symbol display device 4A and the second special symbol by the second special symbol display device 4B are used. It suffices to include the second jackpot flag provided corresponding to the special figure game. The universal figure hit flag indicates the determination result of whether or not to control the second variable state included in the advantageous state so that it can be specified. The ON state is set according to the result of the determination. Further, in response to the stoppage display (deriving display) of the universal figure hit symbol as the fixed ordinary symbol in the universal figure game, the universal symbol hit flag is cleared and the state is turned off.

In the game control timer setting section, timekeeping information is set to be writable and readable corresponding to various timers (game control timers) used for controlling the progress of the game in the pachinko gaming machine 1. The timekeeping information may be composed of data indicating a timer value. For example, the game control timer may include a game control process timer, a special figure variation timer, a general figure variation timer, and the like. The game control process timer makes it possible to measure the control time of the game state on the main board 11 side. The special figure fluctuation timer enables the main board 11 to measure the control time of the special figure game such as the special figure fluctuation time which is the execution time of the special figure game. The universal figure fluctuation timer allows the main board 11 to measure a universal figure game control time such as a universal figure change time which is an execution time of the universal figure game.

In the game control counter setting unit, count information is set to be writable and readable corresponding to various counters (game control counters) used for controlling the progress of the game in the pachinko gaming machine 1. The count information may be composed of data indicating the count value. For example, the game control counter may include a game random counter, a first special figure reservation storage number counter, a second special figure reservation storage number counter, a round number counter, and the like.

In the game control buffer setting unit, storage information is set to be writable and readable corresponding to various buffers (game control buffers) used for controlling the progress of the game in the pachinko gaming machine 1. The storage information may be composed of data indicating the buffer value. For example, the game control buffer may include a starting opening buffer, a fluctuation special figure designation buffer, a special figure fluctuation random number buffer, a general figure fluctuation random number buffer, and the like. The special figure variation random number buffer provides a numerical value storage area capable of storing numerical value data indicating a random number value that can be used corresponding to the execution of the special figure game. For example, when the special figure game is started, the random number value read from the first special figure reservation storage unit or the second special figure reservation storage unit, the random number value extracted from the game random counter, etc. It may be stored in the random number buffer and can be stored. The special figure variation random number buffer, the first special figure variation random number buffer provided corresponding to the special figure game using the first special figure by the first special symbol display device 4A, and the second special figure display device It suffices that the second special figure variation random number buffer provided corresponding to the special figure game using the second special figure 4B is included. The random number buffer for general figure fluctuation provides a numerical value storage area capable of storing numerical value data indicating a random number value that can be used in response to the execution of the general figure game. For example, when the universal figure game is started, the random number value read from the universal figure pending storage unit, the random number value extracted from the game random counter, etc. may be stored in the universal figure variation random number buffer and stored. Good.

Further, in the storage area of the RAM 102, data used for displaying the consecutive ratio and the winning combination is temporarily stored. For example, in the storage area of the RAM 102, a storage area for storing the total sum of the number of prize balls for each winning opening, a storage area for the cumulative ratio of the total accumulation, an active buffer having a 0th storage area for each winning opening, and a first storage. It suffices that a ring buffer including a region to a tenth storage region, a storage region for a total of the number of prize balls (for 10 sets) for each winning opening, and a storage ratio ratio storage region for 10 sets are provided.

On the effect control board 12, an effect control CPU 120 that performs a control operation according to a program, a ROM 121 that stores an effect control program, fixed data, and the like, a RAM 122 that provides a work area of the effect control CPU 120, and an image display device. 5, a display control unit 123 that executes processing for determining the control content of the display operation, a random number circuit 124 that updates numerical data indicating a random number value independently of the effect control CPU 120, and an I/O 125. And are installed.

As an example, in the effect control board 12, the effect control CPU 120 executes the effect control program read from the ROM 121 to execute the process for controlling the effect operation by the effect electric components. At this time, the effect control CPU 120 reads fixed data from the ROM 121 for fixed data, the effect control CPU 120 writes various variable data in the RAM 122 for temporary storage, and the effect control CPU 120 stores in the RAM 122. A variation data read operation for reading various temporarily stored variation data, a reception operation in which the effect control CPU 120 receives an input of various signals from the outside of the effect control board 12 via the I/O 125, and an effect control CPU 120 performs an I/O operation. A transmission operation of outputting various signals to the outside of the production control board 12 via O125 is also performed.

The effect control CPU 120, the ROM 121, and the RAM 122 may be included in a one-chip effect control microcomputer mounted on the effect control board 12. Wiring for transmitting a video signal to the image display device 5, wiring for transmitting a sound effect signal as an information signal indicating sound number data to the sound control substrate 13, in the production control board 12. To the lamp control board 14, wiring for transmitting an illumination signal as an information signal indicating lamp data is connected. Furthermore, on the effect control board 12, wiring for transmitting an operation detection signal as an information signal indicating that the player's operation on the stick controller 31A has been detected from the controller sensor unit 35A, and a game for the push button 31B. A wiring for transmitting an operation detection signal as an information signal indicating that an operation action of a person is detected from the push sensor 35B is also connected.

In the effect control board 12, numerical data indicating various random number values used for controlling the effect operation are updatable counted by, for example, a random number circuit 124 or an effect random counter provided in a predetermined area of the RAM 122. .. The random number used to control such a rendering operation is also referred to as a rendering random number. As an example, on the side of the effect control board 12, it is possible to count numerical data indicating random number values for various effect determinations, such as a random number value for determining a stop symbol in the variable display of decorative symbols and a random number value for determining an announcement effect. Controlled by.

In the ROM 121 mounted on the effect control board 12 shown in FIG. 2, various data tables used for controlling the effect operation are stored in addition to the effect control program. For example, in the ROM 121, a plurality of determination tables prepared for the production control CPU 120 to perform various determinations, determinations, and settings, table data that configures a determination table, pattern data that configures various production control patterns, and the like are stored. Remembered The effect control pattern is, for example, from process data including effect control execution data (display control data, voice control data, lamp control data, operation detection control data, etc.) and end code associated with the effect control process timer determination value. It is configured. The RAM 122 mounted on the effect control board 12 stores various data used for controlling the effect operation.

The display control unit 123 mounted on the effect control board 12 determines the control content of the display operation in the image display device 5 based on the display control command from the effect control CPU 120. For example, the display control unit 123 performs control for executing variable display of decorative patterns and various effect displays by determining the switching timing of effect images displayed on the display screen of the image display device 5. As an example, the display control unit 123 may include a VDP (Video Display Processor), a CGROM (Character Generator ROM), a VRAM (Video RAM), an LCD drive circuit, and the like. The VDP may be a GPU (Graphics Processing Unit), a GCL (Graphics Controller LSI), or a microprocessor for image processing, which is more commonly called a DSP (Digital Signal Processor). The CGROM may be, for example, a non-rewritable semiconductor memory, a rewritable semiconductor memory such as a flash memory, or a non-volatile recording medium such as a magnetic memory or an optical memory. It may be configured.

The I/O 125 mounted on the performance control board 12 is, for example, an input port for receiving a performance control command transmitted from the main board 11 or the like, and an output port for transmitting various signals to the outside of the performance control board 12. It is configured to include and. For example, from the output port of the I/O 125, a video signal transmitted to the image display device 5, a command (sound effect signal) transmitted to the sound control board 13, and a command transmitted to the lamp control board 14. (Lighting signal) is output.

In the pachinko gaming machine 1, a predetermined game is played using a game ball as a game medium, and a predetermined game value can be given based on the game result. As an example of a game using a game ball, a predetermined ball is shot based on a player performing a predetermined operation (for example, a rotation operation) on a ball operation handle installed on the lower right of the front surface of the housing of the pachinko gaming machine 1. A game ball as a game medium is launched toward the game area by a launch motor provided in the device. When a game ball flowing down the game area passes (enters) various winning openings, the game ball as a prize ball is paid out. When the game ball passes (enters) the first starting winning opening (first starting area) formed in the normal winning ball device 6A and the first starting winning occurs, the game is started by the first starting opening switch 22A shown in FIG. Based on the fact that a sphere has been detected, the special drawing game using the first special drawing by the first special symbol display device 4A is started. When the game ball passes (enters) the second starting winning opening (second starting area) formed in the normally variable winning ball device 6B and the second starting winning occurs, by the second starting opening switch 22B shown in FIG. Based on the fact that the game ball is detected, the special drawing game using the second special drawing by the second special symbol display device 4B is started. When the normal variable winning ball device 6B is in the normally open state or the closed state as the second variable state, it is difficult or impossible for the game ball to pass through the second start winning port.

Based on the fact that the game ball that has passed through the passage gate 41 is detected by the gate switch 21 shown in FIG. 2, the normal symbol game by the normal symbol display device 20 is started, and after the fluctuation of the normal symbol is started, it is normal. The fixed ordinary symbol that is the variable display result of the symbol is stopped and displayed (derived display). At this time, if a specific ordinary symbol (normal symbol per symbol) is stopped and displayed as the fixed ordinary symbol, the variable display result of the ordinary symbol becomes “universal symbol”. On the other hand, if a normal symbol other than the regular symbol is stopped and displayed as the fixed ordinary symbol, the variable display result of the regular symbol becomes "normal symbol loss". In response to the fact that the variable display result of the ordinary symbol is "universal symbol", the opening control and the expansion opening control in which the movable wing piece of the electric tulip constituting the normally variable winning ball device 6B is in the tilted position are performed. , The second start winning opening is changed to the first variable state (open state or the like) in which the game ball is easier to pass than the second variable state. As described above, in the variable display of the normal symbols, the first variable state controlled in response to the variable display result being “universal figure” may be included in the advantageous state advantageous to the player. .. When a predetermined time elapses after the first variable state, the closing control or the normal opening control for returning the movable wing piece of the normal variable winning ball device 6B to the vertical position is performed, and it is difficult for the game ball to pass through the second starting winning port. Alternatively, it changes (returns) to the second variable state in which it cannot pass.

When the special figure game using the first special symbol by the first special symbol display device 4A is started, or when the special figure game using the second special symbol by the second special symbol display device 4B is started, Whether or not to make the variable display result of symbols a “big hit” as a predetermined specific display result is determined (predetermined) before the variable display result is displayed for derivation. Then, the variation pattern is determined at a predetermined rate based on the determination of the variable display result, and the effect control command for designating the variable display result or the variation pattern is issued by the game control microcomputer 100 of the main board 11 shown in FIG. Is transmitted to the production control board 12.

After the special figure game is started based on the determination of the variable display result and the variation pattern, for example, when a predetermined variable display time corresponding to the variation pattern elapses, a definite special symbol that is the variable display result is derived. Is displayed. Corresponding to the variable display of the special symbols by the first special symbol display device 4A and the second special symbol display device 4B, "left", "middle", "right" decorations arranged on the screen of the image display device 5 In the symbol display areas 5L, 5C, and 5R, variable display of decorative symbols (effect symbols) different from the special symbols is performed. The decorative patterns that are variably displayed in the “left”, “middle”, and “right” decorative pattern display areas 5L, 5C, and 5R are also referred to as left symbols, middle symbols, and right symbols, respectively. In the special figure game using the first special figure by the first special symbol display device 4A and the special figure game using the second special symbol by the second special symbol display device 4B, the fixed special that is the variable display result of the special symbol When the design is derived and displayed, the fixed decorative design which is the variable display result of the decorative design is derived and displayed on the image display device 5.

When the predetermined big hit symbol is derived and displayed as the variable display result of the special symbol, the variable display result (special symbol display result) becomes "big hit" (specific display result), and the big hit as an advantageous state advantageous to the player. Controlled to the gaming state. That is, whether or not the jackpot gaming state is controlled corresponds to whether or not the variable display result is "big hit", and is determined (predetermined) before the variable display result is derived and displayed. As the variable display result of the special symbol, when the big hit symbol is not derived and displayed but the lost symbol is derived and displayed, the variable display result (special symbol display result) becomes “miss” (non-specific display result).

When the big hit symbol is stopped and displayed (derived) on the first special symbol display device 4A or the second special symbol display device 4B and the variable display result is “big hit”, it is predetermined in the display area of the image display device 5. The determined decorative pattern which is a combination of the selected jackpots is derived and displayed. As an example, when the same decorative pattern is stopped and displayed on a predetermined effective line in the “left”, “middle”, and “right” decorative pattern display areas 5L, 5C, and 5R, a big hit combination is determined. It is sufficient if the decorative pattern is derived and displayed.

In the big hit game state, the special winning opening is opened and the special variable winning ball device 7 is in the first state advantageous to the player. Then, a predetermined opening upper limit time (for example, 29.5 seconds or 0.1 seconds) elapses, or a predetermined number (for example, 9) of game balls enter the special winning opening to generate a winning ball. In the period up to, a round game (also simply referred to as "round") in which the special winning opening is continuously opened is executed. During periods other than the execution period of the round game, the special winning opening is closed, and it becomes difficult or impossible to generate winning balls. When a game ball enters the special winning opening, the winning ball is detected by the count switch 23, and a predetermined number (for example, 15) of game balls are paid out as a prize ball at each detection. The round game in the jackpot game state is repeatedly executed until a predetermined upper limit number (for example, "2" or "15") is reached.

When the variable display result is "big hit", it is sufficient to include the case where the big hit type is any one of "non-probable change", "probable change", and "probability". When the jackpot type becomes "non-probable change" or "probable change", the special variable winning ball device 7 is the first state that is advantageous to the player as the round game in the big hit gaming state (the big winning opening is open). The normal opening round is executed in which the upper limit time of is relatively long (for example, 29.5 seconds). On the other hand, when the type of jackpot is “probable”, the upper limit time for setting the special variable winning ball device 7 to the first state (opening the jackpot) is relatively short as a round game in the jackpot game state. A short-term open round is performed for a time (eg, 0.1 seconds). The jackpot gaming state in which the normally open round is executed is also referred to as a first specific gaming state. The jackpot gaming state in which the short-term open round is executed is also referred to as a second specific gaming state.

After the jackpot game state is over, the probability that the variable display result is "big hit" (big hit probability) is controlled to be higher than the normal state, based on the establishment of a predetermined probability variation control condition. There is. After the jackpot gaming state is over, the average variable display time may be controlled to a shorter time period than the normal state. As an example, when the jackpot type is “non-probable change”, the gaming state becomes a time saving state after the jackpot gaming state ends. On the other hand, when the jackpot type is “probability change” or “probability”, after the jackpot game state ends, the game state becomes the probable change state.

In the probability changing state and the time saving state, the game ball is easier to pass (enter) through the second starting winning opening than in the normal state, and the normal variable winning ball device 6B is in the first variable state (open state or expanded open state). And the second variable state (closed state or normally open state). For example, the control for shortening the variation time of the ordinary symbol in the ordinary symbol game (ordinary symbol variation time) by the ordinary symbol display device 20 than in the normal state, or the variable display result of the ordinary symbol in each ordinary symbol game is The control for improving the probability of "per drawing" compared to that in the normal state, the tilt control time for performing the tilt control of the movable wing piece in the normal variable winning ball device 6B based on the result that the variable display result is "universal drawing" Is controlled to be longer than that in the normal state, and control to increase the number of tilts of the regular variable winning ball device 6B to the first variable state and the second variable state in an advantageous change mode. Just do it. Note that any one of these controls may be performed, or a plurality of controls may be combined and performed. In this way, the control for changing the normally variable winning ball device 6B between the first variable state and the second variable state in the advantageous change mode is referred to as high opening control (also referred to as "high base control"). By controlling to such a probability changing state or a time saving state, the time required until the next variable display result becomes a "big hit" is shortened, and a special game state that is more advantageous to the player than the normal state is achieved. The high open control may not be performed even when the probability variation control is performed in the probability variation state.

Depending on whether the jackpot type is "non-probable change", "probable change", or "probability", the gaming value given to the player in the jackpot gaming state, or the player value after the jackpot gaming state is finished The game value is different. For example, when the jackpot type is either "non-probable variation" or "probable variation", the number of rounds played is greater than when the jackpot type is "probable", and the special winning opening is opened. Since the upper limit time of the state becomes long, a game value advantageous to the player is given. Also, if the jackpot type is either "probability change" or "probability", it will be in a probable state after the jackpot game state ends, so the jackpot type is "non-probability change" and the time saving state after the jackpot game state ends. Compared with the case, the game value advantageous to the player is given. In this way, it is sufficient that the game value given to the player can be made different depending on whether the big hit type is a plurality of kinds.

In the image display device 5, the decorative design other than the design that is the final stop design (for example, the middle design among the left design, the middle design, and the right design) is stopped in a state in which it matches the big hit combination continuously for a predetermined time, A big hit can occur before the final result is displayed, due to shaking, scaling or deformation, or multiple decorative symbols fluctuating in sync with the same symbol, or display positions swapped The effect performed in a state in which the sex continues (hereinafter, these states are referred to as reach states) is referred to as reach production. As a reach effect, a character image (effect image imitating a person or the like) different from the decorative pattern is displayed on the screen of the image display device 5, the display mode of the background image is changed, and a moving image different from the decorative pattern is displayed. A rendering operation different from changing the variation pattern of the decorative pattern such as reproducing and displaying the image may be executed. Not only the display operation in the image display device 5, but also the sound output operation by the speakers 8L and 8R, the lighting operation (flashing operation) in the light-emitting body such as the game effect lamp 9, and the like are different from the operation modes before the reach mode. The operation mode may be included in the reach effect. The reach state and its state are called the reach mode. Furthermore, the variable display including the reach effect is called the reach variable display. Then, when the display result of the symbols variably displayed on the screen of the image display device 5 is not the big hit combination, the result is "miss", and the variably displayed state ends.

As the effect operation in the reach effect, a plurality of kinds of effect patterns (also referred to as reach patterns) having different operation modes (effect modes) may be prepared in advance. Then, the possibility of becoming a “big hit” (also called reliability or big hit reliability) differs depending on the effect mode in each reach effect. That is, it is possible to change the possibility that the variable display result will be a “big hit” depending on which of a plurality of types of reach effects is executed. In this embodiment, as an example, a normal reach effect (normal reach) and a super reach effect (super reach) are preset. When the reach effect in the super reach is executed, the possibility that the variable display result is “big hit” (big hit expectation degree) is higher than that in the case where the reach effect in the normal reach is executed. It should be noted that the reach effect that is the super reach may include a plurality of types of reach effects including a super reach that executes a specific reach effect having a higher jackpot expectation degree than other super reach. Unlike the reach effect, for example, a predetermined effect image is displayed, or the variable display state of the decorative pattern is changed by the effect operation different from the variable display operation of the decorative pattern, such as image display or voice output as a message. To notify the player in advance that there is a possibility that it will be in the reach state, that the reach effect by super reach may be executed, that the variable display result may be a “big hit”, etc. The notice effect may be executed.

If the variable symbols are stopped (displayed) on the first special symbol display device 4A or the second special symbol display device 4B and the variable display result is "miss", the variable display mode is "non-reach" ("normal"). A case where the variable display mode is “reach” (also referred to as “reach loss”) is included. When the variable display mode is “non-reach”, the variable display state of the decorative pattern is not changed to the reach state after the variable display of the decorative pattern is started, and a predetermined combination of decorative patterns that does not reach (non-reach). The reach combination) is stopped and displayed (derived). When the variable display mode is "reach", after the variable display of the decorative pattern is started, the reach effect is executed after the variable display state of the decorative pattern becomes the reach state, and finally the big hit combination is A combination of predetermined decorative patterns that does not become (reach combination) is stopped and displayed (derived). The decorative designs forming the non-reach combination and the reach combination may be included in the non-specific display result together with the special design which is a lost design.

Next, the operation (action) of the pachinko gaming machine 1 in this embodiment will be described.

In the main board 11, when power supply from a predetermined power supply board is started, the game control microcomputer 100 is activated, and the CPU 103 executes predetermined processing which is game control main processing. At this time, the execution of the game control is started from the beginning of the control code which constitutes the user program stored in the ROM 101. A security check process based on a predetermined security check program may be executed before the execution of the user program is started. Each processing on the main board 11 is executed by the CPU 103 of the game control microcomputer 100.

FIG. 4 is a flowchart showing an example of the game control main processing. When the game control main processing is started, the CPU 103 makes settings at power-on (step S11). The power-on settings may include interrupt mode settings, stack pointer settings, internal register initial settings, and the like. Further, in step S11, the CPU 103 sets a specific value in the built-in Q register. The Q register may store a value (for example, F0h) indicating the upper byte of the address assigned to a predetermined area of the RAM 102 (for example, a game control flag setting unit) or the like. After that, access to the RAM 102 is permitted (step S12).

Subsequent to step S12, it is determined whether or not the RAM clear signal is on (step S13). The RAM clear signal is transmitted from the RAM clear switch 26A and is turned on in response to an operation by an employee or the like in the game hall (hall). In step S13, it is determined whether the RAM clear switch 26A is turned on or off depending on whether the RAM clear signal indicating whether the RAM clear switch 26A is operated is in the on state or the off state. When the RAM clear signal is off (step S13; No), it is determined whether the data check result of the RAM 102 is normal (step S14). In step S14, a checksum is calculated using, for example, the storage data in a specific area of the RAM 102, and the calculated checksum is compared with the stored checksum. At the previous power supply stop, the checksum calculated by the same process is stored. If the comparison result does not match, the data in the specific area of the RAM 102 is inconsistent, and thus the data check result is determined to be not normal. When the data check result is normal (step S14; Yes), it is determined whether the backup flag is on (step S15). At the time of the previous power supply stop, when the backup is normally performed, the setting information indicating that the backup flag is in the ON state is set in the game control flag setting unit or the like.

If the backup flag is on (step S15; Yes), the restoration setting is performed (step S16). As the setting at the time of restoration, processing for returning the internal state of the game control microcomputer 100 to the state at the time of the previous power supply stop is executed. In step S16, the setting for transmitting the recovery notification command to the production control board 12 or the like may be performed. When the RAM clear signal is on (step S13; Yes), when the data check result of the RAM 102 is not normal (step S14; No), or when the backup flag is off (step S15; No) , RAM initialization setting is performed (step S17). As the RAM initialization setting, processing relating to initialization (clearing) of the RAM 102 and initial setting for the work area is executed. For example, the processing for setting clear data over the entire work area by block transfer may be executed from the beginning of the work area in the RAM 102. In step S17, the setting for transmitting the initialization notification command to the production control board 12 or the like may be performed.

After the restoration setting in step S16 and the RAM initialization setting in step S17, the game control start setting is performed (step S18). As game control start settings, internal settings that specify the timer interrupt generation interval, settings that start the generation of random numbers by the random number circuit 104, serial communication circuit initial settings, interrupt processing initial settings (eg, priority), etc. are performed. You may break. Then, the interruption is permitted, and the process proceeds to the loop process of repeatedly executing the game random number updating process (step S20). In the game random number update process, for example, a game random counter provided in the game control counter setting unit of the RAM 102 is used to update part or all of the game random number by software.

FIG. 5 is a flowchart showing an example of the game control timer interrupt process. In the game control microcomputer 100, the game control timer interrupt process is executed by the CPU 103 based on, for example, the interrupt controller accepting an interrupt request from the timer circuit. In the game control timer interrupt processing shown in FIG. 5, switch processing (step S91), main side error processing (step S92), information output processing (step S93), game random number update processing (step S94), special symbol process processing (Step S95), normal symbol process processing (step S96), prize ball processing (step S97), main side communication control processing (step S98) are sequentially executed.

The switch processing in step S91 determines the state of a detection signal (winning detection signal) input from each switch for game ball detection, or a detection signal (operation detection signal) input from each switch for operation detection. However, this is a process for making settings according to the determination result. The main-side error process in step S92 is a process for determining whether or not an abnormal operation has occurred and performing a setting for notifying the occurrence of the abnormal operation. The information output process of step S93 is a process for outputting data such as big hit information, start information, and probability variation information supplied to the hall management computer installed outside the pachinko gaming machine 1, for example. The game random number updating process in step S94 is a process for updating the game random number by software, similarly to step S20 in FIG.

In the special symbol process process of step S95, control of the display operation in the first special symbol display device 4A and the second special symbol display device 4B and the opening/closing operation setting of the special winning opening in the special variable winning ball device 7 are performed in a predetermined procedure. This is a process to be performed. The normal symbol process process of step S96 is a process for performing the control of the display operation in the normal symbol display device 20, the tilt control of the movable wing piece in the normal variable winning device 6B, and the like in a predetermined procedure. The prize ball process in step S97 is a process for setting the number of prize balls according to the input of the prize detection signal. The main-side communication control processing of step S98 is processing for performing communication control for transmitting a control command from the main board 11 to the sub-side control board such as the effect control board 12.

FIG. 6 is a flowchart showing an example of the processing executed in step S91 of FIG. 5 as the switch processing. In the switch processing shown in FIG. 6, it is determined whether the flag clear signal is on (step S71). The flag clear signal is transmitted from the flag clear switch 26B and is turned on in response to an operation by an employee or the like in the game hall (hall). In step S71, it is determined whether the flag clear switch 26B is operated or not depending on whether the flag clear signal indicating whether or not the flag clear switch 26B is operated is in the on state or the off state. When the flag clear signal is ON (step S71; Yes), flag initialization setting is performed (step S72). As the flag initialization setting, a process of initializing (clearing) some or all of various flags stored in the game control flag setting unit of the RAM 102 is executed. In step S72, at least the first big hit flag, the second big hit flag, and the universal figure hit flag provided in the game control flag setting unit may be initialized (cleared).

When the flag clear signal is off in step S71 (step S71; No), or after the flag initialization setting is performed in step S72, it is determined whether or not the aggregate data clear signal is on ( Step S73). The total data clear signal is transmitted from the total data clear switch 26C, and is turned on in response to an operation by an employee or the like in the game hall (hall). In step S73, it is determined whether the total data clear signal indicating whether or not the total data clear switch 26C is operated is on or off depending on whether the total data clear signal is on or off. When the total data clear signal is ON (step S73; Yes), the total data initialization setting is performed (step S74). As the aggregated data initialization setting, a process of initializing (clearing) data used for displaying the continuous ratio and the combination ratio temporarily stored in the storage area of the RAM 102 is executed. In step S74, for example, a storage area for storing the total cumulative total of the number of prize balls for each winning opening, a total cumulative proportion ratio storage area, an active buffer having a 0th storage area for each winning opening, a first storage area to a first storage area. If you can initialize (clear) a ring buffer with 10 storage areas, a total storage area for the number of prize balls (10 sets) for each winning opening, and a total storage area including 10 sets of proportion ratio storage areas Good.

If the aggregate data clear signal is off in step S73 (step S73; No), or after the aggregate data initialization setting is performed in step S74, after setting other switch signals ( (Step S75), the switch processing ends.

In step S72 of the switch processing shown in FIG. 6, in addition to the initialization setting of the first big hit flag, the second big hit flag, and the ordinary figure hit flag provided in the game control flag setting section, the first special figure variation random number buffer The initialization setting of the second special figure variation random number buffer and the general figure variation random number buffer may be performed. In these initialization settings, as the setting information of each flag and the setting information of each buffer, for example, initial setting information composed of clear data, the jackpot gaming state included in the advantageous state and the first start winning opening first variable The state is set to a value indicating that it is not controlled. As a result, the predetermined area in which the setting information is stored can be initialized based on the operation such as the operation on the flag clear switch 26B by the employee in the game hall (hall), and the stored content of the predetermined area is erroneous. Even when it is read, it is possible to prevent a problem such as control to an advantageous state due to erroneous setting of information.

In step S74 of the switch process shown in FIG. 6, initialization of the totalized storage area is performed corresponding to the case where the operation on the totalized data clear switch 26C is detected. The tally storage area stores tally information used for displaying tally results regarding games such as consecutive ratios and winning combinations. On the other hand, in step S74, different from step S72 corresponding to the case where the operation on the flag clear switch 26B is detected, the initial setting of the predetermined area in which the setting information and the like depending on whether to control to the advantageous state is stored. Setting is not done. As described above, based on the operation on the total data clear switch 26C different from the flag clear switch 26B, the storage area different from the predetermined area is initialized, while the predetermined area in which the setting information is stored is not initialized. You may regulate.

In step S13 of the game control main processing shown in FIG. 4, it is determined whether or not the RAM clear signal is on. This determination can be performed when the power supply to the pachinko gaming machine 1 is started, but cannot be performed after the execution of the process for controlling the progress of the game in the pachinko gaming machine 1 is started. On the other hand, in step S71 of the switch process shown in FIG. 6, the flag clear signal is turned on even after the execution of the process for controlling the progress of the game in the pachinko gaming machine 1, such as the game control timer interrupt process. Can be determined. Thus, when the power supply is started, the predetermined area can be initialized based on the operation on the RAM clear switch 26A, and after the execution of the process for controlling the progress of the game is started, the RAM clear switch is started. The predetermined area may be initialized based on an operation on the flag clear switch 26B different from 26A. In step S72 of the switch process shown in FIG. 6, unlike the entire work area of the RAM 102, only a part of the work area such as the game control flag setting unit of the RAM 102 needs to be initialized (cleared). As a result, the processing load on the CPU 103 can be reduced, and problems due to incorrect setting of information can be appropriately prevented.

FIG. 7 is a flowchart showing an example of the process executed in step S95 of FIG. 5 as the special symbol process process. In the special symbol process process shown in FIG. 7, first, a start winning determination process (step S101) is executed. Subsequently, depending on the value of the special figure process flag provided in the game control flag setting unit of the RAM 102, special symbol normal processing (step S110), variation pattern setting processing (step S111), special symbol variation processing (step S112). ), special symbol stop process (step S113), big hit opening pre-process (step S114), big hit opening process (step S115), big hit opening after process (step S116), big hit end process (step S117) To execute.

The special symbol normal process of step S110 is executed when the value of the special symbol process flag is "0". In the special symbol normal process, the first special symbol display storage device 4A and the first special symbol display storage unit 4A or the second special image reservation storage unit, based on the presence or absence of holding data stored in a predetermined area of the RAM 102. 2 Whether or not to start the special figure game by the special symbol display device 4B is determined. Also, in the special symbol normal processing, based on the numerical data indicating the random number value for determining the special symbol display result, whether or not the variable display result of the special symbol or the decorative symbol is "big hit", the variable display result is derived. Make a decision (pre-decision) before it is displayed. At this time, when the variable display result is determined to be "big hit", the big hit type is decided to be one of a plurality of types. The jackpot type is stored by storing data indicating the determination result of the jackpot type in the jackpot type buffer provided in the game control buffer setting unit of the RAM 102 or the like. Furthermore, in the special symbol normal processing, in response to the variable display result of the special symbol in the special symbol game, the fixed special symbol in the special symbol game by the first special symbol display device 4A and the second special symbol display device 4B (big hit symbol, Any of the lost symbols) is set. In the special symbol normal processing, the value of the special symbol process flag is updated to “1” in response to the predetermined determination of the variable display result of the special symbol and the decorative symbol.

The variation pattern setting process of step S111 is executed when the value of the special figure process flag is "1". The variation pattern setting process includes a process of determining the variation pattern as any one of a plurality of types based on the result of the advance determination of whether or not the variable display result is a “big hit”. The variable display time of the special design or the decorative design is set in advance corresponding to the variation pattern. Therefore, by determining the variation pattern in the variation pattern setting process, the variable display time from the start of the variable display of the special symbol to the derivation of the confirmed special symbol that is the variable display result is determined. Further, the variation pattern setting process may include a process of determining whether or not the variable display state of the decorative pattern is “reach” when the variable display result is “miss”. Alternatively, even if it is determined whether the variable display state of the decorative pattern is “reach” by determining the variation pattern at a predetermined ratio when the variable display result is “miss” in the variation pattern setting process. Good. Further, the fluctuation pattern setting process may include a process for setting for starting the fluctuation of the special symbol on the special symbol display device 4. When the variation pattern setting process is executed, the value of the special figure process flag is updated to "2".

The special symbol variation process of step S112 is executed when the value of the special symbol process flag is "2". In the special symbol variation process, the setting process for changing the special symbol in the first special symbol display device 4A and the second special symbol display device 4B, and the elapsed time after the special symbol starts fluctuating Includes measurement processing. Then, when the elapsed time from the start of the variation of the special symbol reaches the special symbol variation time, the value of the special symbol process flag is updated to "3".

The special symbol stop process of step S113 is executed when the value of the special symbol process flag is "3". In the special symbol stop processing, the variation of the special symbol is stopped by the first special symbol display device 4A and the second special symbol display device 4B, and the fixed special symbol which is the variable display result of the special symbol is stopped (displayed). It includes a process for making settings for the setting. Then, it is determined whether or not the big hit flag (first big hit flag or second big hit flag) provided in the game control flag setting unit of the RAM 102 or the like is turned on. When the big hit flag is on, the transmission of the big start designating command for designating the start of the big hit game state based on that the special figure display result is "big hit" is set, and the value of the special figure process flag is set to " Update to 4". When the big hit flag is off, the value of the special figure process flag is updated to "0".

The big hit opening preprocessing of step S114 is executed when the value of the special figure process flag is "4". In the big hit opening pre-processing, based on that the special map display result is "big hit", etc., processing to start execution of the round game in the big hit gaming state and to set the big winning opening to the open state, etc. It is included. When the jackpot opening preprocessing is executed, the value of the special figure process flag is updated to "5".

The big hit opening process in step S115 is executed when the value of the special figure process flag is "5". In the big hit opening process, the process of measuring the elapsed time after the big winning opening is opened, and the big winning opening based on the measured elapsed time and the number of game balls detected by the count switch 23, etc. It includes processing for determining whether or not it is time to return from the open state to the closed state. When the special winning opening is returned to the closed state, the value of the special figure process flag is updated to "6".

The post-big hit opening process of step S116 is executed when the value of the special figure process flag is "6". In the jackpot opening post-processing, it is determined whether or not the number of times of executing the round game in which the jackpot is opened has reached a predetermined upper limit number (for example, "2" or "15" according to the jackpot type). It includes a process and a process of waiting until the next round game is started when the maximum number of times is not reached. When the next round game is started, the value of the special figure process flag is updated to "4", while when the number of executions of the round game reaches the upper limit number, the value of the special figure process flag is set to "7". Will be updated.

The big hit ending process of step S117 is executed when the value of the special figure process flag is "7". In the big hit ending process, a waiting time corresponding to a period in which an ending effect as an effect operation for notifying the end of the big hit game state is executed by the effect devices such as the image display device 5, the speakers 8L and 8R, and the game effect lamp 9. The process includes a process of waiting until the time elapses, a process of performing various settings for controlling the probability variation state or the time saving state in accordance with the success or failure of the probability variation control condition, and the like. The value of the special figure process flag is updated to "0" when the setting for controlling to the probability variation state or the time saving state is made.

FIG. 8 is a flowchart showing an example of the processing executed in step S101 of FIG. 7 as the start winning determination processing. In the starting winning determination process shown in FIG. 8, it is determined whether or not there is a first starting winning (step S201). In step S201, the presence/absence of the first start prize is determined according to whether the detection signal (first start mouth switch signal) transmitted from the first start mouth switch 22A is in the on state or the off state. .. When there is the first start prize (step S201; Yes), it is determined whether or not the first special figure reservation storage number is a predetermined upper limit value (for example, "4") (step S202). In step S202, the number of the first reserved storage number may be specified by reading the first reserved storage number count value which is the stored value of the first reserved storage number counter provided in the game control counter setting unit of the RAM 102. .. When the first special figure reservation storage number is not the upper limit value in step S202 (step S202; No), the starting mouth buffer value which is the stored value of the starting mouth buffer provided in the game control buffer setting unit of the RAM 102 is set to " 1” (step S203).

If there is no first start winning a prize in step S201 (step S201; No), or if the first special figure reservation storage number has reached the upper limit value in step S202 (step S202; Yes), a second start It is determined whether or not there is a prize (step S204). In step S204, the presence/absence of the second start prize is determined according to whether the detection signal (second start port switch signal) transmitted from the second start port switch 22B is in the on state or the off state. .. When there is no second start prize (step S204; No), the start prize determination process is ended. When there is the second start prize (step S204; Yes), it is determined whether or not the second special figure reservation storage number is a predetermined upper limit value (for example, "4") (step S205). In step S205, it is sufficient to specify the second special figure reservation storage number by reading the second reservation storage number count value, which is the stored value of the second reservation storage number counter provided in the game control counter setting unit of the RAM 102. .. When the number of second special figure reservation storages is the upper limit value in step S205 (step S205; Yes), the start winning determination process is ended. When the number of second special figure reservation storages is not the upper limit value (step S205; No), the starting port buffer value is set to "2" (step S206).

Subsequent to either of steps S203 and S206, 1 is added to the reserved storage number count value corresponding to the starting opening buffer value (step S207). For example, when the starting mouth buffer value is "1", the first reserved storage number count value is incremented by 1, while when the starting opening buffer value is "2", the second reserved storage number count value is incremented by 1. Also, the total pending storage number count value, which is the stored value of the total pending storage number counter provided in the game control counter setting unit of the RAM 102, is incremented by 1 (step S208).

After that, the CPU 103 performs initialization setting of the random number register (step S209). The random number register initialization setting is a setting for initializing (clearing) the first random number register 104R1 and the second random number register 104R2 included in the random number circuit 104. In step S209, settings for initializing the random number register according to the starting opening buffer value may be performed. For example, when the starting mouth buffer value is "1", the first random number value register 104R1 may be initialized, while when the starting mouth buffer value is "2", the second random number value register 104R2 may be initialized. By initializing the random number register in step S209, in the random number circuit 104, the first numerical value is read before the CPU 103 reads the numerical value data that becomes the random number value according to the satisfaction of the numerical value acquisition condition due to the occurrence of the start winning. It suffices that the numerical value holding areas such as the random number register 104R1 and the second random number register 104R2 can be initialized (cleared). In addition, since the random number register initialization setting is performed in step S209, the random number circuit 104 stores the first special figure reservation storage unit and the second special figure reservation storage in accordance with the establishment of the numerical value acquisition condition due to the occurrence of the start winning. It suffices that the numerical value holding areas such as the first random number register 104R1 and the second random number register 104R2 can be initialized (cleared) before the reserved data is stored in the unit. Next, the random number latch setting is performed (step S210), and the random number circuit 104 acquires the numerical value data that is the random number value in response to the occurrence of the start winning. In step S210, the random number register corresponding to the starting port buffer value may be stored with the numerical data as the random number, and the numerical data may be held in the numerical holding area. For example, when the starting mouth buffer value is "1", the first random number value register 104R1 stores numerical value data that is a random number value, while when the starting mouth buffer value is "2", the second random number value register 104R2 is stored. Numerical data that is a random number value may be stored.

After performing the random number latch setting in step S210, the game random number at the time of winning the start prize is extracted (step S211). In step S211, among the numerical data updated by the random number circuit 104 and the game random counter provided in the game control counter setting unit of the RAM 102, the random number value for determining the special figure display result and the random number for determining the jackpot type are selected. Numerical data indicating each random value such as a numerical value and a random value for determining a fluctuation pattern may be extracted. The numerical data indicating each random number value extracted at this time is set as the reserved data and stored at the beginning of the empty entry in the special figure pending storage unit corresponding to the starting opening buffer value (step S212). For example, when the starting opening buffer value is "1", the pending data is set in the first special figure pending storage unit, while when the starting opening buffer value is "2", the pending data is the second special drawing pending storage. Set to the department. When the starting opening buffer value is "1", the numerical data obtained from the first random number register 104R1 of the random number circuit 104 is stored in the first special figure pending storage as the pending data which becomes the random number value for determining the special figure display result. Just set it in the section. When the starting opening buffer value is "2", the numerical data obtained from the second random number register 104R2 of the random number circuit 104 is stored as the second special figure reservation storage as the reserved data which becomes the random number value for determining the special figure display result. Just set it in the section. In this way, when the numerical value acquisition condition due to the occurrence of the start winning is satisfied, the numerical value data as the random number value is acquired from the numerical value holding area such as the first random number value register 104R1 and the second random number value register 104R2, and the first special figure reservation is performed. It suffices if the hold information can be stored in the storage unit or the second special figure reservation storage unit.

After storing the random number value in step S212, the random number register initialization setting is performed as in step S209 (step S213). By performing the initialization setting of the random number register in step S213, in the random number circuit 104, after the CPU 103 reads the numerical value data that becomes the random number value according to the satisfaction of the numerical value acquisition condition due to the occurrence of the start winning, It suffices if the numerical value holding areas such as the 1-random number value register 104R1 and the 2nd random value register 104R2 can be initialized (cleared). Further, since the random number register initialization setting is performed in step S213, the random number circuit 104 causes the first special figure reservation storage unit and the second special figure reservation storage to be performed in accordance with the establishment of the numerical value acquisition condition due to the occurrence of the start winning. It is sufficient that the numerical value holding areas such as the first random number value register 104R1 and the second random number value register 104R2 can be initialized (cleared) after the reserved data is stored in the unit. Then, the setting for transmitting the previously prepared starting opening winning award designation command to the effect control board 12 is performed (step S214). In addition, a random number value determination at the time of winning is performed (step S215). In the winning random number determination, it may be possible to determine whether or not the jackpot gaming state as the advantageous state is controlled before determining whether or not the jackpot gaming state as the advantageous state is controlled. Next, the setting for transmitting the prepared storage storage number notification command to the effect control board 12 is performed (step S216). Further, it is determined whether the starting port buffer value is "1" or "2" (step S217). At this time, if the starting opening buffer value is "1" (step S217; "1"), the starting opening buffer is cleared and the stored value is initialized to "0" (step S218), and then step S204. Proceed to. On the other hand, if the starting opening buffer value is "2" (step S217; "2"), the starting opening buffer is cleared and the stored value is initialized to "0" (step S219). The start winning determination process ends. When the starting opening buffer is cleared in step S218, the process proceeds to step S204, so that even if both the first starting opening switch 22A and the second starting opening switch 22B simultaneously detect the effective winning start of the game ball, The process based on the detection of the valid starting winnings of both parties can be completed.

FIG. 9 is a flowchart showing an example of the process executed in step S110 of FIG. 7 as the special symbol normal process. In the special symbol normal process shown in FIG. 9, it is determined whether or not the second special symbol reservation storage number is "0" (step S231). In step S231, the second special figure reserved storage number may be specified by reading the second reserved storage number count value. When the number of second special figure reservation storages is other than "0" (step S231; No), the second special figure variation random number buffer initialization setting is performed (step S232). The second special figure variation random number buffer initialization setting is a setting for initializing (clearing) the second special figure variation random number buffer provided in the game control buffer setting unit of the RAM 102 or the like. By performing the initialization setting of the second special figure fluctuation random number buffer in step S232, the second special figure fluctuation random number buffer is stored in the second special figure fluctuation random number buffer before storing the numerical data as the random number value in the second special figure fluctuation random number buffer. It suffices if the numerical value storage area for storing each random number value can be initialized (cleared). In addition, by performing the random number buffer initialization setting for the second special figure variation in step S232, the jackpot game as an advantageous state using the numerical data that is the random number value read from the pending data in the second special figure pending storage unit. It is sufficient that the numerical value storage area for storing each random number value in the second special figure variation random number buffer can be initialized (cleared) before it is determined whether to control the state.

Following the setting in step S232, the random number value included in the pending data in the second special figure pending storage unit is read out, stored in the second special figure varying random number buffer, and temporarily stored (step S233). In step S233, numerical data indicating each random number value, such as a random number value for determining the special figure display result, a random number value for determining the big hit type, and a random number value for determining the variation pattern, is stored in the second special figure storage unit. The number is read from the entry corresponding to "1" and stored in the second special figure variation random number buffer. At this time, the second special figure reservation storage number is decremented by 1, and the storage content of the second special figure reservation storage unit is shifted (step S234). Further, the value stored in the fluctuation special map designation buffer is set to "2" (step S235). Subsequently, the second jackpot flag initialization setting is performed (step S236). The second jackpot flag initialization setting is a setting for initializing (clearing) the second jackpot flag provided in the game control flag setting unit of the RAM 102 or the like. By setting the second big hit flag initialization in step S236, the game control flag setting unit of the RAM 102 sets a predetermined value before setting the setting information indicating that the second big hit flag is ON in a predetermined area. It suffices if the area can be initialized (cleared).

When the second special figure reservation storage number is "0" in step S231 (step S231; Yes), it is determined whether the first special figure reservation storage number is "0" (step S237). .. In step S237, the first reserved storage number may be specified by reading the first reserved storage count value. When the number of the first special figure reserved storage is other than "0" (step S237; No), the first special figure variation random number buffer initialization setting is performed (step S238). The first special figure variation random number buffer initialization setting is a setting for initializing (clearing) the first special figure variation random number buffer provided in the game control buffer setting unit of the RAM 102 or the like. By performing initialization setting of the first special figure variation random number buffer in step S238, the first special figure variation random number buffer is stored in the first special figure variation random number buffer before storing the numerical data as the random number value. It suffices if the numerical value storage area for storing each random number value can be initialized (cleared). In addition, by performing the first special figure variation random number buffer initialization setting in step S238, the jackpot game as an advantageous state using the numerical data that is the random number value read from the pending data of the first special figure pending storage unit. It is sufficient that the numerical value storage area for storing each random number value in the first special figure variation random number buffer can be initialized (cleared) before determining whether to control the state.

Following the setting in step S238, the random number value included in the pending data in the first special figure pending storage unit is read, stored in the first special figure varying random number buffer, and temporarily stored (step S239). In step S239, numerical data indicating each random number value, such as a random number value for determining the special figure display result, a random number value for determining the big hit type, and a random number value for determining the variation pattern, is held in the first special figure holding storage unit. It is read from the entry corresponding to the number "1" and stored in the first special figure variation random number buffer. At this time, the number of the 1st special figure reservation storages is decremented by 1, and the storage contents of the 1st special figure reservation storage part are shifted (Step S240). Further, the stored value of the fluctuation special map designation buffer is set to "1" (step S241). Then, the first big hit flag initialization setting is performed (step S242). The first jackpot flag initialization setting is a setting for initializing (clearing) the first jackpot flag provided in the game control flag setting unit of the RAM 102 or the like. The first big hit flag initialization setting is performed in step S242, so that the game control flag setting unit of the RAM 102 sets a predetermined area before setting the setting information indicating that the first big hit flag is ON in a predetermined area. It is sufficient if the area can be initialized (cleared).

After the setting in any of steps S236 and S242, the special symbol display result which is the variable display result of the special symbol is determined to be either "big hit" or "miss" (step S243). In step S243, for example, the special figure display result determination table prepared in advance by being stored in a predetermined area (table storage area) of the ROM 101 is referred to, and the special figure fluctuation random number buffer corresponding to the fluctuation special figure designation buffer value is selected. The special figure display result may be determined based on the read numerical value data indicating the random number value for determining the special figure display result. When the special figure display result is determined as "big hit", based on the variable display of the special symbol in the special figure game, it is controlled to the big hit game state as an advantageous state. Therefore, by determining whether the special figure display result is "big hit" or "miss" in step S243, it is possible to decide whether or not to control the big hit gaming state as an advantageous state.

Based on the determination in step S243, it is determined whether or not the special figure display result is "big hit" (step 244). When the special figure display result is determined as "big hit", based on the variable display of the special symbol in the special figure game, it is controlled to the big hit game state as an advantageous state. Therefore, by determining whether or not the special figure display result is "big hit" in step S244, it is possible to determine whether or not to control the big hit gaming state as an advantageous state. When the special figure display result is "big hit" (step S244; Yes), the fluctuation special figure is determined (step S245). In step S245, it suffices if the fluctuation special map can be specified by reading the fluctuation special map designation buffer value. When the variation special map is the first special map (step S245; first), the first big hit flag is set to be in the on state (step S246). When the variation special map is the second special map (step S245; second), the second big hit flag is set to be in the on state (step S247). In this way, based on the fact that it is determined to control to the big hit game state, by setting the big hit flag according to the variation special map to the on state, setting information that can specify the determination result of controlling to the advantageous state, , May be set in a predetermined area such as the game control flag setting unit of the RAM 102. The setting information capable of specifying the determination result of controlling to the advantageous state may include information indicating that the big hit flag is on.

Subsequent to either of steps S246 and S247, the jackpot type is determined (step S248). In step S248, the jackpot type determination table prepared in advance, for example, by being stored in a predetermined area (table storage area) of the ROM 101, is referred to and read from the special figure fluctuation random number buffer corresponding to the fluctuation special figure designation buffer value. The jackpot type may be determined based on numerical data indicating a random number value for determining the jackpot type. For example, when the fluctuation special map designation buffer value is “1”, the big hit type is determined while using the numerical data showing the random number value for determining the big hit type read from the first special figure fluctuation random number buffer. When the variation special figure designation buffer value is “2”, the big hit type may be determined by using the numerical data showing the random number value for determining the big hit type read from the second special figure variation random number buffer. The jackpot type is determined to be one of a plurality of types such as “non-probable change”, “probable change”, and “probability”. Depending on the plurality of types of jackpots, the gaming value given when the jackpot gaming state and the gaming value given after the jackpot gaming state are different. Therefore, the game value to be given to the player is determined by determining the jackpot type in step S248. The jackpot type determined in step S248 is stored in the jackpot type buffer provided in, for example, the game control buffer storage unit of the RAM 102 (step S249). As described above, by setting the storage information of the big hit type buffer according to the big hit type determination result, the advantageous state setting information capable of specifying the decision result of which of the plurality of types of advantageous states is controlled is set to a predetermined value. It may be set in the area.

When the special figure display result is not "big hit" in step S244 (step S244; No), after the big hit type is stored in step S249, the confirmed special symbol is determined (step S250). For example, when the special symbol display result is determined to be "miss" in step S243, in step S250, the special symbol prepared in advance as the loss symbol is determined as the confirmed special symbol. On the other hand, when the special figure display result is determined to be "big hit" in step S243, in step S250, a plurality of kinds of big hit symbols are prepared in advance according to the big hit type determined in step S248. Any one of the special symbols is decided as the confirmed special symbol. After that, the value of the special symbol process flag is updated to "1" (step S251), and the special symbol normal process ends. When the value of the special figure process flag is updated to "1" in step S251, so that the next timer interrupt occurs, the fluctuation pattern setting process of step S111 shown in FIG. 7 is executed.

In step S237, when the first special figure reservation storage number is "0" (step S237; Yes), after performing the demo display setting (step S252), the special symbol normal processing is ended. In the demo display setting, for example, a production control command (customer waiting demo designation command) for designating a demonstration display (demonstration screen display) by displaying a predetermined production image on the image display device 5 is sent from the main board 11 to the production control board. It is determined whether the data has already been transmitted to 12. At this time, if it has been transmitted, the demo display setting is ended as it is. On the other hand, if it has not been sent, the setting for sending the customer waiting demo designation command is performed, and then the demo display setting ends.

FIG. 10 is a flowchart showing an example of the processing executed in step S111 of FIG. 7 as the variation pattern setting processing. In the fluctuation pattern setting process shown in FIG. 10, first, a fluctuation special figure is determined (step S261). If the variation special map is the first special figure (step S261; first), the first big hit flag is read (step S262), while if the variation special figure is the second special figure (step S261). The second) and the second jackpot flag are read (step S263). It is determined whether or not the special figure display result is "big hit" according to the result of reading the big hit flag (step S264). Corresponding to the case where the big hit flag is on, if the special figure display result is "big hit" (step S264; Yes), the big hit time variation pattern is determined (step S265). On the other hand, corresponding to the case where the big hit flag is off, when the special figure display result is "miss" (step S264; No), the time variation pattern is determined (step S266).

In step S265, the jackpot variation pattern determination table prepared in advance, for example, by being stored in a predetermined area (table storage area) of the ROM 101, is referred to and read from the special figure variation random number buffer corresponding to the variation special figure designation buffer value. The big hit variation pattern may be determined based on the numerical data indicating the random value for determining the variation pattern. In step S266, for example, the loss variation pattern determination table prepared in advance by being stored in a predetermined area (table storage area) of the ROM 101 is referred to and read out from the random number buffer for special figure variation according to the variation special figure designation buffer value. The variation pattern at the time of loss may be determined based on the numerical data indicating the random number value for determining the variation pattern. In the jackpot variation pattern determination table and the lost variation pattern determination table, a numerical value (determination value) that is compared with a random value for determining the variation pattern may be assigned to the variation pattern determination result. As described above, in steps S265 and S266, the fluctuation pattern may be determined using the numerical data indicating the fluctuation pattern determination random number value stored in the special figure fluctuation random number buffer. As for the variation pattern, a plurality of patterns are prepared in advance depending on whether or not the variable display time of the special symbol or the variable display mode of the decorative symbol is “reach”, the reach effect when the “reach” is set, and the like. Therefore, by determining the variation pattern in either of steps S265 and S266, the numerical data indicating the random number value stored in the special figure variation random number buffer, specifically, the random number value for determining the variation pattern is indicated. It is possible to read out the numerical data and make a decision regarding at least a part of the effect executed during the variable display of the special symbol.

After the variation pattern is determined in any of steps S265 and S266, the variation special figure is determined (step S267). When the variation special map is the first special figure (step S267; first), the random number buffer initialization setting for the first special figure variation is performed (step S268). When the variation special map is the second special figure (step S267; second), the second special figure variation random number buffer initialization setting is performed (step S269). In step S268, the first special figure variation random number buffer initialization setting is performed to read the numerical data that is the random number value stored in the first special figure variation random number buffer, and then the first special figure variation It suffices if the numerical value storage area for storing each random number value can be initialized (cleared) in the random number buffer for use. In addition, after determining the variation pattern at the time of big hit in step S265, a random number value stored in the random number buffer for changing first special map is set by performing initialization setting of the random buffer for changing first special map in step S268. It is sufficient that the numerical value storage area for storing each random number value in the first special figure variation random number buffer can be initialized (cleared) after the effect is determined based on the data reading result. By performing the initialization setting of the second special figure variation random number buffer in step S269, the second special figure variation is read after the numerical data serving as the random number value stored in the second special figure variation random number buffer is read. It suffices if the numerical value storage area for storing each random number value can be initialized (cleared) in the random number buffer for use. In addition, after the big hitting variation pattern is determined in step S265, the second special figure variation random number buffer initialization setting is performed in step S269 so that the random number value stored in the second special figure variation random number buffer is set. It is sufficient that the numerical value storage area for storing each random number value in the second special figure variation random number buffer can be initialized (cleared) after the effect is determined based on the data reading result.

If the special figure display result corresponding to the special figure game using the first special figure is "big hit", from the first special figure variation random number buffer in step S248 of the special symbol normal process shown in FIG. After determining the jackpot type using the read numerical data indicating the random number value for determining the jackpot type, in the variation pattern setting process shown in FIG. 10, the first special figure variation random number buffer initialization setting is performed in step S268. In step S248 of the special symbol normal process, it is determined to give different game values according to the big hit type. Therefore, after performing step S248 in the special symbol normal process, in the variation pattern setting process, the random number buffer for the first special symbol variation is initialized in step S268, and is stored in the random number buffer for the first special symbol variation. After the game value to be given is determined based on the numerical value data that is the random number value, the numerical value storage area for storing each random number value in the first special figure variation random number buffer may be initialized (cleared). When the special figure display result corresponding to the special figure game using the second special figure is "big hit", from the second special figure variation random number buffer in step S248 of the special symbol normal process shown in FIG. After the jackpot type is determined using the read numerical data indicating the random number value for determining the jackpot type, in the variation pattern setting process shown in FIG. 10, the second special figure variation random number buffer initialization setting is performed in step S269. In this way, after performing step S248 in the special symbol normal process, in the variation pattern setting process, by performing the second special figure variation random number buffer initialization setting in step S269, the second special figure variation random number buffer After the game value to be given is determined based on the stored random number data, the numeric value storage area for storing each random number value in the second special figure variation random number buffer may be initialized (cleared).

Subsequent to the setting in any of steps S268 and S269, a special figure variation time which is a variable display time of the special symbol is set (step S270). The special symbol variation time, which is the variable display time of the special symbol, is the time required from the start of the variation of the special symbol in the special symbol game until the fixed special symbol that is the variable display result (special symbol display result) is derived and displayed. Is. The special figure variation time is set in advance corresponding to a plurality of variation patterns prepared in advance. Therefore, the special figure variation time is determined by determining the variation pattern in either of steps S265 and S266. In step S270, it is possible to start measuring the special figure fluctuation time by setting a timer initial value according to the determined fluctuation pattern in the special figure fluctuation timer provided in, for example, the game control timer setting unit of the RAM 102. It should be set. After step S270, special figure fluctuation start setting is performed (step S271). In step S271, for example, the setting for transmitting a drive signal for updating the display of the first special symbol on the first special symbol display device 4A is performed corresponding to the case where the variable special symbol designation buffer value is "1". On the other hand, in response to the case where the variable special figure designation buffer value is “2”, the setting for transmitting the drive signal for updating the display of the second special figure on the second special symbol display device 4B may be performed. ..

After the setting in step S271, the change start command transmission setting is performed (step S272). The fluctuation start command transmission setting is a command transmission setting at the start of fluctuation of the special symbol. In step S272, for example, when the variation special figure designation buffer value is "1", the first variation start command, variation pattern designation command, variable display result notification command from the main board 11 to the effect control board 12 In order to sequentially transmit the first reserved storage number notification command, the storage address (head address) in the ROM 101 of the first fluctuation start command table prepared in advance may be designated. In addition, for example, when the variation special figure designation buffer value is “2”, the second variation start command, variation pattern designation command, variable display result notification command, In order to sequentially transmit the two-reserved storage number notification commands, a storage address (start address) in the ROM 101 of the second variation start command table prepared in advance may be designated. The first variation start command and the second variation start command are for the variation start in the special symbol game using the first special symbol in the first special symbol display device 4A and the second special symbol in the second special symbol display device 4B. This is a production control command for designating the start of fluctuation in the special figure game. The variation pattern designation command is variably displayed in each of the "left", "middle" and "right" decorative symbol display areas 5L, 5C, 5R corresponding to the variable display of the special symbol in the special symbol game. Is a production control command for designating a variation pattern such as a decorative pattern. The variable display result notification command is an effect control command for designating a variable display result such as a special design or a decorative design. After step S272, the value of the special figure process flag is updated to "2" (step S273), and then the fluctuation pattern setting process ends.

Figure 11 is a special symbol stop processing is a flowchart illustrating an example of a process executed at step S1 1 3 in FIG. In the special symbol stop processing shown in FIG. 11, first, it is determined whether or not the special symbol confirmation display is being performed (step S281). In step S281, for example, when the special figure finalization display flag provided in the game control flag setting unit of the RAM 102 is in the ON state, it may be determined that the special figure finalization display is in progress. The special symbol confirmation display flag, for example, after the value of the special symbol process flag is updated to "3" in the special symbol variation process of step S112 shown in FIG. 7, the determination of step S281 is first performed in the special symbol stop process. When performing, it is in the off state, and then, in the setting of step S282, the special figure confirmation display flag may be set to be in the on state.

If it is not in the special symbol confirmation display in step S281 (step S281; No), the special symbol confirmation display setting is performed (step S282), and the special symbol stop process ends. The special figure fixed display setting is a setting for stopping display (deriving display) of the fixed special symbol which is a variable display result of the special symbol. In step S282, the command transmission setting at the time of symbol determination, the setting of the special figure fixed display time, the setting of turning on the special figure fixed display flag, and the like are performed. As the special figure confirmation display time, a certain time (for example, 1000 milliseconds) may be set in advance. For example, by setting a timer initial value corresponding to the special figure finalization display time in the game control process timer provided in the game control timer setting unit of the RAM 102, it is sufficient to be able to set the start of measurement of the special figure finalization display time.

When the special figure finalization display is being performed in step S281 (step S281; Yes), it is determined whether or not the special figure finalization display time has elapsed (step S283). When the special figure fixed display time has not elapsed (step S283; No), the special symbol stop processing is ended, and the special figure fixed display time is waited. When the special figure confirmation display time has elapsed (step S283; Yes), the fluctuation special figure is determined (step S284). When the fluctuation special map is the first special map (step S284; first), the first big hit flag is read (step S285), while when the fluctuation special map is the second special map (step S284). Second, the second big hit flag is read (step S286). It is determined whether or not the special figure display result is "big hit" according to the result of reading the big hit flag (step S287). By performing the determination in step S287 subsequent to steps S284 to S286, the jackpot gaming state as an advantageous state is controlled based on the read result of the setting information according to the jackpot flag of the first jackpot flag or the second jackpot flag. It is only necessary to be able to determine whether or not to do it.

When the special figure display result is "big hit" in step S287 (step S287; Yes), big hit control control is set (step S288). The big hit control setting is a setting when the symbol corresponding to the special figure display result is "big hit". The big hit time control setting may include, for example, a setting for ending the probability variation state or the time saving state, a big hit start effect waiting time setting, a command transmission setting at the start of the big hit game state, and the like. In step S288, the special figure finalized display flag may be initialized (cleared) to the off state. After such a big hit time control setting is performed, each processing of steps S114 to S117 shown in FIG. 7 is executed, so that it is advantageous as a processing based on the setting information indicating that the big hit flag is ON. It suffices if the processing for controlling the included big hit game state can be executed.

After step S288, the fluctuation special map is determined (step S289). When the variation special map is the first special figure (step S289; first), while the first big hit flag initialization setting is performed (step S290), when the variation special figure is the second special figure. (Step S289; second), the second big hit flag initialization is set (step S291). If the first jackpot flag initialization setting is performed in step S290 after step S285, and if the predetermined area can be initialized (cleared) after the setting information indicating that the first jackpot flag is ON is read from the predetermined area. Good. If the second jackpot flag initialization setting is performed in step S291 after step S286, and if the predetermined area can be initialized (cleared) after reading the setting information indicating that the second jackpot flag is on from the predetermined area. Good. After the setting in any of steps S290 and S291, the value of the special figure process flag is updated to "4" (step S292), and then the special symbol stop processing is ended.

If the special figure display result is "big hit" corresponding to the special figure game using the first special figure, the first big hit flag is ON in step S262 of the variation pattern setting process shown in FIG. 11 is read out, and after the big hit time variation pattern is determined in step S265, the first big hit flag initialization setting is performed in step S290 in the special symbol stop processing shown in FIG. Step S265 of the variation pattern setting process includes determination of an effect according to the jackpot variation pattern. Therefore, after executing steps S262 and S265 in the variation pattern setting process, in the special symbol stop process, the first big hit flag initialization setting is performed in step S290, so that the first big hit flag is turned on from the predetermined area. It suffices if the predetermined area can be initialized (cleared) after the setting information shown is read and the effect is determined based on the read result. When the special figure display result is "big hit" corresponding to the special figure game using the second special figure, the second big hit flag is ON in step S263 of the variation pattern setting process shown in FIG. After the setting information indicating is read and the big hit time variation pattern is determined in step S265, the second big hit flag initialization setting is performed in step S291 in the special symbol stop processing shown in FIG. In this way, after executing steps S263 and S265 in the variation pattern setting process, the second big hit flag is turned on from the predetermined area by performing the second big hit flag initialization setting in step S291 in the special symbol stop process. It suffices if the predetermined area can be initialized (cleared) after the setting information indicating that is read and the effect is determined based on the read result. In this way, after the effect is determined based on the setting information indicating that the first big hit flag and the second big hit flag are on, the predetermined area in which the setting information is set may be initialized (cleared).

If the special figure display result corresponding to the special figure game using the first special figure is "big hit", the first big hit flag is ON in step S246 of the special symbol normal process shown in FIG. After setting the setting information indicating a predetermined area (such as the game control flag setting unit of the RAM 102) and determining the jackpot type in step S248, in the special symbol stop processing shown in FIG. 11, the first jackpot flag in step S290. Make initialization settings. In step S248 of the special symbol normal process, it is determined to give different game values according to the big hit type. Therefore, by performing the first big hit flag initialization setting in step S290 in the special symbol stop process after performing steps S246 and S248 in the special symbol normal process, setting information indicating that the first big hit flag is on It is only necessary that the predetermined area can be initialized (cleared) after the game value to be given is determined based on. If the special figure display result corresponding to the special figure game using the second special figure is "big hit", the second big hit flag is ON in step S247 of the special symbol normal process shown in FIG. After setting the setting information indicating a predetermined area (such as the game control flag setting unit of the RAM 102) and determining the big hit type in step S248, in the special symbol stop process shown in FIG. 11, the second big hit flag initial in step S291. Set the activation. In this way, after executing steps S247 and S248 in the special symbol normal process, the second big hit flag is turned on by performing the second big hit flag initialization setting in step S291 in the special symbol stop process. It is sufficient that the predetermined area can be initialized (cleared) after the game value to be given is determined based on the setting information.

When the first big hit flag initialization setting is made in step S290, steps S114 to S117 in the special symbol process process shown in FIG. 7 are executed based on the big hit time control setting in step S288, which is advantageous. A process corresponding to controlling the big hit game state included in the state is executed. In this way, in step S290 of the special symbol stop processing shown in FIG. 11, by performing the first big hit flag initialization setting, the processing based on the setting information indicating that the first big hit flag is ON is executed. First, it suffices if the predetermined area can be initialized (cleared). When the second big hit flag initialization setting is made in step S291, steps S114 to S117 in the special symbol process process shown in FIG. 7 are executed based on the big hit time control setting in step S288, which is advantageous. A process corresponding to controlling the big hit game state included in the state is executed. Thus, in step S291 of the special symbol stop processing shown in FIG. 11, by performing the second big hit flag initialization setting, before the processing based on the setting information indicating that the second big hit flag is on First, it suffices if the predetermined area can be initialized (cleared).

When the special figure display result is “miss” and not “big hit” in step S287 (step S287; No), control for time of loss is performed (step S293). The control setting at the time of losing is a setting at the time of symbol determination in which the special figure display result corresponds to "missing". The lost time control setting is, for example, a setting for updating the remaining execution count of the variable display in the probability variation state or the time saving state, and a setting for ending the probability variation control or the time reduction control when the remaining execution number is “0”. Etc. may be included. After the setting in step S293, the value of the special figure process flag is updated to "0" (step S294), and the special symbol stop processing is ended.

FIG. 12 is a flowchart showing an example of a process executed in step S96 of FIG. 5 as a normal symbol process process. In the normal symbol process process shown in FIG. 12, first, the gate passage determination process (step S131) is executed. Then, depending on the value of the universal symbol process flag provided in the game control flag setting unit of the RAM 102, normal symbol normal process (step S140), normal symbol variation process (step S141), normal symbol stop process (step S142) ), either of the normal electric auditors product operating processes (step S143) is selectively executed.

Normal symbol normal process of step S140 is executed when the value of the universal symbol process flag is "0". In the normal symbol normal process, it is determined whether or not to start the universal symbol game by the normal symbol display device 20. For example, if there is pending data stored in the universal figure pending storage unit, it is determined to start the universal figure game. When you start the general figure game, based on the numerical data showing the random number value for determining the general figure display result, whether or not the variable display result of the ordinary symbol is "Public figure hit", the variable display result is Determined (predetermined) before being displayed for derivation. In addition, corresponding to the case of starting the universal figure game, the universal figure variation time, which is the time from the start of the variable display of normal symbols in the universal figure game to the stop display (deriving display) of the fixed regular symbols, etc. decide.

The normal symbol variation process of step S141 is executed when the value of the universal symbol process flag is "1". The normal symbol variation process includes a process of setting for changing the normal symbol on the normal symbol display device 20, a process of measuring an elapsed time from when the normal symbol starts changing, and the like. Then, when the elapsed time from the start of the variation of the normal symbol reaches the universal symbol variation time, the value of the universal symbol process flag is updated to "2".

The normal symbol stop process of step S142 is executed when the value of the universal symbol process flag is "2". The normal symbol stop process includes a process for stopping the variation of the normal symbol on the normal symbol display device 20, and performing a setting for the stop display (deriving display) of the fixed ordinary symbol which is the variable display result of the normal symbol. ing. Then, it is determined whether or not the universal figure hit flag provided in the game control flag setting unit of the RAM 102 is turned on. When the universal figure hit flag is on, based on the fact that the universal figure display result is "universal figure hit", the first variable state (open state, enlarged state) in which the game ball easily passes through the second starting winning opening The value of the universal figure process flag is updated to "3" in order to control the open state). If the universal figure hit flag is off, the value of the universal figure process flag is updated to "0".

The normal electric auditors product operating process of step S143 is executed when the value of the universal figure process flag is "3". In the normal electric auditors product operating process, the second starting winning opening is set to the first position by performing drive control on the solenoid 81 for the normal electric auditors product based on the fact that the result of displaying the universal steering wheel is "universal drawing hit". It includes processing for setting the variable state. The control for setting the second starting winning opening in the first variable state is also referred to as electric power opening control. When the electric channel opening control is completed, the value of the universal figure process flag is updated to "0".

FIG. 13 is a flowchart showing an example of the process executed in step S131 of FIG. 12 as the gate passage determination process. In the gate passage determination process shown in FIG. 13, it is determined whether or not there is a gate passage (step S301). In step S301, the presence/absence of gate passage is determined according to whether the detection signal (passage gate switch signal) transmitted from the gate switch 21 is in the on state or the off state. If there is no gate passage (step S301; No), the gate passage determination process ends. If the gate has been passed (step S301; Yes), it is determined whether or not the number of universal figure reservation memories is the upper limit value (for example, "4") (step S302). In step S302, it is sufficient to be able to specify the number-of-usage-holding-memory, by reading the number-of-holding-general-drawing number, which is the stored value of the number-of-holding-universal-drawings holding counter provided in the game control counter setting unit of the RAM 102. In step S302, in the case where the number of stored universal maps is the upper limit value (step S302; Yes), the gate passage determination process ends.

In step S302, when the number of stored universal figure reservations is not the upper limit (step S302; No), 1 is added to the number of retained universal figure reservations (step S303). After that, the game random number when passing through the gate is extracted (step S304). In step S304, the numerical data indicating the random number value for determining the general figure display result may be extracted from the numerical data updated by the game random counter provided in the game control counter setting unit of the RAM 102. In addition, in step S304, numerical value data indicating a random number value for determining the universal figure fluctuation time or a random number value for determining the electric charge opening pattern may be extracted. Numerical data indicating the random number value extracted at this time is set and stored at the beginning of the empty entry in the general-drawing-holding storage unit as holding data (step S305). Next, the gate passage control setting is performed (step S306), and the gate passage determination processing ends. In the gate passing control setting, for example, a setting for increasing the number of LEDs to be turned on by the universal figure reservation display 25C by 1 may be performed.

FIG. 14 is a flowchart showing an example of a process executed in step S140 of FIG. 12 as a normal symbol normal process. In the normal symbol normal process shown in FIG. 14, it is determined whether or not the number of reserved universal symbols is "0" (step S321). In step S321, the number of stored universal figure reservations may be specified by reading the count value of the number of universal figure reservations. When the number of stored ordinary symbols is "0" (step S321; Yes), the normal symbol normal process ends. When the number of stored figures in the universal figure is other than "0" (step S321; No), the random number buffer for universal figure change is initialized (step S322). The universal figure variation random number buffer initialization setting is a setting for initializing (clearing) the universal figure variation random number buffer provided in the game control buffer setting unit of the RAM 102 or the like. By performing initialization setting of the random number buffer for general/universal figure variation in step S322, a numerical value for storing the random number value in the random number buffer for general/universal figure fluctuation is stored before storing the numerical value data as the random number value by the random number buffer for general/universal figure variation It suffices if the storage area can be initialized (cleared). In addition, by performing initialization setting for the random number buffer for universal figure fluctuation in step S322, it is possible to include in the advantageous state as a determination using the numerical value data that is the random number value read from the reserved data in the universal figure pending storage unit. Before determining whether or not to control the second starting winning opening to the first variable state, it is only necessary to initialize (clear) the numerical value storage area for storing the random number value in the universal figure variation random number buffer.

Subsequent to the setting in step S322, the random number value included in the pending data in the universal figure pending storage unit is read out, stored in the random number buffer for universal figure fluctuation, and temporarily stored (step S323). In step S323, for example, numerical data indicating a random number value for determining the figure display result is read from the entry corresponding to the holding number "1" in the figure holding storage unit and stored in the figure changing random number buffer. .. Further, for example, numerical data indicating a random number value for determining the universal figure variation time may be stored in the universal figure variation random number buffer. Numerical data indicating the random number value for determining the universal figure fluctuation time may be acquired from the game random counter provided in the game control counter setting unit of the RAM 102 in step S323. Alternatively, if numeric data indicating the random number value for determining the universal figure fluctuation time can be stored in the universal figure pending storage unit together with the random value for determining the universal figure display result, Numerical data indicating a random number value for determining the universal figure variation time may be read. In addition, for example, numerical data indicating a random number value for determining the electric charge opening pattern may be stored in the universal figure variation random number buffer. Numerical data indicating the random value for determining the power-chew opening pattern may be acquired from the game random counter provided in the game control counter setting unit of the RAM 102 in step S323. Alternatively, if numerical data indicating the random number value for deciding the electric cable opening pattern can be stored in the general-use figure holding storage unit together with the random-number value for determining the general-use figure display result, Numerical data indicating a random number value for determining the electric charge opening pattern may be stored in the universal figure variation random number buffer.

Subsequent to step S323, 1 is subtracted from the number of public figure reservation storages, and the content stored in the general figure reservation storage unit is shifted (step S324). At this time, the per-universal figure flag initialization setting is performed (step S325). The universal figure hit flag initialization setting is a setting for initializing (clearing) the universal figure hit flag provided in the game control flag setting unit of the RAM 102 or the like. By performing the universal figure hit flag initialization setting in step S325, the game control flag setting unit of the RAM 102 sets a predetermined value before setting the setting information indicating that the universal figure hit flag is on in a predetermined area. It is sufficient if the area can be initialized (cleared).

After the setting in step S325, the ordinary figure display result which is the variable display result of the ordinary symbol is determined to be either "universal figure hit" or "universal figure loss" (step S326). In step S326, the general figure display result determination table prepared in advance, for example, by being stored in a predetermined area (table storage area) of the ROM 101, is referred to, and the general figure display result determination table read from the random number buffer for general figure change is determined. The public figure display result may be determined based on the numerical data indicating the random number value. When the general figure display result is determined to be "per universal figure", the first variable state included in the advantageous state is controlled based on the variable display of the ordinary symbol in the general figure game. Therefore, in step S326, it is determined whether the general figure display result is "universal figure hit" or "universal figure loss" to determine whether to control the first variable state as the advantageous state. be able to.

Based on the determination made in step S326, it is determined whether or not the figure display result is "per figure" (step S327). When the figure display result is determined to be "per figure", based on the variable display of the ordinary symbol in the figure game, the first variable state is controlled as an advantageous state. Therefore, in step S327, it is possible to determine whether or not to control to the first variable state as the advantageous state by determining whether or not the figure display result is "universal figure hit". When the result of displaying the figure is "per figure" (step S327; Yes), the figure hit flag is set to the ON state (step S328). As described above, based on the determination that the control is performed in the first variable state, the setting information capable of specifying the determination result of controlling in the advantageous state by setting the general-purpose hit flag to the ON state is stored in the RAM 102. It may be set in a predetermined area such as the game control flag setting unit. The setting information capable of specifying the determination result of controlling to the advantageous state may include information indicating that the universal figure flag is on.

Subsequent to step S328, the per-universal figure per-hour fluctuation start control setting is performed (step S329). The general figure hitting time variation start control setting may include a setting for determining the general figure fluctuation time in the general figure game in response to the general figure display result of “universal figure hit”. In step S329, the change mode (electric chew opening pattern or the like) when the second starting winning port is set to the first variable state may be determined corresponding to the case where the universal figure display result is “per universal figure”. .. As the electric chewing opening pattern, for example, a plurality of patterns in which the number of times and the time when the movable wing piece is in the tilted position are different in the normal variable winning ball device 6B may be prepared in advance. The easiness of passage (entry) of the game ball at the second starting winning opening differs depending on the plurality of electric chewing opening patterns. Therefore, the game value to be given to the player is determined by determining the electric-chu open pattern in step S329.

In step S327, when the general figure display result is "universal figure loss" and not "universal figure hit" (step S327; No), the general figure loss variation start control setting is performed (step S330). The general figure loss variation start control setting may include a setting for determining the general figure variation time in the general figure game in response to the general figure display result of “universal figure loss”. In step S329 or step S330, numerical data indicating a random number value for determining the general figure fluctuation time is referred to by referring to a general figure fluctuation time determination table prepared in advance, for example, by being stored in a predetermined area (table storage area) of the ROM 101. The universal figure fluctuation time may be determined based on By determining the universal figure variation time, at least a part of the effect executed during the variable display of the normal symbols may be determined. Therefore, by determining the universal figure fluctuation time in either of steps S329 and S330, numerical data indicating a random number value stored in the random number buffer for universal figure fluctuation, specifically, for determining the universal figure fluctuation time. You may make it possible to read the numerical data which shows a random number value, and to make a decision regarding at least one part of the production performed during the variable display of a normal design.

After the setting in any of steps S329 and S330, the random number buffer initialization for universal figure fluctuation is set (step S331). In step S331, by performing initialization setting for the random number buffer for universal figure fluctuation, after the numerical value data that is the random number value stored in the random number buffer for universal figure fluctuation is read, the random number value in the random number buffer for universal figure fluctuation is read. It is only necessary to be able to initialize (clear) the numerical value storage area for storing. In addition, after the universal figure fluctuation time is determined in steps S329 and S330, the random number buffer for universal figure fluctuation is initialized in step S331, so that the numerical data that is the random number value stored in the random number buffer for universal figure fluctuation is stored. It suffices if the numerical value storage area for storing the random number value in the universal figure variation random number buffer can be initialized (cleared) after the effect is determined based on the read result. When the figure display result in the figure game is "per figure", the numerical data indicating the random number value for determining the electric Chu opening pattern read from the random number buffer for figure change in step S329 is used to generate the electric signal. After determining the chew opening pattern, the random number buffer for universal figure fluctuation initialization may be set in step S331. In step S329, it may be determined to give different game values according to the electric chew opening pattern. Therefore, after performing step S329, by performing initialization setting random number buffer for general figure fluctuation in step S331, the game value to be given based on the numerical value data that is the random number value stored in the random number buffer for general figure fluctuation After being determined, it is only necessary to initialize (clear) the numerical value storage area for storing the random number value in the universal figure variation random number buffer. After step S331, the value of the universal figure process flag is updated to "1" (step S332), and the normal symbol normal process is ended.

FIG. 15 is a flowchart showing an example of the process executed in step S142 of FIG. 12 as the normal symbol stop process. In the normal symbol stop process shown in FIG. 15, first, it is determined whether or not the universal symbol confirmation display is being performed (step S341). In step S341, for example, when the general figure finalization display flag provided in the game control flag setting unit of the RAM 102 is in the ON state, it may be determined that the general figure finalization display is in progress. The normal figure confirmation display flag, for example, after the value of the public figure process flag is updated to "2" in the normal symbol variation process of step S141 shown in FIG. 12, the judgment of step S341 is first made in the normal symbol stop process. When it is performed, it is in the off state, and thereafter, in the setting of step S342, the universal figure confirmation display flag may be set to be in the on state.

When it is not in the normal figure fixed display in step S341 (step S341; No), the normal figure fixed display setting is performed (step S342), and the normal symbol stop processing is ended. The ordinary figure fixed display setting is a setting for stopping and displaying (deriving display) the fixed ordinary symbol which is a variable display result of the ordinary symbol. In step S342, the command transmission setting, the universal figure fixed display time setting, and the setting of the general figure fixed display flag are set to the ON state at the end of the fluctuation of the general figure. A fixed time (for example, 1000 milliseconds) may be set in advance as the normal image confirmation display time. For example, by setting a timer initial value corresponding to the universal figure fixed display time to the universal figure display process timer provided in the game control timer setting unit of the RAM 102, it is sufficient to set the measurement of the universal figure fixed display time to be startable. ..

When the general figure confirmation display is being performed in step S341 (step S341; Yes), it is determined whether the general figure confirmation display time has elapsed (step S343). When the general figure fixed display time has not elapsed (step S343; No), the normal symbol stop processing is ended, and the ordinary figure fixed display time is waited for. When the normal figure fixed display time has elapsed (step S343; Yes), the normal figure hit flag is read (step S344). Depending on the result of reading such a universal figure hit flag, it is determined whether or not the universal figure display result is "universal figure hit" (step S345). It suffices to perform the determination in step S345 subsequent to step S344 so as to determine whether or not to control the first variable state as the advantageous state, based on the result of reading the setting information according to the universal figure hit flag.

In step S345, if the result of displaying the figure is "Popular figure lost" and not "Perfect figure" (step S345; No), the value of the figure process flag is updated to "0" (step S345). S346), the normal symbol stop process ends. When the result of displaying the figure is "per figure" (step S345; Yes), the control for hitting the figure is performed (step S347). The normal figure hitting time control setting is a setting when the figure figure is displayed and the figure figure display result corresponds to "universal figure hit". In the universal figure hitting control setting, for example, the setting at the start of the control for supplying the drive signal according to the electric Chu opening pattern to the solenoid 81 for the ordinary electric auditors product or the second start winning opening from the second variable state It may include a command transmission setting at the start of control for changing to the first variable state. Based on the setting information indicating that the universal figure hit flag is on by executing the ordinary electric auditors product operating process of step S143 shown in FIG. 12 after such a universal figure hit time control setting is performed. As the processing, it is sufficient that the processing for controlling to the first variable state that can be included in the advantageous state can be executed.

Subsequent to the setting in step S347, the universal figure per flag initialization setting is performed (step S348), the value of the universal figure process flag is updated to "3" (step S349), and the normal symbol stop processing is ended. .. If the universal figure hit flag initialization setting is performed in step S348 after step S344, if the preset area can be initialized (cleared) after the setting information indicating that the universal figure hit flag is ON is read from the predetermined area. Good. When the figure display result is "universal figure hit" corresponding to the figure figure game using the ordinary symbols, the ordinary figure hit flag is set and turned on in step S328 of the ordinary symbol normal process shown in FIG. In the state, after performing the universal figure variation start control setting in step S329, in the normal symbol stop processing shown in FIG. 15, the universal symbol perimeter flag initialization setting is performed in step S348. In step S329 of the normal symbol normal process, the determination of the effect according to the normal symbol variation time may be included. Therefore, after executing steps S328 and S329 in the normal symbol normal process, in the normal symbol stop process, by performing the universal symbol perimeter flag initialization setting in step S348, setting information indicating that the universal symbol per flag is on After the effect is determined based on, the predetermined area in which the setting information is set may be initialized (cleared).

In the case where the general figure display result is "universal figure hit" corresponding to the ordinary figure game using the ordinary symbol, the ordinary figure hit flag is ON in step S328 of the ordinary symbol normal process shown in FIG. The setting information indicating that is set in a predetermined area (such as the game control flag setting unit of the RAM 102), and after the per-universal-figure-per-time fluctuation start control setting is performed in step S329, the normal symbol stop processing shown in FIG. In step S348, the flag for the universal map is initialized. In step S329 of the normal symbol normal process, it may be determined to give different game values according to the electric Chu opening pattern. Therefore, after executing steps S328 and S329 in the normal symbol normal process, in the normal symbol stop process, by performing the universal symbol perimeter flag initialization setting in step S348, setting information indicating that the universal symbol per flag is on It is only necessary that the predetermined area can be initialized (cleared) after the game value to be given is determined based on.

When the universal figure hit flag initialization setting is performed in step S348, the ordinary electric accessory of step S143 in the ordinary symbol process process shown in FIG. 12 is based on the ordinary figure hit time control setting in step S347. The operation process is executed, and the process corresponding to controlling to the first variable state included in the advantageous state is executed. In this way, in step S348 of the normal symbol stop process shown in FIG. 15, before the process based on the setting information indicating that the universal figure flag is ON by performing the universal figure flag initialization setting. First, it suffices if the predetermined area can be initialized (cleared).

In the effect control board 12, when the power supply from the predetermined power supply board is started, the effect control CPU 120 executes the effect control main processing. When the effect control main process is started, the effect control CPU 120 first executes a predetermined initialization process to clear the RAM 122 and set various initial values, and the CTC (counter/timer) mounted on the effect control board 12. Circuit) register setting. After that, it is determined whether the timer interrupt flag is on. The timer interrupt flag is set to the ON state each time a predetermined time (for example, 2 milliseconds) elapses based on, for example, the CTC register setting. At this time, if the timer interrupt flag is off, it waits.

On the side of the effect control board 12, an interrupt for receiving the effect control command from the main board 11 is generated in addition to the timer interrupt that is generated each time a predetermined time elapses. This interrupt is, for example, an interrupt generated when the effect control INT signal from the main board 11 is turned on. When an interrupt occurs due to the effect control INT signal being turned on, the effect control CPU 120 automatically sets the interrupt disable, but if a CPU that does not automatically enter the interrupt disable state is used, an interrupt occurs. It is desirable to issue a prohibition instruction (DI instruction). The effect control CPU 120 executes, for example, a predetermined command reception interrupt process in response to the interrupt caused by the effect control INT signal being turned on. In this command reception interrupt processing, among the input ports included in the I/O 125, a predetermined input port that receives the control signal transmitted from the main board 11 via the relay board 15 receives a control signal to be a production control command. Take in. The effect control command fetched at this time is stored in, for example, the effect control command receiving buffer provided in the RAM 122. After that, the production control CPU 120 sets the interrupt permission, and then ends the command reception interrupt process.

If the timer interrupt flag is on, the timer interrupt flag is cleared to the off state and the command analysis process is executed. In the command analysis process, for example, after reading various effect control commands transmitted from the game control microcomputer 100 of the main board 11 and stored in the effect control command receiving buffer, the read effect control commands are read. Corresponding settings and controls are performed. After executing the command analysis process, the effect control process process is executed. In the effect control process processing, various kinds of operations such as an effect image display operation on the screen of the image display device 5, a sound output operation from the speakers 8L and 8R, and a lighting operation of a game effect lamp 9 and a light emitting body such as a decorative LED are performed. With respect to the control content of the production operation using the production device, determination, determination, setting, etc. are performed according to the production control command or the like transmitted from the main board 11. Following the effect control process processing, effect random number updating processing is executed, and numerical data indicating the effect random numbers counted by the effect random counter of the RAM 122 are updated by software as various random number values used for effect control. ..

FIG. 16 is a flowchart showing an example of effect control process processing. In the effect control process process shown in FIG. 16, first, the universal figure corresponding effect process (step S161) is executed. Subsequently, depending on the value of the effect process flag provided in the effect control flag setting unit of the RAM 122, the variable display start waiting process (step S170), the variable display start setting process (step S171), the variable display effect process ( Step S172), special figure hit waiting processing (step S173), attacker opening time production processing (step S174), ending production processing (step S175) it selectively executes.

The general-picture corresponding effect process in step S161 may be any process that enables execution of the general-picture corresponding effect. The universal figure corresponding effect corresponds to the variable display of the ordinary symbols in the universal figure game, etc., and the first variable state in which the second start winning port provided in the ordinary variable winning ball device 6B facilitates passage (entry) of the game ball. It is an effect that informs whether or not to be controlled. Further, in the universal figure corresponding effect, whether or not the reach effect is executed in the variable display of the special symbol or the decorative symbol may be notified. Whether or not the general-purpose figure production is executed or not is determined when the variable display of the normal symbols is started, and the second starting winning opening becomes the first variable state, and the game ball easily enters. It suffices to be able to report whether or not.

The variable display start waiting process of step S170 is executed when the value of the effect process flag is "0". The variable display start waiting process starts variable display of the decorative pattern on the screen of the image display device 5 based on whether or not the first variation start command or the second variation start command transmitted from the main board 11 is received. It includes processing for determining whether or not to do. The first variation start command is an effect control command for notifying that the special figure game using the first special figure by the first special symbol display device 4A is started. The second variation start command is an effect control command for notifying that the special figure game using the second special figure by the second special symbol display device 4B is started. When either the first fluctuation start command or the second fluctuation start command is received, the value of the effect process flag is updated to "1".

The variable display start setting process of step S171 is a process executed when the value of the effect process flag is "1". The variable display start setting process corresponds to the start of variable display of the special symbol in the special symbol game by the first special symbol display device 4A and the second special symbol display device 4B, on the screen of the image display device 5. In order to perform variable display of decorative designs and other various production operations, it includes processing for determining fixed decorative designs and various production control patterns according to the variation patterns of special designs and types of display results. When the variable display start setting process is executed, the value of the effect process flag is updated to "2".

The variable display effect process in step S172 is a process executed when the value of the effect process flag is "2". In the variable display effect processing, various control data are read out from the effect control pattern in accordance with the timer value in the effect control process timer provided in the effect control timer setting unit of the RAM 122, and the like in the variable display of the decorative pattern. It includes a process for performing the production control of. Further, in the variable display effect production process, in response to receiving the symbol fixing command transmitted from the main board 11, etc., the fixed decorative symbol as the final stop symbol which is the variable display result of the decorative symbol is completely stopped (( It includes a process for displaying (derived display). In addition, in response to the end code being read from the predetermined effect control pattern, the fixed decorative pattern may be completely stopped (derived). In this case, when the variable display time corresponding to the variation pattern designated by the variation pattern designation command has elapsed, the production control board 12 can autonomously operate even if the production control command from the main board 11 is not used. The variable display result can be confirmed by deriving and displaying the fixed decorative pattern. After performing such effect control, the value of the effect process flag is updated to "3".

The special figure winning waiting process of step S173 is a process executed when the value of the effect process flag is "3". The special figure hit waiting process, in the big hit game state, based on the variable display result notified by the variable display result notification command, the judgment result of whether or not the hit start designation command transmitted from the main board 11 is received, and the like. It includes a process of determining whether or not it is controlled. When the variable display result is controlled to the big hit game state in correspondence with the "big hit", the value of the effect process flag is updated to "4", while the variable display result corresponds to "miss". If the jackpot gaming state is not controlled, the effect process flag is cleared and its value is initialized to "0".

The attacker release effect process of step S174 is a process executed when the value of the effect process flag is "4". The attacker open time effect process includes, for example, a process of setting an effect control pattern or the like corresponding to effect contents in the big hit game state and controlling execution of various effects based on the set contents. More specifically, displaying an effect image on the screen of the image display device 5, outputting voice or sound effect from the speakers 8L and 8R by outputting a command (sound effect signal) to the sound control board 13, and a lamp. It is possible to execute effects in a predetermined period during which the special winning opening door as an attacker is in an open state, such as turning on or off or blinking the game effect lamp 9 or the decorative LED by outputting a command (electrical decoration signal) to the control board 14. To In the attacker opening effect process, the value of the effect process flag is updated to "5" which is a value corresponding to the ending effect process in response to receiving the hit end designation command from the main board 11, for example.

The ending effect process of step S175 is a process executed when the value of the effect process flag is "5". The ending effect process includes, for example, a process of setting an effect control pattern or the like corresponding to the end of the big hit game state and controlling execution of various effects based on the setting contents. More specifically, displaying an effect image on the screen of the image display device 5, outputting voice or sound effect from the speakers 8L and 8R by outputting a command (sound effect signal) to the sound control board 13, and a lamp. By outputting a command (electrical decoration signal) to the control board 14, the effect at the end of the big hit game state such as turning on or off or blinking the game effect lamp 9 and the decorative LED can be executed.

FIG. 17 is an explanatory diagram showing a program portion for performing initialization setting. FIG. 17A shows a program portion executed when the RAM initialization setting is performed in step S17 of the game control main processing shown in FIG. FIG. 17(B) shows the program part executed when the big hit flag initialization is set in steps S236, S242, etc. of the special symbol normal process shown in FIG.

The program portion shown in FIG. 17A sets clear data over the entire work area by block transfer from the beginning of the work area in the RAM 102. The LDQ instruction is a transfer instruction that sets, in the register designated as the first argument, data obtained by combining the storage value of the Q register and the immediate value set as the second argument. The LDQ instruction sets the 2-byte value (16-bit value) with the stored value of the Q register as the upper byte and the immediate value set as the second argument as the lower byte in the register specified as the first argument. To be done. The Q register may store a predetermined value (for example, F0h) in step S11 of the game control main processing shown in FIG. 4, for example. The lower address value LAD0 shown in FIG. 17A may be an immediate value indicating the lower byte at the start address of the work area in the RAM 102. The LD instruction is a transfer instruction that sets the data set as the second argument in the register designated as the first argument. In the example shown in FIG. 17A, a 2-byte value in which the stored value of the Q register is set as the upper byte and the lower address value LAD0 is set as the lower byte in the HL register which is the internal register of the CPU 103 by the first LDQ instruction 16-bit value) is set. Then, by the second LDQ instruction, in the DE register, which is a built-in register of the CPU 103, the storage value of the Q register is set as the upper byte and the value obtained by adding 1 to the lower address value LAD0 is set as the lower byte. Value) is set. Then, the number of transfers RMS1 is set in the BC register, which is a built-in register of the CPU 103, by the first LD instruction. After that, the clear data (00h) is set in the A register which is a built-in register of the CPU 103 by the XOR instruction. Then, the second LD instruction sets the clear data, which is the storage value of the A register, to the address of the RAM 102 indicated by the storage value of the HL register. Finally, block transfer is performed by the LDIR instruction, and clear data is set over the entire work area in the RAM 102.

As described above, the program portion shown in FIG. 17A is executed when the RAM initialization setting is performed in step S17 of the game control main processing shown in FIG. 4, so that the RAM clear switch 26A is operated based on the operation. Then, the clear data may be block-transferred and set to the entire work area including the game control flag setting unit in the RAM 102. The program part shown in FIG. 17A may be executed to initialize (clear) the flag data based on the operation on the flag clear switch 26B. For example, in step S72 of the switch process shown in FIG. 6, a process of block-transferring the clear data may be executed in a part of the work area in the RAM 102 that includes the game control flag setting unit. The program portion shown in FIG. 17A may be executed to initialize (clear) the aggregated data based on the operation on the aggregated data clear switch 26C. For example, in step S74 of the switch process shown in FIG. 6, the process of block-transferring the clear data may be executed in a part of the work area including the total storage area in the work area in the RAM 102.

The program portion shown in FIG. 17B is composed of only CLRQ instructions. The CLRQ instruction initializes (clears) the storage area of the RAM 102 having a 2-byte value (16-bit value) address in which the storage value of the Q register is the upper byte and the immediate value set as an argument is the lower byte. Clear command to set clear data. The lower-order address value LAD1 shown in FIG. 17B may be an immediate value indicating the lower-order byte at an address in a predetermined area in which flag data to be initialized (cleared) by setting a game control flag in the RAM 102 is stored. Good. The predetermined value (for example, F0h) stored in the Q register may be a value indicating the upper byte of the address common to the entire work area of the RAM 102 including the game control flag setting unit of the RAM 102. For example, in step S242 of the special symbol normal process shown in FIG. 9 or step S290 of the special symbol stop process shown in FIG. 11, as a lower-order address value LAD1, setting information including flag data of the first big hit flag is stored in a predetermined area. It suffices if the first jackpot flag can be initialized (cleared) by designating the lower address. In step S236 of the special symbol normal process shown in FIG. 9 or step S291 of the special symbol stop process shown in FIG. 11, as the lower address value LAD1, the lower part of the predetermined area in which the setting information composed of the flag data of the second big hit flag is stored. It suffices if the second jackpot flag can be initialized (cleared) by designating an address.

The program part shown in FIG. 17(B) may be executed to initialize (clear) the per-universal figure flag. For example, in step S325 of the normal symbol normal process shown in FIG. 14 or step S348 of the normal symbol stop process shown in FIG. It is only necessary to initialize (clear) the per-university flag by designating an address. Alternatively, the program part shown in FIG. 17B may be executed to initialize (clear) the first special figure variation random number buffer, the second special figure variation random number buffer, and the general figure variation random number buffer. Good. In addition, when the numerical value storage area that stores the numerical value data that is a random number value can store multiple bytes of data and a plurality of addresses are assigned correspondingly, until the final address is reached from the start address, The CLRQ instruction may be repeatedly executed multiple times. Alternatively, the clear data may be set until the end address is reached by performing the block transfer similar to the case shown in FIG. In step S238 of the special symbol normal process shown in FIG. 9 and step S268 of the variation pattern setting process shown in FIG. 10, numerical data in the first special diagram variation random number buffer is set as the lower address value LAD1 shown in FIG. 17B. The first special figure variation random number buffer may be initialized (cleared) by designating the lower address of the stored numerical value storage area. In step S232 of the special symbol normal process shown in FIG. 9 and step S269 of the variation pattern setting process shown in FIG. 10, numerical data in the second special diagram variation random number buffer is set as the lower address value LAD1 shown in FIG. 17B. The second special figure variation random number buffer may be initialized (cleared) by designating the lower address of the stored numerical value storage area. In step S322 and step S331 of the normal symbol normal process shown in FIG. 14, the lower address of the numerical value storage area in which the numerical value data in the random number buffer for general pattern fluctuation is stored is specified as the lower address value LAD1 shown in FIG. By doing so, the random number buffer for universal figure fluctuation may be initialized (cleared).

As described above, in various initialization settings, clear data of "00h" is set as a value indicating that the jackpot gaming state included in the advantageous state and the first variable state of the second starting winning opening are not controlled. It As a result, even if the stored contents such as the flag data and the numerical data are erroneously read out, the erroneous setting of the information causes the trouble that the big hit game state or the first variable state of the second starting winning opening is controlled. It can be surely prevented.

The initialization (clear) by the CLRQ instruction shown in FIG. 17B sets clear data by an initialization method different from the initialization (clear) by the block transfer such as the LDIR instruction shown in FIG. 17A. Initialize (clear). In addition, in the initialization (clear) by the CLRQ instruction shown in FIG. 17B, the storage contents of each flag data and each numerical data are individually initialized (cleared) by designating the lower address value LAD1 which is an immediate value. )can do. On the other hand, the initialization (clear) by block transfer shown in FIG. 17A can collectively initialize (clear) a large number of stored contents over a plurality of addresses. Therefore, when the initialization (clear) is performed based on the operation on the RAM clear switch 26A and the operation on the flag clear switch 26B, the case where the stored contents of each flag data and each numerical data are individually initialized (cleared) Can initialize the stored contents in different areas. As a result, it is possible to properly initialize the stored content and prevent a problem due to erroneous setting of information while preventing an increase in the processing load for initializing (clearing) the stored content.

In step S242 of the special symbol normal process shown in FIG. 9 and step S290 of the special symbol stop process shown in FIG. 11, the first big jackpot flag is individually initialized (cleared) without clearing the second big jackpot flag. Settings are made. In step S236 of the special symbol normal process shown in FIG. 9 and step S291 of the special symbol stop process shown in FIG. 11, the second big hit flag is individually initialized (cleared) without clearing the first big hit flag. Settings are made. On the other hand, in step S17 of the game control main process shown in FIG. 4 and step S72 of the switch process shown in FIG. 6, settings for initializing (clearing) the first big hit flag and the second big hit flag all together are made. Done. When the first big hit flag and the second big hit flag are collectively initialized (cleared), a program portion using block transfer as shown in FIG. 17A is executed. As a result, when initialization (clear) is performed based on an operation on the RAM clear switch 26A or an operation on the flag clear switch 26B, the processing load for initializing (clearing) the stored contents is reduced, and erroneous information is lost. It is possible to prevent problems due to settings.

In step S348 of the normal symbol stop processing shown in Step S 325 and 15 of the normal symbol normal processing shown in FIG. 14, the first big hit flag or the second jackpot flag without initializing (clearing) the Hiroshizu per flag Settings for individually initializing (clearing) are performed. On the other hand, in step S17 of the game control main process shown in FIG. 4 and step S72 of the switch process shown in FIG. 6, the universal figure hit flag is collectively initialized (cleared) together with the first big hit flag and the second big hit flag. ) Settings are made. In the case of collectively initializing (clearing) the universal figure hit flag together with the first big hit flag and the second big hit flag, a program portion using block transfer as shown in FIG. 17A is executed. As a result, when initialization (clear) is performed based on an operation on the RAM clear switch 26A or an operation on the flag clear switch 26B, the processing load for initializing (clearing) the stored contents is reduced, and erroneous information is lost. It is possible to prevent problems due to settings.

In step S238 of the special symbol normal process shown in FIG. 9 and step S268 of the variation pattern setting process shown in FIG. 10, the first special symbol variation random number is not initialized (cleared) without using the second special symbol variation random number buffer. Settings are made to individually initialize (clear) the buffer. In step S232 of the special symbol normal process shown in FIG. 9 or step S269 of the variation pattern setting process shown in FIG. 10, the second special symbol variation random number is not initialized (cleared) for the first special symbol variation random number buffer. Settings are made to individually initialize (clear) the buffer. On the other hand, in step S17 of the game control main process shown in FIG. 4 and step S72 of the switch process shown in FIG. 6, the first special figure variation random number buffer and the second special figure variation random number buffer are initialized all together. Settings for (clearing) may be performed. When the first special figure variation random number buffer and the second special figure variation random number buffer are collectively initialized (cleared), a program portion using block transfer as shown in FIG. 17A is executed. It As a result, when initialization (clear) is performed based on an operation on the RAM clear switch 26A or an operation on the flag clear switch 26B, the processing load for initializing (clearing) the stored contents is reduced, and erroneous information is lost. It is possible to prevent problems due to settings.

In step 322 and step S331 of the normal symbol normal process shown in FIG. 14, the random number buffer for general pattern fluctuation is not initialized (cleared) without randomizing the first special figure random number buffer and second special figure fluctuation random number buffer. Settings for individually initializing (clearing) are performed. On the other hand, in step S17 of the game control main process shown in FIG. 4 and step S72 of the switch process shown in FIG. 6, together with the first special figure variation random number buffer and the second special figure variation random number buffer, the general figure variation Settings for collectively initializing (clearing) the random number buffer may be performed. When initializing (clearing) the general-purpose fluctuation random number buffer together with the first special-character fluctuation random buffer and the second special-character fluctuation random buffer, block transfer as shown in FIG. 17A is performed. The program part using is executed. As a result, when initialization (clear) is performed based on an operation on the RAM clear switch 26A or an operation on the flag clear switch 26B, the processing load for initializing (clearing) the stored contents is reduced, and erroneous information is lost. It is possible to prevent problems due to settings.

For example, after initializing (clearing) the first jackpot flag by performing the first jackpot flag initialization setting in step S242 of the special symbol normal processing shown in FIG. 9, to step S290 of the special symbol stop processing shown in FIG. prior to the first big hit flag initialization setting is performed Te, in response to the power supply to the pachinko gaming machine 1 is restarted is stopped, the game shown in based 4 to an operation to RAM clear switch 26A When the RAM initialization setting is performed in step S17 of the control main process, the entire work area of the RAM 102 including the predetermined area for storing the flag data of the first big hit flag is initialized (cleared). Moreover, after initializing (clearing) the first big hit flag by performing the first big hit flag initialization setting in step S242 of the special symbol normal process shown in FIG. 9, step S290 of the special symbol stop process shown in FIG. If the flag initialization setting is performed in step S72 of the switch processing shown in FIG. 6 based on the operation on the flag clear switch 26B before the first jackpot flag initialization setting is performed in The game control flag setting unit of the RAM 102 including a predetermined area for storing flag data of the flag is initialized (cleared). As described above, before the first big hit flag is set and turned on, the first big hit flag initialization setting is performed to initialize (clear) the first big hit flag, and then the RAM clear switch 26A is operated. When the first jackpot flag is initialized (cleared) by performing the RAM initialization setting based on and the flag initialization setting based on the operation of the flag clear switch 26B, even in step S285 of the special symbol stop processing shown in FIG. Even if the first big hit flag is read out, since the first big hit flag is off, the first big hit flag initialization setting in step S290 is not performed. As a result, it is possible to reduce the processing load for initializing (clearing) the stored content corresponding to the first big hit flag, and at the same time, prevent problems due to erroneous setting of information.

For example, after initializing (clearing) the second jackpot flag by performing the second jackpot flag initialization setting in step S236 of the special symbol normal processing shown in FIG. 9, to step S291 of the special symbol stop processing shown in FIG. prior to the second jackpot flag initialization setting is performed Te, in response to the power supply to the pachinko gaming machine 1 is restarted is stopped, the game shown in based 4 to an operation to RAM clear switch 26A When the RAM initialization setting is performed in step S17 of the control main process, the entire work area of the RAM 102 including the predetermined area for storing the flag data of the second big hit flag is initialized (cleared). After initializing (clearing) the second jackpot flag by performing the second jackpot flag initialization setting in step S236 of the special symbol normal processing shown in FIG. 9, step S291 of the special symbol stop processing shown in FIG. If the flag initialization setting is performed in step S72 of the switch processing shown in FIG. 6 based on the operation on the flag clear switch 26B before the second jackpot flag initialization setting is performed in The game control flag setting unit of the RAM 102 including a predetermined area for storing flag data of the flag is initialized (cleared). In this way, before the second big hit flag is set and turned on, the second big hit flag initialization setting is performed to initialize (clear) the second big hit flag, and then the RAM clear switch 26A is operated. When the second jackpot flag is initialized (cleared) by performing the RAM initialization setting based on the above and the flag initialization setting based on the operation of the flag clear switch 26B, even in step S286 of the special symbol stop processing shown in FIG. Even if the second big hit flag is read out, since the second big hit flag is off, the second big hit flag initialization setting in step S291 is not performed. As a result, it is possible to reduce the processing load for initializing (clearing) the stored content corresponding to the second jackpot flag, and at the same time, prevent problems due to erroneous setting of information.

For example, the normal symbol hit flag is initialized in step S325 of the normal symbol normal process shown in FIG. 14 to initialize (clear) the normal symbol hit flag, and then to step S348 of the normal symbol stop process shown in FIG. game that Te before Hiroshizu per flag initialization setting is performed, in response to the power supply to the pachinko gaming machine 1 is restarted is stopped, shown in based 4 to an operation to RAM clear switch 26A When the RAM initialization setting is performed in step S17 of the control main process, the entire work area of the RAM 102 including a predetermined area for storing flag data of the universal figure flag is initialized (cleared). In addition, after initializing (clearing) the universal symbol hit flag by performing normal symbol hit flag initialization setting in step S325 of the normal symbol normal process shown in FIG. 14, step S348 of the normal symbol stop process shown in FIG. If the flag initialization setting is performed in step S72 of the switch processing shown in FIG. 6 based on the operation on the flag clear switch 26B before the flag initialization setting is performed in FIG. The game control flag setting unit of the RAM 102 including a predetermined area for storing flag data of the flag is initialized (cleared). As described above, before the universal figure hit flag is set to the ON state, the universal figure hit flag is initialized (cleared) by performing the universal figure hit flag initialization setting, and then the RAM clear switch 26A is operated. When the universal symbol flag is initialized (cleared) by performing the RAM initialization setting based on the operation and the flag initialization setting based on the operation on the flag clear switch 26B, even in step S344 of the normal symbol stopping process shown in FIG. Even if the universal figure hit flag is read out, since the universal figure hit flag is off, the ordinary figure hit flag initialization setting in step S348 is not performed. As a result, it is possible to reduce the processing load for initializing (clearing) the stored content corresponding to the universal figure flag, and at the same time, prevent problems due to erroneous setting of information.

For example, after initializing (clearing) the first special figure variation random number buffer by performing the first special figure variation random number buffer initialization setting in step S238 of the special symbol normal processing shown in FIG. 9, it is shown in FIG. The RAM is cleared in response to the fact that the power supply to the pachinko gaming machine 1 is stopped and restarted before the first special figure fluctuation random number buffer initialization setting is performed in step S268 of the fluctuation pattern setting process. When the RAM initialization setting is performed in step S17 of the game control main process shown in FIG. 4 based on the operation on the switch 26A, the numerical data which is the random number value is stored in the first special figure variation random number buffer. The entire work area of the RAM 102 including the numerical value storage area is initialized (cleared). In addition, after initializing (clearing) the first special figure variation random number buffer by performing the first special figure variation random number buffer initialization setting in step S238 of the special symbol normal processing shown in FIG. 9, FIG. Before the first special figure variation random number buffer initialization setting is performed in step S268 of the variation pattern setting process shown, the flag initialization is performed in step S72 of the switch process shown in FIG. 6 based on the operation on the flag clear switch 26B. When the setting is performed, the game control buffer setting unit of the RAM 102 including the numerical value storage area for storing the numerical value data as the random number value in the first special figure variation random number buffer is initialized (cleared). Good. As described above, the random number value for the first special map variation is set by performing the initialization setting of the random number value buffer for the first special figure fluctuation before storing the numerical data as the random number value in the random number buffer for the first special figure fluctuation. After initializing (clearing) the buffer, the RAM initializing setting based on the operation of the RAM clear switch 26A and the flag initializing setting based on the operation of the flag clear switch 26B are performed to initialize the first special figure random number buffer. When cleared (cleared), the first special figure variation random number buffer initialization setting in step S268 of the variation pattern setting process shown in FIG. 10 may not be performed. As a result, it is possible to reduce the processing load for initializing (clearing) the storage content corresponding to the first special figure variation random number buffer, and at the same time, prevent a defect due to erroneous setting of information.

For example, after initializing (clearing) the second special figure variation random number buffer by performing the second special figure variation random number buffer initialization setting in step S232 of the special symbol normal processing shown in FIG. 9, it is shown in FIG. The RAM is cleared in response to the fact that the power supply to the pachinko gaming machine 1 is stopped and restarted before the random number buffer initialization for the second special figure fluctuation is performed in step S269 of the fluctuation pattern setting process. When the RAM initialization setting is performed in step S17 of the game control main processing shown in FIG. 4 based on the operation of the switch 26A, the second special figure variation random number buffer stores the numerical value data as the random number value. The entire work area of the RAM 102 including the numerical value storage area is initialized (cleared). In addition, after initializing (clearing) the second special figure variation random number buffer by performing the second special figure variation random number buffer initialization setting in step S232 of the special symbol normal processing shown in FIG. 9, FIG. Before the second special figure variation random number buffer initialization setting is performed in step S269 of the variation pattern setting process shown, the flag initialization is performed in step S72 of the switch process shown in FIG. 6 based on the operation on the flag clear switch 26B. When the setting is performed, the game control buffer setting unit of the RAM 102 including the numerical value storage area for storing the numerical value data that is the random number value in the second special figure variation random number buffer is initialized (cleared). Good. As described above, the random number value for the second special map variation is set by performing the initialization setting of the random number buffer for the second special figure fluctuation before storing the numerical data as the random number value in the random number buffer for the second special figure fluctuation. After initializing (clearing) the buffer, the RAM initializing setting based on the operation of the RAM clear switch 26A and the flag initializing setting based on the operation of the flag clear switch 26B are performed to initialize the second special figure variation random number buffer. In the case of (clearing), the second special figure variation random number buffer initialization setting in step S269 of the variation pattern setting process shown in FIG. 10 may not be performed. As a result, it is possible to reduce the processing load for initializing (clearing) the storage content corresponding to the second special figure variation random number buffer, and at the same time, prevent a defect due to erroneous setting of information.

For example, in step S322 of the normal symbol normal process shown in FIG. 14, the random number buffer for general pattern fluctuation is initialized (cleared) by performing initialization setting of the random number buffer for general pattern fluctuation, and then in step S331 for general pattern fluctuation Corresponding to the power supply to the pachinko gaming machine 1 being stopped and restarted before the random number buffer initialization setting is performed, the game control main processing shown in FIG. 4 is performed based on the operation on the RAM clear switch 26A. When the RAM initialization setting is performed in step S17, the entire work area of the RAM 102 including the numerical value storage area for storing numerical value data that is a random number value in the random number buffer for general/universal figure initialization (clear). To be done. In addition, after the normal figure random number buffer is initialized (cleared) by performing the general figure fluctuation random number buffer initialization setting in step S322 of the normal symbol normal processing shown in FIG. 14, the general figure fluctuation is performed in step S331. If the flag initialization setting is performed in step S72 of the switch process shown in FIG. 6 based on the operation on the flag clear switch 26B before the initialization of the random number buffer for normal At, the game control buffer setting unit of the RAM 102 including a numerical value storage area for storing numerical value data that is a random number value may be initialized (cleared). In this way, the general-purpose fluctuation random number buffer is initialized (cleared) by performing the general-purpose fluctuation random number buffer initialization setting before storing the numerical data as the random number value in the general-purpose fluctuation random number buffer. ) And then initializes (clears) the random number buffer for universal figure fluctuation by performing the RAM initialization setting based on the operation on the RAM clear switch 26A and the flag initialization setting based on the operation on the flag clear switch 26B. The random number buffer initialization setting for universal symbol variation in step S331 of the normal symbol normal process shown in 14 may not be performed. As a result, it is possible to reduce the processing load for initializing (clearing) the storage content corresponding to the random number buffer for universal figure fluctuation, and at the same time, prevent problems due to erroneous setting of information.

In the special symbol normal process shown in FIG. 9 and the special symbol stop process shown in FIG. 11, the first big hit flag initialization setting (steps S242 and S290) and the second big hit flag initialization setting (steps S236 and S291) are performed. As a result, it is possible to initialize (clear) a predetermined area in which setting information indicating the state (on or off) of the first big hit flag and the second big hit flag is set. In the special symbol normal process shown in FIG. 9 and the variation pattern setting process shown in FIG. 10, the first special figure variation random number buffer initialization setting (steps S238 and S268) and the second special figure variation random number buffer initialization setting (step By performing S232 and S269), it is possible to initialize (clear) a numerical value storage area that stores numerical value data that is a random number value in the first special figure variation random number buffer and the second special figure variation random number buffer. it can.

In the normal symbol normal process shown in FIG. 14 and the normal symbol stop process shown in FIG. 15, the universal symbol per flag initialization setting (steps S322, S348) is performed, so that the state of the universal symbol per flag (on or off) is changed. It is possible to initialize (clear) a predetermined area in which the setting information shown is set. In the normal symbol normal processing shown in FIG. 14, the random number buffer initialization setting for general figure fluctuation (steps S322, S331) is performed, and the numerical value storage area for storing numerical value data that is a random number value in the random number buffer for general figure fluctuation Can be initialized (cleared).

In this way, the predetermined area where the setting information is set and the numerical storage area where the numerical data is stored are initialized (cleared) before and after each area is used to prevent problems due to incorrect setting of information. To do. On the other hand, for example, the storage area in which the information indicating the confirmed special symbol determined in step S250 of the special symbol normal process shown in FIG. 9 is set is not initialized (cleared) before or after use. Good. As a result, it is possible to prevent an increase in the processing load for initializing (clearing) a large amount of stored contents, and at the same time, prevent problems due to erroneous information settings. Further, the storage area in which the information indicating the big hit type determined in step S248 of the special symbol normal process shown in FIG. 9 is set may not be initialized (cleared) before or after use. Alternatively, the storage area in which the information indicating the type of jackpot is set is initialized (cleared) before or after use, like the predetermined area in which the setting information corresponding to the first jackpot flag or the second jackpot flag is set. Settings may be made. The big hit type has different game values given to the player depending on which of the plurality of kinds. In this way, by enabling (initializing) the information regarding the jackpot type that gives different game value to the player, it is sufficient to appropriately prevent the malfunction due to the erroneous setting of the information.

The present invention is not limited to the above embodiment, and various modifications and applications are possible. For example, the pachinko gaming machine 1 does not have to have all the technical features shown in the above-mentioned embodiment, and it is possible to solve at least one problem in the related art, and the part described in the above-mentioned embodiment It may be provided with the structure of.

In the above-described embodiment, the first big hit flag, the second big hit flag, the predetermined area in which the setting information corresponding to the universal figure hit flag is set, the first special figure variation random number buffer, and the second special figure variation random number. In the buffer, the random number buffer for universal figure fluctuation, the numerical value storage area for storing numerical value data that is a random value has been described as being initialized (cleared) before or after each area is used. However, the present invention is not limited to this, as long as at least a part of these areas can be initialized (cleared) before or after use. For example, the predetermined area in which the setting information corresponding to the first big hit flag, the second big hit flag, and the universal figure hit flag is set is initialized (cleared) before or after use, while the first area is set. For the random number buffer for special figure fluctuation, the second random number buffer for special figure fluctuation, and the random number buffer for general figure fluctuation, the numerical value storage area that stores numerical value data that is a random number value is initialized (cleared) before or after use. Does not have to be performed. Initialize (clear) the numerical value storage area that stores the numerical value data that is the random number value in the first special figure variation random number buffer, the second special figure variation random number buffer, and the general figure variation random number buffer. On the other hand, the predetermined area where the setting information corresponding to the first big hit flag, the second big hit flag, and the universal figure hit flag is set is initialized (cleared) before or after use. You don't have to know it.

In the above-described embodiment, the special symbol display result is determined by using the random number value for determining the special symbol display result in step S243 of the special symbol normal process shown in FIG. 9, thereby making the jackpot gaming state included in the advantageous state. Whether to control or not is determined. Further, in step S326 of the normal symbol normal process shown in FIG. 14, by determining the general figure display result using the random number value for determining the general figure display result, the first start winning opening included in the advantageous state Whether to control the variable state is determined. As described above, the present invention is not limited to the determination of whether or not to control the advantageous state by using the numerical data as the random number value, and for example, whether or not the game ball as the game medium that has passed (entered) the specific area is detected. Depending on whether or not to control to the advantageous state, it may be determined. As an example, when a game ball that has passed (entered) a specific area is detected, a big hit flag included in the advantageous state is set by setting a big hit flag provided in a game control flag setting unit of the RAM 102 to be turned on. The game state may be controllable. In this case, the first big hit flag initialization setting and the second big hit flag initialization are made before it is decided to control the big hit game state based on the detection of the game medium that has passed (entered) the specific area. Similar to the setting, the jackpot flag initialization setting may be performed so that the jackpot flag can be initialized (cleared). Further, based on that the big hit flag is on, before the same processing as steps S114 to S117 of the special symbol process processing shown in FIG. 7 is executed, the first big hit flag initialization setting and the second big hit flag initial Similar to the jackpot setting, the jackpot flag initialization setting may be performed so that the jackpot flag can be initialized (cleared). Then, similar to step S17 of the game control main processing shown in FIG. 4 and step S72 of the switch processing shown in FIG. 6, based on the operation on the RAM clear switch 26A and the flag clear switch 26B, a predetermined corresponding to the big hit flag. Part or all of the work area including the area may be initialized (cleared). As a result, in a general pachinko gaming machine capable of playing a game that is controlled in an advantageous state based on the fact that the game ball has passed through the specific area, it is possible to prevent a malfunction due to incorrect setting of information.

The advantageous state that is advantageous to the player is not limited to the big hit game state and the first variable state, and a special game state such as a probability change state may be set as the advantageous state, or among a plurality of big hit game states that can be executed. The jackpot gaming state in which the upper limit number of times is the first round number (for example, “15”) larger than the second round number (for example, “7”) may be an advantageous state. Alternatively, the time-saving state in which the upper limit number of variable displays that can be executed among the plurality of time-saving states is the first number (for example, “100”) that is greater than the second number (for example, “50”) may be the advantageous state. Of the plurality of probability changing states, the probability changing state in which the jackpot probability has the first probability (eg 1/20) higher than the second probability (eg 1/50) may be the advantageous state. In addition, any game state that is advantageous to the player may be used as an advantageous state.

In the above-described embodiment, the “proportion” and the “probability” at which various determinations and determinations are made are, for example, 70:30, and there is a 0% probability that they will be each determination result or each determination result (determination or determination is made). Never) or 100% (a decision or judgment is always made), or at least one decision result or the possibility of a judgment result is 0% (a decision or judgment is made). May be set) or 100% (a decision or judgment is always made). For example, in the case of making various kinds of decisions and judgments, the ratio of any one of a plurality of decision results or judgment results to be a decision result or a judgment result is higher than the ratio to be another decision result or a judgment result. May include that the ratio of 1 to be a determination result or a determination result is 100%, and may include that of another determination result or a determination result to be 0%. When the ratio of the determination result or the determination result of 1 is 100%, the ratio of the other determination result or the determination result is 0%. Further, when the ratio of the other determination result or the determination result is 0%, the determination result or the determination result of 1 is 1 if the ratio of the determination result or the determination result of 1 is other than 100% but is not 0%. Is higher than other determination results or determination results.

In the above-described embodiment, in order to notify the variable pattern indicating the variable display time or the variable display mode of the decorative pattern to the effect control board 12, one variable pattern designation command is transmitted when the variable display is started. Although an example is shown, the variation pattern may be notified to the side of the effect control board 12 by two or more commands. Specifically, in the case of notifying by two commands, the CPU 103 of the game control microcomputer 100 uses the first command to determine whether or not there is a pseudo continuous variation, whether or not there is a sliding effect, etc. before reaching (when the reach is not reached). To the so-called second stop display), a command indicating a variable display time and a variable display mode is transmitted, and the second command indicates the type of reach and the presence/absence of re-lottery production, etc. If this is not the case, a command indicating the variable display time or the variable display mode after the so-called second stop display) may be transmitted. In this case, in the effect control board 12, for example, the effect control CPU 120 may perform effect control in the variable display based on the variable display time derived from the combination of the two commands. Note that the game control microcomputer 100 notifies the variable display time by each of two commands, and the effect control CPU 120 selects a specific variable display mode executed at each timing. You may When sending two commands, the two commands may be sent within the same timer interrupt, or after a predetermined period has elapsed after sending the first command (for example, in the next timer interrupt). ) The second command may be transmitted. Note that the variable display mode indicated by each command is not limited to this example, and the transmission order can be changed as appropriate. In this way, by notifying the variation pattern by using two or more commands, it is possible to reduce the amount of data that must be stored as the variation pattern designation command.

In the above embodiment, the big hit type determined in step S248 of the special symbol normal process shown in FIG. 9 includes "probable variation", and the probable variation control is based on the determination result of the big hit type being "probable variation". It has been described that the condition is satisfied and the probability change state can be controlled after the big hit game state ends. However, the present invention is not limited to this, and in the probability variation attacker provided at a predetermined position in the game area, the game ball that has won (entered) the special winning opening (second special winning opening) is detected by the probability variation detection switch. The probability variation control condition is established based on, and the gaming state after the end of the big hit game state may be controlled to the probability variation state. The probability variation attacker's special winning opening (second special winning opening) can change from a closed state to an open state when the number of times of round game execution in the big hit gaming state is a predetermined number (eg, “16”), When the number of executions of the game is other than the predetermined number, the closed state may not be changed to the open state. As described above, the pachinko gaming machine 1 can establish the probability variation control condition based on the fact that the game ball has passed the specific area in the attacker, which is an example of the special variable winning device provided in the game area. May be configured to be

The present invention is applicable not only to the pachinko gaming machine 1 but also to a slot machine and the like. The slot machine is, for example, an arbitrary gaming machine that can perform a predetermined game such as variable display of symbols that are a plurality of types of identification information, and can give a predetermined game value based on the game result, and more specifically, The game can be started by setting a predetermined number of bets (the number of medals or the number of credits) for one game, and a variable display device that variably displays a plurality of types of identification information (designs) that can be identified by each ( One game is completed by deriving and displaying the display results of, for example, a plurality of reels), and a prize is awarded according to the display result (for example, cherry prize, watermelon prize, bell prize, replay prize, BB prize, RB prize, etc.) Is a gaming machine that is capable of generating. In such a slot machine, hardware resources including a game control microcomputer for performing game control and software for performing a predetermined process cooperate with each other, so that the pachinko game shown in the above embodiment is executed. It may be configured to include all or some of the features of the machine 1.

More generally, in a gaming machine that includes a pachinko gaming machine, a slot machine, etc., and is capable of controlling a game in an advantageous state that is advantageous to the player, a storage area that can store information regarding the progress of the game and execution of effects. A part or all of the storage area can be initialized (cleared) before and after each storage area is used, like the first big hit flag, the second big hit flag, and the universal figure hit flag in the above-described embodiment. If Alternatively, a part or the whole of the storage area capable of storing numerical data used for the progress of the game and the execution of the effect, the first special figure variation random number buffer, the second special figure variation random number buffer in the above embodiment, Similar to the random number buffer for general/universal figure fluctuation, any memory that can be initialized (cleared) before and after use of each storage area may be used. The storage area may be initialized (cleared) based on a predetermined operation or operation without being limited to before or after use. Alternatively, each storage area may be initialized (cleared) before the processing based on the stored content is executed. In addition, in a gaming machine capable of playing a game, a part or all of a storage area capable of storing information or numerical data used for arbitrary control is set as the first jackpot flag, the second jackpot flag in the above embodiment, Initialize (clear) each storage area before and after using each storage area, as in the case of the universal figure flag, the first special figure variation random number buffer, the second special figure variation random number buffer, and the general figure variation random number buffer. Anything can be used.

In addition, the device configuration and various operations of the gaming machine can be arbitrarily changed and modified without departing from the spirit of the present invention. In addition, the gaming machine of the present invention is not limited to a pay-out type gaming machine that pays out a predetermined number of game media as a prize based on the occurrence of a prize, and encloses the game medium to score points based on the occurrence of a prize. It can also be applied to an enclosed game machine that gives a. The slot machine is not limited to one in which the bet number is set by using medals and credits as the gaming value, and is only a slot machine in which the bet number is set by using the gaming ball as the gaming value, or only credits as the gaming value. It may be a fully creditable slot machine in which the bet amount is set using.

The programs and data for realizing the present invention are limited to a form in which they are distributed and provided by a removable recording medium to a computer device included in a gaming machine such as a pachinko gaming machine 1 or a slot machine. However, it may be distributed by pre-installing in a storage device such as a computer device in advance. Furthermore, the program and data for implementing the present invention may be distributed by being downloaded from another device on a network connected via a communication line or the like by providing a communication processing unit. It doesn't matter.

The game execution mode is not limited to that executed by mounting a removable recording medium, but can also be executed by temporarily storing the program and data downloaded via a communication line in the internal memory or the like. Alternatively, the hardware resources of other devices may be directly used on the network connected via a communication line or the like. Furthermore, the game may be executed by exchanging data with another computer device or the like via a network.

As described above, in the pachinko gaming machine 1 according to the present application, the special symbol normal processing steps S236 and S242 shown in FIG. 9 and the normal symbol normal processing step S325 shown in FIG. 14 are executed to set the setting information. Initialize (clear) a predetermined area. In addition, the special symbol stop process shown in FIG. 11 steps S289 to S291 and the normal symbol stop process step S348 shown in FIG. 15 are executed to initialize (clear) the predetermined area after reading the setting information. In the game control main process shown in FIG. 4, step S17 is executed, and in the switch process shown in FIG. 6, step S72 is executed to initialize (clear) a predetermined area based on the operation. As a result, it is possible to prevent a defect due to incorrect setting of information.

By executing the program part shown in FIG. 17(A) or the program part shown in FIG. 17(B) and setting clear data having a value indicating that the advantageous state is not controlled, a predetermined area is initialized (cleared). To do. As a result, even if the stored content of the predetermined area is erroneously read out, it is possible to prevent a problem due to erroneous setting of information.

For example, in step S17 of the game control main processing shown in FIG. 4, the program part shown in FIG. 17(A) is executed, and in the special symbol normal processing steps S236 and S242 shown in FIG. 9, the program shown in FIG. 17(B). The part is executed to initialize (clear) a predetermined area by a different initialization method. As a result, it is possible to reduce the influence of incorrect setting of information and prevent a problem.

For example, in step S17 of the game control main processing shown in FIG. 4, the program portion shown in FIG. 17A is executed, so that the special symbol normal processing shown in FIG. 9 is shown in FIG. 17B at steps S236 and S242. An area different from the case of executing the program part can be initialized (cleared). As a result, it is possible to prevent a problem due to erroneous setting of information while reducing the processing load for initializing the predetermined area.

By executing step S242 of the special symbol normal process shown in FIG. 9 and step S290 of the special symbol stop process shown in FIG. 11, the first predetermined area corresponding to the first big hit flag is initialized (cleared). By executing step S236 of the special symbol normal process shown in FIG. 9 or step S291 of the special symbol stop process shown in FIG. 11, the second predetermined area corresponding to the second big hit flag is initialized (cleared). In the game control main process shown in FIG. 4, step S17 is executed, and in the switch process shown in FIG. 6, step S72 is executed to initialize (clear) the first predetermined area and the second predetermined area. As a result, it is possible to reduce the processing load for initializing the first predetermined area and the second predetermined area, and prevent a problem due to erroneous setting of information.

By executing step S325 of the normal symbol normal process shown in FIG. 14 and step S348 of the normal symbol stop process shown in FIG. 15, the third predetermined area corresponding to the regular symbol hit flag is initialized (cleared). By executing steps S236 and S242 of the special symbol normal process shown in FIG. 9 and steps S289 to S291 of the special symbol stop process shown in FIG. 11, the fourth predetermined area corresponding to the first big hit flag and the second big hit flag is initialized. Turn (clear). In the game control main process shown in FIG. 4, step S17 is executed, and in the switch process shown in FIG. 6, step S72 is executed to initialize (clear) the third predetermined region and the fourth predetermined region. As a result, it is possible to reduce the processing load for initializing the third predetermined area and the fourth predetermined area and prevent a defect due to erroneous setting of information.

In the special symbol normal process shown in FIG. 9, before the determination in step S244, steps S236 and S242 are executed, and a predetermined area corresponding to the first jackpot flag and the second jackpot flag is initialized before the determination ( clear. In the normal symbol normal process shown in FIG. 14, before the determination in step S327, step S325 is executed to initialize (clear) a predetermined area corresponding to the universal symbol hit flag before performing the determination. As a result, it is possible to prevent the predetermined area from being initialized after the determination is made, and at the same time, to prevent the trouble caused by the incorrect setting of the information.

In the special symbol stop process shown in FIG. 11, after executing steps S261 to S263 of the variation pattern setting process shown in FIG. 10, steps S289 to S291 are executed, and after the effect is determined, the first big hit flag or the second. Initialize (clear) a predetermined area corresponding to the big hit flag. In the normal symbol stop process shown in FIG. 15, after executing step S329 of the normal symbol normal process shown in FIG. 14, step S348 is executed, and after the effect is determined, the predetermined area corresponding to the universal symbol hit flag is initialized. Turn (clear). As a result, it is possible to prevent a predetermined area from being initialized before the determination of the effect, and prevent a problem due to erroneous setting of information.

In the special symbol stop process shown in FIG. 11, after executing step S248 of the special symbol normal process shown in FIG. 9, steps S289 to S291 are executed, and after the game value to be given is determined, the first big hit flag or the A predetermined area corresponding to the two-big hit flag is initialized (cleared). In the normal symbol stop process shown in FIG. 15, after executing step S329 of the normal symbol normal process shown in FIG. 14, step S348 is executed, and after the game value to be given is determined, the predetermined symbol corresponding to the universal symbol hit flag is determined. Initialize (clear) the area. As a result, it is possible to prevent a predetermined area from being initialized before the game value to be given is determined, and it is possible to prevent a problem due to erroneous information setting.

After executing steps S236 and S242 of the special symbol normal process shown in FIG. 9 to initialize (clear) a predetermined area corresponding to the first big hit flag and the second big hit flag, the special symbol stop process shown in FIG. Before executing steps S289 to S291, step S17 of the game control main processing shown in FIG. 4 and step S72 of the switch processing shown in FIG. 6 are executed to execute a predetermined area corresponding to the first big hit flag and the second big hit flag. When is initialized (cleared), steps S289 to S291 of the special symbol stop processing shown in FIG. 11 are not executed. After executing step S325 of the normal symbol normal process shown in FIG. 14 and initializing (clearing) a predetermined area corresponding to the universal symbol hit flag, before executing step S348 of the normal symbol stop process shown in FIG. , When the step S17 of the game control main processing shown in FIG. 4 and the step S72 of the switch processing shown in FIG. 6 are executed to initialize (clear) a predetermined area corresponding to the universal figure hit flag, it is shown in FIG. Normally, step S348 of the symbol stop processing is not executed. As a result, it is possible to prevent a problem due to erroneous setting of information while reducing the processing load for initializing the predetermined area.

The step S209 of the start winning determination process shown in FIG. 8 is executed to initialize (clear) the numerical value holding areas corresponding to the first random number register 104R1 and the second random number register 104R2 before storing the suspension information. The step S213 of the starting winning determination process shown in FIG. 8 is executed to store the hold information and then initialize (clear) the numerical value holding regions corresponding to the first random number register 104R1 and the second random number register 104R2. As a result, it is possible to prevent erroneous holding information from being stored and prevent a problem due to erroneous setting of information.

In the special symbol stop process shown in FIG. 11, before executing steps S114 to S117 of the special symbol process process shown in FIG. 7, steps S289 to S291 are executed, and the process based on the first big hit flag and the second big hit flag. Before executing, a predetermined area corresponding to the first big hit flag and the second big hit flag is initialized (cleared). In the normal symbol stop process shown in FIG. 15, before executing the normal electric auditors product operating process of step S143 in the normal symbol process process shown in FIG. 12, step S348 is executed, and the process based on the universal symbol hit flag is executed. Prior to this, a predetermined area corresponding to the universal figure flag is initialized (cleared). As a result, it is possible to prevent a defect due to incorrect setting of information.

The special symbol normal processing shown in FIG. 9 steps S232, S238 and step S322 of the normal symbol normal processing shown in FIG. 14 are executed to initialize (clear) the numerical value storage area before storing the numerical value data. Further, steps S267 to S269 of the fluctuation pattern setting process shown in FIG. 10 and step S331 of the normal symbol normal process shown in FIG. 14 are executed to initialize (clear) the numerical value storage area after reading the numerical value data. As a result, it is possible to prevent a defect due to incorrect setting of information.

1 ... Pachinko gaming machine 4A ... 1st special symbol display device 4B ... 2nd special symbol display device 5 ... image display device 6A ... Ordinary winning ball device 6B ... Ordinary variable winning ball device 7 ... Special variable winning ball device 11 ... Main substrate 12 ... Production control board 100 ... Game control microcomputer 101 ... ROM
102... RAM
103... CPU
104... Random number circuit

Claims (2)

A gaming machine capable of playing a game and being controlled in an advantageous state advantageous to a player,
Determination means for determining whether to control the advantageous state,
Setting means for setting the setting information after the judgment by the judging means in a predetermined area,
Reading means for reading the setting information after the judgment of the judging means in order to execute processing depending on whether or not to control to the advantageous state;
Variable display means for performing variable display based on the setting information,
First initialization means for initializing the predetermined area before setting the setting information by the setting means,
After reading by Ri before Symbol setting information to said reading means upon termination of the variable display, the second initialization means for initializing the predetermined region,
Third initialization means for initializing the predetermined area based on an operation on the operation means,
A gaming machine characterized by that. Initializing the predetermined area by setting a value indicating that the advantageous state is not controlled,
The gaming machine according to claim 1, wherein:

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