JP2004222956A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine for effectively announcing beforehand that a display result will assume a specific display mode. <P>SOLUTION: When more than one starting prize-winning memories showing that the display result of variable display will assume the specific display mode are stored in starting prize-winning memories, an announcing mode is selected according to the number of stored specific display modes, and it is announced that the specific display mode is led out and displayed consecutively as the display result of variable display. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine represented by a pachinko gaming machine, a coin gaming machine, a slot machine, and the like. Specifically, the display device has a variable display device capable of variably displaying a plurality of types of identification information each of which is identifiable, and a specification advantageous to the player when the display result of the variable display becomes a predetermined specific display mode. The present invention relates to a gaming machine controlled to a gaming state.
[0002]
[Prior art]
Conventionally known as this type of gaming machine, for example, a variable display device for variably displaying a plurality of types of identification information such as symbols, such as a pachinko gaming machine, is provided. There is a gaming machine that is controlled to a specific gaming state such as a big hit when the display result is derived and displayed after the variable start of the game and the display result becomes a predetermined specific display mode.
[0003]
In some conventional gaming machines, when it is predetermined to generate a predetermined specific display mode as a display result, a specific display mode is generated using a special sound, a specific character, or the like. There is a device that notifies the user of the fact in advance (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-9-700 (pages 7-11, FIGS. 6, 8-13)
[0005]
[Problems to be solved by the invention]
As described above, some conventional gaming machines use a special sound, a specific character, or the like to notify the user that the display result will be in a specific display mode. However, this type of conventional gaming machine merely informs the user that the variable display is being performed but the display result is in a specific display mode, and the display result is continuously in a specific display mode. Was not announced in advance, and the expectation of the player could not be sufficiently improved.
[0006]
The present invention has been conceived in view of the above circumstances, and a purpose of the present invention is to provide a game in which an effect of giving a notice that a display result is a specific display mode can be performed in an effective manner, thereby improving a game interest. Is to provide a machine.
[0007]
Specific Examples of Means for Solving the Problems and Their Effects
(1) A variable display device (special design) capable of variably displaying a plurality of types of identification information (special symbols) each of which can be identified based on the satisfaction of a variable display start condition after a predetermined variable display execution condition is satisfied. A specific game state (big hit state) that is advantageous to the player when the display result of the variable display has a predetermined specific display mode (for example, a “777” slot). ) Is controlled (pachinko gaming machine 1),
Numerical data extracting means (game control microcomputer 53; S45 in FIG. 14) for extracting numerical data from the numerical data updating means for updating the numerical data in accordance with establishment of the variable display execution condition;
The numerical data extracted by the numerical data extracting means in accordance with the execution condition that does not satisfy the start condition of the variable display even though the execution condition of the variable display has been satisfied is a predetermined upper limit number. Data storage means (RAM 55) capable of storing data up to
When the start condition of the variable display is satisfied, the hold data stored in the hold data storage unit is read out according to the stored order, and the display result of the variable display corresponding to the read hold data is displayed in the specific display. Display result determination means (game control microcomputer 53, S55, S56, S57 in FIG. 15) for determining whether or not the mode is set;
Variable display control means (display control microcomputer 81, FIG. 34, FIG. 35, FIG. 36) for performing variable display control of the variable display device based on the determination result of the display result determination means;
Holding data updating means (display control microcomputer 81; Sub33, Sub34 in FIG. 27) for deleting the holding data read from the holding data storage means and used for the determination by the display result determining means;
Calculating means for calculating the number of the pending data indicating that the specific display mode is to be set as the display result of the variable display, out of the pending data stored in the pending data storage means (the game control microcomputer 53, FIG. 17 (S84-S95),
When the number of pending data calculated by the calculating means is a specific number or more (two or more, S96 in FIG. 17), a notice determining means (microcomputer for game control) for determining whether or not to give a notice to that effect 53, S97 and S98 in FIG. 17),
The variable display control means, when it is decided to give a notice by the notice determination means, first stores, among the hold data indicating that the specific display mode is stored in the hold data storage means, The advance notice is given by displaying a predetermined special mode before the display result of the variable display based on the held data is derived and displayed ((A-4) in FIG. 5, (B-4) in FIG. 6). ), (B-8), display control microcomputer 81, Sub82 in FIG. 35).
[0008]
According to such a configuration, a notice is given when a predetermined number or more of the hold data that sets the display result of the variable display to a specific display mode is stored in the hold data storage means. Therefore, it is possible to improve the player's expectation that the specific display mode will be continuously derived and displayed.
[0009]
(2) The display result determination unit sets the display result corresponding to the suspension data to the specific display mode when the suspension data stored in the suspension data storage unit matches a predetermined determination value. (Game control microcomputer 53, S74, S75, S76 in FIG. 16)
When the display result of the variable display becomes a predetermined special display mode among the specific display modes (S71 in FIG. 16), the number of the determination values is increased ((A) big hit in FIG. 9). The jackpot determination value at the time of the high probability in the determination table, S73 in FIG. 16, thereby increasing the probability that the display result determination means determines that the display result corresponding to the suspension data is set to the specific display mode. Probability improvement control means for controlling to an improved state (for example, if the display result of the three variable display portions of the special symbol variable display device 9a is an odd number of "777", "probable change big hit", then "big hit" Becomes higher than the normal gaming state.)
The calculating unit, when there is pending data corresponding to deriving and displaying the special display mode among the pending data stored in the pending data storage unit, the pending data stored next to the pending data is stored. For the data, it is determined whether or not the display result of the variable display is in the specific display mode by using the number of determination values corresponding to the probability improvement state (the game control microcomputer 53, S88 in FIG. 17). To S91).
[0010]
According to such a configuration, the calculation unit also calculates, as the specific display mode, the hold data of the hold data stored in the hold data storage unit that is determined to have the specific display mode in the probability improvement state. Therefore, it is possible to reliably determine the number of specific display modes stored in the hold data storage unit.
[0011]
(3) The notice determination unit determines that the number of suspended data calculated by the calculation unit is equal to or more than the specific plurality (two, S96 in FIG. 17) and the special display mode is displayed as a display result. When variable display control for deriving and displaying on the variable display device is performed (S59 in FIG. 15), it is determined to execute the notice (the game control microcomputer 53, S60).
[0012]
According to such a configuration, the execution of the process of deciding to give a notice can be restricted, so that the control load can be reduced.
[0013]
(4) The special mode is a predetermined special reach state ((A-4) in FIG. 5, (A-4) in FIG. 6, used only when it is determined to execute the advance notice by the advance decision means. B-4) and (B-8)).
[0014]
According to such a configuration, when a special reach state occurs, the player has not only an expectation for the reach state but also an expectation that a specific display mode will be continuously derived and displayed. be able to.
[0015]
(5) The notice decision means does not decide to give a new notice until the variable display control for displaying the special mode based on the decision after the decision to make the notice is completed (game The control microcomputer 53, S83 in FIG. 17).
[0016]
According to such a configuration, it is possible to prevent duplication of the process of deciding to give a notice, so that the control load can be reduced.
[0017]
(6) special mode storage means (character ROM 86) for storing a plurality of types of the special mode;
A special mode selecting means (for game control) for selecting a predetermined special mode corresponding to the number of pending data calculated by the calculating means from a plurality of types of special modes stored in the special mode storing means. A microcomputer 53, S99 in FIG. 17;
The variable display control means displays the special mode selected by the special mode selection means ((A-4) in FIG. 5, (B-4), (B-8) in FIG. 6, and a display control microcomputer. 81, Sub82 in FIG. 35).
[0018]
According to such a configuration, the number of times the specific display result is derived and displayed as the display result can be known based on the type of the selected special mode, so that the player's interest in the notice can be improved.
[0019]
(7) It further includes storage number control means (game control microcomputer 53, S41, S42 in FIG. 14) for increasing the upper limit number based on a predetermined condition (big hit).
[0020]
According to such a configuration, it is possible to prevent the reserved data stored in the reserved data storage unit from reaching the upper limit.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following embodiments, a pachinko gaming machine will be described as an example of a gaming machine. However, the present invention is not limited to this, and may be, for example, a coin gaming machine or a slot machine. A gaming machine that has a variable display device capable of variably displaying the type of identification information, and is controlled to a specific game state advantageous to the player when the display result of the variable display becomes a predetermined specific display mode. If there is, it can be applied to all.
[0022]
FIG. 1 is a front view of a pachinko gaming machine 1 as an example of a gaming machine according to the present invention and a card unit 50 installed corresponding thereto. FIG. 2 is a front view showing a game board surface.
[0023]
The card unit 50 is provided with a card usable indicator lamp 151, and the player is notified that the card unit 50 is in a usable state by lighting or blinking of the card usable indicator lamp 151. The card unit 50 is installed in a state where it is inserted between a plurality of pachinko gaming machines 1 installed on the gaming machine installation island, and a connection stand direction display indicates which of the left and right gaming machines is connected. Is displayed by the display 153.
[0024]
When the player inserts the prepaid card on which the card balance is recorded into the card insertion slot 155, the card balance recorded on the prepaid card is read. Next, when the player performs a predetermined lending operation, the balance of the lending unit amount set in advance is reduced, and the ball of the lending unit amount is hit by the pachinko gaming machine 1. Lent to the supply tray 3.
[0025]
The card unit 50 is provided with a fraction display switch 152. By pressing this fraction display switch 152, information such as a card balance and an error code when an error occurs is displayed on an information display (not shown) provided in the pachinko gaming machine 1. In the figure, reference numeral 156 denotes a card unit lock, which is configured so that the front side of the card unit 50 can be opened by inserting a predetermined key into the card unit lock 156 and performing an unlocking operation.
[0026]
The pachinko gaming machine 1 has a glass door frame 2 formed in a frame shape. A game board 6 is detachably mounted behind the glass door frame 2. Further, a hit ball supply tray 3 is provided on a lower surface of the glass door frame 2. Below the hitting ball supply tray 3, a surplus ball receiving tray 4 for storing balls overflowing from the hitting ball supply tray 3 and an operation knob 5 for a player to operate the hitting ball are provided.
[0027]
By operating the operation knob 5 by a player, the hit balls stored in the hit ball supply tray 3 can be fired one by one. The fired ball is guided into the game area 7 by the guide rail 29. A valve-shaped backflow prevention member 30 is provided at an exit portion from the guide rail 29 to the game area 7. The backflow prevention member 30 prevents a ball hit into the game area 7 from returning to the guide rail 29.
[0028]
In the center of the game area 7, there is provided a variable display device 8 for variably displaying (hereinafter, also referred to as variable display) a special symbol which is an example of a plurality of types of identification information that can be identified. The variable display device 8 is provided with a decorative symbol variable display section 9. The decorative symbol variable display section 9 has three variable display sections: a left variable display section, a middle variable display section, and a right variable display section. The decorative design variable display section 9 is composed of a liquid crystal display (LCD display), and more effectively displays the contents of the variable display of the relatively monotonous special design variable display device 9a performed by the 7-segment LED. It is a variable display section for enhancing the effect and displaying it to the player. The decoration design variable display section 9 is provided with a start storage display 18. The decorative design variable display unit 9 is not limited to a liquid crystal display, but may be a CRT (Cathode Ray Tube), an FED (Field Emission Display), a PDP (Plasma Display Panel), a dot matrix, or another image display type display device. May be configured.
[0029]
Since the display result of the decorative symbol variable display unit 9 corresponds to the display result of the special symbol variable display device 9a, for example, when the display result of the special symbol variable display device 9a indicates a big hit state, Indicates that the display result of the decorative symbol variable display section 9 also indicates the big hit state. When the display result of the special symbol variable display device 9a indicates an out-of-position state other than the big hit state, the display result of the decorative symbol variable display unit 9 also indicates the out-of-state state. In each variable display unit of the decorative design variable display unit 9, a decorative design as identification information can be individually variably displayed (variable display). In this embodiment, the decorative symbols displayed on the decorative symbol variable display section 9 are ten types of symbols from 0 to 9 represented by numerals. The identification information variably displayed by the decorative design variable display section 9 may be any identification information as long as it is identification information such as numerals, characters, figures, patterns, characters, etc. Only, a figure only, a pattern only, a character only, or a combination of these as appropriate.
[0030]
The variable display device 8 is provided with a normal symbol display section 10 and a passage storage display 15. Below the variable display device 8, a starting electric accessory 14 a having a starting opening (start winning opening) 14, and a variable winning prize ball device 19 which is in an opened state in which a hit ball can be won by tilting the opening / closing plate 20. Are provided. A movable piece is provided on the left and right sides of the starting electric accessory 14a. Further, as the general winning opening, the winning opening 24 is provided at the lower left and right of the variable display device 8 and at the lower left and right of the game area 7, respectively. In addition, passing openings 11 through which hit balls can enter are provided below and below the variable display device 8. Reference numeral 26 denotes an out port which is collected as an out ball when the hit ball does not win the starting port 14, any of the winning ports 24 or the variable winning ball device 19, and 25 is a decorative lamp. It is.
[0031]
On the outer periphery of the game area 7, a game effect LED 42, a prize ball lamp 43 which is lit when paying out a prize ball, and a ball cut lamp 44 which is lit while the ball is broken are provided on the left and right of the upper part of the game area 7. Are provided with speakers 41, 41 for generating sound effects such as stereo sound.
[0032]
The hit ball that has entered the passage opening 11 is detected by the gate switch 12. When a hit ball is detected by the gate switch 12, a predetermined random number value is extracted unless the number of storages displayed on the passage storage display 15 reaches the upper limit. If the variable display of the ordinary symbol display unit 10 can be started, the variable display of the ordinary symbol display unit 10 is started. In addition, when a ball is further entered into the passage opening 11 during the variable display of the ordinary symbol display unit 10 and is detected by the gate switch 12, the variable display of the ordinary symbol display unit 10 cannot be started. In this state, passing balls (random number values, etc.) are stored in a predetermined storage device with “4” as the upper limit of the storage number, and the storage number is displayed on the passage storage display 15 by the number of LEDs lit. Then, each time the variable display of the ordinary symbol display section 10 is started, the number of lit LEDs is reduced by one.
[0033]
The normal symbol display section 10 includes a hit normal symbol indicator with "〇" and an out-of-touch normal symbol indicator with "x". When the random number value extracted when the ball enters the passage 11 matches the predetermined hit determination value, the display result of the variable display on the ordinary symbol display unit 10 is determined to be a hit, and "〇" The normal symbol display lights up with a symbol. On the other hand, when the extracted random number value does not match the predetermined hit determination value, it is determined that the display result of the variable display on the normal symbol display unit 10 is an error, and the normal symbol display with an “X” is attached. The container lights up. When the hit ordinary symbol display with the "と な り" symbol turns on, a pair of left and right movable pieces provided on the starting electric accessory 14a is opened once. As a result, the starting electric accessory 14a is in the opened state, and the hit ball can be more easily won. If one of the hit balls wins while the starting electric accessory 14a is in the open state, the movable piece closes to the original position and the hit ball returns to the closed state where it is difficult to win. Also, if a predetermined opening period has elapsed since the starting electric accessory 14a was opened, the movable piece is closed to the original position and the opened state ends even if a start winning does not occur.
[0034]
The start winning ball that has won the start opening 14 (referred to as a start winning) is detected by a start opening switch 17 provided on the game board 6. When the start winning ball is detected by the start port switch 17, five prize balls are paid out, and if the number of storages displayed on the start storage display does not reach the upper limit, a predetermined random number value is extracted. You.
[0035]
If the variable display of the special symbol variable display device 9a can be started, the variable display of the special symbol is started. When a special ball is variably displayed on the special symbol variable display device 9a and a ball is hit in the starting port 14 and detected by the starting port switch 17, the variable display of the special symbol variable display device 9a is started. Since it is in a state where it cannot be performed, the starting winning prize ball (random number value or the like) is stored in a predetermined storage device with “4” as the upper limit of the storage number, and the storage number is provided in the decorative symbol variable display section 9. It is displayed by the number of lighting of the start storage image of the start storage display 18 which is being displayed. Then, each time the special symbol variable display device 9a is variably started, the number of lit start stored images is reduced by one.
[0036]
The special symbol variable display device 9a is provided with three variable display units, a left variable display unit, a middle variable display unit, and a right variable display unit, similarly to the decorative symbol variable display unit 9. On the condition that the hit ball wins the starting opening 14 (start winning), the variable display (also called the update display and the variable display) of the special symbol is simultaneously started on the three variable display sections. The variable display of the special symbol in the special symbol variable display device 9a is stopped when a certain time has elapsed. If the combination of the special symbols at the time of the stop display is a specific display mode (for example, a slotted pattern such as "777", hereinafter also referred to as a "big hit symbol"), it becomes "big hit" and a specific game state (also referred to as a big hit state). Then, the opening / closing plate 20 of the special variable winning prize ball device 19 is opened and the big winning opening is opened. As a result, the first state is controlled, which is advantageous for the player who can make the ball hit the big winning opening. The opening / closing plate 20 is driven by a solenoid 21.
[0037]
Inside the large winning opening of the variable winning ball device 19, a count switch 23 for detecting a hit ball that has won the variable winning ball device 19 is provided. The inside of the special winning opening is divided into a specific winning area and a normal winning area, and a V counting switch 22 for detecting a V winning is provided in the specific winning area. The winning ball that has won the specific winning area is detected by the V count switch 22 and then detected by the count switch 23. On the other hand, a normal winning ball that has won the normal winning area is detected only by the count switch 23 in the large winning opening. Every time a winning ball that has won the variable winning ball device 19 is detected by the count switch 23, 15 winning balls are paid out.
[0038]
On the back side of the pachinko gaming machine 1, there is provided a winning ball set cover (not shown) for guiding a winning ball won to each winning port and the variable winning ball device along a predetermined winning path. The winning balls guided by the cover are supplied to a winning ball processing device (not shown) that processes one winning ball. The prize ball processing device is provided with a prize ball detection switch (not shown), and thereby detects a prize ball to be paid out by the prize ball processing device.
[0039]
The first state of the variable winning ball device 19 is either when the number of hit balls that have entered the special winning opening reaches a predetermined number (for example, 10) or when a predetermined period (for example, 30 seconds) has elapsed. When the earlier condition is satisfied, the operation is temporarily stopped and the opening / closing plate 20 is closed. As a result, the variable winning ball device 19 is controlled to the second state that is disadvantageous for a player who cannot make a hit ball winning. Then, on condition that the hit ball that has entered during the period in which the variable winning ball device 19 is in the first state makes a specific winning in the specific winning area and is detected by the V count switch 22, the variable winning in that time is performed. After the first state of the ball device 19 ends and the second state is reached, the opening / closing plate 20 is opened again, and the repetition continuation control for bringing the variable winning ball device 19 into the first state is executed. The upper limit number of executions of the repetition continuation control is set to, for example, 16 times. In the repetition continuation control, the state where the variable winning ball device 19 is in the first state is called a round. When the maximum number of executions of the repeat continuation control is 16, the variable winning prize ball device 19 can be set to the first state for 16 rounds from the first round to the 16th round.
[0040]
When the display result of the three variable display portions of the special symbol variable display device 9a is in a special display mode (for example, an odd number of "777", hereinafter also referred to as a "probably variable big hit symbol"), it is "probably variable big hit". Next, the probability of a big hit becomes higher than in the normal gaming state. That is, the probability improvement state (also referred to as a special game state or probability change state) that is more advantageous for the player is obtained. In addition, the normal gaming state refers to a gaming state other than the specific gaming state and the probability variation state.
[0041]
If the display results of the three variable display units of the special symbol variable display device 9a are neither a big hit symbol nor a positive variable big hit symbol, the result is "missing" and the game state remains unchanged without changing the game state.
[0042]
In addition, during the variable display of each variable display unit, a reach state (also referred to as a reach mode or a reach display mode) may occur.
[0043]
Here, the reach state (reach display mode) refers to a variable display device including a variable display unit that variably displays a plurality of types of identification information each of which can be identified. After the information is variably started, a plurality of display results are derived and displayed at different times, and when a predetermined specific display mode is reached, the game state becomes a specific game state advantageous to the player. The display state in which, at a stage where a part of the plurality of display results has not been derived and displayed yet, the display result that has already been derived and displayed satisfies a condition for a specific display mode.
[0044]
In other words, the reach state is defined as a case where the display result of the identification information in the variable display device having a plurality of variable display units whose display state can be changed is a predetermined specific display mode. In a gaming machine in which a gaming state is a specific gaming state that is advantageous to a player, it is assumed that the specific display mode is easily displayed in a variable display mode when the display result of the variable display device has not been derived and displayed yet. A display state that makes the user think. Then, for example, a state in which the plurality of variable display units perform variable display while maintaining the specific display mode is also included in the reach display state. Further, in some reach, when it appears, a big hit is more likely to occur than in a normal reach state. Such a specific reach state is called super reach.
[0045]
Further, the reach state does not deviate from the display condition of the specific display mode even when the display control progresses after the variable display device is variably started and reaches a stage before the display result is derived and displayed. It also refers to a display mode that is not available.
[0046]
The reach state is a display state at the time when the display control of the variable display device progresses to a stage before the display result is derived and displayed, and is determined before the display result is derived and displayed. This also refers to a display state when at least a part of the display results of the plurality of variable display areas satisfy the condition for the specific display mode.
[0047]
Further, the reach state is a condition in which the display result of the display area that has already been derived and displayed has a specific display mode at a stage where the display result has not been derived and displayed in some of the plurality of display areas. It also refers to the display state that satisfies.
[0048]
The full rotation reach refers to a display state in which variable display is performed in a state where a specific display mode is maintained in all of the plurality of display areas.
[0049]
In this embodiment, when the reach state occurs, a special reach state in which a character appears on the decorative symbol variable display unit 9 may occur. The special reach state in which this character appears appears when a plurality of big hits are stored in the start winning memory displayed on the start memory display 18. Note that the special reach state is not limited to the reach state where the character appears. The special reach state may be any state that can be distinguished from the normal reach state.
[0050]
FIG. 3 is a block diagram showing an example of a circuit configuration in the game control board 31. FIG. 3 shows a game control board (also referred to as a main board) 31, a winning ball board 37, a sound control board 70, a lamp control board 35, a launch control board 91, and a display control board 80 as control boards.
[0051]
A microcomputer and the like are mounted on the prize ball board 37, the sound control board 70, the lamp control board 35, and the launch control board 91, and a display control microcomputer 81 and the like are mounted on the display control board 80. Each board is provided with, for example, a CPU and an I / O port.
[0052]
The ball payout device 97 and the card unit 50 are connected to the prize ball substrate 37. The speaker 41 is connected to the sound control board 70. The gaming effect LED 42, the prize ball lamp 51, the ball-out lamp 52, the ordinary symbol display unit 10, and the passage memory display 15 are connected to the lamp control board 35. The operation control board 91 is connected to an operation knob (ball hitting handle) 5 and a drive motor 94 for driving a ball hitting hammer (not shown). The driving force of the driving motor 94 is adjusted according to the operation amount of the operation knob 5.
[0053]
On the game control board 31, a game control microcomputer 53 for controlling the pachinko gaming machine 1 according to a game control program, a switch circuit 58, a solenoid circuit 59, a lamp / LED circuit 60, an information output circuit 64, , An initial reset circuit 65, and an address decode circuit 67.
[0054]
The game control microcomputer 53 includes a ROM 54 for storing a game control program and the like, a RAM 55 used as a work memory, a CPU 56 for performing a control operation in accordance with the game control program, and an I / O port 57. The game control microcomputer 53 periodically (for example, every 2 msec) repeatedly executes the game control program stored in the ROM 54 from the beginning according to the timer interrupt.
[0055]
The switch circuit 58 is a circuit that supplies signals from various switches to the game control microcomputer 53. The switch circuit 58 is connected with the gate switch 12, the starting port switch 17, the V count switch 22, the count switch 23, the winning ball detection switch 99, and the like.
[0056]
The solenoid circuit 59 controls the solenoid 16 that operates the movable pieces provided on the left and right of the starting electric accessory 14a and the solenoid 21 that opens and closes the opening and closing plate 20 of the variable winning ball device 19 in accordance with instructions from the game control microcomputer 53. It is a driving circuit.
[0057]
The lamp / LED circuit 60 is a circuit that controls lighting and extinguishing of the start storage display 18 and the decorative lamp 25.
[0058]
The information output circuit 64, according to the data supplied from the game control microcomputer 53, the probability change information indicating that the probability change state has occurred and the probability improvement state has occurred, and the fact that the jackpot has occurred and the specific game state has been indicated. This is a circuit for outputting to a host computer such as a hall management computer, etc., jackpot information and start winning information indicating the occurrence of a start winning that is effectively used for variable display of the special symbol display section 9 among the starting winnings.
[0059]
The initial reset circuit 65 is a circuit for resetting the game control microcomputer 53 when the power is turned on. The game control microcomputer 53 initializes the pachinko gaming machine 1 in response to the initial reset pulse sent from the initial reset circuit 65.
[0060]
The address decode circuit 67 is a circuit that decodes an address signal provided from the game control microcomputer 53 and outputs a signal for selecting one of the I / O ports 57.
[0061]
From the game control microcomputer 53 to the microcomputer mounted on the prize ball board 37, the microcomputer mounted on the sound control board 70, the microcomputer mounted on the lamp control board 35, and the display control mounted on the display control board 80 A command which is an example of the command information is transmitted to the microcomputer 81.
[0062]
The commands transmitted from the game control microcomputer 53 to the microcomputer mounted on the prize ball board 37 include a command as command information relating to payout control of award balls and a command (command information relating to payout control of payout balls). For example, a ball lending prohibition command, a ball lending prohibition release command, etc.) are included.
[0063]
The game control microcomputer 53 outputs a predetermined sound control command to the microcomputer mounted on the sound control board 70 based on the occurrence of a big hit or a prize. The microcomputer mounted on the sound control board 70 controls to output a predetermined sound effect from the speaker 41 based on the sound control command.
[0064]
The game control microcomputer 53 outputs a predetermined lamp control command to the microcomputer mounted on the lamp control board 35 based on the occurrence of a big hit or a winning. The microcomputer mounted on the lamp control board 35 controls the lighting of the electric decorative component based on the lamp control command.
[0065]
Based on the detection signal of the winning ball detection switch 99, the detection signal of the starting port switch 17, the detection signal of the V count switch 22, and the detection signal of the count switch 23, a predetermined number of prize balls are mounted. Is output to a microcomputer mounted on the prize ball substrate 37. The microcomputer mounted on the prize ball substrate 37 controls the ball payout device based on the outputted prize ball signal to perform control for paying out a predetermined number of prize balls. Specifically, for example, 15 prize balls are paid out per winning ball for the winning prize hole of the special variable winning prize ball device 19, and 1 prize ball is won for the winning prize hole 14 for one winning prize ball. For example, six prize balls are paid out for each prize ball, and for the other prize balls that have won the other prize ports 24, for example, ten prize balls are paid out for each prize ball.
[0066]
In order to control the payout of the three types of prize balls, the game control microcomputer 53 performs the following control operation. When a detection signal is input from the starting port switch 17, the V count switch 22, or the count switch 23, the detection signal is used as payout number determination data used in determining the payout number of prize balls, according to the switch. Is temporarily stored internally for each payout number. Thereafter, when a detection signal from the winning ball detection switch 99 is input, it is determined by referring to the number-of-payouts determination data whether or not there was a detection signal from the start-up switch 17 before the input. The game control microcomputer 53 mounted on the control board 31 outputs a prize ball command signal for instructing the microcomputer mounted on the prize ball board 37 to pay out the number of prize balls of “6”. On the other hand, when there is a detection signal from the winning ball detection switch 99 and when there is a detection signal from the V count switch 22 or the count switch 23 before that, the game control microcomputer mounted on the game control board 31 53 outputs a winning ball command signal of the number of winning balls of “15” to the microcomputer mounted on the winning ball substrate 37. Further, when there is a detection signal from the winning ball detection switch 99, and when no detection signal has been input from any of the starting port switch 17, the V count switch 22, and the count switch 23 before that, the game control The microcomputer 53 outputs a prize ball command signal for instructing to pay out the number of prize balls of “10” to the microcomputer mounted on the prize ball substrate 37.
[0067]
The payout control microcomputer drives the ball payout device 97 based on the prize ball number signal transmitted from the game control microcomputer 53 mounted on the game control board 31 to the payout control microcomputer mounted on the prize ball board 37. Then, control is performed to pay out the number of winning balls specified by the winning ball number signal.
[0068]
FIG. 4 is a block diagram showing a circuit configuration in the display control board 80 together with the LCD 9 for realizing image display.
[0069]
A display control CPU 101 having a built-in RAM 101a operates according to a program stored in a control data ROM 102, and a display control signal INT (interrupt signal) as a strobe signal from a game control board 31 via an input buffer 105a in an input buffer circuit 105. ) Is input, the display control CPU 101 enters an interrupt operation state, and captures command data for display control. Then, display control of an image displayed on the LCD 9 is performed in accordance with the acquired display control command data. The control data ROM 102 stores various data for display control such as data relating to the display pattern of the variable display.
[0070]
Specifically, the display control CPU 101 reads out the identification number of the initial screen of the display command data and the symbol variation data from the control data ROM 102 and transmits the same to the VDP 103. The VDP 103 causes the VRAM 87 to store map data indicating the arrangement relationship of images on the display screen according to the identification number of the display screen. Information such as enlargement, reduction, rotation, inversion, and coordinates of the symbol is added to the map data stored in the VRAM 87 in accordance with the symbol control program stored in the control data ROM 102. The VDP 103 reads map data from the VRAM 87 at a predetermined timing, and reads dot data of each image from the character ROM 86 based on the identification number of each image included in the map data. Next, the VDP 103 performs a coloring process on the read dot data to generate an image display signal. Then, the VDP 103 transmits to the LCD 9 an analog RGB signal obtained by converting the generated image signal by the DA converter 104 and a composite synchronization signal SYNC. The LCD 9 displays an image on the LCD 9 based on the transmitted RGB signals and the composite synchronization signal SYNC.
[0071]
FIG. 4 shows a reset circuit 83 for resetting the VDP 103, an oscillation circuit 85 for supplying an operation clock to the VDP 103, a character ROM 86 for storing frequently used image data, and an input for inputting display control command data. A buffer circuit 105 is also shown. The frequently used image data stored in the character ROM 86 is, for example, an image formed of a person, an animal, a character, a figure, a symbol, or the like displayed on the LCD 9.
[0072]
The display control CPU 101 has a built-in RAM 101a for storing display control command data, and upon receiving a display control command from the game control microcomputer 53 mounted on the game control board 31, the display control CPU 101 Control for moving and displaying a predetermined background or character on the screen is performed. Note that the background and the character are also switched at a predetermined timing, and these are also controlled independently by the display control CPU 101.
[0073]
The input buffer circuit 105 to which the display control command is input on the display control board 80 side is changed from the game control microcomputer 53 mounted on the game control board 31 to the display control microcomputer 81 mounted on the display control board 80. The transmission of signals is allowed only in the direction heading toward, but the signal transmission from the display control microcomputer 81 mounted on the display control board 80 to the game control microcomputer 53 mounted on the game control board 31 is not performed. Sex input means. As the input buffer 105a constituting the input buffer circuit 105, for example, two chips of 74HC244, which is a general-purpose CMOS-IC, are used. A low level (GND level) is always applied to the enable terminal of the input buffer 105a. According to such a configuration, it is possible to reliably eliminate the possibility that a signal is given from the display control microcomputer 81 mounted on the display control board 80 to the game control microcomputer 53 mounted on the game control board 31. it can. Therefore, there is no room for a signal to be transmitted from the display control microcomputer 81 mounted on the display control board 80 to the game control microcomputer 53 mounted on the game control board 31, and unauthorized modification is added to the transmission path of the display control command. Even if it is done, the signal output by the unauthorized modification is not transmitted to the game control microcomputer mounted on the game control board 31. Therefore, one-way communication of signals between the game control microcomputer 53 mounted on the game control board 31 and the display control microcomputer 81 mounted on the display control board 80 is ensured, and transmission of the display control command is performed. An illegal signal (data) can be input to the game control microcomputer 53 mounted on the game control board 31 via the route, thereby making it possible to surely prevent an illegal act of performing an illegal control operation. Further, since the irreversible input means is constituted by the buffer IC circuit, it is possible to relatively easily prevent the input of illegal information to the game control microcomputer 53 mounted on the game control board 31. Note that other circuit elements such as individual transistors may be provided as the irreversible input means.
[0074]
Similarly, the output buffer circuit 63 to which the display control command is output on the game control board 31 side also has a display control microcomputer 53 mounted on the game control board 31 and a display control microcomputer mounted on the display control board 80. Although signal transmission is allowed only in the direction toward the computer 81, signal transmission from the display control microcomputer 81 mounted on the display control board 80 to the game control microcomputer 53 mounted on the game control board 31 is allowed. This is an irreversible output interface that does not perform. Therefore, there is no room for a signal to be transmitted from the display control microcomputer 81 mounted on the display control board 80 to the game control microcomputer 53 mounted on the game control board 31, and unauthorized modification is added to the transmission path of the display control command. Even if it is done, the signal output by the illegal modification is not transmitted to the game control microcomputer 53 mounted on the game control board 31.
[0075]
FIG. 5, FIG. 6, and FIG. 7 are screen views for explaining a notice effect.
The announcement effect is to notify that two or more starting winning memories indicating a big hit are included in the starting winning memories displayed on the starting memory display 18. Two types of notice effects are prepared according to the number of big hits in the start winning prize memory. The downward arrow in FIGS. 5, 6, and 7 indicates that the decorative symbol is variably displayed.
[0076]
FIG. 5 is a screen diagram for explaining a notice effect mode performed when the number of start winning memories indicating a big hit in the start winning memories displayed on the start memory display 18 is two.
[0077]
Initially, four start-up memory indicators 18 are lit, indicating that there are four start-up prize memories, and the special symbols of each variable display section are displayed in a stopped state (A-1). . After a while, the variable display is started. Since the variable display is started based on the first winning prize memory stored in the first winning prize memory, the first prize memory is deleted. Therefore, one start memory display 18 is turned off (A-2). After the elapse of the predetermined time, first, the variable display of the left variable display section is stopped and displayed at the special symbol "7" (A-3). After a lapse of a predetermined time, the variable display on the right variable display section is stopped and displayed at the special symbol “7”. As a result, the special symbol displayed on the left variable display unit and the special symbol displayed on the right variable display unit match, and a reach state occurs. At this time, a character of “Dream-chan 200” appears on the left side of the decorative symbol variable display section 9, and a start winning prize memory indicating that the winning prize memory displayed on the start memory display 18 will be a big hit. (A-4). As described above, when a special reach state in which a character appears appears, the player not only has an expectation for the reach state, but also has an expectation that a specific display mode will be continuously derived and displayed. You can have.
[0078]
After the elapse of the predetermined time, the variable display of the middle variable display section is stopped and displayed at the special symbol "7", the display result becomes "777", and the first probability change hit is performed (A-5).
[0079]
When the big hit ends, the variable display is started based on the first winning prize memory stored out of the three starting prize memories, so that one starting memory display 18 is turned off (A-6). After the elapse of the predetermined time, similarly to the previous time, the variable display of the left variable display section is first stopped at the special symbol "7" (A-7), and then the variable display of the right variable display section is changed to the special symbol. A stop is displayed at "7", and the reach state is established (A-8). Then, finally, the variable display of the middle variable display section is stopped and displayed at the special symbol “7”, the display result becomes “777”, and the second probable change is a big hit (A-9).
[0080]
FIGS. 6 and 7 are screen diagrams for explaining a notice effect mode performed when the number of start winning memories indicating a big hit among the starting winning memories displayed on the start memory display 18 is three or more. It is. In FIG. 5, when the number of the start winning memories indicating a big hit in the starting winning memories is two, the character “Yume-chan 200” appears when the reach state occurs. When the number of start winning prize memories indicating a big hit is three or more, the characters “Drum-kun 202” and “Dream-chan 201” appear when a reach state occurs.
[0081]
Initially, the four start storage indicators 18 are lit, indicating that there are four start winning memories, and the special symbols of each variable display portion are displayed in a stopped state (B-1). . After a while, the variable display is started. Since the variable display is started based on the first winning prize memory stored in the first winning prize memory, the first prize memory is deleted. Therefore, one start memory display 18 is turned off (B-2). After the elapse of the predetermined time, first, the variable display of the left variable display section is stopped and displayed at the special symbol “7” (B-3). After a lapse of a predetermined time, the variable display on the right variable display section is stopped and displayed at the special symbol “7”. As a result, the special symbol displayed on the left variable display unit and the special symbol displayed on the right variable display unit match, and a reach state occurs. At this time, the characters "Drum-kun 202" and "Dream-chan 201" appear on the left side of the decorative design variable display section 9 and become a big hit in the start winning prize memory displayed on the start memory display 18. (B-4) is notified that there are three or more starting prize memories. At this time, two fingers of the drum 200 and Yume-chan 201 stand, which indicates that the display result of the variable display currently being performed is a big hit and that two or more big hits are included as a starting winning memory. ing. After the elapse of the predetermined time, the variable display of the middle variable display section is stopped and displayed at the special symbol “7”, and the display result becomes “777”, which is the first probable change hit (B-5).
[0082]
When the big hit is completed, the variable display is started based on the first winning prize memory stored out of the three starting prize memories, so that one starting memory display 18 is turned off (B-6). After a lapse of a predetermined time, the variable display of the left variable display section is first stopped at the special symbol “7” (B-7), and then the variable display of the right variable display section is changed to the special symbol “7”. The display is stopped and the reach state is established. At this time, a character of “Dream-chan 200” appears on the left side of the decorative symbol variable display section 9, and a start winning prize memory indicating that the winning prize memory displayed on the start memory display 18 will be a big hit. (B-8). After the elapse of the predetermined time, the variable display of the middle variable display section is stopped and displayed at the special symbol "7", the display result becomes "777", and the second large change big hit is obtained (B-9).
[0083]
When the big hit is completed, the variable display is started based on the first winning prize memory stored out of the two starting prize memories, so that one starting memory display 18 is turned off (B-10). After a lapse of a predetermined time, the variable display of the left variable display section is first stopped at the special symbol "1" (B-11), and then the variable display of the right variable display section is stopped at the special symbol "6". It is displayed (B-12), and finally the variable display of the middle variable display section is stopped and displayed at the special symbol "3", the display result becomes "136", and the loss is determined (B-13).
[0084]
After a while, since the variable display is started based on one start winning prize memory, one start storage indicator 18 is turned off (B-14). After a lapse of a predetermined time, the variable display of the left variable display section is first stopped at the special symbol "7" (B-15), and then the variable display of the right variable display section is stopped at the special symbol "7". Is displayed (B-16). Finally, the variable display of the middle variable display section is stopped and displayed with the special symbol "7", and the display result becomes "777", which is the third probable change big hit (B-17).
[0085]
FIG. 8 is an explanatory diagram of each random number. In this embodiment, a plurality of types of random counters are used to generate a plurality of types of random numbers. The value of this random counter is set to “1” each time the game control program is periodically executed (specifically, every 2 msec), or each time the game control program is executed periodically, and the remaining time for interrupt processing. "Is added and updated.
[0086]
R1 (for determining a big hit) is to randomly determine whether or not the display result is a big hit, and is added and updated by "1" every 2 msec within a range of "0" to "199". When the number reaches the upper limit "199", the value is added and updated again from "0".
[0087]
R2-1, R2-2, and R2-3 (for the loss symbol determination) are the loss as a display result of the variable display performed on the variable display unit when the loss is determined in advance by R1 (for the big hit determination). This is a random counter used to determine a symbol in advance. R2-1 (for determining a left-side variable display portion lost symbol) is added and updated every 2 msec within the range of "0" to "9" and "1" for the remaining interrupt processing time, up to the upper limit "9". After the addition is updated, the addition is updated again from "0".
[0088]
R2-2 (for the variable design in the middle variable display section) is updated by adding "1" at each carry of R2-1 (for the design in the left variable display section), and reaches the upper limit "9". Then, the addition is updated again from "0".
[0089]
R2-3 (for determining the right symbol on the variable display portion) determines that the value of R2-3 (for determining the symbol for the middle variable display portion) is updated by adding "1" at each carry, and reaches the upper limit "9". Then, the addition is updated again from "0".
[0090]
If the determined lost symbol accidentally becomes a zigzag, "1" is added to the extracted value of R2-2 (for determining the variable symbol in the middle variable display portion), and the lost symbol is forcibly determined to be a lost symbol.
[0091]
R3 (for determining a jackpot symbol) is a random counter used to determine a jackpot symbol as a display result of the variable display performed on the variable display unit when the jackpot is determined in advance by R1 (for determining jackpot). It is. In the range of “0” to “9”, “1” is added and updated every 2 msec, the addition is updated to the upper limit “9”, and then added and updated again from “0”. When the count value extracted from R3 is an even number, it becomes the above-described big hit symbol, and when the count value is odd, it becomes a certain variable big hit symbol.
[0092]
R4 (for determining the fluctuation pattern) is a random counter for determining the type of fluctuation (variation pattern) in the variable display, and within the range of “0” to “149”, every 2 msec and the remaining time for interrupt processing is “ The value is incremented and updated by 1 at a time, is incremented and updated to its upper limit of "149", and is incremented and updated again from "0". As for the variation pattern, the type of the table to be used is determined by the count value extracted from R1 (for determining the big hit), R2 (for determining the big hit symbol), and R3 (for determining the big hit symbol). The corresponding variation pattern is determined based on the value extracted from ()).
[0093]
R5 (for reach determination) is a random counter for determining whether or not a reach state is to be generated when an outlier is determined in advance by R1 (for big hit determination), from "0" to "13". Is added and updated every 2 msec and in the remaining time for interrupt processing within the range, and is added and updated to its upper limit of "13" and then added and updated again from "0".
[0094]
R6 (ordinary symbol hit determination) is a random counter for determining the hit of the normal symbol, and is added and updated by "1" every 2 msec within the range of "0" to "1", and the upper limit thereof is "1". Is added and updated, and then added and updated again from "0".
[0095]
R7 (for advance decision) is a random counter for advance notice decision, and is incremented and updated by "1" every 2 msec within the range of "0" to "99", and is incremented and updated to "99" which is the upper limit thereof. After that, it is added and updated again from "0".
[0096]
R8 (for determining an R1 initial value) is a random counter for determining an initial value of R1 (for determining a big hit), and is set to "1" every 2 msec and in the remaining time for interrupt processing within a range of "0" to "199". The addition is updated, the addition is updated to the upper limit "199", and the addition is updated again from "0".
[0097]
R9 (for determining an initial value of R6) is a random counter for determining an initial value of R6 (for determining a normal symbol), and is set to "1" every 2 msec in the range of "0" to "1" and the remaining time for interrupt processing. The addition and update are performed one by one, and after the addition and update are performed to the upper limit “1”, the addition is updated again from “0”.
[0098]
In the random counter described above, data is extracted at random timing (for example, at the time of occurrence of a winning start, etc.) in accordance with the establishment of the extraction condition determined for each random counter. As a result, the data extracted from each random counter becomes a random value (random number value).
[0099]
FIG. 9 is an explanatory diagram illustrating an example of the big hit determination table used in the big hit determination process and an example of the reach determination table used in the reach determination process.
[0100]
As shown in the (A) big hit determination table of FIG. 9, in this embodiment, the big hit determination value is "3" at the time of low probability (at the time of non-probability), and at the time of high probability (at the time of positive change). Are "3", "7", "79", "103", and "107". As shown in the reach determination table of FIG. 9B, the reach determination values are “0”, “1”, and “11” at the time of low probability (at the time of non-probability change), and the reach determination value at the time of high probability. Are "0", "1", "7", "9", "11", and "12". Therefore, at the time of high probability, the big hit state and the reach state are more likely to occur than at the time of low probability.
[0101]
FIG. 10 is a flowchart showing a game control main process executed by the game control microcomputer 53.
[0102]
First, in steps S (hereinafter simply referred to as "S") 1 to S14, a process for performing an initial setting for executing a control process is performed. In S1, the interrupt is prohibited. Next, in S2, the setting of the interrupt mode 2 indicating the mode of the interrupt processing is performed. In S3, a stack pointer is set. In S4, the setting of the built-in device register is performed. In S5, CTC and PIO are set. In S6, a setting for making the RAM accessible is performed.
[0103]
Next, in S7, the CPU 56 checks the state of the output signal of the clear switch input via the input port only once. If ON is detected in the confirmation, the CPU 56 executes a normal initialization process in S11 to S14.
[0104]
If the clear switch is not on, whether the data protection processing of the backup RAM area (for example, the processing for stopping the power supply such as the addition of parity data) has been performed when the power supply to the gaming machine is stopped in S8. Check whether or not. After confirming that such protection processing has not been performed, the CPU 56 executes initialization processing. 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 embodiment, 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). .
[0105]
After confirming that there is a backup, in S9, the CPU 56 performs data check (parity check in this example) of the backup RAM area. In S9, the calculated checksum is compared with the checksum calculated and stored by the same processing in the power supply stop processing. 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.
[0106]
If the check result is normal, in S10, the CPU 56 performs a game state restoring process for returning the internal state of the game control board 31 and the control state of the electric component control board such as the display control board 80 to the state when the power supply is stopped. Perform 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. 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.
[0107]
In the initialization process, first, in S11, the CPU 56 performs a RAM clear process. Further, in S12, a predetermined work area (for example, a normal symbol determination random number counter, a normal symbol determination buffer, a special symbol left middle right special symbol buffer, a special symbol process flag, a payout command storage pointer, a winning ball flag, a ball 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 an outage flag and a payout stop flag, is performed. Further, in S13, a process of transmitting an initialization command for initializing the sub-boards (the payout control board 35 and each effect control board in this embodiment) to the microcomputer mounted on each sub-board is executed. Examples of the initialization command include a command indicating the initial symbol displayed on the special symbol display unit 9 (for the display control board 80) and a command instructing to turn off the prize ball lamp 51 and the ball out lamp 52.
[0108]
Then, in S14, a register of the CTC provided in the CPU 56 is set so that a timer interrupt is periodically performed every 2 msec. That is, a value corresponding to 2 msec is set in a predetermined register (time constant register) as an initial value.
[0109]
When the execution of the initialization processing in S11 to S14 is completed, in the main processing, the display random number update processing in S16 and the initial value random number update processing in S17 are repeatedly executed. When the display random number update process and the initial value random number update process are executed, the interrupt is prohibited in S15, and when the display random number update process and the initial value random number update process are completed, the process proceeds to S18. Is set to the permission state.
[0110]
The display random number is a random number for determining a special symbol displayed on the special symbol variable display device 9a, and the display random number updating process is to update a count value of a counter for generating a display random number. This is the processing to be performed. 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 random number for an initial value is a random number for determining an initial value of a count value of a counter for generating a random number for determining whether or not to make a big hit (a random number generation counter for big hit determination). In a 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.
[0111]
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 the timer interrupt occurs during the processing of S16 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 is. However, such an inconvenience does not occur if the interrupt is prohibited during the processing of S16.
[0112]
FIG. 11 is a flowchart showing a 2 msec timer interrupt process executed by the game control microcomputer 53.
[0113]
When a timer interrupt occurs, in S20, the CPU 56 executes a game control process of S21 to S35 after performing a save process of a register. First, in S21, the CPU 56 inputs, via the switch circuit 58, detection signals of switches such as the gate switch 12, the starting port switch 17, the count switch 23, the V count switch 22, and the winning ball detection switch 99, and the like. Perform state determination.
[0114]
Next, in S22, a process of updating the count value of each counter for generating each random number for determination such as a random number for big hit determination used in game control is performed. In S23, the CPU 56 performs a process of updating the count value of the counter for generating the random number for the initial value, and in S24, performs a process of updating the count value of the counter for generating the random number for the display.
[0115]
In S25, the CPU 56 performs a special symbol process. In the special symbol process process, 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. In S26, a normal symbol process is performed. 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 ordinary symbol display unit 10 in a predetermined order. Then, the value of the normal symbol process flag is updated during each processing according to the gaming state.
[0116]
In S27, the CPU 56 performs a process of setting a display control command relating to the special symbol in a predetermined area of the RAM 55 and transmitting the display control command (special symbol command control process). In S28, a process of setting a display control command related to a normal symbol in a predetermined area of the RAM 55 and transmitting the display control command (normal symbol command control process) is performed.
[0117]
In S29, the CPU 56 performs an information output process of outputting data such as jackpot information, start information, and probability variation information supplied to the hall management computer, for example.
[0118]
In S30, the CPU 56 executes prize ball processing for setting the number of prize balls based on the detection signal of the prize ball detection switch 99, and the like. Specifically, a payout control command indicating the number of prize balls is output to the payout control board 37 mounted on the payout control board 37 in response to the winning detection based on the turning on of the prize ball detection switch 99. 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.
[0119]
Then, in S31, the CPU 56 executes a storage process for checking an increase or decrease in the number of stored start winnings. In S32, 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. Further, in S33, when a predetermined condition is satisfied, a drive command is issued to the solenoid circuit 59. The solenoid circuit 59 drives the solenoids 16 and 21 in response to a drive command in order to open or close the starting electric accessory 14a or the opening / closing plate 20 or to switch the game ball passage in the special winning opening. I do. Thereafter, in S34, the contents of the register are restored, and in S35, the interrupt permission state is set.
[0120]
According to the above control, in this embodiment, the game control process is started every 2 msec. 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, and the game control process is executed. It may be executed in the main processing.
[0121]
FIG. 12 is a flowchart showing a special symbol process process executed by the game control microcomputer 53.
[0122]
The special symbol process process shown in FIG. 12 is a specific process of step S25 in the flowchart of FIG. In S310, the CPU 56 performs a variation reduction timer subtraction process when performing the special symbol process process. In S311, a determination is made as to whether or not a starting port switch 17 for detecting that a hit ball has been won at the starting port 14 provided on the game board 6 is on. If the starting port switch 17 is turned on, that is, if a starting prize in which a ball hits the starting port 14 has occurred, in S312, after performing a starting port switch passing process, S300 to S308 are performed according to the internal state. Of any of the above. The fluctuation shortening timer is a timer for setting the fluctuation time when the fluctuation time of the special symbol is shortened.
[0123]
In S300, a special symbol normal process is performed. In the special symbol normal process, it waits until a state in which the variable display of the special symbol 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 number of memorized start winnings is not 0, it is determined whether or not the result of the variable display is a big hit. Then, the internal state (special symbol process flag) is updated to shift to S301 (special symbol stop symbol setting processing).
[0124]
In S301, a special symbol stop symbol setting process is performed. In the special symbol stop symbol setting process, a stop symbol after variably displaying the special symbol is determined. Then, the internal state (special symbol process flag) is updated to shift to S302 (variable pattern setting processing).
[0125]
In S302, a variation pattern setting process is performed. In the variation pattern setting process, the variation pattern (variable display mode) of variable display of the special symbol is determined according to the count value extracted from R4 (variable pattern determination). A final stop symbol and information instructing a variation mode (variation pattern) are transmitted to the display control microcomputer 81 mounted on the display control board 80. Then, the internal state (special symbol process flag) is updated so as to shift to S303 (special symbol change processing).
[0126]
In S303, a special symbol change process is performed. In the special symbol change process, the internal state (special symbol process flag) is updated so as to shift to S304 (special symbol stop process) after a predetermined time has elapsed.
[0127]
In S304, a special symbol stop process is performed. In the special symbol stop processing, control is performed such that all symbols displayed on the special symbol variable display device 9a are stopped and displayed. Specifically, a state is set in which a display 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 to shift to S305 (large winning opening pre-opening process). If not, the internal state (special symbol process flag) is updated to shift to S300.
[0128]
In S305, a special winning opening opening pre-process is performed. In the special winning opening opening process, control for opening the special 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 S306 (large win opening processing).
[0129]
In S306, processing during opening of the special winning opening is performed. In the process of opening the special winning opening, a process of transmitting a display control command for displaying the special winning opening round to the display control microcomputer 81 mounted on the display control board 80 and a process of confirming establishment of a closing condition of the special winning opening. And so on. When the closing condition of the last special winning opening is satisfied, the internal state (special symbol process flag) is updated to shift to S307 (specific area effective time processing).
[0130]
In S307, a specific winning area effective time process is performed. In the specific winning area effective time process, a process of monitoring whether or not the V count switch 22 has passed is performed to confirm whether the big hit game state continuation condition is satisfied. If the condition of the continuation of the big hit gaming state is satisfied and there are still remaining rounds, the internal state (special symbol process flag) is updated so as to shift to S305 (big win opening processing). If the big hit game state continuation condition is not satisfied within the predetermined effective time, or if all rounds have been completed, the internal state (special symbol process flag) is shifted to S308 (big hit end processing). Update as follows.
[0131]
In S308, a jackpot ending process is performed. In the big hit end process, control is performed to cause the display control microcomputer 81 mounted on the display control board 80 to perform display control for notifying the player that the big hit game state has ended. Then, the internal state (special symbol process flag) is updated to shift to S300 (special symbol normal processing).
[0132]
FIG. 13 is an explanatory diagram illustrating an example of a fluctuation pattern.
In FIG. 13, “EXT” indicates EXT data of the second byte in a display control command having a 2-byte configuration. That is, each variation pattern of the special symbol is associated with the display control command on a one-to-one basis. “Time” indicates the fluctuation time of the special symbol.
[0133]
The “normal fluctuation” is a fluctuation pattern not accompanied by the reach state. “Normal reach” is a fluctuation pattern that accompanies a reach state but whose fluctuation result (stop symbol) does not cause 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 state 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. .
[0134]
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.
[0135]
In this embodiment, a shortened display pattern is further used. The shortened display pattern is a variation pattern in which the special symbols of the left variable display section, the middle variable display section, and the right variable display section have a very short variation time of, for example, 1.0 second.
[0136]
In this embodiment, the fluctuation patterns of the fluctuation patterns 1 to 14 are used both at the time of high probability (during probable change) and at the time of low probability (during non-probable change). The time may be shortened. Further, the variation pattern group used at the time of high probability and the variation pattern group used at the time of low probability may be different.
[0137]
FIG. 14 is a flowchart showing the starting-port switch passing process in the special symbol process process shown in FIG.
[0138]
In the starting port switch passing process, first, in S41, the CPU 56 determines whether or not the big hit flag is ON. When it is determined that the big hit flag is ON, in S42, it is confirmed whether or not the number of the winning prize stored has reached the maximum value of 10. If the number of stored start winnings has not reached 10, the number of stored start winnings is incremented by one in S44. On the other hand, when it is determined that the big hit flag is not ON, in S43, it is checked whether or not the number of stored start winnings is 4 or less, which is the maximum value. If the number of stored start winnings has not reached 4, the number of stored start winnings is incremented by one in S44. The big hit flag is set to ON when the display result of the variable display becomes a big hit. When the display result is a big hit and the game state is the specific game state, the ball is easily hit to the starting port 14 and the number of the memorized start winnings is likely to reach the upper limit of four. Even if a ball hits the starting port 14 when the number of memorized start winnings reaches the upper limit of 4, the winning is invalidated, and the player stops firing the ball. Therefore, when the display result is a big hit and a specific game state is set, the upper limit of the number of start winning prize memories that can be stored is increased from four to ten. Thereby, it is possible to prevent the number of stored start winnings from reaching the upper limit, and to prevent the player from hitting the ball.
[0139]
In S45, the value of each random number such as R1 (for determining a big hit) and the like is extracted and stored in a storage area (a special symbol determination buffer) corresponding to the value of the starting winning storage number. Note that extracting a random number means that a count value is read from a random counter for generating a random number, and the read count value is used as a random number value. In S46, a timer for determining whether to reduce the fluctuation time is set.
[0140]
FIG. 15 is a flowchart showing a special symbol normal process in the special symbol process process shown in FIG.
[0141]
In the special symbol normal process, first, in S51, the CPU 56 determines whether or not the variable display of the special symbol can be started (for example, when the value of the special symbol process flag is a value indicating S300). to decide. When it is determined that the variable display of the special symbol can be started, in S52, the value of the starting winning storage number is confirmed. 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 special symbol is not variably displayed on the special symbol variable display device 9a and the big hit game is not being performed.
[0142]
If the start winning memory number is not 0, in S53, each random number value stored in the storage area corresponding to the start winning memory number = 1 (first starting winning memory stored in the start winning memory) is read out. In addition to storing the value in the random number buffer area of the RAM 55, in S54, the value of the number of stored winning prizes is reduced by one and the contents of each storage area are shifted. 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.
[0143]
Next, in S55, the CPU 56 reads a random number of R1 (for determining a big hit) from the random number storage buffer, and executes a big hit determination process in S56. If it is determined in S57 that a big hit has been decided, in S58, the CPU 56 turns on the big hit flag. If it is determined in step S59 that the jackpot is to be set to the probability change jackpot, a notice determination process is executed in step S60. As described above, since the process of determining whether or not to give a preliminary announcement effect is performed only when it is determined in advance that the variable display result is to be a probability change jackpot, execution of the process can be limited, and control of control can be performed. The burden can be reduced.
[0144]
In S61, the value of the special symbol process flag is updated to a value corresponding to the special symbol stop symbol setting process.
[0145]
FIG. 16 is a flowchart showing the big hit determination process.
In the big hit determination process, in S71, the CPU 56 determines whether or not the state at that time is being changed, and if the change is being made, in S72, the CPU 56 in the big hit determination table shown in FIG. Decide to use the high probability table. If the probability is not being changed, it is determined in S73 that the low probability table in the big hit determination table shown in FIG. 9A is to be used.
[0146]
Then, in S74, a process of comparing the count value of R1 extracted in S45 and read in S55 with the jackpot determination value in the jackpot determination table shown in FIG. 9A is performed. If it is determined in S75 that the count value of R1 (for determining the big hit) matches the determined value of the big hit, it is determined in S76 that the big hit is determined, and the count value of R1 (for determining the big hit) and the determined value of the big hit are determined. If does not match, it is determined in S77 not to make a big hit.
[0147]
FIG. 17 is a flowchart showing a notice determination process in the special symbol normal process shown in FIG.
[0148]
In the notice determination process, first, in S81, if the number of stored start winnings is two or more, the CPU 56 proceeds to S82. If it is determined in S82 that the probability is not being changed, it is determined in S83 whether or not a notice effect is being produced. We do not decide to give a new notice during the notice production. As a result, duplication of the notice determination process can be prevented, and the control load can be reduced.
[0149]
In S84, a process of setting the starting winning storage number as the number of hit determinations is performed. In other words, the jackpot determination is performed for the number of start winning prize memories. In S85, the CPU sets the number-of-examinations counter that counts the number of the stored start-winning-prize memory that has been determined to be a big hit to 0, and in S86, adds 1 to the number-of-examinations counter. In S87, a process of reading the random number value stored in the storage area corresponding to the start winning storage number n is performed. Since n is 1 at this stage, the random number value stored in the storage area corresponding to the number 1 of the winning prize stored is read. In S88, a big hit determination process is performed using the read random number value. When it is determined in S89 that the result of the big hit determination in S88 is a big hit, in S90, it is determined whether or not a big change big hit is made. If it is determined that the probability change is a big hit, a process of turning on the probability change flag is performed in S91. If it is determined that the probability is not a big hit, a process of turning off the probability change flag is performed in S92. If the probability change flag is turned on in S91, in S88, when the big hit determination process is performed again, the big hit determination is performed using the big hit determination value at the time of the high probability in the big hit determination table of FIG. 9A. . Thereby, of the start winning memories stored in the start winning memory, the starting winning memory that becomes a big hit in the probability fluctuation state can also be determined as a big hit, so that the number of the big hits in the start winning memory can be reliably determined. Can be determined.
[0150]
In S93, a process of adding 1 to a jackpot number counter for counting the number of jackpots stored in the start winning prize memory is performed, and in S94, a process of subtracting 1 from the jackpot determination number is performed. In S95, it is determined whether or not the number of hit determinations is 0, and if it is not 0, the process returns to S86 and the same processing is repeated. For example, when the number of the memorized start winnings is four, the processes of S86 to S95 are repeated four times.
[0151]
In S96, if the value of the big hit number counter is 2 or more, the process proceeds to S97, and it is determined whether or not to perform a notice effect. Thus, when two or more start winning prize memories indicating a big hit are stored in the start winning prize memories, a notice is given. When the notice is given, a specific display mode is continuously derived. It is possible to improve the player's expectation that the information will be displayed.
[0152]
In S97, a count value is extracted from R7 (for notice determination) to determine whether or not to give a notice effect. In S98, when the count value extracted from R7 (for notice determination) is equal to the predetermined determination value, it is determined that the notice effect is to be performed, and the process proceeds to S99. In S99, the announcement effect mode corresponding to the jackpot number counter is determined. As described above, when the jackpot frequency counter is 2, when the reach state is generated in the decorative symbol variable display section 9, the character of "Yume-chan" appears, and when the jackpot frequency counter is 3 or more, the decoration Characters “Drum-kun” and “Yume-chan” appear in the variable display unit 9 for symbols. Thereby, the number of times the big hit is derived and displayed as the display result can be known depending on the type of the selected character, so that the player's interest in the notice can be improved.
[0153]
In S100, a notice effect mode command is set. In S101, the big hit counter is cleared, and in S102, the probability change flag is turned off, and this subroutine program ends.
[0154]
FIG. 18 is a flowchart showing a special symbol stop symbol setting process in the special symbol process process shown in FIG.
[0155]
In the special symbol stop symbol setting process, first, in S111, the CPU 56 checks whether or not the big hit flag is ON. If the big hit flag is ON, in S112, the big hit symbol is determined according to the count value of R3 (for big hit symbol determination) read in S53. In this embodiment, each symbol of the symbol number set in the jackpot symbol table according to the count value of R3 (for jackpot symbol determination) is determined as the jackpot symbol. In the big hit symbol table, the symbol numbers of the special symbol of the left variable display portion, the special symbol of the middle variable display portion, and the special symbol of the right variable display portion corresponding to each of a plurality of combinations of the big hit symbols are set. Then, in S113, the value of the special symbol process flag is updated to a value corresponding to the variation pattern setting process.
[0156]
On the other hand, if the big hit flag is not ON, in step S114, R5 (for reach determination) is read, and in step S115, the CPU 56 executes a reach determination process. In S116, when it is determined that the reach state is set as a result of the processing in S115, in S117, the left variable display section and the right variable display are displayed in accordance with the count value of R2-1 (for determining the left variable display section missing symbol). The special symbol to be stopped and displayed on the unit is determined, and the special symbol to be stopped and displayed on the middle variable display unit is determined according to the value of R2-2 (for determining the variable symbol for the middle variable display unit). Here, when the determined special symbol of the middle variable display unit matches the special symbol of the left variable display unit and the right variable display unit, the value of the random number corresponding to the special symbol of the middle variable display unit is “1”. The addition is performed so that the corresponding special symbol is stopped and displayed on the middle variable display portion so as not to match the big hit symbol. Then, control goes to a step S113.
[0157]
If it is determined in S116 that the vehicle is not in the reach state, a stop symbol in the case of a loss is determined in S118. Specifically, a special symbol to be stopped and displayed on the left variable display unit is determined according to the value read out in S53, that is, the count value extracted from the extracted R2-1 (for determining the left variable display unit missing symbol), A special symbol to be stopped and displayed on the middle variable display portion is determined according to the count value extracted from R2-2 (for determining a variable symbol in the middle variable display portion) and extracted from R2-3 (for determining a symbol in which the right variable display portion has shifted). The special symbol to be stopped and displayed on the right variable display section is determined according to the count value. Here, when the special symbols to be stopped and displayed on the left variable display unit and the right variable display unit match each other, the special symbol to be stopped and displayed on the right variable display unit is shifted by one symbol so that it does not reach the reach state. To Then, control goes to a step S113. In addition, in S112, when the probability change big hit symbol is determined, after the big hit game ends, the probability change flag which shows that it shifts to the probability change state is set.
[0158]
FIG. 19 is a flowchart showing the reach determination processing.
In the reach determination process, in S121, the CPU 56 determines whether or not the state at that time is being changed. If the change is being made, in S122, the CPU 56 determines whether the state in the reach determination table shown in FIG. Decide to use probability tables. If the probability is not being changed, it is determined in S123 that the low probability table in the reach determination table shown in FIG. 9B is to be used.
[0159]
Then, in S124, a process of comparing the count value of R5 extracted in S45 and read in S114 with the reach determination value in the reach determination table shown in FIG. 9B is performed. In S125, when it is determined that the count value of R5 (for reach determination) and the reach determination value match, in S126, it is determined to be in the reach state, and the count value of R5 (for reach determination) and the reach determination are determined. If the values do not match, in S127, it is determined not to reach the reach state.
[0160]
FIG. 20 is an explanatory diagram showing signal lines of display control commands transmitted from the game control microcomputer 53 mounted on the game control board 31 to the display control microcomputer 81 mounted on the display control board 80.
[0161]
As shown in FIG. 20, in this embodiment, the display control command is sent from the game control microcomputer 53 mounted on the game control board 31 to the display control board 80 by eight signal lines of display control signals CD0 to CD7. Is transmitted to the display control microcomputer 81 mounted on the PC. A strobe signal (display control INT signal) is transmitted between the game control microcomputer 53 mounted on the game control board 31 and the display control microcomputer 81 mounted on the display control board 80. The signal line of the display control INT signal is also wired. Although FIG. 20 shows an example of the display control command, control commands to other electric component control boards are also transmitted by eight signal lines and one INT signal line.
[0162]
In this embodiment, the display 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". Note that such a command form is an example, and another command form may be used. For example, a control command composed of one byte or three or more bytes may be used.
[0163]
FIG. 21 is a timing chart showing the relationship between an 8-bit control signal and an INT signal that constitute a control command.
[0164]
As shown in FIG. 21, the 8-bit display control command data of the display control command is output in synchronization with the display control INT signal. The display control microcomputer 81 mounted on the display control board 80 detects that the display control INT signal has risen, and starts a process of fetching 1-byte data by an interrupt process. Accordingly, when viewed from the display control microcomputer 81 mounted on the display control board 80, the display control INT signal corresponds to a capture signal that triggers capture of display control command data.
[0165]
The display control command is transmitted only once so that the display control microcomputer 81 mounted on the display control board 80 can recognize the display control command. Recognizable means that the level of the display control INT signal changes in this embodiment, and transmitted only once so as to be recognizable means, for example, the first and second bytes of the display control command data. The display control INT signal is output in a pulse form (rectangular wave form) only once according to each. The display control INT signal may have a polarity opposite to the polarity shown in FIG.
[0166]
FIG. 22 is an explanatory diagram showing an example of the content of a display control command transmitted to the display control microcomputer 81 mounted on the display control board 80.
[0167]
In the example shown in FIG. 22, commands 8000 (H) to 8014 (H) are display control commands for designating a special symbol variation pattern in the special symbol variable display device 9a for variably displaying 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.
[0168]
The command 88XX (H) (X = arbitrary value of 4 bits) is a display control command relating to a variation pattern of a normal symbol. The command 89XX (H) is a display control command for designating turning on and off of a normal symbol. The command 8A00 (H) is a display control command for instructing to stop variable display of a normal symbol.
[0169]
The command 90XX (H) is a display control command for designating a mode of a notice effect performed in the decorative symbol variable display unit 9. In this embodiment, since there are two types of notice effect modes, “XX” is one of 0 to 1.
[0170]
The commands 91XX (H), 92XX (H) and 93XX (H) are display control commands for designating stop symbols of the left variable display unit, the middle variable display unit and the right variable display unit of the special symbol variable display device 9a. . A symbol number is set in “XX”. The command A000 (H) is a display control command for instructing to stop the variable display of the special symbol. The command BXXX (H) is a display control command transmitted from the start of the big hit game to the end of the big hit game. The commands CXXX (H) to EXXXX (H) are display control commands related to the change of the special symbol and the display state of the special symbol variable display device 9a which is not related to the big hit game.
[0171]
The command C3XX (H) is a determination result command transmitted when a start winning has occurred. C300 (H) is a display control command for specifying a winning prize (losing prize specifying command), C301 (H) is a display control command for specifying a prize winning (reach prize specifying command), and C302 (H) is a A jackpot winning designation display control command (big hit winning designation command), and C303 (H) is a specific jackpot winning designation display control command (specific jackpot winning designation command). The command D000 (H) is a display control command for designating a customer waiting demonstration.
[0172]
The command E0XX (H) is a display control command that indicates the number of the start storage displays 18 that change the display color in the display area for displaying the number of start winning storages in the special symbol variable display device 9a. For example, the display control microcomputer 81 mounted on the display control board 80 turns on the start storage images of the start storage displays 18 of the start storage displays 18 designated by “XX (H)”. That is, the command E0XX (H) is a command for instructing the control of the display area provided for notifying the information of the number of start winning storages.
[0173]
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.
[0174]
When the display control microcomputer 81 mounted on the display control board 80 receives the above-described display control command from the game control microcomputer 53 mounted on the game control board 31, it is decorated according to the contents shown in FIG. The display states of the symbol variable display section 9 and the ordinary symbol display section 10 are changed.
[0175]
The microcomputer mounted on the lamp control board 35 and the microcomputer mounted on the sound control board 70 also transmit a lamp control command and a sound control command in the same form as the display control command. The microcomputer mounted on the lamp control board 35 changes the display state of the lamp / LED upon receiving the lamp control command, and the microcomputer mounted on the sound control board 70 receives the sound control command from the speaker 41 upon receiving the sound control command. Control is performed to change the sound output mode.
[0176]
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 a display control command for specifying the variation pattern, and the identification information capable of specifying the display result of the identification information. The designation command is realized by a display control command of left special symbol designation, middle special symbol designation, right special symbol designation, and the variable display end designation command indicating the end of variable display is realized by a special symbol stop display control command. I have. Further, in this embodiment, the display 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.
[0177]
FIG. 23 is a flowchart illustrating a main process executed by the display control CPU 101.
[0178]
In the main process, first, in Sub1, an initialization process for clearing a RAM area, setting various initial values, and initializing a 2 msec timer for determining an activation interval of display control is performed. Thereafter, in Sub2, the display control CPU 101 shifts to a loop process for confirming monitoring of the timer interrupt flag. As shown in FIG. 24, when a timer interrupt occurs, the display control CPU 101 sets a timer interrupt flag in Sub11. If the timer interrupt flag has been set in the main process, in Sub3, the display control CPU 101 clears the flag and executes the following display control process.
[0179]
In this embodiment, the timer interruption is performed every 2 msec. That is, the display control process is started every 2 msec. Further, in this embodiment, only the flag is set in the timer interrupt process, and the specific display control process is executed in the main process. However, the display control process may be executed in the timer interrupt process.
[0180]
In the display control process, in Sub4, the display control CPU 101 analyzes the received display control command (command analysis process). Details of this processing will be described later with reference to FIGS. 26 and 27.
[0181]
Next, in Sub5, the display control CPU 101 performs a display control process. In the display control process, a process corresponding to the current control state is selected and executed from among the processes corresponding to the control state. Then, in Sub6, a process of updating the notice random number counter is executed. Thereafter, the flow returns to the processing for checking the timer interrupt flag of Sub2.
[0182]
Next, a process of receiving a display control command from the game control microcomputer 53 mounted on the game control board 31 will be described.
[0183]
FIG. 25 is an explanatory diagram showing a configuration example of a command receiving buffer for storing a display control command received from the game control microcomputer 53 mounted on the game control board 31.
[0184]
In this embodiment, a ring-buffer-type command reception buffer capable of storing six 2-byte display control commands 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 designation command storage areas (2 × 3 = 6 bytes of command reception buffer) and one other command storage 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 microcomputer mounted on the sound control board 70 or the microcomputer mounted on the lamp control board 35 may have a buffer format other than the ring buffer format. In this case, the display control microcomputer 81 mounted on the display control board 80, the microcomputer mounted on the sound control board 70, and the microcomputer mounted on the lamp control board 35 are stored in a storage area such as a fluctuation pattern. Is controlled based on the latest command. Thus, it is possible to quickly respond to an instruction from the game control microcomputer 53 mounted on the game control board 31.
[0185]
FIGS. 26 and 27 are flowcharts showing a specific example of the command analysis process in the display control main process shown in FIG.
[0186]
The display control command received from the game control microcomputer 53 mounted on the game control board 31 is stored in the reception command buffer. In the command analysis process, the display control CPU 101 is stored in the command reception buffer. Check the contents of the command.
[0187]
In the command analysis process, first, in Sub21, the display control CPU 101 checks whether or not a received command is stored in the command receiving buffer. 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. In Sub22, when the received command is stored in the command receiving buffer, the display control CPU 101 reads the received command from the command receiving buffer. After reading, the value of the read pointer is incremented by "1".
[0188]
In Sub23, when it is determined that the received display control command is a display control command (91XX (H)) for designating a special symbol to be stopped and displayed on the left variable display unit, the display control CPU 101 determines in Sub24 that "XX Is stored in the left special symbol storage area in the RAM. In Sub25, if it is determined that the received display control command is a special symbol designating display control command (92XX (H)) to be stopped and displayed on the middle variable display unit, the display control CPU 101 in Sub26, Data indicating a special symbol to be stopped and displayed on the middle variable display portion indicated by “XX” is stored in the middle special symbol storage area in the RAM. If it is determined in Sub 27 that the received display control command is a display control command (93XX (H)) for designating a special symbol to be stopped and displayed on the right variable display unit, the display control CPU 101 in Sub 28 , And "XX" are stored in the right special symbol storage area in the RAM.
[0189]
If it is determined in Sub 29 that the received display control command is a display control command for specifying a variation pattern, in Sub 30, the display control CPU 101 stores the EXT data of the command in the variation pattern data storage area. , Sub31, a variation pattern reception flag is set.
[0190]
If it is determined in Sub 29 that the received display control command is not a display control command for specifying a fluctuation pattern, it is determined in Sub 32 whether the received display control command is a display control command for specifying start winning prize storage number. I do. If it is determined that the received display control command is the display control command for specifying the number of stored start winnings, the display control CPU 101 in Sub33 specifies the number of stored start winnings in the number-of-started winnings storage area in the RAM 101a by the display control command. Update to the number. In Sub 34, the number of start storage indicators 18 is updated.
[0191]
When it is determined in Sub 35 that the received display control command is a notice pattern designating command, in Sub 36, the display control CPU 101 stores the notice pattern in the RAM 101 a, and in Sub 37, sets a notice flag. It is. In Sub 38, it is determined what the received command is, a corresponding flag is set, and the process returns to Sub 21.
[0192]
FIG. 28 is an explanatory diagram showing an example of a variation pattern table used when making continuous announcements in the decorative symbol image display unit 9.
[0193]
In this embodiment, a variation pattern table 1 selected when a determination result command for designation of loss winning has been received, and a variation pattern table 2 selected when a determination result command for designation of reach winning has been received. And a fluctuation pattern table 3 selected when the determination result command of the jackpot winning designation is received, and a fluctuation pattern table 4 selected when the determination result command of the probability change winning designation is received. There is a variation pattern table 5 that is selected when the notice is not executed. In the variation pattern table, 15 types of variation patterns are set in advance corresponding to the types of the variation pattern commands from the game control microcomputer 53 mounted on the game control board 31. The variation pattern of the decorative symbol is a variation pattern for varying the decorative symbol in association with the variation of the special symbol based on the variation pattern command during the variation time indicated by the corresponding variation pattern command. For example, the decoration pattern fluctuation pattern corresponding to the fluctuation pattern command designating the reach A is set so as to represent the reach mode by the decoration pattern fluctuation display.
[0194]
The decorative symbol variation pattern tables 1 to 4 are selected when executing a continuous notice, and the variation display of the decorative symbols based on the variation patterns set in the decorative symbol variation pattern tables 1 to 4 is also used as a preview effect. That is, a preview effect as a specific effect by displaying the decorative symbol in a display mode different from the normal display is executed. Therefore, the variation patterns set in the decorative symbol variation pattern tables 1 to 4 selected when the continuous announcement is performed are set in the decorative symbol variation pattern table 5 selected when the continuous announcement is not performed. It is created so that a variety of effects can be made in comparison with the fluctuation patterns.
[0195]
Note that a plurality of variation patterns of the decoration symbol corresponding to the type of the variation pattern command from the game control microcomputer 53 mounted on the game control board 31 may be set in each decoration symbol variation pattern table. In this case, for example, the variation pattern of the decorative design to be used may be determined using random numbers.
[0196]
FIG. 29 is a flowchart illustrating an example of the decorative symbol variation pattern table setting process.
[0197]
In the decoration design variation pattern table setting process, in Sub41, the display control CPU 101 selects a decoration design variation pattern table to be used according to the determination result in the display result analysis process. Then, in Sub42, the display control CPU 101 sets the selected decorative design variation pattern table as a use table.
[0198]
FIG. 30 is a flowchart showing the display control process in the display control main process.
[0199]
In the display control process, one of Sub 500 to Sub 506 is performed according to the value of the display control process flag. In each process, the following process is performed.
[0200]
In Sub 500, a fluctuation pattern command reception waiting process is performed. In the variation pattern command reception waiting process, it is confirmed whether or not a display 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 fluctuation pattern reception flag is set when it is confirmed by the command analysis processing that the display control command for specifying the fluctuation pattern has been received.
[0201]
In Sub 501, a decorative symbol effect setting process is performed. In the decoration symbol effect setting process, a stop symbol and a variation pattern of the decoration symbol are determined. The stop symbol of the decorative symbol is a symbol combination that matches the stop symbol of the special symbol. The variation pattern of the decorative symbol is determined to match the variation pattern of the special symbol indicated by the variation pattern command for the variation time of the special symbol.
[0202]
In Sub502, a symbol variation start process is performed. In the symbol change start process, control is performed so that the change of the special symbol is started. Also, control is performed so that the change of the decorative symbol is started.
[0203]
In Sub 503, a symbol change process is performed. In the process during symbol fluctuation, the switching timing of each fluctuation state (fluctuation speed) constituting the fluctuation pattern is controlled, and the end of the fluctuation time is monitored. In addition, stop control of left and right special symbols is performed.
[0204]
In Sub 504, a symbol stop waiting process is performed. In the symbol stop waiting process, if a display control command instructing a symbol stop (a special symbol stop display control command) is received at the end of the variable time, the symbol change is stopped and a stopped symbol (fixed symbol) is displayed. Perform control.
[0205]
In Sub 505, a jackpot display process is performed. In the big hit display processing, after the end of the fluctuation time, the control of the probability change big hit display or the big hit display is performed.
[0206]
In Sub 506, a jackpot game process is performed. In the big hit game processing, control during the big hit game is performed. For example, when a display control command for display before opening the special winning opening or display when the special winning opening is opened is received, display control of the number of rounds is performed.
[0207]
FIG. 31 is an explanatory diagram illustrating a configuration example of process data set for each variation pattern table.
[0208]
The process data is configured by data in which a plurality of combinations of the process timer set value and the display control execution data are collected. In each display control execution table, a special symbol control execution data in which each variation mode constituting the variation pattern of the special symbol is described, and a decoration in which each variation mode constituting the variation pattern of the decoration symbol are described. Symbol control execution data. In the process timer set value, a variation time in the variation mode is set. The display control CPU 101 refers to the process data and performs control to variably display the special symbols and decorative symbols in the variation mode set in the display control execution table for the time set in the process timer set value.
[0209]
The process data shown in FIG. 31 is stored in the ROM of the display control microcomputer 81 mounted on the display control board 80. Process data is prepared according to each of the variation patterns. Further, the process data is prepared according to each combination of each variation pattern of the special symbol and each variation pattern of the decoration symbol. Also, it is prepared according to the type of the announcement production.
[0210]
FIG. 32 is a flowchart showing a variation pattern command reception waiting process in the display control process process shown in FIG.
[0211]
In the fluctuation pattern command reception waiting process, in Sub51, the display control CPU 101 checks whether or not the fluctuation pattern reception flag has been set. If it is set, the flag is reset in Sub52. Then, in Sub53, the value of the display control process flag is changed to a value corresponding to the decorative symbol effect setting processing.
[0212]
FIG. 33 is a flowchart showing a decorative symbol effect setting process in the display control process process shown in FIG.
[0213]
In the decoration symbol effect setting process, in Sub61, the display control CPU 101 determines a stop symbol of the decoration symbol. At this time, the stop symbol of the decorative symbol is determined so as to match the variation mode of the special symbol based on the variation pattern command. Next, in Sub62, a variation pattern of the decorative symbol is determined. In this embodiment, a variation pattern provided in correspondence with a variation pattern command is provided in a decorative pattern variation pattern table set as a use table. Therefore, the variation pattern of the decorative symbol provided corresponding to the variation pattern of the special symbol based on the received variation pattern command is determined. Then, in Sub63, the value of the display control process flag is changed to a value corresponding to the symbol variation start process.
[0214]
FIG. 34 is a flowchart showing a symbol change start process in the display control process process shown in FIG.
[0215]
In the symbol variation start process, first, in Sub 71, the display control CPU 101 selects process data to be used. Next, in Sub72, the process timer set at the beginning of the selected process data is started, and in Sub73, the special symbol is changed and displayed according to the contents of the special symbol control execution data 1, and in Sub74, the decorative symbol control is performed. The LCD 9 is controlled in accordance with the contents of the execution data 1 so as to perform a variable display of the decorative symbol. Then, in Sub75, the variable time timer is started, and in Sub76, the value of the display control process flag is set to a value corresponding to the symbol change processing.
[0216]
FIG. 35 is a flowchart showing the symbol change process in the display control process process shown in FIG.
[0219]
In the symbol change processing, in Sub81, the display control CPU 101 checks whether or not the notice start time determination timer has timed out. If the time-out has occurred, it is determined in Sub 82 whether or not the notice flag is ON. If it is determined that the notice flag is ON, the VDP 103 is controlled in Sub83 so that the display based on the notice effect mode determined in S99 of FIG. 17 is performed. As described above, when the jackpot number counter is 2, the character “Yume-chan” appears in the decorative symbol variable display section 9, and when the jackpot number counter is 3 or more, the decorative symbol variable The characters “drum-kun” and “dream-chan” appear on the display unit 9.
[0218]
In Sub84, when the process timer times out, the display control CPU 101 switches the display control execution data in Sub85. That is, in the process data, the process timer set next is started, and the VDP 103 is controlled according to the content of the display control execution data set next. Therefore, the VDP 103 controls the display state of the decorative symbol image display unit 9 according to the contents of the display control execution table. If the fluctuation time timer has timed out in Sub86, a monitoring timer for monitoring the reception of the special symbol stop display control command is started in Sub87, and in Sub88, the value of the display control process flag is changed to the all symbol stop wait processing. To a value corresponding to.
[0219]
FIG. 36 is a flowchart showing the all symbol stop waiting process in the display control process process shown in FIG.
[0220]
In the all symbol stop waiting process, in Sub91, the display control CPU 101 checks whether or not a display control command instructing to stop all symbols (a special symbol stop display control command) has been received. If the display control command instructing the stop of all the symbols is received, in Sub92, the control for stopping the symbols with the stored stop symbols is performed. If it is determined in Sub 95 that the displayed symbol is a big hit symbol, in Sub 96, the display control CPU 101 sets the value of the display control process flag to a value corresponding to the big hit display process. Further, the number of start storage images displayed on the start storage display 18 displayed on the decorative symbol variable display section 9 is increased from four to ten. In Sub95, when it is determined that the displayed symbol is not a big hit symbol (when a lost symbol is displayed), in Sub97, the display control CPU 101 changes the value of the display control process flag to the fluctuation pattern command reception waiting process. Set to a value.
[0221]
If a display control command designating all symbol stops has not been received, it is checked in Sub93 whether the monitoring timer has timed out. If a timeout occurs, it is determined that some abnormality has occurred, and in Sub94, control is performed to display an error screen on the decorative symbol variable display unit 9. Then, the flow shifts to Sub95.
[0222]
Next, modified examples and features of the present embodiment described above are listed below.
(1) In the above-described embodiment, the number of start winning prizes that can be stored increases when a big hit occurs. However, the present invention is not limited to this. For example, the number of start winning prizes that can be stored when a probability change big hit occurs may be increased, or the number of start winning prizes that can be stored during a short time when the time of variable display is controlled to be short may be increased.
[0223]
(2) In the above-described embodiment, an example in which a notice effect is performed when there is a starting winning memory indicating that two or more specific display modes are included in the starting winning memory has been described. Not limited. For example, even when only one start winning memory indicating that a particular display mode is included in the starting winning memory is included, a fake announcement effect of giving a continuous announcement of a particular display mode is provided. You may make it. According to this, the frequency of occurrence of the notice increases, and the sense of expectation of the player can be improved.
[0224]
(3) It should be understood that the embodiments disclosed this time are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko gaming machine 1 as an example of a gaming machine according to the present invention and a card unit installed corresponding thereto.
FIG. 2 is a front view showing a game board surface.
FIG. 3 is a block diagram showing an example of a circuit configuration in the game control board.
FIG. 4 is a block diagram showing a circuit configuration in a display control board together with an LCD for realizing image display.
FIG. 5 is a screen diagram for explaining a notice effect.
FIG. 6 is a screen diagram for explaining a notice effect.
FIG. 7 is a screen diagram for explaining a notice effect.
FIG. 8 is an explanatory diagram of each random number.
FIG. 9 is an explanatory diagram showing an example of a big hit determination table used in the big hit determination process and an example of a reach determination table used in the reach determination process.
FIG. 10 is a flowchart showing a game control main process executed by the game control microcomputer.
FIG. 11 is a flowchart showing a 2 msec timer interrupt process executed by the game control microcomputer.
FIG. 12 is a flowchart showing a special symbol process executed by the game control microcomputer.
FIG. 13 is an explanatory diagram illustrating an example of a fluctuation pattern.
FIG. 14 is a flowchart showing a start-port switch passing process in the special symbol process process shown.
FIG. 15 is a flowchart showing a special symbol normal process in the special symbol process process.
FIG. 16 is a flowchart showing a jackpot determination process.
FIG. 17 is a flowchart showing a notice determination process in the special symbol normal process.
FIG. 18 is a flowchart showing a special symbol stop symbol setting process in the special symbol process process.
FIG. 19 is a flowchart illustrating a reach determination process.
FIG. 20 is an explanatory diagram showing signal lines of a display control command transmitted from the game control microcomputer mounted on the game control board to the display control microcomputer mounted on the display control board.
FIG. 21 is a timing chart showing the relationship between an 8-bit control signal and an INT signal that constitute a control command.
FIG. 22 is an explanatory diagram showing an example of the content of a display control command transmitted to a display control microcomputer mounted on a display control board.
FIG. 23 is a flowchart illustrating a main process executed by a display control CPU.
FIG. 24 is a flowchart showing a timer interrupt process.
FIG. 25 is an explanatory diagram showing one configuration example of a command receiving buffer for storing a display control command received from a game control microcomputer mounted on a game control board.
FIG. 26 is a flowchart illustrating a specific example of a command analysis process in a display control main process.
FIG. 27 is a flowchart illustrating a specific example of a command analysis process in a display control main process.
FIG. 28 is an explanatory diagram showing an example of a fluctuation pattern table used when making continuous announcements on the decorative symbol image display unit.
FIG. 29 is a flowchart illustrating an example of a decorative symbol variation pattern table setting process.
FIG. 30 is a flowchart showing a display control process in the main process.
FIG. 31 is an explanatory diagram showing a configuration example of process data set for each variation pattern table.
FIG. 32 is a flowchart showing a variation pattern command reception waiting process in the display control process process.
FIG. 33 is a flowchart showing a decorative symbol effect setting process in the display control process process.
FIG. 34 is a flowchart showing a symbol change start process in the display control process process.
FIG. 35 is a flowchart showing a symbol change process in the display control process process.
FIG. 36 is a flowchart showing an all symbol stop waiting process in the display control process process.
[Explanation of symbols]
1 pachinko gaming machine, 8 variable display device, 9 decorative design variable display unit, 9a special design variable display device, 10 normal symbol display unit, 11 passage opening, 12 gate switch, 14 starting opening, 15 passage storage display, 17 starting port switch, 18 starting memory display, 19 variable winning ball device, 20 opening and closing plate, 22 V count switch, 23 count switch, 53 game control microcomputer, 55 RAM, 81 display control microcomputer, 86 character ROM.

Claims (7)

A variable display device capable of variably displaying a plurality of types of identification information each of which can be identified based on a variable display start condition being satisfied after a predetermined variable display execution condition has been satisfied, and a display result of the variable display Is a gaming machine that is controlled to a specific game state advantageous to the player when a predetermined specific display mode is set,
Numerical data extracting means for extracting numerical data from the numerical data updating means for updating the numerical data according to satisfaction of the execution condition of the variable display,
The numerical data extracted by the numerical data extracting means in accordance with the execution condition that the variable display start condition is not satisfied although the execution condition of the variable display is satisfied but the predetermined condition is not satisfied. Hold data storage means capable of storing up to
When the variable display start condition is satisfied, the hold data stored in the hold data storage unit is read out according to the stored order, and the display result of the variable display corresponding to the read hold data is displayed in the specific display. Display result determination means for determining whether to make the mode,
Variable display control means for performing variable display control of the variable display device based on the determination result of the display result determination means,
Holding data updating means for deleting the holding data read from the holding data storage means and used for the determination by the display result determining means,
Calculating means for calculating the number of pieces of pending data indicating that the display mode is to be changed to the specific display mode as a display result of the variable display, among the pending data stored in the pending data storage means;
When the number of the hold data calculated by the calculation means is a specific number or more, a notice determination means for deciding whether or not to notify that effect,
The variable display control means, when it is determined by the notice determination means to make a notice, first stores, among the hold data indicating that the particular display mode is stored in the hold data storage means, A gaming machine, wherein the advance notice is given by displaying a predetermined special mode before the display result of the variable display based on the held data is derived and displayed. The display result determination means determines that, when the hold data stored in the hold data storage means matches a predetermined determination value, the display result corresponding to the hold data is set to the specific display mode. And
When the display result of the variable display becomes a predetermined special display mode among the specific display modes, the display result determination unit responds to the suspension data by increasing the number of the determination values. Further includes a probability improvement control unit that controls the display result to be in the probability improvement state in which the probability of deciding to set the specific display mode is improved,
The calculating unit, when there is pending data corresponding to deriving and displaying the special display mode among the pending data stored in the pending data storage unit, the pending data stored next to the pending data is stored. 2. The data according to claim 1, wherein, using data, the number of determination values corresponding to the probability improvement state is used to determine whether a display result of the variable display is in the specific display mode. 3. Gaming machine. The notice determining means performs a variable display control in which the number of pending data calculated by the calculating means is the specific plurality or more, and the variable display device derives and displays the special display mode as a display result. The gaming machine according to claim 2, wherein when the notification is made, it is determined to execute the notice. 4. The special mode according to claim 1, wherein the special mode is a predetermined special reach state that is used only when the execution of the advance notice is determined by the advance decision means. The gaming machine described in Crab. The notice determining means does not decide to give a new notice until the variable display control for displaying the special mode based on the decision after the decision to make the notice is completed. A gaming machine according to any one of claims 1 to 4. Special mode storage means for storing a plurality of types of the special mode,
Special mode selecting means for selecting a predetermined special mode corresponding to the number of pending data calculated by the calculating means from a plurality of types of special modes stored in the special mode storage means. ,
The gaming machine according to any one of claims 1 to 5, wherein the variable display control means displays a special aspect selected by the special aspect selecting means. 7. The gaming machine according to claim 1, further comprising a storage number control unit that increases the upper limit number based on a predetermined condition.

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