JP2004194906A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine which can attract interests of the players over many times of variable display by realizing versatile performance in advance notice based on the reservation memory. <P>SOLUTION: A performance controlling CPU (central processing unit) carried by a performance control board judges whether or not the successive advance notice performance should be executed based on variation pattern command (containing the information for executing the successive advance notice performance/none-thereof) received from a game control board. When the execution is determined, the data indicating an advance notice starting time corresponding to the variation pattern judged based on the variation pattern command received is read out of an advance notice start time table to determine the starting time of the successive advance notice performance which is carried out in the variation of special patterns to be currently executed. Then, the determined time is set on an advance notice start time decision timer and the timer is started. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention includes variable display means that can variably display identification information that can be identified, and after a predetermined variable display execution condition is satisfied, the identification information is determined based on the satisfaction of the variable display start condition. The present invention relates to a gaming machine such as a pachinko machine that starts variable display and, when a display result of the variable display of the identification information becomes a specific display result, can be controlled to a specific gaming state advantageous to a player.
[0002]
[Prior art]
As a gaming machine, a game medium such as a game ball is launched into a game area by a launching device, and when a game medium wins a winning area such as a winning opening provided in the game area, a predetermined number of prize balls are paid out to the player. There are things to be done. Furthermore, variable display means capable of variably displaying the identification information is provided, so that when the display result of the variable display of the identification information becomes a specific display result, it can be controlled to a specific game state advantageous to the player. There are things that have been configured.
[0003]
The specific game state means a state that is advantageous to a player who has been given a predetermined game value. Specifically, the specific game state is, for example, a state in which the state of the variable winning ball device is advantageous for a player who is likely to win a hit ball (big hit game state), or a state in which the right to generate a state advantageous to the player has been generated. And a state in which a predetermined game value is given, such as a state in which a condition for paying out prize game media is easily satisfied.
[0004]
In a pachinko gaming machine, when a display result of a variable display unit that displays a special symbol (identification information) is a combination of a predetermined specific display mode, it is generally referred to as a “big hit”. When a big hit occurs, for example, the big winning opening is opened a predetermined number of times, and the state shifts to a big hit game state in which a hit ball is easy to win. Then, in each open period, when a predetermined number (for example, 10) of the winning prizes is won, the winning prize opening is closed. The number of opening of the special winning opening is fixed to a predetermined number (for example, 15 rounds). An opening time (for example, 29.5 seconds) is determined for each opening, and if the opening time elapses even if the number of winnings does not reach a predetermined number, the winning opening is closed. If the predetermined condition (for example, winning in the V zone provided in the special winning opening) is not satisfied at the time when the special winning opening is closed, the big hit gaming state ends.
[0005]
Also, in the variable display means, a symbol other than the symbol which is the final stop symbol (for example, the middle symbol of the left and right middle symbols) continues for a predetermined time and stops, swings, and expands in a state in which the symbol matches the specific display result. The state of being reduced or deformed, or multiple symbols fluctuating synchronously with the same symbol, or the position of the displayed symbol has been switched, so the possibility of a big hit occurring before the final result is displayed continues In this state (hereinafter, these states are referred to as a reach state), an effect performed is referred to as a reach effect. The reach state and the state thereof are referred to as a reach mode. Further, a variable display including a reach effect is referred to as a reach variable display. By making the fluctuation pattern different from the fluctuation pattern in the normal state in the reach state, the interest of the game is enhanced. If the display result of the symbol variably displayed on the variable display means does not satisfy the condition for reaching the reach state, the result is "missing" and the variable display state ends. A player plays a game while enjoying how to generate a big hit.
[0006]
Some of such gaming machines are provided with a so-called notice function for notifying in advance that the reach mode or the big hit mode is displayed on the variable display means, or that the state will be shifted to the probable change state (for example, Patent Document 1). , 2). The notice effect based on the notice function is, for example, at the stage before the final stop symbol is determined, the variable display mode of the special symbol and the background image are changed, a predetermined character appears or changes, or provided on the gaming machine. This is performed by blinking a light emitting unit such as a lamp or an LED, or outputting a sound or a sound effect from a sound output unit such as a speaker provided in the gaming machine.
[0007]
Also, in the gaming machine as described above, it is determined whether or not the variable display result is a big hit for all of the hold memories, and when it is determined that a big hit is included, a notice effect based on a notice function is provided. (For example, see Patent Document 1). The hold memory stores the number of symbols for which the execution condition of the variable display has been satisfied but the actual variable display has not been started yet, and is also referred to as start winning memory. There is an upper limit to the maximum number of pending storages, and the upper limit is, for example, four.
[0008]
[Patent Document 1]
JP-A-7-68027 (paragraph 0020, FIGS. 4 and 5)
[0009]
[Patent Document 2]
JP-A-2002-172229 (paragraphs 0015 to 0019, FIG. 3)
[0010]
[Problems to be solved by the invention]
In the gaming machine described in Patent Literature 1, when a variable display of a special symbol is started on the variable display device, a notice effect is started. In the gaming machine described in Patent Literature 2, a preview effect is executed at any time immediately before the start of the variable display of the special symbol and before the end of the big hit game, but any of the preview effects is based on the hold memory. Since it is not a notice effect, it is not possible to attract the player's interest over a large number of variable displays. Further, in the announcement effect described in Patent Document 1, if the announcement effect is not started at the start of the variable display, the player can recognize that the announcement has not been made at that time, and the interest of the game decreases. Would.
[0011]
Therefore, an object of the present invention is to provide a gaming machine capable of realizing a variety of effects in a notice effect based on a hold memory and attracting a player's interest over a large number of variable displays. .
[0012]
[Means for Solving the Problems]
A gaming machine according to the present invention includes variable display means (for example, a variable display device 9) capable of variably displaying a plurality of types of identification information (for example, special symbols) each of which can be identified, and a predetermined variable display execution condition. After the start winning is achieved (the winning of the game ball into the starting winning port 14), the start condition of the variable display (for example, the previous variable display of the special symbol and the big hit game state is finished, and the number of the stored start winnings). Is not 0), the variable display of the plurality of types of identification information is started in accordance with the order in which the execution condition of the variable display is satisfied, and the display result of the variable display of the plurality of types of identification information is a specific display result (for example, A gaming machine that can be controlled to a specific gaming state (for example, a big hit gaming state) that is advantageous to the player when the left middle right symbol becomes the same symbol, and is used for determination related to variable display. Numerical data updating means (for example, a counter for generating a random number) for updating numerical data (for example, a count value of a counter for generating a random number) in a predetermined numerical range, and a numerical value when a condition for executing variable display is satisfied. Numerical data extracting means for extracting numerical data from the data updating means (for example, a part for executing a start-up switch passing process in the game control means, particularly a part for executing processing for extracting each random number in step S113); Saves the extracted numerical data in a numerical data storage means for storing the extraction order in a identifiable manner (for example, in a portion of the game control means for executing a start-up switch passing process, particularly in a storage area corresponding to the storage number in step S113). The numerical data extracted by the numerical data extracting means is a predetermined determination value. The display result of the variable display is determined based on the satisfaction of the execution condition of the variable display that caused the extraction of the numerical data based on the satisfaction of the variable display start condition (for example, a game Predetermination means (for example, a part that executes a notice setting process or a prize-winning effect setting process in the game control means, and particularly a step S208, in which a predetermination process that performs a predetermination process that is performed before the control device performs steps S56 to S59) A part for executing S209, S123, and S124) and an order specifying means (for example, an inspection frequency counter) for specifying the order in which the numerical data determined to match the predetermined determination value is stored in the numerical data storage means ) And, when the pre-determination means determines that the value matches the predetermined determination value, Notice determining means (for example, for determining whether to execute a predetermined notice effect when variable display is performed before variable display is performed based on establishment of a corresponding variable display execution condition (for example, Steps S209, S212, S215, S216 in the game control means in the first embodiment, and steps performed when a specific jackpot designation or a non-specific jackpot designation in the effect control means is received in the second embodiment. (Steps S662 to S667) and when the notice determination means determines that the notice effect is to be executed, the notice effect mode is selected from the plurality of notice effect modes based on the specification result of the order specifying means. Announcement effect executing means (for example, steps S218 and S219 in the game control means and the time in the effect control means in the first embodiment) A portion for executing a continuous announcement effect based on the result of step S813, a portion for executing a continuous announcement effect based on the results of steps S667 and S668 in the effect control means in the second embodiment), and a predetermined announcement A notice time determining means (for example, a part for executing step S817 in the effect control means) for determining at which time in the execution period of one variable display the effect is executed is provided.
[0013]
The continuous announcement effect execution means for executing the advance effect over a plurality of variable displays (for example, the continuous announcement based on the number set in the advance number counter in step S217 in the first embodiment) A part of the effect control means for executing the effect, a part for performing the continuous notice effect based on the number of times determined by the result of the processing of step S665 in the effect control means in the second embodiment) and a predetermined notice effect. Effect mode selection means for selecting the number of times of variable display to be executed (for example, a portion for executing the processing of step S217 in the game control means in the first embodiment, step S665 in the effect control means in the second embodiment) (A part for executing the processing of (1)).
[0014]
An execution time data storage means (for example, a notice start time table) in which a plurality of data indicating execution times relating to a predetermined notice effect is set, wherein the notice time determination means is provided in accordance with a variable display mode of the identification information. May be configured to select data from and determine a time to execute a predetermined announcement effect according to the selected data (for example, the process of step S817).
[0015]
The predetermined determination value is, for example, a specific display result determination value (for example, a big hit determination value) that determines that the display result of the variable display is a specific display result.
[0016]
When the preliminary determination means determines that there is no numerical data that matches the predetermined determination value (for example, N in the determination of step S211), the predetermined notification effect is determined to be performed at a predetermined rate. (For example, in step S216, it is determined that a notice effect is to be executed at a rate set in a notice determination table for a loss).
[0017]
The numerical data storage means stores the numerical data in the order in which the numerical data extraction means extracted (for example, the processing of steps S112 and S113), and the preliminary determination means sets a numerical value for each of the numerical data stored in the numerical data storage means. The pre-determination process may be executed in the order stored in the data storage unit (for example, the processes of steps S204 to S211).
[0018]
When the pre-determination means determines that there is numerical data matching the predetermined determination value among the numerical data stored in the numerical data storage means, the numerical data determined to match the predetermined determination value is stored. Means for prohibiting the execution of the pre-judgment processing for the numerical data stored in the order after the order (for example, in the case of N in step S209 in the game control means, the judgment is not made for the subsequent storage area). ).
[0019]
It is determined that the notice execution is being executed by the notice execution determination means (for example, a part of executing the step S203 in the game control means) for determining whether or not the predetermined notice effect is being executed, and the notice execution determination means. At this time, a determination prohibition unit that prohibits the execution of the advance determination process by the advance determination unit (for example, a process of ending the notice setting process without executing the determination process when the game control unit determines N in step S203). Executing part).
[0020]
When the start condition of the variable display is satisfied, the start condition satisfaction time determination means for determining whether the numerical data stored in the numerical data storage means matches a predetermined determination value (steps S56 and S57 in the game control means). A program module (step S208 in the game control means) used by the pre-judgment means to judge whether or not the numerical data matches a predetermined judgment value in the game control program; It is preferable that the program module used by the start execution condition satisfaction time determination means and (step S208 in the game control means) be configured as a common module in order to determine whether or not matches the predetermined determination value.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. First, an overall configuration of a first-type pachinko gaming machine, which is an example of a gaming machine, will be described. FIG. 1 is a front view of the pachinko gaming machine as viewed from the front, and FIG. 2 is a front view showing the front of the gaming board.
[0022]
The pachinko gaming machine 1 includes an outer frame (not shown) formed in a vertically long rectangular shape, and a game frame attached to the inside of the outer frame so as to be openable and closable. Further, the pachinko gaming machine 1 has a glass door frame 2 formed in a frame shape and provided in a game frame so as to be openable and closable. The game frame includes a front frame (not shown) that can be freely opened and closed with respect to the outer frame, a mechanism plate to which mechanical components and the like are attached, and various components attached to them (excluding a game board described later). And a structure including:
[0023]
As shown in FIG. 1, the pachinko gaming machine 1 has a glass door frame 2 formed in a frame shape. On the lower surface of the glass door frame 2, there is a hit ball supply tray (upper tray) 3. A surplus ball receiving tray 4 for storing game balls that cannot be accommodated in the hitting ball supply tray 3 and a hitting operation handle (operation knob) 5 for firing a hitting ball are provided below the hitting ball supply tray 3. A game board 6 is detachably attached to the back of the glass door frame 2. The game board 6 is a structure that includes a plate-like body constituting the game board 6 and various components attached to the plate-like body. A game area 7 is formed on the front of the game board 6.
[0024]
In the vicinity of the center of the game area 7, a variable display device (special variable display unit) 9 including a plurality of variable display units each variably displaying a symbol as identification information is provided. The variable display device 9 has, for example, three variable display sections (symbol display areas) of “left”, “middle”, and “right”. Note that the variable display section may be a fixed area, but may move or change its size in the display area of the variable display device 9 during the progress of the game. Further, the variable display device 9 is provided with four special symbol start storage display areas (start storage display areas) 18 for displaying the number of effective winning balls in the start winning opening 14, that is, the number of start winning memories. Every time there is an effective start prize (start prize when the number of start prize stored is less than 4), the start storage display area 18 for changing the display color (for example, changing from blue display to red display) is increased by one. Then, every time the variable display of the variable display device 9 is started, the start storage display area 18 in which the display color is changed is reduced by one (that is, the display color is returned to the original).
[0025]
Since the symbol display area and the start storage display area 18 are provided separately from each other, it is possible to display the number of stored start winnings even during variable display. In addition, the start storage display area 18 may be provided in a part of the symbol display area. In this case, the display of the number of start winning combinations may be interrupted during the variable display. In this embodiment, the start storage display area 18 is provided on the variable display device 9. However, a display (special symbol start storage display) for displaying the number of winning winning storages is different from the variable display device 9. You may make it provide separately.
[0026]
Below the variable display device 9, a variable winning ball device 15 as a starting winning port 14 is provided. The winning ball that has entered the start winning port 14 is guided to the back of the game board 6, and is detected by the starting port switch 14a. In addition, a variable winning ball device 15 that performs opening and closing operations is provided below the starting winning port 14. The variable winning ball device 15 is opened by the solenoid 16.
[0027]
An opening / closing plate 20 that is opened by the solenoid 21 in a specific game state (big hit state) is provided below the variable winning ball device 15. The opening / closing plate 20 is a means for opening and closing the special winning opening. Of the winning balls guided from the opening / closing plate 20 to the back of the gaming board 6, one of the winning balls (V winning region) is detected by the V winning switch 22, and the winning ball from the opening / closing plate 20 is detected by the count switch 23. Is done. On the back of the game board 6, there is also provided a solenoid 21A for switching the path inside the special winning opening.
[0028]
When a game ball wins at the gate 32 and is detected by the gate switch 32a, a predetermined random number value is extracted unless the normal symbol start winning memory reaches the upper limit. Then, if the variable display in which the display state changes on the ordinary symbol display 10 can be started, the variable display of the display of the ordinary symbol display 10 is started. If it is not possible to start the variable display in which the display state changes on the ordinary symbol display 10, the value of the ordinary symbol start winning memory is increased by one. In the vicinity of the normal symbol display 10, there is provided a normal symbol start storage display 41 having a display unit of four LEDs for displaying the number of normal symbol start winning storage. Each time there is a prize in the gate 32, the ordinary symbol start storage display 41 increases the number of lit LEDs by one. Then, every time the variable display of the ordinary symbol display 10 is started, the number of LEDs to be lit is reduced by one. The special symbol and the ordinary symbol can be variably displayed on one variable display device. In that case, the special variable display unit and the normal variable display unit are realized by one variable display device.
[0029]
In this embodiment, the left and right lamps (the symbols become visible when turned on) are alternately lit, so that the variable display of the normal symbol is performed, and the variable display continues for a predetermined time (for example, 29.2 seconds). Then, if the left lamp is lit at the end of the variable display, it is a hit. Whether or not to win is determined by whether or not the value of the random number extracted when the gaming ball has won the gate 32 matches a predetermined hit determination value. When the display result of the variable display on the ordinary symbol display device 10 is a hit, the variable winning ball device 15 is opened for a predetermined number of times and for a predetermined time, so that a game ball is easily won. That is, the state of the variable winning ball device 15 changes from a disadvantageous state to an advantageous state for the player when the stop symbol of the normal symbol is a hit symbol.
[0030]
Further, in the probable change state as the special game state, the probability that the stop symbol on the normal symbol display 10 becomes a hit symbol is increased, and one or both of the opening time and the number of times the variable winning ball device 15 is opened are increased. Is more advantageous for the player. Further, in a predetermined state such as a probable change state, the variable display period (variation time) of the ordinary symbol display 10 may be shortened, so that the player may be more advantageous.
[0031]
The gaming board 6 is provided with a plurality of winning ports 29, 30, 33, 39, and winning of the gaming balls into the winning ports 29, 30, 33 is detected by the winning port switches 29a, 30a, 33a, 39a, respectively. You. At the left and right sides of the game area 7, there are provided decorative lamps 25 which are blinkingly displayed during the game, and at the bottom there is an out port 26 for absorbing a hit ball which has not won. In addition, two speakers 27 that emit sound effects and voices are provided on the upper left and right sides outside the game area 7. On the outer periphery of the game area 7, a top frame lamp 28a, a left frame lamp 28b, and a right frame lamp 28c are provided.
[0032]
In this example, a prize ball lamp 51 is provided near the left frame lamp 28b, which lights up when there is a remaining prize ball, and a ball which lights up when the supply ball runs out, near the top frame lamp 28a. An off lamp 52 is provided. Further, FIG. 1 also shows a card unit 50 that is installed adjacent to the pachinko gaming machine 1 and that allows a ball to be lent by inserting a prepaid card.
[0033]
The card unit 50 has a usable indicator lamp 151 indicating whether or not the card unit 50 is in a usable state, a connecting stand direction indicator 153 indicating which side the pachinko gaming machine 1 corresponds to, and a card. A card insertion indicator lamp 154 for indicating that a card is inserted into the unit 50, a card insertion slot 155 for inserting a card as a recording medium, and a mechanism of a card reader / writer provided on the back surface of the card insertion slot 155. Is provided with a card unit lock 156 for releasing the card unit 50 when checking.
[0034]
A game ball fired from the hit ball firing device enters the game area 7 through the hit ball rail, and then descends from the game area 7. When the hit ball enters the starting winning opening 14 and is detected by the starting opening switch 14a, the special display starts variable display (variation) on the variable display device 9 if the variable display of the symbol can be started. If it is not in a state where the variable display of the symbol can be started, the number of start winning prizes is increased by one.
[0035]
The variable display of the special symbol on the variable display device 9 stops when a certain time has elapsed. If the combination of the special symbols at the time of stoppage is the big hit symbol (specific display mode), the state shifts to the big hit gaming state. That is, the opening / closing plate 20 is opened until a predetermined time elapses or until a predetermined number (for example, 10) of hit balls is won. Then, when a hit ball wins in the V winning area while the opening and closing plate 20 is opened and is detected by the V winning switch 22, a continuation right is generated and the opening and closing plate 20 is opened again. Generation of the continuation right is permitted a predetermined number of times (for example, 15 rounds).
[0036]
If the combination of special symbols in the variable display device 9 at the time of stoppage is a combination of a big hit symbol (probably variable symbol) with a fluctuation in probability, the probability of the next big hit increases. In other words, a more advantageous state (special game state) for the player, that is, a probable change state.
[0037]
FIG. 3 is a block diagram illustrating an example of a circuit configuration of the main board 31. FIG. 3 also shows a payout control board 37, a lamp driver board 35, an audio output board 70, and an effect control board 80. On the main board 31, a basic circuit 53 for controlling the pachinko gaming machine 1 according to a program, a gate switch 32a, a starting port switch 14a, a V winning switch 22, a count switch 23, winning port switches 29a, 30a, 33a, 39a and a clear The basic circuit includes a switch circuit 58 that supplies a signal from the switch 921 to the basic circuit 53, a solenoid 16 that opens and closes the variable winning ball device 15, a solenoid 21 that opens and closes the opening and closing plate 20, and a solenoid 21A that switches a path in the special winning opening. A solenoid circuit 59 driven in accordance with a command from 53 is mounted. The clear switch 921 is mounted on, for example, a power supply board installed in a game machine.
[0038]
Although not shown in FIG. 3, the count switch short-circuit signal is also transmitted to the basic circuit 53 via the switch circuit 58. The switches such as the gate switch 32a, the starting port switch 14a, the V winning switch 22, the count switch 23, and the winning port switches 29a, 30a, 33a, and 39a may be referred to as sensors. That is, any name can be used as long as it is a game medium detecting means (game ball detecting means in this example) capable of detecting a game ball.
[0039]
In addition, according to data provided from the basic circuit 53, jackpot information indicating occurrence of a jackpot, effective start information indicating the number of start winning balls used to start variable display of symbols on the variable display device 9, and occurrence of probability fluctuation. And an information output circuit 64 that outputs an information output signal such as probability change information indicating the above to an external device such as a hall computer via an information terminal board installed on the back of the gaming machine.
[0040]
The basic circuit 53 includes a ROM 54 for storing a game control program and the like, a RAM 55 as storage means (means for storing variation data) used as a work memory, a CPU 56 for performing control operations according to the program, and an I / O port unit 57. including. In this embodiment, the ROM 54 and the RAM 55 are built in the CPU 56. That is, the CPU 56 is a one-chip microcomputer. The one-chip microcomputer only needs to include at least the RAM 55, and the ROM 54 and the I / O port unit 57 may be externally or internally provided. Since the CPU 56 executes control according to a program stored in the ROM 54, hereinafter, execution (or processing) by the CPU 56 means specifically that the CPU 56 executes control according to the program. is there. The same applies to the CPU mounted on a board other than the main board 31.
[0041]
A part or all of the RAM (may be a CPU built-in RAM) 55 is a backup RAM backed up by a backup power supply created on a power supply board. That is, even if the power supply to the gaming machine is stopped, a part or all of the content of the RAM 55 is stored for a predetermined period.
[0042]
In this embodiment, the effect control means mounted on the effect control board 80 controls the display of the ordinary symbol start storage display 41 and the decoration lamp 25 provided on the game board, and is provided on the frame side. The display control of the top frame lamp 28a, the left frame lamp 28b, the right frame lamp 28c, the award ball lamp 51 and the ball out lamp 52 is performed. Note that each lamp may be an LED or another type of light emitter. That is, a lamp or an LED is an example of a light-emitting body, and may hereinafter be collectively referred to as a lamp / LED. In addition, a variable display device decoration LED (center decoration LED) is installed on the upper and left and right portions of the variable display device 9, and a decoration LED inside the special winning opening is installed inside the special winning opening. Has a large winning opening left decoration LED and a large winning opening right decoration LED. The effect control means also controls those light emitters.
[0043]
Note that a drive signal for driving the lamp / LED is created in the lamp driver board 35. If the gaming machine has a movable member as an effect means, a driving signal for driving the effect driving means 61 such as a motor for driving the movable member or a solenoid is also supplied to the lamp driver board 35. Created in
[0044]
The display control of the variable display device 9 for variably displaying the special symbols and the ordinary symbol display 10 for variably displaying the ordinary symbols is performed by the effect control means mounted on the effect control board 80.
[0045]
FIG. 4 is a block diagram illustrating a circuit configuration example of the effect control board 80, the lamp driver board 35, and the audio output board 70. In the effect control board 80, the effect control CPU 101 operates according to a program stored in a ROM (not shown), and according to a strobe signal (effect control INT signal) from the main board 31, an input driver 102 and an input port. An effect control command is received via 103. The effect control CPU 101 controls the display of the variable display device 9 using the LCD via the output port 104 and the LCD drive circuit 106, and controls the normal symbol display 10 via the output port 104 and the lamp drive circuit 107. Display control.
[0046]
Furthermore, effect control CPU 101 outputs sound number data to audio output board 70 via output port 104 and output driver 110. Further, a bus (including an address bus, a data bus, and control signal lines such as write / read signals) for inputting and outputting to the effect control CPU 101 is extended to the lamp driver board 35 via the bus driver 105.
[0047]
In the lamp driver board 35, a bus that inputs and outputs to the effect control CPU 101 is connected to an output port 352 and an expansion port 353 via a bus receiver 351. The signal for driving each lamp output from the output port 352 is amplified by the lamp driver 354 and supplied to each lamp. The signal for driving each LED output from the output port 352 is amplified by the LED drive circuit 355 and supplied to each LED. The signal for driving the effect driving means 61 is amplified by the drive circuit 356 and supplied to each lamp.
[0048]
In this embodiment, the lamps / LEDs and the effect driving means provided in the gaming machine are controlled by effect control means including the effect CPU 101 mounted on the effect control board 80. Further, data for controlling the variable display device 9, the ordinary symbol display device 10, the lamp / LED, and the like are stored in the ROM. The effect CPU 101 controls the variable display device 9, the ordinary symbol display device 10, the lamp / LED, and the like based on the data stored in the ROM. Then, the lamp / LED and the effect driving means are driven via the output port 352 mounted on the lamp driver board 35 and each driving circuit. Therefore, when changing the model, if the effect control board 80 is replaced with a new model, the model change can be realized without replacing the lamp driver board 35.
[0049]
The effect control board 80, the lamp driver board 35, and the audio output board 70 are independent boards, and they are installed in a single box on the back of the gaming machine, for example. Further, the extension port 353 is installed in consideration of a case where the number of lamps, LEDs, and the like increases when the model is changed, but may not be installed. The drive circuit 356 may not be provided when there is no movable member for production. However, when the model is changed, the movable member for production is considered in consideration of the case where the movable member for production is installed. It is preferable that the member is provided even when no member or the like is present.
[0050]
In the sound output board 70, the sound number data from the effect control board 80 is input via the input driver 702 to a sound synthesis IC 703 using, for example, a digital signal processor. The voice synthesis IC 703 reads data corresponding to the sound number data from the voice data ROM 704, generates a voice or sound effect corresponding to the read data, and outputs the generated voice or sound effect to the amplifier circuit 705. The amplification circuit 705 outputs to the speaker 27 an audio signal obtained by amplifying the output level of the audio synthesis IC 703 to a level corresponding to the volume set by the volume 706.
[0051]
The data corresponding to the sound number data stored in the sound data ROM 704 is a collection of data indicating a sound effect or a sound output mode in a time series in a predetermined period (for example, a special symbol fluctuation period). Upon input of the sound number data, the voice synthesis IC 703 controls the sound output according to the corresponding data in the voice data ROM 704. The sound output control according to the corresponding data is continued until the next sound number data is input. Then, when the next sound number data is input, the voice synthesis IC 703 performs sound output control according to the data in the voice data ROM 704 corresponding to the newly input sound number data.
[0052]
In this embodiment, the sound and sound effect output from the speaker 27 are controlled by the effect control means including the effect control CPU 101. The effect control means outputs the sound number data to the sound output board 70. . In the sound output board 70, the sound data ROM 704 stores a large number of data for realizing sounds and sound effects that can appear as the game progresses, and these data are associated with sound number data. . Therefore, the effect control means can realize the sound output control only by outputting the sound number data. Note that the sound number data is, for example, 1-byte data, and is transferred to the sound output board 70 by a serial signal line or a parallel signal line.
[0053]
Next, the operation of the gaming machine will be described. FIG. 5 is a flowchart showing the main processing executed by the game control means (CPU 56 and peripheral circuits such as ROM and RAM) on the main board 31. When the power is turned on to the gaming machine and the input level of the reset terminal becomes a high level, the CPU 56 starts the main processing after step S1. In the main processing, the CPU 56 first performs necessary initial settings.
[0054]
In the initial setting process, the CPU 56 first sets interrupt prohibition (step S1). Next, the interrupt mode is set to the interrupt mode 2 (step S2), and the stack pointer designated address is set to the stack pointer (step S3). Then, the internal device registers are initialized (step S4). After initializing a built-in device (built-in peripheral circuit) CTC (counter / timer) and PIO (parallel input / output port) (step S5), the RAM is set to an accessible state (step S6). The interrupt mode 2 is an address synthesized from the value (1 byte) of a specific register (I register) built in the game control microcomputer 56 and an interrupt vector (1 byte: least significant bit 0) output from the built-in device. Is a mode indicating an interrupt address.
[0055]
Next, the CPU 56 checks the state of the output signal of the clear switch 921 input via the input port only once (step S7). If ON is detected in the confirmation, the CPU 56 executes a normal initialization process (steps S11 to S14).
[0056]
If the clear switch 921 is not on, whether or not data protection processing of the backup RAM area (for example, processing for stopping power supply such as addition of parity data) has been performed when power supply to the gaming machine has been stopped. Confirm (step S8). After confirming that such a protection process has not been performed, the CPU 56 executes an initialization process. Whether or not there is backup data in the backup RAM area is confirmed, for example, by the state of the backup flag set in the backup RAM area in the power supply stop processing. In this example, if "55H" is set in the backup flag area, it means that there is a backup (ON state), and if a value other than "55H" is set, it means that there is no backup (OFF state).
[0057]
When the backup is confirmed, the CPU 56 performs a data check (parity check in this example) of the backup RAM area (step S9). In step S9, the calculated checksum is compared with the checksum calculated and stored by the same process in the power supply stop process. If the power is restored after an unexpected power outage or other power supply interruption, the data in the backup RAM area should have been saved, and the check result (comparison result) becomes normal (match). If the check result is not normal, it means that the data in the backup RAM area is different from the data when the power supply is stopped. In such a case, since the internal state cannot be returned to the state at the time of stopping the power supply, the initialization processing executed at the time of turning on the power other than the recovery from the stop of the power supply is executed.
[0058]
If the check result is normal, the CPU 56 performs a game state restoration process for returning the internal state of the game control means and the control state of the electric component control means such as the effect control means to the state at the time of stopping the power supply (step S10). ). Then, the saved value of the PC (program counter) stored in the backup RAM area is set in the PC, and the program returns to that address.
[0059]
In this embodiment, whether or not the data in the backup RAM area is stored is confirmed using both the backup flag and the check data, but only one of them may be used. That is, one of the backup flag and the check data may be used as a trigger for executing the state restoration process.
[0060]
In the initialization process, the CPU 56 first performs a RAM clear process (step S11). In addition, a predetermined work area (for example, a normal symbol determination random number counter, a normal symbol determination buffer, a special symbol left middle right symbol buffer, a special symbol process flag, a payout command storage pointer, a winning ball flag, a ball out flag, a payout) A work area setting process for setting an initial value to a flag for selectively performing a process according to a control state such as a stop flag is performed (step S12). Further, a process of transmitting an initialization command for initializing the sub-boards (the payout control board 35 and the effect control board 80 in this embodiment) to each sub-board is executed (step S13). Examples of the initialization command include a command indicating the initial symbol displayed on the variable display device 9 (for the effect control board 80) and a command for turning off the prize ball lamp 51 and the ball out lamp 52.
[0061]
Then, the register of the CTC provided in the CPU 56 is set so that the timer is interrupted periodically every 2 ms (step S14). That is, a value corresponding to 2 ms is set in a predetermined register (time constant register) as an initial value.
[0062]
When the execution of the initialization process (Steps S11 to S14) is completed, the display random number update process (Step S17) and the initial value random number update process (Step S18) are repeatedly executed in the main process. When the display random number update processing and the initial value random number update processing are executed, the interrupt is prohibited (step S16). When the display random number update processing and the initial value random number update processing are completed, the interrupt permission state is set. Is performed (step S19). The display random number is a random number for determining a symbol to be displayed on the variable display device 9, and the display random number updating process is a process of updating a count value of a counter for generating a display random number. . The initial value random number updating process is a process of updating the count value of the counter for generating the initial value random number. The initial value random number is a random number for determining an initial value of a count value, such as a counter for generating a random number for determining whether or not to make a big hit (a big hit determination random number generation counter). In the game control process described later, when the count value of the big hit determination random number generation counter makes one round, an initial value is set in the counter.
[0063]
When the display random number update process is executed, the interrupt is prohibited because the display random number update process is also executed in the timer interrupt process described later, and therefore, conflicts with the process in the timer interrupt process. This is to avoid the situation. That is, if a timer interrupt occurs during the processing of step S17 and the count value of the counter for generating the display random number is updated during the timer interrupt processing, the continuity of the count value is lost. There are cases. However, such an inconvenience does not occur if the interrupt is prohibited during the processing in step S17.
[0064]
When the timer interrupt occurs, the CPU 56 executes the game control processing of steps S20 to S33 shown in FIG. In the game control process, first, the CPU 56 executes a power-off detection process for detecting whether or not the power-off signal has been output (whether or not the power-on signal has been turned on) (step S20). The power-off signal is output, for example, when the voltage drop monitoring circuit mounted on the power supply board detects a drop in the voltage of the power supplied to the gaming machine. Then, in the power-off detection process, upon detecting that the power-off signal has been output, the CPU 56 executes a power supply stop process for storing necessary data in the backup RAM area. Next, detection signals of switches such as the gate switch 32a, the starting port switch 14a, the count switch 23, and the winning port switch 24a are input through the switch circuit 58, and their states are determined (switch processing: step S21).
[0065]
Next, a process of updating the count value of each counter for generating each determination random number such as a big hit determination random number used for game control is performed (step S22). The CPU 56 further performs a process of updating a count value of a counter for generating a random number for an initial value and a process of updating a count value of a counter for generating a random number for display (steps S23 and S24).
[0066]
FIG. 7 is an explanatory diagram showing each random number. It is explanatory drawing which shows each random number. Each random number is used as follows.
(1) Random 1: Determine whether to generate a big hit (for big hit determination)
(2) Random 2-1 to 2-3 (random 2): For determining a left-center right out-of-spec symbol of a special symbol (special symbol left-center right)
(3) Random 3: Determine a special symbol combination that generates a big hit (for big hit symbol determination)
(4) Random 4: Determine the fluctuation pattern of the special symbol (for fluctuation pattern determination)
(5) Random 5: Determine whether to reach when no big hit occurs (for reach determination)
(6) Random 6: Determines whether or not to generate a hit based on a normal symbol (for determining a normal symbol hit)
(7) Random 7: Determine initial value of random 1 (for determining random 1 initial value)
(8) Random 8: Determine initial value of random 6 (for determining random 6 initial value)
(9) Random 9: Determines whether or not to perform a notice effect (for notice judgment)
(10) Random 10: Determine the effect pattern of the notice effect (for deciding the notice pattern)
[0067]
In step S22 in the game control process shown in FIG. 6, the CPU 56 determines (1) the random number for jackpot determination, (3) the random number for jackpot symbol determination, (6) the random number for jackpot symbol determination, and (9) ), The counter for generating the notice determination random number is incremented (addition of 1). That is, these are the random numbers for determination, and the other random numbers are the random numbers for display or the random numbers for initial values. In addition, in order to enhance the gaming effect, random numbers related to ordinary symbols other than the random numbers (1) to (10) are also used.
[0068]
Further, the CPU 56 performs a special symbol process (step S25). In the special symbol process control, a corresponding process is selected and executed according to a special symbol process flag for controlling the pachinko gaming machine 1 in a predetermined order according to a gaming state. Then, the value of the special symbol process flag is updated during each processing according to the gaming state. Further, a normal symbol process is performed (step S26). In the normal symbol process process, a corresponding process is selected and executed according to a normal symbol process flag for controlling the display state of the normal symbol display 10 in a predetermined order. Then, the value of the normal symbol process flag is updated during each processing according to the gaming state.
[0069]
Next, the CPU 56 performs a process of setting the effect control command relating to the special symbol in a predetermined area of the RAM 55 and transmitting the effect control command (special symbol command control process: step S27). In addition, a process of setting an effect control command related to a normal symbol in a predetermined area of the RAM 55 and transmitting the effect control command is performed (ordinary symbol command control process: step S28).
[0070]
Further, the CPU 56 performs an information output process of outputting data such as big hit information, start information, and probability variation information supplied to the hall management computer (step S29).
[0071]
Further, the CPU 56 executes a prize ball process for setting the number of prize balls based on the detection signals of the winning opening switches 29a, 30a, 33a, 39a (step S30). Specifically, a payout control command indicating the number of prize balls is output to the payout control board 37 in response to a winning detection based on turning on of any one of the winning opening switches 29a, 30a, 33a, and 39a. The payout control CPU mounted on the payout control board 37 drives the ball payout device 97 according to a payout control command indicating the number of winning balls.
[0072]
Then, the CPU 56 executes a storage process for checking an increase or decrease in the number of stored start winnings (step S31). Further, a test terminal process for outputting a test signal for enabling the control state of the gaming machine to be confirmed outside the gaming machine is executed (step S32). Further, when a predetermined condition is satisfied, a drive command is issued to the solenoid circuit 59 (step S33). The solenoid circuit 59 drives the solenoids 16, 21, 21A in response to a drive command in order to open or close the variable winning ball device 15 or the opening / closing plate 20, or to switch the game ball passage in the big winning port. I do. Thereafter, an interrupt permission state is set (step S34).
[0073]
According to the above control, in this embodiment, the game control process is started every 2 ms. In this embodiment, the game control process is executed in the timer interrupt process. However, in the timer interrupt process, for example, only a flag indicating that an interrupt has occurred is set. May be executed.
[0074]
FIG. 8 is a flowchart showing an example of a special symbol process program executed by the CPU 56. The special symbol process process shown in FIG. 8 is a specific process of step S25 in the flowchart of FIG. When performing the special symbol process, the CPU 56 performs a variation reduction timer subtraction process (step S310), and detects that a game ball has won the starting winning port 14 provided on the game board 6 by a starting port. If the switch 14a is turned on, that is, if a starting prize in which the game ball wins the starting prize port 14 has occurred (step S311), after performing a starting port switch passing process (step S312), according to the internal state. , And performs any one of steps S300 to S308. The fluctuation shortening timer is a timer for setting the fluctuation time when the fluctuation time of the special symbol is shortened.
[0075]
Special symbol normal processing (step S300): Waiting for a state where variable display of special symbols can be started. When the state in which the variable display of the special symbol can be started, the number of the start winning prize stored is confirmed. If the start winning prize memory number is not 0, it is determined whether or not to make a big hit as a result of the variable display of the special symbol. Then, the internal state (special symbol process flag) is updated so as to shift to step S301.
[0076]
Special symbol stop symbol setting process (step S301): The stop symbol of the left middle right symbol after the variable display of the special symbol is determined. Then, the internal state (special symbol process flag) is updated so as to shift to step S302.
[0077]
Variation pattern setting process (step S302): A variation pattern (variable display mode) of variable display of a special symbol is determined according to the value of random 4. Further, the variable time timer is started. At this time, the left middle right final stop symbol and information instructing the variation mode (variation pattern) are transmitted to the effect control board 80. Then, the internal state (special symbol process flag) is updated so as to shift to step S303.
[0078]
Special symbol variation processing (step S303): When a predetermined time (time indicated by the variation time timer in step S302) has elapsed, the internal state (special symbol process flag) is updated so as to shift to step S304.
[0079]
Special symbol stop processing (step S304): Control is performed so that all symbols displayed on the variable display device 9 are stopped. Specifically, it is set to a state where an effect control command indicating a special symbol stop is transmitted. If the stopped symbol is a combination of big hit symbols, the internal state (special symbol process flag) is updated so as to shift to step S305. If not, the internal state is updated to shift to step S300.
[0080]
Big winning opening opening process (step S305): Control for opening the big winning opening is started. Specifically, the counter and the flag are initialized, and the solenoid 21 is driven to open the special winning opening. Further, the execution time of the special winning opening opening process is set by the process timer, and the big hit flag is set. Then, the internal state (special symbol process flag) is updated so as to shift to step S306.
[0081]
Processing during opening of the special winning opening (step S306): Control for transmitting an effect control command for displaying the special winning opening round to the effect control board 80, processing for confirming establishment of the closing condition of the special winning opening, and the like are performed. When the closing condition of the last big winning opening is satisfied, the internal state is updated to shift to step S307.
[0082]
Specific area effective time processing (step S307): The presence or absence of the passage of the V winning switch 22 is monitored to perform processing for confirming that the big hit game state continuation condition is satisfied. If the condition of the big hit game state continuation is satisfied and there are still remaining rounds, the internal state is updated to shift to step S305. If the jackpot gaming state continuation condition is not satisfied within the predetermined effective time, or if all rounds have been completed, the internal state is updated to shift to step S308.
[0083]
Big hit end processing (step S308): Control for causing the effect control means to perform display control for notifying the player of the end of the big hit gaming state. Then, the internal state is updated so as to shift to step S300.
[0084]
FIG. 9 is a flowchart showing the starting port switch passage processing (step S312). In the starting port switch passage processing, the CPU 56 checks whether or not the number of stored starting winnings has reached the maximum value of 4 (step S111). If the number of stored start winnings has not reached 4, the number of stored start winnings is increased by 1 (step S112), and the values of each random number, such as a random number for jackpot determination, are extracted and stored in accordance with the value of the stored number of started winnings. It is stored in the area (special symbol determination buffer) (step S113). Note that extracting a random number means reading a count value from a counter for generating a random number and using the read count value as a random number value. In step S113, random 1 to random 5 are extracted from the random numbers shown in FIG. Then, a fluctuation time reduction determination time for determining whether to shorten the fluctuation time is set (step S114).
[0085]
In this embodiment, there are twelve kinds of special symbols in the middle left and right, each of which is “0” to “11”. A special symbol change is realized. During the change of the special symbol, the display of the display symbol may change discontinuously. Also, when the final stop symbol (fixed symbol) of the special symbol is aligned in the middle left and right, it becomes a big hit, and when the left and right are aligned, it becomes reach. Then, in the case of a big hit, when odd symbols are aligned, the state shifts to a high probability state after the big hit game ends. In addition, in the high probability state, when a big hit occurs, or when a special symbol is changed a predetermined number of times, the high probability state ends and returns to the low probability state.
[0086]
FIG. 10 is an explanatory diagram showing an example of a variation pattern used in this embodiment. In FIG. 10, “EXT” indicates EXT data of the second byte in the effect control command having a 2-byte configuration. “Time” indicates the fluctuation time of the special symbol (variable display period of the identification information).
[0087]
In this example, each of the fluctuation patterns of the special symbol is a probability variable jackpot, a non-probability variable jackpot, a reach or not, a reach mode in the case of a reach, and whether or not to perform a notice effect. In addition, a plurality of types are prepared according to the difference between various effect modes such as a notice mode for performing a notice effect and the like.
[0088]
The “normal fluctuation” is a fluctuation pattern that does not involve the reach mode. “Normal reach” is a fluctuation pattern that accompanies the reach mode but does not cause a fluctuation result (stop symbol) to generate a big hit. “Reach A” is a fluctuation pattern having a reach mode different from “normal reach”. The difference in reach mode means that different modes (speed, rotation direction, etc.), characters, and the like appear in the reach change time. For example, in the "normal", the reach mode is realized by only one type of variation mode, whereas in the "reach A", the reach mode including a plurality of variation modes having different speeds and directions of variation is realized.
[0089]
The “reach B” is a variation pattern having a different reach mode from the “normal reach” and the “reach A”. The “reach C” is a variation pattern having a reach mode different from “normal reach”, “reach A” and “reach B”. The “reach D” is a variation pattern having a reach mode different from “normal reach”, “reach A”, “reach B”, and “reach C”. In “reach A”, “reach B” and “reach C”, there is a case where a big hit occurs and a case where no big hit occurs.
[0090]
“Advance notice A” to “advance notice D” are advance notice effects according to the effect form of successive notices A to D (see FIGS. 27 to 29) described later. The continuous announcement is an announcement effect performed over a plurality of variable display (variation) of the special symbol, and is also referred to as a suspended announcement.
[0091]
Note that a shortened display pattern may be used. The shortened display pattern is a variation pattern in which the variation time of the left middle right symbol is extremely short, for example, 1.0 second.
[0092]
Further, in this embodiment, the fluctuation patterns 1 to 89 are used at the time of high probability (during probable change) and at the time of low probability (during non-probable change = normal state). The respective fluctuation times may be shortened. Further, a group of variation patterns used at the time of high probability (a plurality of variation patterns that can be used) may be different from a group of variation patterns used at the time of low probability.
[0093]
FIG. 11 is a flowchart showing a special symbol normal process (step S300) in the special symbol process process. In the special symbol normal processing, the CPU 56 stores the start winning prize in a state where the change of the special symbol can be started (for example, when the value of the special symbol process flag is a value indicating step S300) (step S51). The value of the number is confirmed (step S52). Specifically, the count value of the start winning counter is confirmed. The case where the value of the special symbol process flag is a value indicating step S300 is a case where the symbol is not changed on the variable display device 9 and the big hit game is not being performed.
[0094]
If the number of stored start winnings is not 0, a notice setting process is executed (step S53). Next, while reading out each random number value stored in the storage area corresponding to the start winning storage number = 1 and storing it in the random number buffer area of the RAM 55 (step S54), the value of the starting winning storage number is reduced by one, and The contents of each storage area are shifted (step S55). That is, each random number value stored in the storage area corresponding to the number of start winning storage = n (n = 2, 3, 4) is stored in the storage area corresponding to the number of start winning storage = n-1. Therefore, the order in which the random numbers stored in the respective storage areas corresponding to the respective numbers of the start winning prizes are extracted always matches the order of the starting prize storing numbers = 1, 2, 3, and 4. Has become. In other words, in this example, the CPU 56 executes the process of shifting the contents of each storage area every time the variable display start condition is satisfied, so that the determination of the prize-winning determination process executed when the start prize occurs. It is possible to easily specify which start winning prize memory the result corresponds to.
[0095]
Next, the CPU 56 reads the big hit determination random number from the random number storage buffer (step S56), and executes the big hit determination module (step S57). When it is determined that a big hit is to be made (step S58), the CPU 56 sets a big hit flag (step S59). Then, the value of the special symbol process flag is updated to a value corresponding to the special symbol stop symbol setting process (step S60).
[0096]
FIG. 12A is an explanatory diagram illustrating an example of the big hit determination table used in the big hit determination module. FIG. 12B is an explanatory diagram illustrating an example of a reach determination table used in the reach determination module. FIG. 12C is an explanatory diagram showing an example of a notice determination table used in the notice setting processing. As shown in FIG. 12A, in this embodiment, the jackpot determination value is "3" at the time of low probability (at the time of non-probability), and the jackpot determination value is "3" at the time of high probability (at the time of probability change). , “7”, “79”, “103”, and “107”. Further, as shown in FIG. 12B, the reach determination values are “0”, “1”, and “11” at the time of low probability (at the time of non-probability), and the reach determination value is “0” at the time of high probability. , “1”, “9”, “11”, and “12”. Further, as shown in FIG. 12 (C), when all of the on-hold storage has been missed, the notice determination values are "1,""7," and "17", and there is a case where a big hit occurs during on-hold storage. , The notice determination values are “0” to “30” and “70” to “99”.
[0097]
FIG. 13 is a flowchart showing the notice setting process (step S53) in the special symbol normal process. In the notice setting process, if the CPU 56 is not in the probable change state (step S201), the notice number counter that stores the remaining number of not-yet-executed executions of the notice number for executing the continuous notice effect is stored. Is read (step S202). If the read count value of the notice number counter is 0 (step S203), the CPU 56 sets the count value of the start winning counter to the number of processes (step S204) and sets the count value of the inspection number counter to an initial value. It is set to 0 (step S205). Note that the inspection number counter is a counter for counting the number of repetitions of a loop process of steps S206 to S211 described later.
[0098]
Next, the CPU 56 adds 1 to the count value of the inspection number counter (step S206), and stores the winning prize storage number = (the number indicated by the count value of the inspection number counter) for the big hit determination disturbance stored in the storage area. The numerical value is read (step S207), and the big hit determination module is executed. That is, a big hit determination subroutine is called (step S208). If the big hit determination module determines that the big hit will not be a big hit based on the read random number for big hit determination, the CPU 56 subtracts 1 from the number of processes (step S210). If it is, the process proceeds to step S206 (step S211).
[0099]
That is, in this example, the processes of steps S206 to S211 are repeatedly executed until the number of processes becomes zero. However, in this example, if it is determined in step S209 in the loop processing of steps S206 to S211 that a big hit will be made, the loop processing ends at that point. In other words, in steps S206 to S211, until it is determined that there is a big hit among the pending variable displays, or until the number of processes becomes 0 (all determinations on the pending variable display are completed. ), Each of the jackpot determination random numbers stored in the respective storage areas corresponding to the number of start prize storages = 1 to 4 is read out in order from the earliest extracted time to determine whether or not a jackpot is determined. Is determined.
[0100]
If it is determined in step S209 that a big hit will be made, the CPU 56 sets a notice determination table when there is a big hit (table on the right side of FIG. 12C) as a use table (step S212). When the number of processes after the subtraction is 0 in step S211, the CPU 56 determines that the variable display being held does not include a big hit, and a notice determination table for a loss. (Table on the left side of FIG. 12C) is set as the use table (step S213).
[0101]
If the count value of the number-of-tests counter is 2 or more (step S214), the CPU 56 extracts a random number for advance notice determination stored in the storage area corresponding to the number of stored start winnings = 1 (step S215). It is determined whether or not to give a continuous notice using a notice determination table set as a use table (step S216).
[0102]
When it is determined that the continuous notice is to be performed, the count value of the inspection number counter is set to the notice number counter that counts the remaining number of consecutive announcement effects in the continuous notice (step S217). Then, the random number value for the announcement pattern determination stored in the storage area corresponding to the number of start winning storages = 1 is extracted (step S218), and the announcement pattern is determined based on the random number for the announcement pattern determination (step S219). .
[0103]
For the determination of the notice pattern in step S219, for example, a notice pattern determination table (not shown) in which a comparison value to be compared with the extracted value of the notice pattern determination random number is used. In the announcement pattern determination table, for example, a combination of announcement effects for consecutive times using the continuous announcement A to the advance announcement D (see FIGS. 27 to 29) is set in advance, and the comparison value is assigned to the combination. Have been. Therefore, in step S219, a notice effect for a continuous number of times is determined.
[0104]
Specifically, when “4” is set to the number-of-notifications counter in step S217, a notice pattern determination table in which combinations of four notice effects are set in advance in step S219 is used, and step S218 is performed. Each announcement effect to be executed in each of the four variable displays is determined based on the announcement pattern determination random number value extracted in (1). For example, it is determined that the notice effect is executed in the order of the successive notice A, the successive notice C, the successive notice B, and the successive notice D.
[0105]
FIG. 14 is a flowchart illustrating the big hit determination module used in step S208 and the like. In the big hit determination process, the CPU 56 first determines whether or not the state at that time is being changed (step S141). If the change is being made, the CPU 56 determines in the big hit determination table shown in FIG. It is determined to use the probability table (step S142). If the probability is not being changed, it is determined to use the low probability table in the big hit determination table (step S143).
[0106]
Then, it is determined whether or not a value matching the extracted random 1 value is present in the jackpot determination table (steps S144 and S145), and if there is a matching value, it is determined to be a jackpot (step S146). If there is no value to be determined, it is determined not to make a big hit (step S147).
[0107]
FIG. 15 is a flowchart showing the reach determination module used in the special symbol stop symbol setting process in the special symbol process process. In the reach determination process, the CPU 56 first determines whether or not the state at that time is being changed (step S151). If the state is being changed, the CPU 56 determines whether the state is high in the reach determination table shown in FIG. It is determined to use the probability table (step S152). If the probability is not being changed, it is determined to use the low probability table in the reach determination table (step S152).
[0108]
Then, it is determined whether or not a value that matches the value of the extracted random number 5 is in the reach determination table (steps S154 and S155). If there is a value that matches, the reach is determined (step S156). If there is no value, it is determined not to reach (step S157).
[0109]
FIG. 16 is a flowchart showing a special symbol stop symbol setting process (step S301) in the special symbol process process. In the special symbol stop symbol setting process, the CPU 56 checks whether or not the big hit flag is set (step S61). If the big hit flag is set, the big hit symbol is determined according to the value of the big hit symbol random number (random 3) (random 3 read out in step S53) (step S62). In this embodiment, each symbol of the symbol number set in the big hit symbol table according to the value of random 3 is determined as the big hit symbol. In the big hit symbol table, a left middle right symbol number corresponding to each of a plurality of combinations of big hit symbols is set. Then, the value of the special symbol process flag is updated to a value corresponding to the change pattern setting process (step S63).
[0110]
If the big hit flag is not set, the CPU 56 executes the reach determination module (step S65). Here, the reach determination module determines whether or not to reach based on the value of the random number 3 read from the storage area in step S53, that is, the value stored in the random number buffer (step S64). Further, the left and right symbols are determined according to the value of the random 2-1 and the middle symbol is determined according to the value of the random 2-2 (step S67). Here, when the determined middle symbol matches the left and right symbols, the symbol corresponding to the value obtained by adding 1 to the value of the random number corresponding to the middle symbol is set as the stop symbol of the middle symbol so that it does not match the big hit symbol. I do. Then, control goes to a step S63.
[0111]
If it is determined in step S66 not to reach, a stop symbol in the case of a loss is determined (step S68). Specifically, the left symbol is determined according to the value read in step S53, that is, the value of the random 2-1 that has been extracted, the middle symbol is determined according to the value of the random 2-2, and the value of the random 2-3 is determined. The right symbol is determined according to. Here, when the left and right symbols match, the right symbol is shifted by one symbol so that the edge does not become a reach. Then, control goes to a step S63. Note that if the probability change symbol is determined in step S62, a probability change flag indicating that the game will shift to the probability change state after the end of the big hit game is set.
[0112]
FIG. 17 is an explanatory diagram showing an example of the big hit variation pattern type selection table. The big hit variation pattern type selection table is a table used in the variation pattern setting process in the special symbol process process when it is determined that a big hit occurs at the start of the variation. Each table is set in the ROM 54. As shown in FIG. 17, in the big hit variation pattern type selection table, one big hit variation pattern type table without notice (table TA) used when no notice effect is performed is set as the variation pattern type table. In addition, in accordance with the remaining number of continuous announcements, a notice-winning jackpot variation pattern type table (table T1 to table T4) used when performing an announcement effect is set. Note that a plurality of large hit variation pattern types tables as shown in FIG. 17 may be set, and the large hit variation pattern type tables with notice (four in this example, T1 to T4) may be set as the remaining times of the continuous notice. May be set in plurality.
[0113]
FIG. 18 is an explanatory diagram illustrating an example of the reach variation pattern type selection table. The reach variation pattern type selection table is a table used when it is determined that a reach does not occur at the start of the variation but a reach is made. As shown in FIG. 18, in the reach variation pattern type selection table, one reach-less variation pattern type table (table TR) without notice that is used when a preview effect is not performed is set as the variation pattern type table. In addition, a reach variation pattern type table with notice used in performing a notice effect (table T5 to table T20) is set corresponding to the combination of the remaining number of continuous notices and the notice pattern.
[0114]
FIG. 19 is an explanatory diagram illustrating an example of a variation pattern type selection table when falling off. The out-of-offset variation pattern type selection table is a table that is used when it is determined that out-of-shift (not reach) at the start of variation. As shown in FIG. 19, in the out-of-office variation pattern type selection table, one out-of-office out-of-office variation pattern type table (table TH) used when no notice effect is performed is set as the variation pattern type table. In addition, in accordance with the combination of the remaining number of continuous announcements and the announcement pattern, an announcement-without announcement variation pattern type table (tables T21 to T36) used when performing an announcement effect is set.
[0115]
FIG. 20 is an explanatory diagram illustrating a configuration example of each variation pattern type table. Each variation pattern type table is set in the ROM 54. In each variation pattern type table, a comparison value to be compared with the variation pattern determining random number is set in a state where the comparison value is distributed in accordance with each variation pattern. FIG. 20 does not show specific comparison values, but shows the number of comparison values distributed according to each variation pattern.
[0116]
Each comparison value to be compared with the variation pattern determination random number is distributed in consideration of the characteristics of each variation pattern type table, and is only used for variation patterns indicating effects that can appear in relation to the variation pattern type table to be used. Will be sorted. More specifically, for example, since the table TA is a table used when “big hit” and “no notice effect” are present, the table TA has a change pattern that is out of place or a change pattern that performs the notice effect (FIG. 10). No comparison value is assigned to the reference value. Further, for example, since the table T5 is a table used when executing the reach effect accompanied by the notice A, the comparison value is different from the “reach A”, “missing”, and “notice A” (see FIG. 10). Will be sorted.
[0117]
As shown in FIG. 20, in the variation pattern type table TA, of the 150 comparison values, 125 comparison values correspond to the variation pattern 18, 15 comparison values correspond to the variation pattern 19, and the remaining The comparison value is set so as to correspond to one or more other variation patterns. In the variation pattern type table TH, all 150 comparison values are sorted in correspondence with variation pattern 1. FIG. 20 shows only a part of the variation pattern type tables, but similarly, the comparison values are allocated and set in other variation pattern type tables.
[0118]
FIG. 21 is a flowchart showing a variation pattern setting process (step S302) in the special symbol process process. In the variation pattern setting process, the CPU 56 reads the notice number counter (step S71), and if the read count value of the notice number counter is not 0, performs a notice variation pattern type table selection process (step S73). If the count value of the notice number counter read in step S71 is 0, the state of the big hit flag is confirmed (step S74). If the big hit flag is set, the fluctuation used in the fluctuation of the special symbol executed this time is set. A large hit variation pattern type table (TA) without notice is selected as a table used to determine a pattern (step S75). If the big hit flag is not set, it is confirmed whether or not to reach in the change of the special symbol executed this time (step S76). Whether or not to reach is determined by the processes of steps S65 and S66 in the special symbol stop symbol setting process. If the reach is determined, the reach variation pattern table without notice (TR) is selected as a table used to determine the variation pattern used in the variation of the special symbol executed this time (step S77). If it is determined not to be the reach, the out-of-office variation pattern type table without notice is selected (step S78).
[0119]
Next, the CPU 56 extracts a variation pattern determination random number from the variation pattern determination random number counter (step S79), and extracts the variation pattern determination random number and the variation selected in step S73, step S75, step S77, or step S78. A variation pattern is determined using the pattern type table (TA, TR, TH, or T1 to T36) (step S80). Specifically, in step S80, from among a plurality of types of variation patterns prepared in advance (see FIG. 10), the comparison values extracted from the comparison values arranged in the variation pattern type table set as the use table are extracted. It is determined to be a variation pattern associated with a comparison value that matches the value of the determined variation pattern determination random number.
[0120]
When the variation pattern is determined, the CPU 56 sets the variation time data of the determined variation pattern in the special symbol process timer (step S81). Then, the CPU 56 sets the address of the determined variation pattern designation command transmission table in the pointer (step S82), and executes a command setting process as a subroutine (step S83).
[0121]
The effect control command is transmitted to the effect control board 80 by executing the command set process. In this embodiment, each effect control command that can be transmitted to the effect control means is stored in the command transmission table of the ROM. In the command set process, the CPU 56 sets the effect control command data stored at the address of the ROM 54 indicated by the pointer to an output port for outputting the effect control command data, and indicates that the command is to be transmitted. An effect control INT signal is output.
[0122]
FIG. 22 is a flowchart illustrating the notice variation pattern type table selection process (step S73). In the notice variation pattern type table selection process, the CPU 56 reads the notice number counter (step S731), and decrements the count value of the notice number counter by 1 (step S732).
[0123]
Next, if the big hit flag is set (step S733), the CPU 56 sets the big hit variation pattern type selection table (see FIG. 17) as a use table (step S734), and determines that the number of notices to be executed is to be executed. Based on the notice pattern (the notice pattern determined in step S223), any of the noticeable jackpot variation pattern type tables (T1 to T4) is selected and set as a use table (step S735). The remaining number of notices means the number of notice effects that have not been executed among a plurality of notice effects that are executed as continuous notices, and here matches the value obtained by adding 1 to the count value of the notice number counter. In step S735, for example, when the big hit variation pattern type selection table shown in FIG. 17 is used, if the count value of the notice number counter is 2, the notice time when the remaining notice number is 3 times The variation pattern type table 3 is selected.
[0124]
If the big hit flag is not set (step S733), the CPU 56 determines that the reach is to be made in the variation of the special symbol executed this time (step S736), and the variation pattern type selection table at the time of reach (step S736). FIG. 18) is used as a use table (step S737), and the reach variation pattern type table with notice (T5 to T20) based on the number of remaining notices and the notice type (notice pattern) determined to be executed is provided. One of them is selected and set as a use table (step S738).
[0125]
If it is determined not to reach, the out-of-office variation pattern type selection table (see FIG. 19) is used as a use table (step S739), the remaining number of notices and the notice pattern decided to be executed. Based on the above, any one of the noticeable deviation variation pattern type tables (T21 to T36) is selected and set as a use table (step S740). In step S740, for example, when the out-of-office variation pattern type selection table shown in FIG. 19 is used, if the count value of the advance notice number counter is 2, the notice variation pattern when the remaining notice number is 3 is given. From the type tables 29 (T29) to 32 (T32), the notice-unchanged fluctuation pattern type table associated with the production mode (any of the notices A to D) of the present notice effect in the notice pattern is selected. You. For example, assuming that the announcement effect to be executed when the number of remaining announcements in the announcement pattern is three is announcement B, T30 is selected in step S740.
[0126]
FIG. 23 is a flowchart showing the storage processing (step 31) in the 2 ms timer interrupt processing. In the storage processing, the CPU 56 checks whether or not the count value of the start winning prize storage counter is the same as the count value of the previous start winning prize storage counter (step S161). If they are not the same, that is, if there is a change in the number of stored start winnings, the address of the command transmission table for designating the start winning storage according to the number of stored start winnings is set in the pointer (step S162), and the command set as a subroutine The process is executed (Step S163). Then, the count value of the start winning prize storage counter is set in the previous start winning prize storage counter (step S164).
[0127]
When the number of stored start winnings changes by the above processing, an effect control command for designating the number of stored start winnings is transmitted to the effect control means mounted on the effect control board 80 (steps S161 to S163).
[0128]
As described above, when the condition (start condition) for starting the variable display in the variable display device 9 is satisfied, it is determined whether or not to make a big hit or to make a shift reach (see steps S57 and S65). ). Then, the display result of the actual variable display is derived based on the determination result (see steps S62, S67, S68). However, the random number value used when the variable display start condition is satisfied is a value extracted and stored in the storage area when the variable display execution condition is satisfied.
[0129]
Next, a method of transmitting a control command from the game control means to the effect control means will be described. FIG. 24 is an explanatory diagram showing signal lines of an effect control command transmitted from the main board 31 to the effect control board 80. As shown in FIG. 24, in this embodiment, the effect control command is transmitted from the main board 31 to the effect control board 80 via eight signal lines of effect control signals D0 to D7. Further, a signal line of an effect control INT signal for transmitting a strobe signal (effect control INT signal) is also provided between the main board 31 and the effect control board 80. FIG. 24 shows an example of an effect control command, but a control command to another electric component control board (dispensing control means in this embodiment) also includes eight signal lines and one signal line. It is transmitted by the signal line of the INT signal.
[0130]
In this embodiment, the effect control command has a 2-byte configuration, the first byte represents MODE (classification of command), and the second byte represents EXT (type of command). The first bit (bit 7) of MODE data is always "1", and the first bit (bit 7) of EXT data is always "0". Such a command form is an example, and another command form may be used. For example, a control command composed of 1 byte or 3 bytes or more may be used.
[0131]
As shown in FIG. 25, the effect control command data of 8 bits of the effect control command is output in synchronization with the effect control INT signal. The effect control means mounted on the effect control board 80 detects that the effect control INT signal has risen, and starts a process of fetching 1-byte data by an interrupt process. Therefore, from the point of view of the effect control means, the effect control INT signal corresponds to a capture signal that triggers the capture of the effect control command data.
[0132]
The effect control command is sent only once so that the effect control means can recognize it. Recognizable means in this example that the level of the effect control INT signal changes, and sent only once so as to be recognizable means, for example, that each of the first and second bytes of the effect control command data Accordingly, the effect control INT signal is output only once in a pulse form (rectangular wave form). The effect control INT signal may have a polarity opposite to the polarity shown in FIG.
[0133]
FIG. 26 is an explanatory diagram showing an example of the content of the effect control command sent to the effect control board 80. In the example shown in FIG. 26, commands 8000 (H) to 8058 (H) are effect control commands for designating a variation pattern of a special symbol in the variable display device 9 that variably displays a special symbol. It should be noted that the command for specifying the variation pattern (variation pattern command) also serves as the variation start instruction.
[0134]
The command 88XX (H) (X = arbitrary value of 4 bits) is an effect control command relating to a variation pattern of a normal symbol. The command 89XX (H) is an effect control command for designating a stop symbol of a normal symbol. The command 8A00 (H) is an effect control command for instructing to stop variable display of a normal symbol.
[0135]
Commands 91XX (H), 92XX (H), and 93XX (H) are effect control commands for designating a left middle right stop symbol of a special symbol. A symbol number is set in “XX”. The command A000 (H) is an effect control command for instructing to stop the variable display of the special symbol. The command BXXX (H) is an effect control command transmitted from the start of the big hit game to the end of the big hit game. The commands C000 (H) to EXXXX (H) are effect control commands relating to the change of the special symbol and the display state of the variable display device 9 irrespective of the jackpot game.
[0136]
Command D000 (H) is an effect control command for designating a customer waiting demonstration.
[0137]
The command E0XX (H) is an effect control command that indicates the number of the start storage display areas 18 for changing the display color in the display area for displaying the number of start winning storages in the variable display device 9. For example, the effect control means changes the display color of the number of start storage display areas 18 designated by “XX (H)” in each start storage display area 18. That is, the command E0XX (H) is a command for instructing the control of the display area provided for notifying the information of the reserved number. Note that the command related to the number of the start storage display areas 18 for changing the display color may be configured to indicate an increase or decrease in the number of areas for changing the display color. In this embodiment, since the upper limit of the start winning prize memory is 4, “XX” is one of 0 to 4.
[0138]
The command E400 (H) is a command transmitted when the state changes from the high probability state to the low probability state, and the command E401 (H) is transmitted when the state changes from the low probability state to the high probability state. Command.
[0139]
When the effect control means of the effect control board 80 receives the above-described effect control command from the game control means of the main board 31, the display state of the variable display device 9 and the ordinary symbol display 10 is changed according to the contents shown in FIG. At the same time, the display state of the lamp / LED is changed, and the sound number data is output to the sound output board 70 if necessary. Control commands other than those shown in FIG. 26 are also transmitted from the game control means to the effect control means. For example, a control command indicating the display state of the prize ball lamp 51 or the ball out lamp 52 and the number of lights of the ordinary symbol start storage display 41, and a more detailed effect control command relating to the big hit game are also transmitted from the game control means to the effect control means. Sent to.
[0140]
The variable display start designation command indicating the start of the variable display and the variable display mode designation command capable of specifying the variable display mode are realized by an effect control command for specifying the variation pattern, and the identification information designation command capable of specifying the display result of the identification information. Is realized by an effect control command of left symbol designation, middle symbol designation, right symbol designation, and the variable display end designation command indicating the end of variable display is realized by a special symbol stop effect control command. Further, in this embodiment, the effect control command for specifying the variation pattern is also used as the variable display start specifying command indicating the start of the variable display and the variable display mode specifying command for specifying the variable display mode. The designated command and the variable display mode designating command that can specify the variable display mode may be separated.
[0141]
FIG. 27 is a view showing the production means (variable display device 9, lamp / LED for game state notification in this embodiment (top frame lamp 28 a, left frame lamp 28 b, and right frame lamp 28 b in this embodiment) Based on the result of a lottery performed by using a frame lamp 28c (hereinafter, also referred to as a light emitter) and a speaker 27), a continuous announcement (holding announcement: a jackpot executed at the time of occurrence of a start winning prize) is performed. The announcement effect (effect for notifying that a jackpot or reach is possible) that is continuously executed in the variable display of the special symbol a plurality of times with the number of starting winning memories as an upper limit, provided that It is explanatory drawing which shows the example of the notice effect performed in each time (it may be intermittent rather than continuous in multiple times of variable display). In this embodiment, notice effects ([display mode A], [display mode B], [display mode B], and [display mode A]) for four types of continuous preview using the variable display device 9 as shown in FIGS. [Display mode C] and [display mode D]). That is, the notice effects shown in FIGS. 27A to 27D are effects of a continuous notice using the variable display device 9 as effect means. Note that not only a plurality of announcement effects, but also each announcement effect for realizing a continuous announcement as shown in FIGS. 27A to 27D may be referred to as a “continuous announcement effect”.
[0142]
In addition, four types of continuous announcement effects using light emitters as shown in FIGS. 28 (A) to 28 (D) ([light emitter mode A], [light emitter mode B], [light emitter mode C], [light emission mode] Body aspect D]) can be performed. That is, the continuous announcement effect shown in FIGS. 28A to 28D is an effect mode of the continuous announcement using a light-emitting body (lamp / LED) as the effect means. [Emitting body aspect A], [Emitting body aspect B], [Emitting body aspect C], and [Emitting body aspect D] have, for example, different blinking patterns of the illuminant.
[0143]
Also, four types of continuous announcement effects using the speaker 27 as shown in FIGS. 29 (A) to (D) ([sound mode A], [sound mode B], [sound mode C], [sound mode D] ) Is possible. That is, the continuous announcement effect shown in FIGS. 29A to 29D is an effect mode of the continuous announcement using the speaker 27 as the effect means. [Sound mode A], [Sound mode B], [Sound mode C], and [Sound mode D] have different sound output patterns from the speaker 27, for example.
[0144]
The example of the continuous announcement effect shown in FIGS. 27 to 29 is an example, and more types of continuous announcement effects may be performed. In addition, even when performing more kinds of continuous announcement effects, the effect control means independently determines which of the effect means is to be used for the continuous announcement based on the reception of the variation pattern command. Whether or not to give a continuous notice is determined on the main board side and specified by the variation pattern command.
[0145]
Next, the operation of the effect control means will be described. FIG. 30 is a flowchart showing a main process executed by the effect control CPU 101. In the main process, first, an initialization process for clearing a RAM area, setting various initial values, and initializing a 2 ms timer for determining an activation interval of effect control is performed (step S701). Then, effect control CPU 101 shifts to a loop process for confirming monitoring of the timer interrupt flag (step S702). When a timer interrupt occurs, effect control CPU 101 sets a timer interrupt flag in the timer interrupt processing. In the main process, if the timer interrupt flag is set, the effect control CPU 101 clears the flag (step S703) and executes the following effect control process.
[0146]
In this embodiment, the timer interrupt takes every 2 ms. That is, the effect control process is activated every 2 ms. Further, in this embodiment, only the flag is set in the timer interruption process, and the specific effect control process is executed in the main process. However, the effect control process may be executed in the timer interrupt process.
[0147]
In the effect control process, first, effect control CPU 101 analyzes the received effect control command (command analysis execution process: step S704). Next, the effect control CPU 101 performs an effect control process (step S705). In the effect control process processing, a process corresponding to the current control state is selected and executed from among the processes corresponding to the control state. Then, a process of updating the notice random number counter is executed (step S706). After that, the process returns to the process of checking the timer interrupt flag in step S702.
[0148]
In the present embodiment, a notice random number counter for determining which of the effect means (one or more) is to be used for continuous notice and a notice start timing for each variable display are used. There is a notice random number counter.
[0149]
Next, the process of receiving the effect control command from the main board 31 will be described. FIG. 31 is an explanatory diagram showing a configuration example of a command reception buffer for storing the effect control command received from the main board 31. In this example, a ring buffer type command receiving buffer capable of storing six effect control commands having a 2-byte configuration is used. Therefore, the command receiving buffer is formed of a 12-byte area of the receiving command buffers 1 to 12. Then, a command reception number counter indicating in which area the received command is stored is used. The command reception number counter takes a value from 0 to 11. It is not always necessary to use the ring buffer format. For example, three symbol designating command storage areas (2 × 3 = 6 bytes command receiving buffer) and one other command storing area for designating a variation pattern (for example) A buffer configuration such as 2 × 1 = 2 byte command receiving buffer) may be used. Similarly, the audio control means and the ramp control means may be of a buffer format other than the ring buffer format.
[0150]
The effect control INT signal from the main board 31 is input to the interrupt terminal of the effect control CPU 101. For example, when the INT signal from the main board 31 is turned on, the effect control CPU 101 is interrupted. Then, the effect control CPU 101 executes an effect control command receiving process in the interrupt process. In the reception processing of the effect control command, the effect control CPU 101 stores the received effect control command data in the received command buffer indicated by the command reception number counter.
[0151]
FIG. 32 is a flowchart illustrating a specific example of the command analysis processing (step S704). The effect control command received from the main board 31 is stored in the received command buffer, but in the command analysis process, the effect control CPU 101 checks the contents of the command stored in the command receiving buffer.
[0152]
In the command analysis process, the effect control CPU 101 first checks whether a received command is stored in the command receiving buffer (step S611). Whether it is stored or not is determined by comparing the value of the command reception number counter with the read pointer. The case where they match is the case where the received command is not stored. When the received command is stored in the command receiving buffer, the effect control CPU 101 reads the received command from the command receiving buffer (step S612). After reading, the value of the read pointer is incremented by one.
[0153]
If the received effect control command is an effect control command (91XX (H)) specifying a special symbol left (step S613), the effect control CPU 101 stores the data indicating the left symbol indicated by “XX” in the left RAM. It is stored in the symbol storage area (step S614). If the effect control command (92XX (H)) is designated in the special symbol (step S616), the effect control CPU 101 stores the data indicating the medium symbol indicated by "XX" in the medium symbol storage area in the RAM. It is stored (step S617). Then, if the special symbol right designation effect control command (93XX (H)) (step S618), the effect control CPU 101 stores the data indicating the right symbol indicated by “XX” in the right symbol storage area in the RAM. It is stored (step S619).
[0154]
If the received effect control command is an effect control command for designating a variation pattern (step S621), the effect control CPU 101 stores the EXT data of the command in the variation pattern data storage area (step S622). The receiving flag is set (step S623).
[0155]
If the received effect control command is an effect control command for designating the number of start winning prizes (step S631), the effect control CPU 101 sets the number of start winning prizes stored in the start prize number storage area in the RAM to the number specified by the effect control command. (Step S632). Further, the number of the start storage display areas 18 where the display colors change in the variable display device 9 is updated (step S633). Further, the value of the notice random number counter is incremented by 1 (step S634). When the count value of the notice random number counter exceeds the maximum value, the value is returned to 0. When a plurality of advance random number counters are provided, for example, an advance random number counter n (when four advance random number counters are provided, When the count value of (n = 1 to 3) is returned to 0, the count value of the notice random number counter n + 1 may be incremented by one.
[0156]
If the received command read in step S612 is another effect control command, a flag corresponding to the received command is set (step S659).
[0157]
FIG. 33 is an explanatory diagram showing an example of the range of the count values of the effect means determining counter and the notice start timing determining counter of the notice random number counter described above. The announcement random number counter for effect means determination takes a numerical value in the range of 0 to 150 in this example. In addition, the notice start timing determination counter takes a numerical value in the range of 0 to 11 in this example.
[0158]
FIG. 34 is an explanatory diagram showing an example of a method of selecting an effect unit based on the random number for effect unit determination and a method of determining an effect start timing of a continuous announcement. FIG. 34 (A) shows an example of a big hit production means determining table used when the received fluctuation pattern command indicates a big hit, and FIG. An example of an out-of-stage staging means determination table used when the changed pattern command indicates an out-of-position is shown. The effect means determination tables shown in FIG. 34 are stored in the ROM mounted on the effect control board 80. The value set in each effect means determination table is referred to as effect means determination determination value. In FIG. 34 (C), the relationship between the value of the random number for the announcement effect start timing determination and which of the data set in the announcement start time table (see FIG. 36) is set. An example of the notice start time selection table is shown.
[0159]
As shown in FIG. 34, according to the value of the random number for effect means determination, (1) speaker 27 (shown as “sound” in FIG. 34), (2) lamp / LED (light emitter), ( 3) Variable display device 9 (shown as "display" in FIG. 34), (4) speaker 27 and variable display device 9, (5) lamp / LED and variable display device 9, (6) speaker 27 Any one of the lamp / LED and the variable display device 9 is selected as the production means for producing the production of the continuous notice.
[0160]
In the selection method illustrated in FIG. 34, the effect control unit performs the variable display at a higher rate when the variable display result specifies the big hit by the variation pattern command than in the case where the variable display result specifies the loss. The device 9 is selected as the effect means used for the effect of the continuous notice. That is, when the predetermined variable display result (in this example, a big hit) is specified by the variation pattern command, the effect determination means included in the effect control means is a specific effect means of the plurality of types of effect means (this example). Then, the variable display device 9) is selected at a high rate.
[0161]
Further, when the variable display command specifies that the variable display result is a big hit, the rate at which the plurality of effect means are selected is higher than when the loss is specified. Therefore, when the effect of the continuous notice is executed by the plurality of effect means, the player can strongly expect that a big hit actually occurs. Then, when it is specified that the variable display result is out of order by the variation pattern command, the ratio of selecting all (three in this example) effect means is extremely low. Therefore, when the effect of the continuous notice is performed by all the effect means, the player can further strongly expect that a big hit will actually occur.
[0162]
In this embodiment, the effect means determination table is divided into two cases: a case where the variable display result indicated by the variation pattern command is a big hit and a case where the variable display result is not a big hit. , May be divided into three cases. Furthermore, it may be divided into four cases: a specific jackpot, a non-specific jackpot, a reach, and a miss.
[0163]
FIG. 35 is an explanatory diagram illustrating an example of a method of selecting an effect mode of a preview effect based on a received variation pattern command. FIG. 35 illustrates an example of a notice mode determination table for determining a notice effect of a continuous notice according to the received fluctuation pattern command. The notice mode determination table shown in FIG. 35 is stored in the ROM mounted on the effect control board 80. The value set in the notice mode determination table is referred to as a notice mode determination value.
[0164]
In this example, one of the mode A, the mode B, the mode C, and the mode D is selected as the production mode of the continuous announcement according to the type of the received variation pattern command. The modes A to D are the display modes A to D shown in FIGS. 27A to 27D when the variable display device 9 is selected as the effect means, and the lamp is used as the effect means. When the LED is selected, the light-emitting form is a light-emitting form A to a light-emitting form D (see FIGS. 28A to 28D). When the speaker 27 is selected as the effect means, the sound form A is set. To D (see FIGS. 29A to 29D).
[0165]
FIG. 36 is an explanatory diagram illustrating an example of a notice start time table. The notice start time table is a table in which data indicating the time from the start of the change of the special symbol on the variable display device 9 to the start of the continuous notice effect is set, and is stored in the ROM of the effect control means. Have been. Further, in the notice start time table, a plurality of data indicating the time until the continuous notice effect is started is set for each variation pattern accompanied by the continuous notice effect. Then, for each variation pattern, the data of the data set in the notice start time table according to the value of the notice start timing determination random number and the contents of the notice start time determination table shown in FIG. Which of the data is to be selected is determined. In FIG. 36, (1) to (4) correspond to the patterns ((1) to (4)) shown in FIG.
[0166]
FIG. 37 is a flowchart showing an effect control process process (step S705) in the main process shown in FIG. In the effect control process, any one of steps S800 to S806 is performed according to the value of the effect control process flag. In each process, the following process is performed.
[0167]
Variation pattern command reception waiting process (step S800): It is confirmed whether or not an effect control command (variation pattern command) capable of specifying the variation time has been received by the command reception interrupt process. Specifically, it is determined whether or not a flag indicating that the variation pattern command has been received (variation pattern reception flag) has been set. The variation pattern reception flag is set when it is confirmed by the command analysis processing that the effect control command for designating the variation pattern has been received (step S623).
[0168]
Preview selection process (step S801): It is checked whether or not a continuous preview effect is to be performed, and an effect mode of the preview effect in the case of performing the preview effect, and the effect means to be used for the advance effect is selected to determine the effect mode.
[0169]
All symbol variation start processing (step S802): Control is performed so that the variation of the left middle right symbol is started.
[0170]
Symbol variation processing (step S803): The switching timing of each variation state (variation speed) constituting the variation pattern is controlled, and the end of the variation time is monitored. Also, stop control of the left and right symbols is performed.
[0171]
All symbol stop wait setting process (step S804): At the end of the fluctuation time, if an effect control command instructing to stop all symbols (effect control command of special symbol stop) has been received, the fluctuation of the symbols is stopped and the stop symbol ( (Confirmed symbol) is displayed.
[0172]
Big hit display processing (step S805): After the end of the fluctuation time, the control of the probability change big hit display or the normal big hit display is performed.
[0173]
Processing during jackpot game (step S806): Control during jackpot game is performed. For example, upon receiving an effect control command for display before opening the special winning opening or display when opening the special winning opening, display control of the number of rounds is performed.
[0174]
FIG. 38 is an explanatory diagram showing a configuration example of process data set for each variation pattern table. The process data is composed of a plurality of combinations of the process timer set value and the effect control execution data. Effect control execution data includes display control execution data and lamp control execution data. In the display control execution data, data indicating the display state of the variable display device 9 during the special symbol fluctuation period is set. For example, in the display control execution data 1, data indicating the display state of the variable display device 9 at the start of the variable display is set. In the lamp control execution data, data indicating the display state of the lamp / LED during the fluctuation period of the special symbol is set. For example, in the lamp control execution data 1, data indicating the display state of the lamp / LED at the start of the variable display is set. Then, during the special symbol fluctuation period, when the timing of switching the display state (for example, the timing of the appearance of a new character on the variable display device 9 or the timing of switching the lamp / LED from the lighting state to the lighting state) arrives, the effect control means. Controls the display state of the variable display device 9 and the lamp / LED according to the next effect control execution data in the process data. In the process timer set value, a time according to the switching timing is set.
[0175]
In this way, the effect control means controls the effect means based on the program and the process data stored in the ROM, and controls the plurality of effect means (in this embodiment, the variable display device 9 and the lamp / LED). The related program is stored in the ROM mounted on the effect control board 80. The ROM storing these programs can be configured as one ROM. Therefore, the number of parts can be reduced. Further, among the process data stored in the ROM, the process timer set value is shared. Therefore, the ROM capacity of the effect control means can be reduced. The effect control execution data may be one effect control execution data as long as the display control execution data and the lamp control execution data can be shared. As described above, in this embodiment, at least a part of the data relating to the control of the plurality of effect means (in this embodiment, data excluding the data stored in the audio data ROM 704) is stored in the same ROM. can do.
[0176]
The process data shown in FIG. 38 is stored in the ROM of the effect control board 80. Further, the process data is prepared according to each of the variation patterns. In addition, it is prepared according to the type of effect means used for the notice effect. For example, the process data in the case where the notice effect of the notice A is executed by the variable display device 9 in the variation pattern 2 is prepared separately from the process data in the case where the notice effect of the notice A is executed by the lamp / LED in the change pattern 2. ing. Therefore, the effect control CPU 101 selects the process data to be used according to the variation pattern and the type of the effect means used for the notice effect.
[0177]
FIG. 39 is a flowchart showing a variation pattern command reception waiting process (step S800) in the effect control process process shown in FIG. In the fluctuation pattern command reception waiting process, the effect control CPU 101 checks whether or not the fluctuation pattern reception flag has been set (step S871). If set, the flag is reset (step S872). Then, the value of the effect control process flag is changed to a value corresponding to the notice selection process (step S801) (step S873).
[0178]
FIG. 40 is a flowchart showing the notice selection process (step S801) in the effect control process process shown in FIG. In the notice selection process, effect control CPU 101 determines whether or not to give a notice based on the received variation pattern command (step S811). Specifically, it is determined with reference to the EXT data of the received variation pattern command whether or not there is a variation pattern command designating execution of a notice effect. The judgment is that, for example, the same value as the value indicated by the EXT data of the received fluctuation pattern command is included in the judgment value for the notice mode judgment set in the notice mode judgment table shown in FIG. This is done by determining whether or not there is.
[0179]
Next, if the effect control CPU 101 determines that the notice is to be given (step S812), the effect control CPU 101 uses the notice mode determination table shown in FIG. It is determined to execute the notice effect in the notice form associated with the judgment value for form determination (step S813). The notice mode data indicating the notice mode determined in step S813 is stored in the effect mode buffer provided in the RAM provided in the effect control board 80.
[0180]
Further, effect control CPU 101 extracts an effect means determining announcement random number (step S814), and an effect means determining table corresponding to the jackpot / losing determination result determined based on the received EXT data of the variation pattern command. Is set in the use table. Then, an effect means corresponding to the same effect means determination determination value as the value of the extracted effect means determination notice random number is determined as an effect means used in the notice effect (step S815). The effect means name data indicating the effect means determined to be used for the notice effect in step S815 is stored in the effect means name buffer provided in the RAM provided in the effect control board 80.
[0181]
Further, effect control CPU 101 extracts a random number for determining a notice start timing (step S816), and from a plurality of data indicating a notice start time corresponding to a change pattern determined based on the EXT data of the received change pattern command. The data determined by referring to the notice start time selection table (see FIG. 34 (C)) based on the notice start timing determination random number is read from the notice start time table, and the data of the special symbol executed this time is changed. The start time of the continuous announcement effect to be performed is determined (step S817). Then, the determined time is set as a notice start time determination timer, and the timer is started (step S818). Further, the effect control process flag is updated to a value corresponding to the all symbol change start process (step S802) (step S819). The notice start time determination timer is a timer for determining a timing at which a notice effect is started after a symbol change is started on the variable display device 9. If it is determined in step S812 that the announcement effect is not to be performed, the process proceeds to step S819.
[0182]
FIG. 41 is a flowchart showing the whole symbol change start process (step S802) in the effect control process process. In the all symbol variation start process, the effect control CPU 101 first selects process data corresponding to the variation pattern of the variable display of the special symbol (step S881). Then, the process timer corresponding to the effect execution data 1 in the selected process data is started (step S882). Further, LCD control is performed based on the display control execution data 1 in the process data (step S883). For example, a signal corresponding to the content of the display control execution data 1 is given to the variable display device 9 using an LCD. Note that a ROM address may be set in the display control execution data, more detailed control data may be stored in an area starting from the address, and LCD control may be performed according to the control data. Further, lamp / LED control is performed based on the lamp control execution data 1 in the process data (step S884). For example, a signal corresponding to the content of the lamp control execution data 1 is given to each lamp / LED. A ROM address is set in the lamp control execution data, more detailed control data is stored in an area starting from the address, and the lamp / LED control is performed according to the control data. Good.
[0183]
The sound number data corresponding to the fluctuation pattern is output to the sound output board 70 (step S885). In the sound output board 70, the sound synthesis IC 703 reads data corresponding to the sound number data from the sound data ROM 704, generates a sound or a sound effect corresponding to the read data, and outputs the sound or the sound effect to the amplifier circuit 705. The amplification circuit 705 outputs to the speaker 27 an audio signal obtained by amplifying the output level of the audio synthesis IC 703 to a level corresponding to the volume set by the volume 707.
[0184]
After that, a variation time timer (a timer corresponding to the variation time of the special symbol) is started (step S886), and the value of the effect control process flag is set to a value corresponding to the symbol variation process (step S887).
[0185]
FIG. 42 is a flowchart showing the symbol change process (step S803) in the effect control process process. In the symbol change process, the effect control CPU 101 checks whether or not the notice start time determination timer has timed out (step S851). If the time-out has occurred, the effect control CPU 101 sets the effect means set in the effect means name buffer, that is, the data indicating the effect means determined to execute the continuous announcement effect, and the effect set in the effect mode buffer. The process data corresponding to the aspect (aspects A, B, C or D) is selected (step S854). That is, thereafter, it is decided to control the production of the production means using the selected process data. When the speaker 27 is used in the continuous announcement effect, the sound number data corresponding to the continuous announcement effect mode is output to the audio output board 70 (steps S855 and S856). In the sound output board 70, the sound synthesis IC 703 reads data corresponding to the sound number data from the sound data ROM 704, generates a sound or a sound effect corresponding to the read data, and outputs the sound or the sound effect to the amplifier circuit 705. The amplification circuit 705 outputs to the speaker 27 an audio signal obtained by amplifying the output level of the audio synthesis IC 703 to a level corresponding to the volume set by the volume 707.
[0186]
The effect control means terminates the effect control of the notice effect before the variable time timer times out, that is, before the variable display result is determined. This end time is a big hit, for example, before the left and right symbols stop (before it is determined whether or not to reach the reach) when the announcement effect is executed as the reach announcement notification for giving an announcement of the reach effect display mode. When the announcement effect is executed as the big hit announcement for notifying the effect, for example, it may be performed during a variable display period after the left and right symbols are aligned (after reaching). Such a notice effect does not actually notify the occurrence of a jackpot game, but is effective for enriching the variation of the game effect. In addition, the type of the notice used for the non-probable variable jackpot announcement and the type of the notice used for the probable variable jackpot announcement are separately set so that the non-probable variable jackpot announcement and the probable variable jackpot announcement are separately executed. Good.
[0187]
If the process timer times out (step S861), the effect control CPU 101 switches the effect control execution data in the process data (step S862). That is, in the process data, the process timer set next is started (step S863), and the LCD control is performed based on the display control execution data set next (step S864). Further, the lamp / LED control is performed based on the lamp control execution data set next in the process data (step S865).
[0188]
If the variable time timer has timed out (step S866), the monitoring timer for monitoring the reception of the special symbol stop display control command is started (step S867), and the value of the effect control process flag is set to the wait for all symbols stop. A value corresponding to the process is set (step S868).
[0189]
FIG. 43 is a flowchart showing the all symbol stop waiting process (step S804) in the effect control process process. In the all symbol stop waiting process, the effect control CPU 101 confirms whether or not an effect control command instructing stop of all symbols (effect control command for stopping special symbols) has been received (step S841). If the effect control command instructing to stop all the symbols has been received, control is performed to stop the symbols with the stored stopped symbols (step S842).
[0190]
Then, when the big hit symbol is displayed in step S842, the effect control CPU 101 sets the value of the effect control process flag to a value corresponding to the big hit display process (step S805) (step S844).
[0191]
If the big hit symbol is not displayed in step S842 (if a missing symbol is displayed), the effect control CPU 101 sets the value of the effect control process flag to a value corresponding to the fluctuation pattern command reception waiting process (step S800). (Step S844).
[0192]
If the effect control command designating all symbol stops has not been received, it is checked whether or not the monitoring timer has timed out (step S848). If a timeout has occurred, it is determined that some abnormality has occurred, and control is performed to display an error screen on the variable display device 9 (step S849). Then, control goes to a step S843.
[0193]
According to the above-described control, in this embodiment, when the advance determination unit included in the game control unit determines to execute the announcement effect, the determination result of the advance determination unit (included in the game control unit) and the order identification are performed. On the basis of the specified result of the means (included in the game control means), the notice effect execution means (implemented by the part which determines the notices A to D in the game control means and the effect control means) is provided with a plurality of notice effects. When selecting and executing a notice effect mode from among the conditions, the notice time determining means (included in the effect control means) determines at which time in the execution period of the variable display the notice effect is executed. Can be. Therefore, a variety of effects can be realized in the notice effect based on the hold memory, and the interest of the player can be attracted over a large number of variable displays. More specifically, in each variable display (fluctuation), the start timing of the announcement effect can be made random, and the sense of expectation of the player by the continuous announcement can be improved.
[0194]
Further, the notice time determining means determines the execution timing of the notice effect using the notice start time table (see FIG. 36) in which the start time corresponding to the change pattern is set. The execution time of the notice effect corresponding thereto is uniquely determined without shifting.
[0195]
FIG. 44 is an explanatory diagram showing an example of sound number data output from the effect control board 80 to the audio output board 70. As shown in FIG. 44, the sound number data includes sound number data corresponding to the fluctuation pattern of the special symbol, sound number data during the big hit game, and sound number data corresponding to the sound modes A to D of the continuous announcement. It is. The sound number data corresponding to the sound modes A to D of the continuous announcement are sound number data output from the effect control board 80 to the sound output board 70 in step S856 described above.
[0196]
Upon receiving the sound number data, the sound synthesis IC 703 of the sound output board 70 reads data corresponding to the sound number data from the sound data ROM 704. Then, a sound or a sound effect corresponding to the read data is generated and output to the amplifier circuit 705. The amplification circuit 705 outputs to the speaker 27 an audio signal obtained by amplifying the output level of the audio synthesis IC 703 to a level corresponding to the volume set by the volume 707.
[0197]
FIG. 45 is an explanatory diagram illustrating an example of the relationship between the variable display period and the start timing of the continuous announcement effect. According to the above control, an arbitrary time from the start of the change of the special symbol to the final stop (when the display result is derived, that is, when it is determined) can be set as the start timing of the continuous announcement effect.
[0198]
As described above, in the above-described embodiment, when the timing at which the variable display can be started, the game control means determines that the variable display is to be executed in the future based on the stored contents of the hold storage. Check if there is a big hit in the list, and if there is a big hit and the big hit is not the display result of the next variable display, give a continuous notice at a predetermined rate Is determined, and further, an effect mode of each announcement effect executed at the time of each variable display in the continuous announcement is determined. When confirming whether or not those that are determined to become a big hit in the future based on the starting winning prize memory are checked, it is first determined that the variable display is executed, and it is determined that the big hit is made. When the confirmation is made, the confirmation processing is ended there. In addition, the number of times of performing the confirmation process is determined as the number of times of performing the continuous notice.
[0199]
If the game control means determines the continuous notice and the notice mode, the game control means transmits to the effect control means a variation pattern command including a result of the decision on the notice relating to the current variable display, and the effect control means Based on the variation pattern command from the control means, whether or not to give a notice in the current variable display effect, and if so, determine the effect of the notice effect to be performed in the current variable display effect, and further use the notice effect. Direction means is decided independently.
[0200]
For example, the start winning prize storage number is “4”, and the variable display corresponding to the start prize storing number “3” is determined to be a big hit, and the start winning prize storage numbers correspond to 1, 2, and 4. It is assumed that the variable display is determined to be out of position. In this case, in the third confirmation processing, the game control means confirms that the variable display corresponding to the start winning storage number "3" is a big hit (see Y in step S208). Since the big hit is not the display result of the next variable display (see Y in step S218), a process of determining whether or not to perform the continuous announcement is executed (see step S220). When it is determined that the continuous announcement is to be performed (see Y in step S220), the number of times of the confirmation process, “3”, is determined as the number of executions of the continuous announcement (see step S221). The effect form of each notice effect to be executed at this time is determined (see step S223).
[0201]
After determining the production mode and the like of each preview production, the game control means determines a variation pattern including information on the preview production to be executed this time (see step S80), and sends a variation pattern command indicating the variation pattern to the production control means. (See steps S82 and S83). Upon receiving the variation pattern command, the effect control unit determines to give a notice in the current variable display effect (see Y in step S812), and also determines the effect of the notice effect to be executed (see step S813). Further, the effect means to be used in the notice effect is determined (see step S815). Then, a variable display effect is executed, and a notice effect is executed therein. In this way, the first announcement effect is executed.
[0202]
Note that, for the second and third times, confirmation processing of the display result of the variable display based on the starting winning memory is not performed (since N is determined in step S203 described above). However, as the variation pattern command transmitted to the effect control means, a variation pattern command including information on the effect form of the notice effect performed at that time is selected (using the table set in step S73 described above). Variation pattern is selected). Therefore, the notice effect is also executed by the effect control means for the second and third times. In the first and second times, the preview effect appears, but the display result of the variable display is both out, and in the third variable display, a big hit occurs after the appearance of the preview effect. Therefore, a big hit in the third variable display can be notified (that is, a continuous announcement effect is executed) by three consecutive announcement effects before that.
[0203]
In addition, as illustrated in FIG. 12C, when there is a variable display based on the start winning prize memory in which the variable display result is a big hit, the variable display result is higher than when there is no big hit. It is determined that a continuous announcement is made with a probability. Therefore, the reliability of the continuous announcement (the rate at which a large jackpot actually occurs when the continuous announcement is performed) is high, and the player can strongly expect the occurrence of the big announcement by the occurrence of the continuous announcement. It should be noted that it may be determined that the continuous announcement is performed with a higher probability in the case of the probability change big hit than in the case of the non-probability change big hit. With this configuration, in the case of a probability change big hit, the probability of executing the continuous announcement increases, and the continuous announcement with higher reliability for the player is realized. In other words, the effect control means can perform an effect based on the number of reserved memories that suggests that a big hit or a probable big hit will appear in the future. In the above-described embodiment, if a predetermined announcement effect appears over a plurality of variable displays, a big hit may be always made in the last variable display in which an announcement effect indicating a continuous announcement appears.
[0204]
Also, in the above embodiment, when there is a random number for jackpot determination that matches the jackpot determination value in the hold storage, other jackpots that have not yet determined whether or not they match the jackpot determination value have been performed. Even if the random number for determination is present in the hold storage, since the determination process of determining whether or not the random number value matches the jackpot determination value is completed, control of the determination process can be simplified. In addition, it is possible to reduce the control load of the process of determining whether or not the random number for jackpot determination in the hold storage matches the jackpot determination value.
[0205]
Even if there is a jackpot determination random number that matches the jackpot determination value during the hold storage, the determination process may be continued, and all the jackpot determination random numbers may be determined. In this case, for example, the count value of the inspection counter when the first determination that there is a jackpot determination random number matching the jackpot determination value in the hold storage is stored, and the stored count value is stored. May be determined in step S214 as to whether or not is equal to or greater than 2.
[0206]
In the above-described embodiment, the number of inspections is determined by determining the order in which the variable display start condition relating to the random number value for jackpot determination matching the jackpot determination value is satisfied among the pending variable displays. The number of executions is set to the same number as the number specified by the inspection number counter, and in each variable display for the number of executions, a predetermined announcement effect over a plurality of variable displays is executed. Therefore, the number of executions of the notice effect can be set to an appropriate number. That is, it is possible to reliably avoid the occurrence of a big hit in the middle of the continuous announcement effect, and to surely generate the big hit in the variable display in which the last announcement effect by the continuous announcement effect appears. .
[0207]
Further, in the above-described embodiment, during the execution period of the predetermined announcement effect over a plurality of variable displays, the execution process of the determination process as to whether the random number value for the jackpot determination in the hold storage matches the jackpot determination value or not. Is prohibited, it is possible to simplify the process of determining whether or not to perform a predetermined announcement effect over a plurality of variable displays, and to avoid complication of the control contents. In addition, during the execution period of the notice effect, it is possible to prevent that the notice effect is determined to be further performed and the notice effect is separately executed, and to prevent the notice effect from being performed repeatedly. Can be.
[0208]
Furthermore, in the above-described embodiment, the process of determining whether or not the random number for jackpot determination in the hold storage matches the jackpot determination value (step S208) is performed when the variable display start condition is satisfied. Since the configuration is such that the determination process (step S57) for determining the display result is performed by a common module, the control program used in the gaming machine can be simplified, and the capacity of the control program can be reduced. be able to.
[0209]
In the above-described embodiment, as described in the notice setting process shown in FIG. 13, the determination process (the loop process of steps S206 to S211) using the jackpot determination random number value stored in the suspension is executed. After that, if the number of inspections is not equal to or more than a predetermined number (for example, 2 or more), it is determined that the continuous announcement effect is not performed regardless of the determination result in the above determination processing (that is, the determination processing is performed). However, the above determination processing may be performed only when the start winning counter is equal to or more than a predetermined number. That is, when the start winning counter is not equal to or more than the predetermined number, the determination process (the loop process of steps S206 to S211) using the jackpot determination random number value stored on hold is not executed (that is, the determination process is executed). The configuration may be such that the execution unit is invalidated). Even in the case of such a configuration, it is possible to surely match the determination result of executing the predetermined notice effect over a plurality of variable displays with the effect content based on the determination result, and It is possible to reliably execute a predetermined announcement effect over the variable display of. Further, it is possible to prevent unnecessary processing from being executed.
[0210]
Embodiment 2 FIG.
In the above embodiment, when the timing at which the variable display can be started, the game control means sets the big hit in the variable display determined to be executed in the future based on the stored contents of the hold storage. It is determined whether or not to execute the continuous announcement effect by checking whether the continuous announcement effect is included, but whether or not to execute the continuous announcement effect when the execution condition of the variable display is satisfied (when the starting winning is generated). May be determined. Hereinafter, such an embodiment will be described.
[0211]
FIG. 46 is an explanatory diagram showing an example of a variation pattern used in this embodiment. In FIG. 46, “EXT” indicates EXT data of the second byte in the effect control command having a 2-byte configuration. “Time” indicates the fluctuation time of the special symbol (variable display period of the identification information).
[0212]
The “normal fluctuation” is a fluctuation pattern that does not involve the reach mode. “Normal reach” is a fluctuation pattern that accompanies the reach mode but does not cause a fluctuation result (stop symbol) to generate a big hit. “Reach A” is a fluctuation pattern having a reach mode different from “normal reach”. The difference in reach mode means that different modes (speed, rotation direction, etc.), characters, and the like appear in the reach change time. For example, in the "normal", the reach mode is realized by only one type of variation mode, whereas in the "reach A", the reach mode including a plurality of variation modes having different speeds and directions of variation is realized.
[0213]
The “reach B” is a variation pattern having a different reach mode from the “normal reach” and the “reach A”. The “reach C” is a fluctuation pattern having a reach mode different from “normal reach”, “reach A” and “reach B”. In “reach A”, “reach B” and “reach C”, there is a case where a big hit occurs and a case where no big hit occurs.
[0214]
In this embodiment, a shortened display pattern is further used. The shortened display pattern is a variation pattern in which the variation time of the left middle right symbol is extremely short, for example, 1.0 second.
[0215]
In this embodiment, the fluctuation patterns 1 to 14 are used at the time of high probability (during probable change) and at the time of low probability (during non-probable change = normal state). The respective fluctuation times may be shortened. Further, a group of variation patterns used at the time of high probability (a plurality of variation patterns that can be used) may be different from a group of variation patterns used at the time of low probability.
[0216]
FIG. 47 is a flowchart showing the start-port switch passing process (step S312) in the special symbol process process (see FIG. 8). The overall control of the main process (see FIG. 5), the game control process (see FIG. 6), the special symbol process process (see FIG. 8), and the configuration of each control means are the same as those in the first embodiment. Is the same. However, in this embodiment, unlike the first embodiment, the notice setting process (step S53) is not executed in the special symbol normal process (see FIG. 11) in the special symbol process process.
[0219]
In the starting port switch passage processing, the CPU 56 checks whether or not the number of stored starting winnings has reached the maximum value of 4 (step S111). If the number of stored start winnings has not reached 4, the number of stored start winnings is increased by 1 (step S112), and the values of each random number, such as a random number for jackpot determination, are extracted and stored in accordance with the value of the stored number of started winnings. It is stored in the area (special symbol determination buffer) (step S113). In step S114, random 1 to random 5 are extracted from the random numbers shown in FIG. Then, in this embodiment, a prize-winning effect setting process is executed (step S115).
[0218]
FIG. 48 is a flowchart showing a winning effect presentation setting process. In the prize-winning effect processing, the CPU 56 first sets a prize presence flag indicating that there is a start prize (step S121). The winning flag is referred to in the storage process (step S31) executed after the end of the special symbol process process. Next, the CPU 56 extracts a random 1 from a counter for generating a random 1 (big hit determination random number) (step S122), and executes the big hit determination module. That is, a big hit determination subroutine is called (step S123). If it is determined in the big hit determination module that a big hit is made based on the value of random 1 (step S124), it is determined whether or not a big hit is made (step S125).
[0219]
In step S124, the CPU 56 extracts a random number 3 (big hit symbol determining random number), determines a big hit symbol based on the extracted random numbers, and determines that a probability change big hit is to be reached if the determination result is a different number of symbols. If it is determined that the probability will not be a big hit, data indicating a non-specific big hit winning designation command is set as a winning command in the RAM 55 (step S126). If it is determined that the jackpot is a probability change jackpot, data indicating the specific jackpot winning designation command is set in the RAM 55 as a winning command (step S127).
[0220]
If it is determined in step S124 that it is not a big hit, random 5 is extracted from a counter for generating random 5 (reach determination random number) (step S131), and the reach determination module is executed. That is, a reach determination subroutine is called (step S132). When the reach determination module determines that reach is achieved based on the value of the random number 5 (step S133), data indicating a reach winning designation command is set in the RAM 55 as a winning command (step S134). If it is determined that the reach is not reached, data indicating a loss winning designation command is set in the RAM 55 as a winning command (step S135).
[0221]
Then, the data set as the winning command in the RAM 55 is stored in an area of the RAM 55 defined as a winning effect buffer (step S136). The data stored in the winning effect buffer is referred to in a storage process (step S31) executed after the end of the special symbol process process.
[0222]
FIG. 47 is a flowchart showing the storage processing (step 31) in the 2 ms timer interrupt processing in this embodiment. The processing in steps S161 to S164 is the same as the processing in the first embodiment (see FIG. 23). In this embodiment, in the storage processing, when the winning flag is set (step S165), the CPU 56 further corresponds to the data corresponding to the winning command stored in the winning effect buffer. The address of the winning command transmission table is set in the pointer (step S166), and a command setting process as a subroutine is executed (step S167).
[0223]
When the number of start winning prize memories increases by the above processing, an effect control command for designating a special jackpot winning designation, a non-specific jackpot winning designation, a reach winning designation, or a loss winning designation is transmitted (step S112 shown in FIG. 47). S115, and steps S166 and S167 shown in FIGS. 48 and 49). In this embodiment, a display control command for specifying a reach prize or a loss prize is transmitted when it is not a big hit, but a display control command for specifying a prize is always transmitted when it is not a big hit. You may do so. Hereinafter, the effect control commands of the special jackpot winning designation, the non-special jackpot winning designation, the reach winning designation, and the loss winning designation are sometimes referred to as a winning determination result command or a determination result command.
[0224]
The jackpot and the reach (see steps S123 and S132) determined at the time when the start winning is generated are the conditions for starting the variable display on the variable display device 9 (execution conditions, not start conditions). It is determined based on the establishment. When the condition (start condition) for starting the variable display in the variable display device 9 is satisfied, it is determined again whether or not to make a big hit or to make a shift reach (see steps S56 and S65). Then, the display result of the actual variable display is derived based on the determination result (see steps S62, S67, S68). However, the random number value used when the variable display start condition is satisfied is a value extracted and stored in the storage area when the variable display execution condition is satisfied. Therefore, the result of determining whether the variable display start condition is a positive change big hit when the variable display start condition is satisfied, whether the variable display start condition is a non-probable variable big hit, and whether or not to perform the off-reach is determined when the variable display execution condition is satisfied. Will be the same as the decision result.
[0225]
This is because the process of step S113, which is a process of extracting predetermined numerical data used when the variable display start condition is satisfied, and the prize-winning effect setting process, which corresponds to the determination when the variable display execution condition is satisfied, are 1 This is because the processing is completed within the number of timer interrupt processes and does not change during that time.
[0226]
In addition, the game control means transmits the start winning storage number designation command as the reservation storage number command before the determination result command (in the storage processing, the processing in steps S162 and S163 is performed before the processing in steps S166 and S167). Run). Therefore, the effect control means can make a decision regarding the continuous notice based on the latest number of reserved storages.
[0227]
FIG. 50 is an explanatory diagram showing an example of the content of the effect control command sent to the effect control board 80 in this embodiment. In the example shown in FIG. 50, commands 8000 (H) to 800E (H) are effect control commands for designating a variation pattern of a special symbol in the variable display device 9 that variably displays a special symbol. It should be noted that the command for specifying the variation pattern (variation pattern command) also serves as the variation start instruction. The command 800E (H) is a command for specifying a short display pattern.
[0228]
The command C3XX (H) is a determination result command transmitted when a start winning has occurred. C300 (H) is an effect control command for specifying a winning prize (losing prize specifying command), C301 (H) is an effect control command for specifying a prize winning (reach prize specifying command), and C302 (H) is a non-specific jackpot. This is an effect control command for specifying a winning (a non-specific jackpot winning specifying command), and C303 (H) is an effect controlling command for specifying a special jackpot winning (specifying a special jackpot winning specifying command).
[0229]
Other commands are the same as the effect control commands in the first embodiment.
[0230]
FIGS. 51 and 52 are flowcharts showing a specific example of the command analysis processing (step S704) executed by the effect control unit in this embodiment. In the effect control means, the overall control of the effect control main process and the effect control process is the same as those in the first embodiment.
[0231]
In the command analysis processing, the processing in steps S611 to S623 is the same as in the first embodiment. In this embodiment, if the received effect control command is an effect control command for designating the number of start winning prizes (step S631), the effect control CPU 101 controls the effect of the start prize storage number in the starting prize number storage area in the RAM. The number is updated to the number specified by the command (step S632). Further, the number of the start storage display areas 18 where the display colors change in the variable display device 9 is updated (step S633). Further, the value of the advance random number counter (announcement random number counters 1 to 4) is incremented by 1 (step S634). When the count value of the notice random number counter exceeds the maximum value, the value is returned to 0. In order to prevent the advance random number counters 1 to 4 from being synchronized as much as possible, for example, when the count value of the advance random number counter n (n = 1 to 3) is returned to 0, the count value of the advance random number counter n + 1 is changed. You may make it +1.
[0232]
Further, if the received effect control command is an effect control command for specifying a winning combination (step S635), effect control CPU 101 increments the value of the notice random number counter by one (step S636), and increases the count value of the notice random number counter. By reading, the notice random numbers (the notice random numbers 1 to 4 which are the count values of the notice random number counters 1 to 4) are extracted (step S637), and the continuous notice is determined (step S638). Even when the received effect control command is an effect control command specifying the reach prize (step S639), the value of the notice random number counter is incremented by one (step S640), the notice random number is extracted (step S641), and the continuous notice is given. A determination is made (step S642).
[0233]
Also, if the received effect control command is an effect control command specifying a non-specified big hit prize (step S651), the value of the notice random number counter is incremented by one (step S652), and the notice random number is extracted (step S653). Then, a continuous announcement is determined (step S654). Further, even when the received effect control command is an effect control command for designating a special jackpot winning (step S655), the value of the notice random number counter is incremented by 1 (step S656), and the notice random number is extracted (step S657). A continuous notice is determined (step S658).
[0234]
If the received command read in step S612 is another effect control command, a flag corresponding to the received command is set (step S659).
[0235]
Next, the determination of the continuous notice will be described. FIG. 53 is an explanatory diagram showing an example of the range of the count values of the above-mentioned notice random number counters 1 to 4.
[0236]
FIGS. 54 and 55 are explanatory diagrams showing an example of the relationship between the number of stored start winnings and the number of executions of the continuous announcement. (A) shows the relationship between the number of memorized start winnings and the number of executions of continuous notice and the number of times of continuous notice when receiving an effect control command designating a loss winning, and (B) shows an effect of specifying reach reach. FIG. 7C shows the relationship between the number of start winning prizes stored when a control command is received and the number of times of continuous announcement / non-announcement and continuous announcement, and FIG. The relationship between the number of winning storages and whether or not continuous notice is performed and the number of times of continuous notice are shown. (D) shows the relationship between the number of memorized start winnings when a special jackpot winning designation effect control command is received and the number of times of continuous announcement / non-execution and continuous announcement. The settings shown in FIGS. 54 and 55 are set as a table in the ROM mounted on the effect control board 80. This table is called a continuous notice execution count table. Further, the value set in the continuous notice execution number table is referred to as a determination value.
[0237]
As shown in FIGS. 54 and 55, in this embodiment, when an effect control command for designating a loss winning is received, a continuous announcement is made if the value of the random number matches 29 or 124 (continuous announcement determination value). It is executable, and when an effect control command specifying reach winning a prize is received, continuous announcement can be executed if the value of the random number matches 7, 29, 79 or 124 (continuous announcement determination value), and non-specification is possible. When the effect control command for specifying the jackpot winning prize is received, the continuous announcement can be executed if the value of the random number matches 7 to 27 or 105 to 124 (continuous announcement determination value). Then, when an effect control command for designating a special jackpot winning designation is received, continuous notice can be executed if the value of the random number matches 3 to 67 or 85 to 124 (continuous notice determination value).
[0238]
FIG. 56 is an explanatory diagram illustrating an example of a method of selecting an effect means based on the preview random number 3 and a method of selecting an effect mode based on the preview random number 4. FIG. 56 (A) shows a selection method when the gaming state at that time is a low probability state (normal time) as a non-special gaming state, and FIG. 32 (B) shows that the gaming state at that time is a special gaming state. The selection method when the state is the high probability state (at the time of probability change) will be described. The settings shown in FIG. 56 are set as a table in the ROM mounted on the effect control board 80. This table is called a continuous announcement determination table. The value set in the continuous announcement determination table is called a determination value.
[0239]
As shown in FIG. 56, according to the value of the notice random number 3, a speaker 27 (represented as “sound” in FIG. 56), (1) a lamp / LED (light emitter), and (2) a variable display device 9 (represented as “display” in FIG. 56), (3) speaker 27 and variable display device 9, (4) lamp / LED and variable display device 9, (5) speaker 27 and lamp / LED and variable Any one of the display devices 9 is selected as an effect means for effecting an effect of a continuous notice.
[0240]
Further, according to the value of the preview random number 4, any one of the modes A, B, C, and D is selected as an effect mode of the continuous preview. The modes A to D are the display modes A to D shown in FIGS. 27A to 27D when the variable display device 9 is selected as the effect means, and the lamp is used as the effect means. When the LED is selected, the light-emitting form is a light-emitting form A to a light-emitting form D (see FIGS. 28A to 28D). When the speaker 27 is selected as the effect means, the sound form A is set. To D (see FIGS. 29A to 29D). Note that, when the effect control CPU 100 receives the effect control command for specifying the special jackpot winning or the effect control command for specifying the non-special jackpot, the effect control CPU 100 uses the portion of the continuous announcement determination table for the jackpot to determine the loss winning. When the effect control command or the effect control command specifying the reach prize is received, the outlier portion of the continuous announcement determination table is used.
[0241]
Therefore, in the selection method illustrated in FIG. 56, the effect control unit determines that the variable display device 9 has a higher ratio when the determination result is specified by the determination result command as a big hit than when it is determined to be a loss. Is selected as the production means used for the production of the continuous notice. That is, the effect deciding means included in the effect control means, when a predetermined determination result (a big hit in this example) is specified by the determination result command, a specific effect means (in this example, a specific effect means) of a plurality of types of effect means. The variable display device 9) is selected at a high rate.
[0242]
In addition, the effect control means selects the mode D at a higher rate when the determination result is specified as a big hit by the determination result command than when it is determined to be a loss. That is, when the predetermined determination result (the big hit in this example) is specified by the determination result command, the production determining means determines a specific production mode (mode D in this example) at a high rate among the plurality of production modes. select.
[0243]
Furthermore, when the determination result is specified as a big hit by the determination result command, the ratio of selecting the plurality of effect means is higher than in the case where it is determined to be a loss. Therefore, when the effect of the continuous notice is executed by the plurality of effect means, the player can strongly expect that a big hit actually occurs. Then, when the determination result is determined to be out of order by the determination result command, the ratio of selecting all (three in this example) effect means is extremely low. Therefore, when the effect of the continuous notice is performed by all the effect means, the player can further strongly expect that a big hit will actually occur.
[0244]
Further, the effect determination means uses a table corresponding to the explanatory diagram of FIG. 56 (A) and a table corresponding to FIG. 56 (B) depending on whether or not the game is in the special game state. That is, depending on whether or not the game is in the special game state, which of the effect means is used and which of the effect modes are used to execute the predetermined effect are determined at different rates. Therefore, the appearance ratio of the predetermined effect can be changed depending on the game state, and the interest in the predetermined effect can be prevented from being reduced.
[0245]
In this embodiment, the continuous announcement determination table is divided into two cases, one in which the determination result is specified as a big hit and the other in a case where the determination result is specified by the determination result command. It may be divided into three cases. Furthermore, it may be divided into four cases: a specific jackpot, a non-specific jackpot, a reach, and a miss.
[0246]
FIG. 57 is a flowchart illustrating an example of a continuous announcement determination process performed in steps S638, S642, S654, and S658. In the continuous announcement determination process, effect control CPU 101 determines whether or not continuous announcement is being executed (step S661). Whether or not execution is in progress can be determined by a continuous notice execution flag, which is an internal flag set during execution. If the continuous notice is not being executed, a process for determining whether or not to perform the continuous notice is performed. Specifically, effect control CPU 101 first determines whether or not the gaming state at that time is a high probability state (probable change state) (step S662). If it is in the high probability state, the right part of the continuous notice execution count table in which the information shown in FIGS. 54 and 55 is set is selected (step S663), and if not, the entire table is selected. (Step S664).
[0247]
Selecting the right portion of the table means that continuous notice is enabled only when the random number value is 29 in the example shown in FIG. 54A, and selecting the entire table means that the random number value is 29 or 124. It is to enable continuous notice at the time. In the example shown in FIG. 55 (C), selecting the right part of the table means enabling continuous notice when the random number value is any of 7 to 17 or 105 to 115, and selecting the entire table Is to enable continuous notice when the random number value is 7 to 17, 18 to 27, 105 to 115 or 116 to 126.
[0248]
That is, in the high probability state as the special game state, the ratio at which the continuous announcement effect is selected as the predetermined effect is lower than in the low probability state as the non-special game state. Such a control is effective in the case of shortening the fluctuation time of each of the fluctuation patterns 1 to 14 when the probability is high, or in a gaming machine adopting the time reduction state in which the fluctuation time of the special symbol is shortened as a special game state. is there. This is because if the appearance ratio of the effect of the continuous announcement as the predetermined effect in the special game state is reduced, the effect of the predetermined effect with the fluctuation pattern with a short fluctuation time can be prevented.
[0249]
Then, effect control CPU 101 confirms whether or not the same judgment value as the value of extracted notice random number 2 is set in the continuous notice execution number table (see FIGS. 54 and 55) (step S665). If there is a match, the execution number of the corresponding continuous announcement is extracted from the consecutive announcement determination table. If the number of executions is not 0 (step S666), a process of selecting which effect means is to be used and a process of selecting which effect mode to execute the continuous notice are performed. That is, it is checked whether or not the same judgment value as the value of the extracted preview random number 3 is set in the continuous preview determination table, and if there is a match, the name of the corresponding effect means is determined from the continuous preview determination table. Is extracted (step S667). Also, it is checked whether or not the same judgment value as the value of the extracted preliminary random number 4 is set in the continuous preview determination table, and if there is a match, the corresponding effect form is extracted from the continuous preview determination table. (Step S668).
[0250]
Then, the name of the production means is stored in the production means name buffer in the RAM, the type of the continuous announcement (production form) is stored in the production form buffer in the RAM, and the number of executions is stored in the execution number buffer in the RAM (step S669). Then, the continuous announcement lottery completion flag is set (step S670).
[0251]
By the above processing, the random number counter is incremented each time the effect control command of the start prize storage number designation, the loss prize designation, the reach prize designation, the non-specific jackpot prize designation, the specific jackpot prize designation is received, the loss prize designation, When an effect control command of reach prize designation, non-special jackpot prize designation, and specific jackpot prize designation is received, a lottery is performed to determine whether or not to perform continuous notice. Then, when it is determined that the continuous notice is to be performed, the predetermined number of executions is determined according to the number of stored winning prizes at that time. Further, the effect control CPU 101 determines which of the effect means is used for the continuous notice and which effect mode is used for the continuous notice. Therefore, which of the effect means to perform the continuous notice and which effect mode to perform the continuous notice, the effect control means determines whether or not to receive the judgment result command and the effect control command for specifying the start winning prize memory number. It will be decided independently based on that.
[0252]
Thereafter, as in the case of the first embodiment, the effect control CPU 101 executes the effect control process processing, thereby controlling the symbol variation using the variable display device 9 and the announcement effect using the effect means. Execute control.
[0253]
Therefore, also in this embodiment, when the notice determination means included in the game control means determines to execute the notice effect, the determination result of the advance determination means (included in the game control means) and the order identification means (game The notification effect execution means (implemented by the effect control means) selects a notification effect mode from among a plurality of notification effect modes based on the specified result (included in the control means) and executes the notice effect mode. The timing determining means (included in the effect control means) can determine at which time in the variable display execution period the notice effect is to be executed. Therefore, a variety of effects can be realized in the notice effect based on the hold memory, and the interest of the player can be attracted over a large number of variable displays. More specifically, in each variable display (fluctuation), the start timing of the announcement effect can be made random, and the sense of expectation of the player by the continuous announcement can be improved.
[0254]
Further, the notice time determining means determines the execution timing of the notice effect using the notice start time table (see FIG. 36) in which the start time corresponding to the change pattern is set. The execution time of the notice effect corresponding thereto is uniquely determined without shifting.
[0255]
Further, in this embodiment, the determination process (step S123) for determining whether or not the random number for jackpot determination in the hold storage matches the jackpot determination value is performed when the variable display start condition is satisfied. It can be configured to be executed by a common module with the judgment processing for judging the result (Step S57 executed in the second embodiment). Therefore, the control program used in the gaming machine can be simplified, and the capacity of the control program can be reduced.
[0256]
In each of the above embodiments, the effect control means is configured to independently determine the effect means used for the continuous announcement effect. However, the effect control means may be determined by the game control means.
[0257]
Further, in each of the above-described embodiments, the continuous announcement effect is continuously performed for a plurality of times of the variable display of the special symbol by the number of times of execution, but is performed for a plurality of times of the variable display of the special symbol. It may be executed intermittently (for example, the first and third times in three variable displays).
[0258]
Further, in each of the above embodiments, the effect of the continuous announcement by the variable display device 9 is performed by the character. However, the announcement effect may be of any form, for example, a slip effect (in a low-speed fluctuation state). Even if a notice effect is performed by changing the variation mode of a special symbol such as an effect in which the symbol is changed at high speed by several symbols) or a return effect (an effect in which the symbol is changed in the opposite direction after passing the stop position of the symbol). Good. Also, a notice effect may be performed by changing the background. Further, the announcement effect by the character and the announcement effect by the other variable display device 9 may be executed together.
[0259]
Further, in each of the above embodiments, the maximum number of the winning prize stored is four, but may be three or less or five or more. Furthermore, the upper limit of the number of stored winning a prize may be changed by the establishment of a predetermined condition. Specifically, for example, the maximum number is four at normal times, but if a big hit occurs, the maximum number of hits may be 15 until the big hit game state ends.
[0260]
Further, in each of the above-described embodiments, the lamp driver board 35 connected to the effect CPU 101 with the bus for the illuminant control is provided. Although data (sound number data) is configured to be output, both may have the same configuration. That is, for each of the illuminant control and the sound control, each driver board connected to the staging CPU 101 is provided. Data (data designating a control data number) may be output.
[0261]
In the pachinko gaming machine 1 of each of the above-described embodiments, when the stop symbol of the special symbol variably displayed on the variable display device 9 based on the start winning is a combination of the predetermined symbol, the predetermined game value is given to the player. It is a first-class pachinko gaming machine that can be awarded, and a card reader (CR: Card Reader) -type first-class pachinko gaming machine that lends balls with a prepaid card, but lends balls with a prepaid card The present invention is applicable not only to the CR-type pachinko game machine but also to a pachinko game machine that lends balls with cash. Further, when there is a prize in a predetermined area of the electric accessory which is opened based on the winning start, a second-type pachinko gaming machine in which a predetermined game value can be given to the player, or a variable display based on the starting prize. The present invention can be applied to a third-type pachinko gaming machine in which a predetermined right is generated or continued when there is a prize for a predetermined electric accessory which is opened when a stop symbol is a predetermined combination of symbols.
[0262]
In each of the above embodiments, the “special game state” means a state that is advantageous to a player who is likely to be a big hit. Specifically, the "special game state" is, for example, a probable state in which the probability that the special symbol is aligned with the big hit symbol is a high probability state, a time-saving state in which the number of times the normal symbol changes per unit time is increased, a variable winning ball This is a high-probability state in which the probability of a big hit is increased, such as an open period in which the opening period and the number of times of opening of the device 15 are increased. In the time reduction state, the number of winnings per unit time increases because the number of times the variable prize ball device 15 is opened is increased, and the number of special symbols that can be displayed variably per unit time is increased. Can be said to have been raised. Similarly, in the extended open state, the number of winnings per unit time increases because the opening period and the number of times of opening of the variable winning ball device 15 are increased, and the number of times of variable display of the special symbol per unit time increases. It can be said that the probability of a big hit is increased.
[0263]
【The invention's effect】
As described above, according to the first aspect of the present invention, it is determined whether or not the numerical data extracted by the numerical data extracting means matches the predetermined determination value. A pre-determination means for performing a pre-determination process for determining before the display result of the variable display is determined based on the satisfaction of the variable display start condition based on the satisfaction of the variable display execution condition; The order specifying means for specifying the order in which the numerical data that has been determined to be stored in the numerical data storage means, and the pre-determination means determine that the numerical data match the predetermined determination value. Whether to execute a predetermined announcement effect when the variable display is executed before the variable display executed based on the establishment of the variable display execution condition corresponding to the numerical data determined to be executed And, when the advance determination means determines that the advance effect is to be performed, selects an advance effect mode from a plurality of advance effect modes based on the identification result of the order identifying means. And an advance notice effect executing means, and an advance notice effect determining means for determining at which time in the execution period of one variable display the predetermined notice effect is executed. A variety of effects can be realized in the pre-announcement effect, and there is an effect that the player's interest can be attracted over a large number of variable displays.
[0264]
In the invention according to claim 2, the notice effect executing means selects a continuous notice effect executing means for executing the notice effect over a plurality of variable displays, and an effect for selecting the number of variable displays at which the predetermined notice effect is executed. Since it is configured to include the mode selecting means, it is possible to increase the variety of game effects using the predetermined notice effect, and to make it easier for the player to notice that the predetermined notice effect is being performed. it can.
[0265]
According to the third aspect of the present invention, there is provided an execution time data storage means in which a plurality of data indicating an execution time relating to a predetermined notice effect are set, and the notice time determination means stores the execution time data according to a variable display mode of the identification information. Since it is configured to select data from the means and determine the timing of executing the predetermined announcement effect according to the selected data, it is possible to reliably determine the time at which the announcement effect is executed.
[0266]
According to the fourth aspect of the present invention, since the predetermined determination value is a specific display result determination value that determines that the display result of the variable display is a specific display result, the display result of the variable display becomes the specific display result. It can be surely foretold.
[0267]
In the invention described in claim 5, when the advance determination means determines that there is no numerical data that matches the predetermined determination value, it determines to execute a predetermined announcement effect at a predetermined rate. In the announcement effect for giving a notice that the numerical data originally used for the determination related to the variable display matches the predetermined determination value, the numerical data used for the determination related to the variable display is predetermined. Can be made to appear even when it does not match the judgment value of, and the interest of the game can be increased by improving the player's expectation.
[0268]
In the invention according to claim 6, the numerical data storage means stores the numerical data in the order extracted by the numerical data extraction means, and the pre-determination means sets the numerical data for each of the numerical data stored in the numerical data storage means. Since the configuration is such that the pre-determination processing is executed in the order stored in the storage means, at the start of the variable display, it is possible to execute the pre-determination processing according to the subsequent game state.
[0269]
In the invention according to claim 7, when the preliminary judgment means judges that there is numerical data matching the predetermined judgment value among the numerical data stored in the numerical data storage means, the pre-judgment means matches the predetermined judgment value. Since the numerical data stored in the order after the determined numerical data is stored is configured to include a pre-determination process prohibiting unit that prohibits execution of the pre-determination process, control of the determination process is performed. It can be simplified and the control load can be reduced.
[0270]
In the invention according to claim 8, the notice execution determination means for determining whether or not the predetermined notice effect is being executed, and the prior judgment means when the notice execution determination is made by the notice execution determination means. Since the apparatus includes the determination prohibition unit that prohibits the execution of the pre-determination processing, the determination processing can be simplified, and the control content can be prevented from becoming complicated.
[0271]
According to the ninth aspect of the present invention, the program module used by the preliminary determination means for determining whether the numerical data matches a predetermined determination value, and determining whether the numerical data matches a predetermined determination value Since the program module used by the determination unit when the start execution condition is satisfied is configured as a common module, even if the announcement effect is executed based on the preliminary determination process, the game control program with the upper limit on the capacity is restricted. Can be prevented from increasing.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko gaming machine viewed from the front.
FIG. 2 is a front view showing a front surface of the game board with a glass door frame removed.
FIG. 3 is a block diagram showing a circuit configuration example of a game control board (main board).
FIG. 4 is a block diagram illustrating a circuit configuration example of an effect control board, a lamp driver board, and a sound output board.
FIG. 5 is a flowchart illustrating a main process executed by a CPU on a main board.
FIG. 6 is a flowchart showing a 2 ms timer interrupt process.
FIG. 7 is an explanatory diagram showing each random number.
FIG. 8 is a flowchart showing a special symbol process process.
FIG. 9 is a flowchart showing a starting port switch passing process.
FIG. 10 is an explanatory diagram showing an example of a fluctuation pattern.
FIG. 11 is a flowchart showing a special symbol normal process.
FIG. 12 is an explanatory diagram showing an example of a big hit determination table, a reach determination table, and a notice determination table.
FIG. 13 is a flowchart illustrating a notice setting process.
FIG. 14 is a flowchart showing a big hit determination module.
FIG. 15 is a flowchart illustrating a reach determination module.
FIG. 16 is a flowchart showing a special symbol stop symbol setting process.
FIG. 17 is an explanatory diagram showing an example of a large hit variation pattern type selection table.
FIG. 18 is an explanatory diagram showing an example of a variation pattern type selection table during reach.
FIG. 19 is an explanatory diagram illustrating an example of a variation pattern type selection table when falling off.
FIG. 20 is an explanatory diagram showing an example of a variation pattern type table.
FIG. 21 is a flowchart illustrating a variation pattern setting process.
FIG. 22 is a flowchart showing a notice variation pattern type table selection process.
FIG. 23 is a flowchart showing a storage process.
FIG. 24 is an explanatory diagram showing signal lines of an effect control command.
FIG. 25 is a timing chart showing a relationship between an 8-bit control signal and an INT signal which constitute a control command.
FIG. 26 is an explanatory diagram showing an example of the contents of an effect control command.
FIG. 27 is an explanatory diagram showing an example of a continuous announcement effect using a variable display device.
FIG. 28 is an explanatory diagram showing an example of a notice effect using lamps / LEDs.
FIG. 29 is an explanatory diagram showing an example of a notice effect using a speaker.
FIG. 30 is a flowchart showing a main process executed by the effect control CPU.
FIG. 31 is an explanatory diagram showing a configuration of a command reception buffer.
FIG. 32 is a flowchart showing a command analysis process.
FIG. 33 is an explanatory diagram showing a notice random number counter.
FIG. 34 is an explanatory diagram showing a configuration example of a presentation means determination table.
FIG. 35 is an explanatory diagram showing a relationship between a fluctuation pattern command and an effect mode of a notice effect.
FIG. 36 is an explanatory diagram showing a notice start time table.
FIG. 37 is a flowchart showing an effect control process.
FIG. 38 is an explanatory diagram showing a configuration example of process data.
FIG. 39 is a flowchart showing a variable pattern command command reception waiting process.
FIG. 40 is a flowchart showing a notice selection process.
FIG. 41 is a flowchart showing an all symbol change start process.
FIG. 42 is a flowchart showing symbol change processing.
FIG. 43 is a flowchart showing an all symbol stop waiting process.
FIG. 44 is an explanatory diagram showing an example of sound number data.
FIG. 45 is an explanatory diagram illustrating an example of a relationship between a variable display period and a start timing of a continuous announcement effect.
FIG. 46 is an explanatory diagram showing an example of a fluctuation pattern.
FIG. 47 is a flowchart showing a starting port switch passing process.
FIG. 48 is a flowchart showing a winning effect setting process.
FIG. 49 is a flowchart showing a storage process.
FIG. 50 is an explanatory diagram showing an example of the contents of an effect control command.
FIG. 51 is a flowchart showing a command analysis process.
FIG. 52 is a flowchart showing a command analysis process.
FIG. 53 is an explanatory diagram showing a notice random number counter.
FIG. 54 is an explanatory diagram showing an example of a relationship between the number of stored start winnings and the number of times of continuous announcements.
FIG. 55 is an explanatory diagram showing an example of a relationship between the number of stored start winnings and the number of times of continuous announcements.
FIG. 56 is an explanatory diagram showing a configuration example of a continuous announcement determination table.
FIG. 57 is a flowchart showing a judgment process of continuous notice.
[Explanation of symbols]
1 Pachinko machine
9 Variable display device
31 Main board
35 Lamp Driver Board
56 CPU
70 Audio output board
80 Production control board
101 Effect Control CPU

Claims (9)

A variable display means for variably displaying a plurality of types of identification information each of which is identifiable; after a predetermined variable display execution condition is satisfied, the variable display is started based on the satisfaction of the variable display start condition. The variable display of a plurality of types of identification information is started in accordance with the order in which the execution conditions are satisfied, and when the display result of the variable display of the plurality of types of identification information becomes a specific display result, a specific game state advantageous to a player is obtained. A gaming machine that can be controlled,
Numerical data updating means for updating numerical data used for determination relating to variable display in a predetermined numerical range,
Numerical data extracting means for extracting numerical data from the numerical data updating means when the execution condition of the variable display is satisfied,
Numeric data extracted by the numerical data extraction means, numerical data storage means for storing the extraction order can be specified,
Whether or not the numerical data extracted by the numerical data extraction means matches a predetermined determination value is determined by determining whether or not the variable display start condition based on the satisfaction of the variable display execution condition that caused the extraction of the numerical data. Prior determination means for performing a preliminary determination process to determine before determining the display result of the variable display according to the establishment,
An order identification unit that identifies the order in which the numerical data determined to match the predetermined determination value is stored in the numerical data storage unit,
When the pre-determination means determines that the predetermined determination value is met, a variable that is executed based on establishment of a variable display execution condition corresponding to the numerical data determined to be matched. Notice determination means for determining whether or not to execute a predetermined notice effect when a variable display executed before display is performed,
A notice effect performing means for selecting and executing a notice effect form from among a plurality of notice effect forms based on the specified result of the order specifying means when the notice judgment means determines that a notice effect is to be executed; When,
A game machine comprising: a notice time determining means for determining at which time in the execution period of one variable display the predetermined notice effect is executed. Notice effect execution means,
A continuous announcement effect execution means for executing an announcement effect over a plurality of variable displays,
The gaming machine according to claim 1, further comprising: an effect mode selection unit that selects the number of times of variable display in which a predetermined announcement effect is executed. An execution time data storage unit in which a plurality of data indicating an execution time related to a predetermined notice effect is set,
The notice time determining means selects data from the execution time data storage means according to the variable display mode of the identification information, and determines a time to execute a predetermined notice effect according to the selected data. 2. The gaming machine according to 2. The gaming machine according to any one of claims 1 to 3, wherein the predetermined determination value is a specific display result determination value that determines that the display result of the variable display is a specific display result. 5. The advance notice determination means according to claim 1, wherein when the advance determination means determines that there is no numerical data that matches the predetermined determination value, the advance determination means determines to execute a predetermined announcement effect at a predetermined ratio. A gaming machine according to any of the above. The numerical data storage means stores the numerical data in the order extracted by the numerical data extraction means,
6. The pre-determination unit according to any one of claims 1 to 5, wherein the pre-determination unit performs a pre-determination process on each of the numerical data stored in the numerical data storage unit in the order stored in the numerical data storage unit. A gaming machine according to claim 1. The predetermination means stores the numerical data determined to match the predetermined determination value when determining that there is numerical data matching the predetermined determination value among the numerical data stored in the numerical data storage means. 7. The gaming machine according to claim 6, further comprising a preliminary determination process prohibiting unit that prohibits execution of the preliminary determination process for the numerical data stored in the order after the order. A notice execution determination means for determining whether or not a predetermined notice effect is being executed,
8. A determination prohibition unit for prohibiting execution of a preliminary determination process by a preliminary determination unit when the preliminary execution determination unit determines that the process is being performed. The gaming machine described in Crab. When the start condition of the variable display is satisfied, the start condition determining unit determines whether the numerical data stored in the numerical data storage unit matches a predetermined determination value,
In the game control program, a program module used by the preliminary determination means to determine whether the numerical data matches the predetermined determination value, and to determine whether the numerical data matches the predetermined determination value 9. The gaming machine according to claim 1, wherein a program module used by the start execution condition satisfaction time determination means is configured as a common module.

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