JP2004261262A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine for performing a predicting rendition in a proper timing. <P>SOLUTION: When the performance of a big win prediction in a case where a win is not finally obtained without realizing the big win prediction is determined, a general control board sets predicting rendition times F2 for indicating big win prediction performance frequency. The general control board also determines a rendition contents pattern having the big win prediction, in response to the predicting rendition times F2 whenever a rendition pattern designating command is inputted (step S49). In this case, the general control board sets "one" for a prediction flag YF which indicates that the big win prediction is performed (step S48). When the big win prediction is performed in a preceding symbol combination game (the prediction flag YF is 1), and also when a big win rendition is acquired in a present picture pattern combination game, the general control board determines the rendition contents pattern having the big win prediction even when the predicting rendition times F2 is not set (step S53). <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine capable of performing a notice effect.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a pachinko machine, which is a kind of gaming machine, a notice effect in which a jackpot notice is continuously executed across a plurality of symbol combination games (hereinafter, such notice effect is referred to as "continuous notice") is performed. ing. This continuous notice, from several symbol combination games performed before the symbol combination game in which the jackpot effect may be performed, performs a jackpot notice by a specific effect once in one symbol combination game, The big hit notice is made continuous over several symbol combinations. With the appearance of the continuous notice, the player can keep the expectation of a big hit over a plurality of symbol combination games. By the way, the continuous announcement is a case where the jackpot announcement is realized and becomes a big hit in the symbol combination game several times ahead of its appearance, and a case where the continuous announcement ends without the big hit being realized and the big hit is not realized was there. The former continuous announcement, as a result, means that a jackpot effect (an effect in which the symbol combination game is finally developed so as to stop at the jackpot combination) will be announced. On the other hand, in the latter continuous announcement, although it is announcing that a big hit effect will be performed, the symbol combination which can recognize the loss stops as a result, so that it is a gaseous continuous announcement. The reason why the continuous announcement is performed is that if the continuous announcement is set to be executed in the case of a big hit, the player can recognize the big hit when the continuous announcement appears, or the continuous announcement is executed This is because there is a possibility that the interest rate of the game may be killed due to a decrease in the ratio of the game.
[0003]
Such a continuous notice is proposed, for example, in the invention described in Patent Document 1. In Patent Literature 1, when the symbol display device inputs a preview signal from the main control unit, a preliminary lottery with a high probability of lottery is performed, so that the main control unit can continuously output the preview signal (under a prize). In the case of), a continuous notice is likely to appear. In Patent Literature 1, in the continuous announcement performed by lottery based on the input of the announcement signal, the jackpot announcement is realized and the jackpot is realized. On the other hand, in Patent Literature 1, when the symbol display device does not input a preview signal, a preview lottery with a low probability of lottery is performed. When the low-probability notice lottery is won, the number of notices is randomly set between 1 and 4, and until the number of notices becomes 0 (zero), the high-precision notice lottery is performed. Because of this, continuous notices are more likely to appear. In this case, the continuous notice is a continuous notice because the symbol display device does not input the notice signal.
[0004]
[Patent Document 1]
JP-A-2002-85731
[0005]
[Problems to be solved by the invention]
By the way, in Patent Literature 1, if the symbol display device is set so as to always execute the continuous notice when the notice signal is input, a big hit will not occur unless the continuous notice is executed. Therefore, in Patent Document 1, it is configured to determine whether or not to execute the continuous announcement by lottery, and a case where the continuous announcement is executed and a big hit is generated, and a case where the continuous announcement is not executed and a big hit is generated. ing. However, if it is determined by lottery whether or not to execute the continuous announcement, according to the result of the lottery, after the consecutive announcement of the gasse, there is no advance notice in the next symbol combination game, and a big hit production Could have been done. In this case, the jackpot effect is not performed even if the continuous notice appears, but the jackpot effect is performed without any notice, so it is difficult to say that the timing at which the continuous notice was executed was appropriate. .
[0006]
The present invention has been made in view of the problems existing in the conventional technology, and an object of the present invention is to provide a gaming machine capable of executing a notice effect at an appropriate timing.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 includes a holding ball number storage unit capable of storing the number of starting holding balls when a winning ball is detected by the winning detection unit, and at least a game effect. Pattern determining means for determining an effect pattern that can specify the effect content of the game effect, and determining whether or not to execute a notice effect in the game effect, and when the judgment result is affirmative, the storage number of the starting hold ball Notice determining means for determining the number of executions of the notice effect based on the game effect, and effect determining means for determining whether or not the effect contents of the game effect based on the effect pattern determined by the pattern determining means are specific effect contents Notice execution determining means for determining whether or not the notice effect has been executed in the last game effect performed immediately before the game effect; and A control is performed to execute the announcement effect according to the number of times, and when the number of executions is not determined, the announcement effect is executed when both the determination results of the effect determination unit and the announcement execution determination unit are positive. And a notice control means for performing control for causing the notice to be provided.
[0008]
According to a second aspect of the present invention, there is provided a game machine comprising: a main control means for controlling the entire game machine; and a sub-control means capable of executing various controls relating to game effects based on a control signal output from the main control means. In the above, the main control means, when the winning detection of the game ball by the prize detection means triggered the storage number of storage balls that can store the number of storage of the start holding ball, and at least an effect pattern that can specify the effect of the game effect Pattern determining means for determining, and a signal output means for outputting to the sub-control means a reserved ball number signal indicating the number of stored start-reserved balls and a pattern signal indicating the effect pattern, wherein the sub-control means In response to the input of the reserved ball number signal, it is determined whether or not to execute a notice effect in the game effect, and if the determination result is affirmative, the reserved ball number signal is used. Notice determining means for determining the number of executions of the notice effect based on the number of stored start-hold balls, and whether the effect contents of the game effect based on the effect pattern instructed by the pattern signal are specific effect contents. Effect determination means for determining whether or not the notice effect has been performed; notice execution determination means for determining whether or not the notice effect has been executed in a previous game effect performed immediately before the game effect; and the number of executions determined. In such a case, control is performed to execute the notice effect in accordance with the number of executions. If the number of executions is not determined, the result of the effect determination means and the result of the notice execution determination means are both positive. The gist of the invention is to provide a notice control means for controlling the execution of the notice effect.
[0009]
According to a third aspect of the present invention, in the gaming machine according to the first or second aspect, the specific effect content is an effect content of a jackpot effect that is developed so as to finally stop at a jackpot combination. And a specific reach effect, and at least one of the effect contents of the off-state effect that is developed so as to finally stop at the off-state combination.
[0010]
According to a fourth aspect of the present invention, in the gaming machine according to any one of the first to third aspects, the game machine further includes an execution number setting unit that can set an execution number of the notice effect to the setting unit, The notice control means performs control to execute the notice effect in accordance with the number of executions when the number of executions is set in the setting means, and when the number of executions is not set in the setting means, The gist of the invention is that the control is performed such that the announcement effect is executed when the judgment results of the effect judgment means and the notice execution judgment means are both positive.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
(1st Embodiment)
Hereinafter, a first embodiment in which the present invention is embodied in a pachinko gaming machine (hereinafter, referred to as a “pachinko machine”), which is a kind thereof, will be described with reference to FIGS.
[0012]
FIG. 1 schematically shows the front side of a pachinko machine 10, and a vertical rectangular middle frame 12 for setting various game components is opened and closed on the front side of an opening of an outer frame 11 forming an outer shell of the machine. And it is assembled detachably. On the front side of the middle frame 12, a front frame 14 provided with a glass frame for see-through protection of a game board 13 arranged inside the machine and an upper ball tray 15 are both openably opened and closed in a horizontally opened state. . The front side of the front frame 14 and the game area 13a of the game board 13 are turned on (flashing) or turned off in accordance with the state of various games (symbol change, big hit state, etc.), and a game effect based on light emission decoration (light emission effect). A frame lamp (light emitting effect device) 16 and a game board lamp (light emitting effect device) 17 are provided. Below the outer frame 11 (below the pachinko machine 10), a speaker (sound production device) 18 that outputs various sounds according to the state of the game and performs a game effect (sound effect) based on the sound output is arranged. ing. A lower ball tray 19 and a firing device 20 are mounted on a lower portion of the middle frame 12.
[0013]
At a substantially center of the game area 13a of the game board 13, a variable display device (display effect device) 21 having a visible display portion H formed of a liquid crystal screen is provided. In the liquid crystal variable display device 21, a game effect (display effect) based on the fluctuating image (or image display) is performed. Then, in the variable display device 21, in relation to the display effect, a symbol combination game (variable symbol effect) in which a plurality of types of symbols (identification information) are varied in a plurality of columns to derive a symbol combination is performed. ing. In the present embodiment, a combination of three columns of symbols is derived in the symbol combination game, and eight types of symbols of 0,1,2,3,4,5,6,7 in each column constituting the combination are derived. It is a number.
[0014]
Then, the player can recognize a big hit or a miss from the symbol combination finally stopped (determined stop display) on the visible display portion H. When the symbols in all rows stopped on the visible display portion H are of the same type, the big hit can be recognized from the symbol combination (eg, [111] [777]). A symbol combination that can recognize this big hit is a big hit combination. When the player stops at the jackpot combination, a jackpot state (special game state) is given to the player. In the case where the symbols in all rows stopped on the visible display portion H are of a different type, or when the symbols in one row are of a type different from the symbols forming the reach, the symbol combinations ([234], [122], and [767]) ]) Can be recognized. A symbol combination that can recognize this loss is a loss combination. Further, in the present embodiment, the symbols are temporarily stopped (temporarily stopped and displayed) in the order of the left row → the right row → the middle row when viewed from the player side. If the left symbol and the right symbol, which have been stopped once, are of the same type, the reach can be recognized from the symbol combination (“↓” indicates variable display, such as [1 ↓ 1]).
[0015]
Below the variable display device 21, a start winning port 23 provided with an opening / closing blade 22 that opens and closes by operating an actuator (solenoid, motor, or the like) not shown is provided. Behind the starting winning port 23, a starting winning port sensor SE1 (shown in FIG. 3) for detecting a winning game ball is provided. The starting winning port 23 can give a starting condition of the symbol combination game (a starting condition of symbol variation) upon detection of a winning of a game ball. Below the start winning opening 23, there is provided a winning opening 24 provided with a winning opening door 24a which opens and closes by the operation of an actuator (solenoid, motor, etc.) not shown. The special winning opening 24 is derived by the symbol combination game, and the special winning combination door 24a opens and closes and is opened or closed in association with the finally stopped symbol combination becoming a big hit combination. ing. When the big hit state is given, the big winning opening 24 is opened and closed by the opening and closing operation of the big winning opening door 24a, so that the game balls can be won, so that the player has a chance to acquire a large number of winning balls. be able to.
[0016]
Also, the variable display device 21 notifies the number of held symbol combination games based on the stored number of start-reserved balls (hereinafter referred to as “reserved stored number”) stored inside the machine (RAM 26c). A number indicator 25 is provided (FIG. 2). The retained memory number is incremented by 1 (+1) when a game ball wins in the starting winning opening 23, and decremented by 1 (-1) when the symbol combination game starts, and the gaming ball wins in the starting winning opening 23 during the symbol combination game. Then, the number of pending storages is further added and accumulated up to a predetermined upper limit value (4 in this embodiment). The reserved ball number display 25 is composed of a plurality (four) of light emitting means including a reserved 1 lamp 25a, a reserved 2 lamp 25b, a reserved 3 lamp 25c, and a reserved 4 lamp 25d. For example, when only the hold 1 lamp 25a is lit, it indicates that one symbol combination game is on hold.
[0017]
Next, a control configuration of the pachinko machine 10 will be described with reference to FIG.
On the back side of the pachinko machine 10, a main control board (main control unit) 26 as main control means for controlling the entire gaming machine is mounted. The main control board 26 performs various processes for controlling the entire gaming machine, and performs various control commands according to the processing results. Then, the main control board 26 outputs the control command as a predetermined control signal. A display control board (display control unit) 27 for controlling the variable display device 21 is mounted on the back side of the machine. On the back side of the machine, a lamp control board (light emission control unit) 28 for controlling the frame lamp 16, the game board lamp 17, and the reserved ball number display 25 is mounted. An audio control board (audio control unit) 29 for controlling the speaker 18 is mounted on the back side of the machine.
[0018]
On the back side of the machine, a general control board (general control) that controls the display control board 27, the lamp control board 28, and the audio control board 29 based on a control signal (control command) output from the main control board 26. Part) 30 is mounted. The general control board 30 executes various processes in order to control each of the control boards 27 to 29 collectively, and outputs a control command as a predetermined control signal. The control boards 27 to 29 receive various control signals (control commands) output from the main control board 26 and various control signals (control commands) output from the overall control board 30, and receive the control signals (control commands). ) To control the game effect.
[0019]
In the present embodiment, the display control board 27, the lamp control board 28, and the audio control board 29 serve as an effect control unit that controls the effect devices (the variable display device 21, the frame lamp 16, the game board lamp 17, and the speaker 18). The control board 30 serves as an overall control unit that comprehensively controls each of the effect control units. In the present embodiment, the display control board 27, the lamp control board 28, the audio control board 29, and the overall control board 30 perform various controls (displays) based on control signals output from the main control means (main control board 26). The sub-control means (enclosed by a broken line in FIG. 3) which can execute control, light emission control, voice control, notification control, and notice control is configured.
[0020]
Hereinafter, specific configurations of the main control board 26, the display control board 27, the lamp control board 28, the audio control board 29, and the general control board 30 will be described.
The main control board 26 includes a main CPU 26a, and a ROM 26b and a RAM 26c are connected to the main CPU 26a. The main CPU 26a includes various types of random numbers such as a random number for a jackpot determination (random number for a determination), a random number for a jackpot symbol, a random number for a reach determination, a random number for a missing left symbol, a random number for a missing symbol, a random number for a missing right symbol, and an effect pattern distribution random number. The value of the random number is sequentially updated at predetermined intervals, the updated value is set in the RAM 26c, and the value before the update is rewritten. Hereinafter, the big hit determination random number is referred to as “big hit random number”. The ROM 26b stores a control program for controlling the pachinko machine 10 and a plurality of types of effect patterns. The RAM 26c stores (sets) various kinds of information (such as the number of reserved storages and the value of random numbers) that can be appropriately rewritten during the operation of the pachinko machine 10. In the present embodiment, the ROM 26b is an effect pattern storage unit that stores an effect pattern.
[0021]
The effect pattern indicates a pattern serving as a base of a game effect (display effect, light-emitting effect, sound effect) from the start of the symbol change to the stop of the symbols (or symbol combinations) in all rows. . In the effect pattern, the time of the game effect is determined for each effect pattern, and at least the time of the game effect can be specified. The effect patterns are classified into a jackpot effect, an out-of-reach effect with reach, and an out-of-effect effect without reach, and are stored in the ROM 26b. FIG. 4A illustrates the effect patterns P1 and P2 for the jackpot effect stored in the ROM 26b, the effect patterns P3 and P4 for the off-state effect with reach, and the effect pattern P5 for the off-state effect without reach. Have been. In the present embodiment, the effect patterns are classified into a jackpot effect, an out-of-reach effect with reach, and an out-of-effect effect without reach, so that the type of the effect pattern (P1 or P2 , P3, P4, or P5), the effect contents of the game effect can be specified.
[0022]
The big hit effect is an effect that is developed so that the symbol combination game stops at the big hit combination. When the symbol combination game is performed in the effect pattern for the jackpot effect, the game may stop at the jackpot combination after the reach effect, or may stop at the jackpot combination without the reach effect. The loss effect is an effect developed so that the symbol combination game is stopped at the combination of the loss. When a symbol combination game is performed in an effect pattern for a loss effect, the game may stop at a loss combination after reaching a reach effect (a so-called loss reach) or may stop at a loss combination without going through a reach effect. In the present embodiment, the case of stopping in a combination of out-of-reach after reaching a rendition is used as an effect pattern for a out-of-reach effect with reach, and the case of stopping in a combination of out-of-reach without going through a reach effect is used for out-of-reach effect without reach. It is a pattern.
[0023]
The reach effect is an effect performed from the reach state to the stop or the temporary stop of the combination of the jackpot or the loss. In the present embodiment, in the game effect (display effect) based on the effect pattern P3 for the out-of-reach effect, a reach effect that develops into two stages (normal reach effect → develops into a super reach effect) is performed. Outcome combinations are derived as a result of the reach effect. In the present embodiment, the reach effect that develops into the two stages is a specific reach effect. Also, in the game effect (display effect) based on the effect pattern P4 for the out-of-reach effect, the reach effect is not developed (normal reach effect only), and a combination of out-of-touch effects is derived as a result of the reach effect. Has become. In this way, by developing the content of the reach production into a plurality of stages, it is possible to change the expectation of the jackpot that the player has, and the post-development performance is compared to the pre-development performance (normal reach production). Directing (super-reach directing) can increase the expectation of big hits.
[0024]
Then, the main CPU 26a inputs the detection signal output by the winning detection means constituted by the starting winning opening 23 and the starting winning opening sensor SE1, and performs various processings related to the symbol combination game (determination of the number of retained storage, determination of the big hit, Reach determination, determination of a stop symbol, determination of an effect pattern, etc.).
[0025]
The determination of the number of reserved storages is performed based on the processing of the number of reserved storages shown in FIG. 5, triggered by the input of the detection signal. In the pending storage number process, the main CPU 26a determines whether the pending storage number stored in the RAM 26c is less than an upper limit value (4 in the present embodiment) (step S1). When the determination result is affirmative (the number of reserved storages <4), the main CPU 26a adds 1 to the number of reserved storages stored in the RAM 26c and rewrites the number of reserved storages (step S2). On the other hand, if the result of the determination in step S1 is negative (number of pending storages = 4), the main CPU 26a does not rewrite the number of pending storages exceeding the upper limit and ends the pending storage number processing. The main CPU 26a, which has rewritten the number of reserved storages, sets in the RAM 26c so as to output a reservation designation command (reserved ball number signal) for instructing the notification of the number of reserved storages to the general CPU 30a of the general control board 30 (step S3). Then, the main CPU 26a ends the pending storage number process and outputs the pending designation command set in the RAM 26c. Note that the main CPU 26a also outputs a hold designation command when the number of hold storages is reduced by one at the start of the symbol combination game.
[0026]
In the present embodiment, a plurality of types of suspension designation commands for designating the suspension storage number are output according to the suspension storage number. More specifically, since the upper limit of the number of storages to be held is four, five types of hold specification commands, that is, a hold 0 specification command, a hold 1 specification command, a hold 2 specification command, a hold 3 specification command, and a hold 4 specification command, are provided. Is output. The hold 0 designation command is output when the number of reserved storages is rewritten to “1 → 0”, and the hold 1 designation command is output when the number of reserved storages is rewritten to “0 → 1” or “2 → 1”. The designated command is output when the number of reserved storages is rewritten to “1 → 2” or “3 → 2”. The pending 3 designation command is output when the number of reserved storages is rewritten to “2 → 3” or “4 → 3”, and the pending 4 designation command is output when the number of reserved storages is rewritten to “3 → 4”.
[0027]
In addition, when the main CPU 26a determines that the number of retained storages at the time of winning detection is less than the upper limit value in the retained storage number process, the main CPU 26a reads the value of the big hit random number and the value of the big hit symbol random number from the RAM 26c in response to the input of the detection signal. The data is read out and sequentially stored (stored) in a predetermined storage area of the RAM 26c. Then, immediately before the start of the symbol combination game based on the winning detection, the main CPU 26a compares the value of the big hit random number stored in the RAM 26c with the big hit determination value stored in the ROM 26b to make a big hit determination. When the result of the jackpot determination is affirmative (the value of the jackpot random number and the jackpot determination value match), the main CPU 26a determines the jackpot. The jackpot determination value is determined from numerical values that the jackpot random numbers can take. In the present embodiment, the possible values of the jackpot random numbers are determined to be 0 to 946 (a total of 947 integers), while the jackpot determination values are determined to be three values of “7,349,919”. Therefore, when three jackpot determination values are used, the jackpot probability is 3/947 (= 315.7 / 1).
[0028]
When a big hit is determined, the main CPU 26a determines a symbol (stop symbol left, middle, right) to be finally stopped on the visible display portion H from the value of the big hit symbol random number stored in the RAM 26c. Specifically, the value of the random number for the big hit symbol is a stop symbol left, a stop symbol, and a stop symbol right (each stop symbol is the same type). The determined stop symbol left, the stop symbol, and the stop symbol right are finally derived on the visible display section H as a left symbol, a middle symbol, and a right symbol. Further, the main CPU 26a reads the value of the effect pattern distribution random number from the RAM 26c, and determines one effect pattern from the effect patterns for the big hit effect based on the value. In the present embodiment, one effect pattern is determined from the effect patterns P1 and P2 for the big hit effect.
[0029]
On the other hand, when the result of the jackpot determination is negative (the value of the jackpot random number and the jackpot determination value do not match), the main CPU 26a determines the value of the reach determination random number read from the RAM 26c and the reach determination value stored in the ROM 26b. The reach is determined by comparing. When the result of the reach determination is affirmative (the value of the reach determination random number and the reach determination value match), the main CPU 26a determines the reach. When the reach is determined, the main CPU 26a determines a stop symbol from the value of the random number for the left symbol and the value of the random number for the middle symbol read from the RAM 26c. Specifically, the value of the random number for the left symbol is the stop symbol left and the right symbol of the stop symbol (the left symbol and the right symbol are the same type), and the value of the random number for the missing symbol is the stop symbol. At this time, when the value of the out-of-position left symbol random number matches the value of the out-of-position left symbol random number, the main CPU 26a determines the inside of the stop symbol so that the stop symbol left and the inside of the stop symbol do not match. Further, the main CPU 26a reads the value of the effect pattern distribution random number from the RAM 26c, and determines one effect pattern from the effect patterns for out-of-reach effect effects based on the value. In the present embodiment, one effect pattern is determined from the effect patterns P3 and P4 for the out-of-reach effect.
[0030]
On the other hand, when the determination result of the reach determination is negative (the value of the reach determination random number does not match the reach determination value), the main CPU 26a determines an outlier. When the determination of the loss is made, the main CPU 26a determines the stop symbol from the value of the random number for the left symbol, the value of the random number for the middle symbol, and the value of the random number for the right symbol read from the RAM 26c. Specifically, the value of the random number for the left symbol is a stop symbol left, the value of the random number for the middle symbol is a stop symbol, and the value of the random number for the right symbol is a stop symbol right. At this time, when the value of the out-of-position left symbol random number and the value of the out-of-position right symbol random number match, the main CPU 26a determines the stop symbol right so that the stop symbol left and the stop symbol right do not match. Further, the main CPU 26a reads out the value of the effect pattern distribution random number from the RAM 26c, and determines one effect pattern from the effect patterns for the out-of-reach effect without reach based on the value. In the present embodiment, an effect pattern P5 for a non-reach outlier effect is determined.
[0031]
The main CPU 26a that has determined the stop symbol and the effect pattern outputs a predetermined control command to the general CPU 30a of the general control board 30 at a predetermined timing. First, the main CPU 26a specifies an effect pattern and outputs an effect pattern specifying command (pattern signal) for instructing the start of symbol variation. Next, the main CPU 26a executes a left symbol designation command for designating the left symbol, a middle symbol designation command for designating the inside of the stopped symbol, and a right symbol designation command for designating the right symbol, from the left symbol designation command to the right symbol designation command. → Output in order of middle symbol designating command. After that, the main CPU 26a outputs an all-symbol stop command for instructing to stop the symbols in each row when a game effect time specified in the designated effect pattern has elapsed. In the present embodiment, the main CPU 26a is configured to function as a big hit determination unit, a signal output unit, and a pattern determination unit. In the present embodiment, the RAM 26c is configured to function as a reserved ball count storage unit.
[0032]
Next, the general control board 30 will be described. The general control board 30 includes a general CPU 30a, and a ROM 30b and a RAM 30c are connected to the general CPU 30a. The central CPU 30a sequentially updates the value of the effect content distribution random number at predetermined intervals, sets the updated value in the setting area of the RAM 30c, and rewrites the value before the update. The ROM 30b stores a control program for integrally controlling each of the control boards 27 to 29 and a plurality of types of effect content patterns. The RAM 30c stores (sets) various information (such as the value of a random number) that is appropriately rewritten during the operation of the pachinko machine 10. In the present embodiment, the ROM 30b serves as effect content pattern storage means for storing effect content patterns.
[0033]
The effect content pattern is associated with an effect pattern serving as a base of the game effect, and is for specifying the specific effect content of the game effect to be performed under the control of the control boards 27 to 29. As shown in FIG. 4B, the plurality of effect content patterns are stored in a state where a plurality of effect content patterns are assigned to one effect pattern. The effect content patterns P1a and P1b without the big hit notice and the effect content patterns P1aA and P1bA with the big hit notice are assigned to the effect pattern P1 for the big hit effect. The effect content patterns P2a and P2b without the jackpot notice and the effect content patterns P2aA and P2bA with the jackpot notice are assigned to the effect pattern P2 for the jackpot effect. The effect patterns P3a and P3b without the jackpot notice and the effect content patterns P3aA and P3bA with the jackpot notice are assigned to the effect pattern P3 for the out-of-reach effect. The effect content patterns P4a and P4b without the jackpot notice and the effect content patterns P4aA and P4bA with the jackpot notice are assigned to the effect pattern P4 for the out-of-reach effect. An effect content pattern P5a with a jackpot notice and an effect content pattern P5aA without a jackpot notice are assigned to the effect pattern P5 for the out-of-reach effect without reach. The jackpot notice (notification effect) is an effect for informing a player in advance that there is a possibility that a jackpot effect will be performed (or a jackpot state will occur). Then, in the effect content pattern with the jackpot notice that is assigned to the effect patterns P1 and P2 for the jackpot effect, the jackpot notice is actualized and becomes the jackpot. On the other hand, in the production content pattern with the jackpot notice, which is distributed to the production patterns P3 and P4 for the loss production with reach and the production pattern P5 for the production with no reach, it is necessary to realize the big success notice without realizing it. Become.
[0034]
Then, the overall CPU 30a determines an effect content pattern based on the effect pattern specified by the effect pattern specifying command. The effect content pattern is associated in advance with the value of the effect content pattern distribution random number, and based on the value of the effect content pattern distribution random number read from the RAM 30c, the general CPU 30a generates the effect content pattern corresponding to the effect pattern. One effect content pattern is determined from among them. At this time, when the big hit notice is not executed, the general CPU 30a determines one effect content pattern from the effect content patterns without the big hit notice. On the other hand, when executing the jackpot notice, the overall CPU 30a determines one effect content pattern from the effect content patterns with the jackpot notice. For example, when the general CPU 30a inputs an effect pattern designating command for designating the effect pattern P1 and executes a jackpot notice, it determines one effect content pattern from the effect content patterns P1aA and P1bA.
[0035]
Then, the central CPU 30a outputs an effect content pattern designation command for designating the determined effect content pattern to each of the sub CPUs 27a to 29a of each of the control boards 27 to 29. Further, the overall CPU 30a outputs the input designating command and all designating commands to the sub CPU 27a of the display control board 27. Further, the central CPU 30a outputs the input hold designation command to the sub CPU 28a of the lamp control board 28.
[0036]
The general control board 30 is provided, and the general control board 30 distributes a plurality of types of effect content patterns to one effect pattern determined by the main control board 26. Then, the overall control board 30 determines one effect content pattern from the plurality of effect content patterns assigned to the specified effect pattern, and executes a control command (effect content) for specifying the determined effect content pattern. Pattern designation command) to each of the control boards 27 to 29. As a result, it is possible to diversify the types of game effects without increasing the number of effect patterns managed by the main control board 26 (stored in the ROM 26b). In addition, the main control board 26 determines an effect pattern serving as a base of the game effect, and the overall control board 30 determines an effect content pattern for specifying the specific effect content of the game effect. Therefore, by controlling (distributing) the control of the game effect including an enormous amount of information between the main control board 26 and the overall control board 30, the load concentration on one board (in particular, the main control board 26) can be suppressed. .
[0037]
Even if the game effects are diversified, a control command specifying the same effect content pattern is output to each of the control boards 27 to 29. For this reason, each of the control boards 27 to 29 executes the control of the game effect based on the same effect content pattern after grasping the effect contents of the game effects by the input of the control command. As a result, the effect contents of the display effect (including the big hit notice) performed by the control of the display control board 27, the light effect effect (including the big hit notice) performed by the control of the lamp control board 28, and the sound control board 29 The effect contents (including the big hit notice) of the sound effect performed by the control of (1) can be synchronized. Therefore, it is possible to give unity (a sense of unity) to the entire game production including the jackpot notice. "Game effects are synchronized" means that each game effect is performed in the same tone, for example, when a display effect indicating "a state where a dog is running" is performed. That is, a light emission effect (blinking violently) or a sound effect (such as a sound when a dog is running) corresponding to (or related to) the display effect is performed.
[0038]
Next, the display control board 27, the lamp control board 28, and the audio control board 29 will be described.
The display control board 27 includes a sub CPU 27a, and a ROM 27b and a RAM 27c are connected to the sub CPU 27a. The ROM 27b stores effect execution data for a plurality of types of display effects and various types of image information (image information such as patterns, backgrounds, characters, and characters appearing). The RAM 27c stores (sets) various types of information that are appropriately rewritten during the operation of the pachinko machine 10. The effect execution data for the display effect is information for the sub CPU 27a to control the display contents (symbol variation, character movement, background of the visible display portion H, etc.) of the variable display device 21 (visible display portion H). . In the ROM 27b, one effect execution data is associated with one effect content pattern (exemplified in FIG. 4C). Further, in the present embodiment, the effect execution data corresponding to the effect content pattern with the big hit notice includes a notice character K (FIG. 7) on the visible display portion H at a predetermined timing (after a predetermined time has elapsed after the start of the symbol change). 9, and shown in FIG. 10) are executed (displayed) to execute the jackpot notice.
[0039]
Accordingly, when the sub CPU 27a inputs the effect content pattern specification command, the effect execution data corresponding to the specified effect content pattern is read from the ROM 27b, and the display content of the visible display section H is controlled based on the effect effect data. With this control, a display effect is performed on the variable display device 21. At this time, if an effect content pattern with a jackpot notice is designated, the display content of the visible display section H is controlled based on the effect execution data corresponding to the effect content pattern, and the jackpot notice is executed. In the present embodiment, the sub CPU 27a serves as a notice device control unit that controls the notice device (variable display device 21).
[0040]
The lamp control board 28 includes a sub CPU 28a, and a ROM 28b and a RAM 28c are connected to the sub CPU 28a. The ROM 28b stores effect execution data for a plurality of types of light emission effects and notification execution data for winning notification (information for controlling the light emission mode (lighting or extinguishment) of the reserved ball number display 25). . The RAM 28c stores (sets) various types of information that are appropriately rewritten during the operation of the pachinko machine 10. The effect execution data for the light emission effect is information for the sub CPU 28a to control the light emission mode (lighting timing, lighting time, etc.) of the frame lamp 16 and the game board lamp 17. Then, one effect execution data is associated with one effect content pattern in the ROM 28b (exemplified in FIG. 4C). In the present embodiment, the effect execution data corresponding to the effect content pattern with the big hit notice includes the game board lamp 17 blinking for a predetermined time at a predetermined timing (after a predetermined time has elapsed after the start of the symbol change). It is shown that a big hit notice is executed.
[0041]
Therefore, when the sub CPU 28a inputs the effect content pattern designation command, the effect execution data corresponding to the specified effect content pattern is read from the ROM 28b, and the light emission mode of the frame lamp 16 and the game board lamp 17 is determined based on the effect execution data. Control. With this control, the frame lamp 16 and the game board lamp 17 emit light. At this time, if an effect content pattern with a jackpot notice is specified, the light emission mode of the game board lamp 17 is controlled based on the effect execution data corresponding to the effect content pattern, and the jackpot notice is executed. In the present embodiment, the sub CPU 28a functions as a notice device control unit that controls the notice device (the game board lamp 17). When the sub CPU 28a inputs the suspension designation command, the sub CPU 28a reads out the notification execution data corresponding to the suspension designation command from the ROM 28b, and controls the light emission mode of the reserved ball number display 25 based on the notification execution data. By this control, a predetermined lamp is turned on or off in the reserved ball number display 25, and the number of reserved storages is notified.
[0042]
The audio control board 29 includes a sub CPU 29a, and a ROM 29b and a RAM 29c are connected to the sub CPU 29a. The effect execution data for a plurality of types of sound effects is stored in the ROM 29b. The RAM 29c stores (sets) various types of information that are appropriately rewritten during the operation of the pachinko machine 10. The effect execution data for the sound effect is information for the sub CPU 29a to control the sound output mode of the speaker 18 (type of sound effect, sound output time, etc.). One effect execution data is associated with one effect content pattern in the ROM 29b (exemplified in FIG. 4C). Also, in the present embodiment, the effect execution data corresponding to the effect content pattern with the jackpot notice has a sound effect (“hit, Hit) is output to execute the jackpot notice.
[0043]
Therefore, when the sub CPU 29a inputs the effect content pattern designating command, the effect execution data for sound effect corresponding to the specified effect content pattern is read from the ROM 29b, and the sound output mode of the speaker 18 is controlled based on the effect effect data. I do. With this control, a sound effect is performed on the speaker 18. At this time, if an effect content pattern with a jackpot notice is specified, the sound output mode of the speaker 18 is controlled based on the effect execution data corresponding to the effect content pattern, and the jackpot notice is executed. In the present embodiment, the sub CPU 29a serves as a notice device control unit that controls the notice device (speaker 18).
[0044]
The pachinko machine 10 of the present embodiment is configured to be able to continuously execute the jackpot notice over a plurality of symbol combination games (games). Hereinafter, the announcement in which the jackpot announcement is continuously executed is referred to as “continuous announcement (continuous production)”. In the continuous announcement, the jackpot notice by a specific effect is continuously executed from several symbol combination games performed before the symbol combination game that may be a jackpot effect. Then, in the continuous notice, one big hit notice is executed during one symbol combination game. In the present embodiment, a specific effect that is continuously performed as a jackpot notice in a plurality of symbol combination games has the same content. Specifically, the big hit notice is continuously executed by the above-mentioned notice pattern (display of the notice character K, blinking of the game board lamp 17, and sound effect output of the speaker 18). In the pachinko machine 10 of the present embodiment, in the symbol combination game several times after the appearance of the continuous announcement, the continuous announcement when the jackpot announcement is realized and the jackpot is realized, and the jackpot announcement is not realized. In this case, a continuous notice can be executed in a case where the continuous notice is ended and the first notice is lost without a big hit. In the present embodiment, the continuous advance notice in the case of the deviation is also referred to as “gasse continuous advance notice”.
[0045]
Hereinafter, a process performed by the main control board 26 (main CPU 26a) to execute a jackpot notice (continuous notice) will be described.
In the ROM 26b of the main control board 26, an announcement judgment value is stored in addition to the big hit judgment value "7,349,919". The notice judgment value is determined from the possible values of the big hit random number, like the big hit judgment value. In the present embodiment, the notice determination values are defined as three values of “7,349,919”. The notice determination value “7,349,919” is set to be equal to the big hit determination value “7,349,919”. In other words, the notice determination value is not set to a value different from the value set as the big hit determination value. Hereinafter, the notice determination value stored in the ROM 26b is referred to as a "main determination value".
[0046]
Then, the main CPU 26a determines whether or not to execute the big hit notice in the main-side notice determination processing shown in FIG. 6 (hereinafter, this determination is referred to as "main-side possibility determination"). The “judgment of execution of the jackpot notice” means whether or not the sub control means constituted by the general control board 30 (the general CPU 30a) and each of the control boards 27 to 29 (the sub CPUs 27a to 29a) executes the big jackpot notice. Is determined. The main CPU 26a performs the main-side availability determination in response to input of a detection signal from the starting winning port sensor SE1. More specifically, immediately after reading the value of the big hit random number (that is, at the time of winning detection), the main CPU 26a compares the read big hit random value with the main determination value to determine whether or not the main side is acceptable. That is, the main side availability determination is performed at a timing (different determination time) different from the big hit determination performed immediately before the start of the symbol combination game based on the winning detection.
[0047]
In step S10 of FIG. 6, the main CPU 26a determines whether or not the value of the big random number read at the time of detecting the winning matches the main determination value (notification determination value). For example, if the value of the random number read at the time of the winning detection is “7”, it is determined that the value matches the main determination value “7”, and if the value of the read random number is “100”, the main determination value is “7”. , 349, 919 ”. Note that the value of the big random number read at the time of winning detection is stored in a predetermined storage area of the RAM 26c until the big hit determination is performed. If the result of the determination in step S10 is negative (the value of the big hit random number does not match the main judgment value), the main CPU 26a determines whether or not the big hit notice is to be executed, and ends the main-side notice judgment processing.
[0048]
On the other hand, when the result of the determination in step S10 is affirmative (the value of the big hit random number and the main judgment value match), the main CPU 26a determines that a big hit notice can be executed, and further increases the number of stored memories at that time (at the time of winning detection). A determination is made (step S11). At this time, the number of reserved storages to be determined is the number of reserved storages after rewriting set in the RAM 26c in the reserved storage number processing (FIG. 5). The number value Y1 of the jackpot notice is determined according to the number of reserved storages determined in step S11. Then, the main CPU 26a sets in the RAM 26c a control command (hereinafter, referred to as a "preliminary command") for instructing the determined number of times of jackpot notice Y1 to the general CPU 30a of the general control board 30 (step S12). . Thereafter, the main CPU 26a terminates the main-side notice determination process and outputs the notice command set in the RAM 26c to the central CPU 30a. The advance notice command becomes an advance notice signal.
[0049]
If the number of pending storages determined in step S11 is 2 or more and is equal to or less than the upper limit of the number of pending storages (four or less in this embodiment), continuous notice is given. For example, when the number of retained memories is “3”, the jackpot notice can be executed in the three symbol combination games, and when the jackpot notice is executed, the jackpot notice is repeated three times. In the present embodiment, the main CPU 26a is configured to function as a main side announcement determination unit and an announcement signal output unit, and the number value Y1 of the jackpot announcement is the number of executions of the announcement effect determined by the main side announcement determination unit. The number of executions is 1.
[0050]
Next, a process performed by the general control board 30 (the general CPU 30a) to execute a jackpot notice (continuous notice) will be described.
The central CPU 30a of the central control board 30 sequentially updates the value of the effect determination random number (hereinafter referred to as “effect random number”) at predetermined intervals, sets the updated value in the setting area of the RAM 30c, Has been rewritten. In the present embodiment, the possible numerical values of the effect random numbers are defined as 0 to 250 (a total of 251 integers). The ROM 30b stores an execution determination value and a notice determination value. The execution determination value and the notice determination value are determined from the possible numerical values of the effect random numbers. In the present embodiment, the execution determination value is determined as 200 values of “0 to 199”, while the advance determination value is determined as one value of “11”. Hereinafter, the preliminary determination value stored in the ROM 30b is referred to as a “sub determination value”.
[0051]
Then, the supervisory CPU 30a executes the sub-side notice determination process shown in FIG. 7 and the effect content pattern determination process shown in FIG. In the sub-side notice determination process, the overall CPU 30a determines whether or not to execute the jackpot notice by inputting a notice command and inputting a hold designation command (hereinafter, this judgment is referred to as “execution judgment”). In addition, in the sub-side notice determination processing, the centralized CPU 30a, in accordance with the determination result of the execution determination, the notice effect number F1 based on the number value Y1 of the big hit notice indicated by the notice command, or the big hit indicated by the hold designation command. Any of the number of notice effect F2 based on the notice value Y2 is set in the RAM 30c as setting means.
[0052]
Hereinafter, the sub-advance notice determination processing will be described with reference to FIG.
The supervisor CPU 30a determines whether or not a notice command has been input (step S20). When the determination result is affirmative (input), the central CPU 30a reads the value of the effect random number from the RAM 30c (step S21). Subsequently, the central CPU 30a determines whether or not the value of the read effect random number matches the execution determination value (Step S22). For example, if the value of the effect random number read is "10", it is determined that it matches the execution determination value "10", and if the value of the effect random number read is "200", it matches the execution determination value "0 to 199". It is determined not to be performed. If the determination result is negative (the value of the effect random number does not match the execution determination value), the central CPU 30a determines not to execute the jackpot announcement and ends the sub-advisory announcement determination process. On the other hand, if the determination result in step S22 is affirmative (the value of the effect random number and the execution determination value match), the central CPU 30a determines to execute the big hit notice, and proceeds to step S23. That is, even when the notice command is input, there is a case where the jackpot notice is executed and a case where the notice is not executed. The processing of steps S21 and S22 is an execution determination performed by inputting a notice command.
[0053]
The overall CPU 30a that has proceeded to step S23 determines whether or not the number of notice effects F2 is "0" (step S23). The announcement effect number F2 is the execution number of the jackpot announcement set in the RAM 30c based on the result of the execution determination performed by the overall CPU 30a by inputting the hold designation command. In the step S23, the general CPU 30a determines whether or not the number of notice effect F2 is set in the RAM 30c. That is, when the number of notice effects F2 indicates a value other than “0”, it is determined that the number of notice effects F2 is set, while when the number of notice effects F2 is “0”, the number of notice effects F2 is determined. It is determined that is not set. If the determination result of the step S23 is affirmative (F2 = 0), the general CPU 30a subsequently sets the number of advance announcement effects F1 in the predetermined setting area of the RAM 30c by using the number value Y1 of the jackpot announcement specified by the advance notice command. It is set (step S25). For example, when the number value Y1 of the jackpot notice is “3”, the overall CPU 30a sets “3” to the notice effect number F1. In this step S25, the overall CPU 30a has set the number of executions of the big hit notice determined in the main-side notice determination processing. On the other hand, if the result of the determination in step S23 is negative (F2） 0), the central CPU 30a resets the number of notice effects F2 (step S24), and sets the number of notice effects F1 in step S25. In the present embodiment, when the number of notice effects F2 is already set when the number of notice effects F1 is set based on the input of the notice command, the number of notice effects F2 is reset, and the number of notice effects F1 is newly set. Therefore, the jackpot notice according to the notice effect number F1 is preferentially executed. Then, the central CPU 30a that has set the number of notice productions F1 ends the sub-side notice determination processing.
[0054]
On the other hand, if the result of the determination in step S20 is negative (not input), the central CPU 30a determines whether or not a hold designation command has been input (step S26). If the result of this determination is negative (not input), the central CPU 30a ends the sub-advance notice determination process. On the other hand, if the result of the determination in step S26 is affirmative (input), the central CPU 30a determines whether the number of pending storages has increased (step S27). In step S27, the central CPU 30a compares the previous hold designation command set in the RAM 30c with the current hold designation command, and determines whether the current hold designation command has been output by adding the number of hold storages or by subtracting the number of hold storages. Determine whether it has been output. For example, if the hold 1 designation command (previous time) is set in the RAM 30c when the hold 2 designation command is input, the number of hold storages is added to the input hold 2 designation command by the hold number processing (FIG. 5). Is output on the basis of this, and in this case, the number of pending storages has increased. On the other hand, when the hold 2 designation command is input and the hold 3 designation command (previous time) is set in the RAM 30c, the input hold 2 designation command is determined to have the held memory number reduced by the start of the symbol combination game. Output in this case, in which case the number of pending storages has decreased. If the result of the determination in step S27 is negative (the number of reserved storages decreases), the supervisory CPU 30a ends the sub-side notice determination process.
[0055]
On the other hand, when the determination result of step S27 is affirmative (the number of reserved storages increases), the central CPU 30a reads the value of the effect random number from the RAM 30c (step S28). Subsequently, the central CPU 30a determines whether or not the value of the read effect random number matches the sub-determination value (notification determination value) (step S29). For example, if the value of the rendered effect random number is “11”, it is determined that the value matches the sub-determination value “11”. If the value of the rendered effect random number is “100”, the value does not match the sub-determination value “11”. judge. If the result of the determination in step S29 is negative (the value of the effect random number does not match the sub-determination value), the overall CPU 30a determines not to execute the jackpot announcement, and ends the sub-advisory determination process. The processing in steps S28 and S29 is an execution determination performed by inputting a hold designation command.
[0056]
On the other hand, if the determination result in step S29 is affirmative (the value of the effect random number and the sub-determination value match), the overall CPU 30a determines to execute the jackpot announcement, and determines the number of storages to be held specified by the input holding specification command. Is determined (step S30). The number value Y2 of the jackpot notice is determined in accordance with the number of reserved storages determined in step S30. Subsequently, the central CPU 30a determines whether or not the notice effect number F1 is "0" (step S31). In step S31, the central CPU 30a determines whether or not the number of notice effect F1 is set in the RAM 30c. That is, when the number of notice effects F1 indicates a value other than “0”, it is determined that the number of notice effects F1 is set, while when the number of notice effects F1 is “0”, the number of notice effects F1 is determined. It is determined that is not set.
[0057]
If the result of the determination in step S31 is affirmative (F1 = 0), the central CPU 30a sets the number of notice effect F2 in a predetermined setting area of the RAM 30c using the number value Y2 of jackpot notice (step S32). For example, when the number value Y2 of the jackpot notice is “4”, the general CPU 30a sets “4” to the notice effect number F2. In this step S32, the overall CPU 30a has set the number of executions of the big hit notice determined in the sub-side notice determination processing. On the other hand, when the result of the determination in step S31 is negative (F1） 0), the supervisory CPU 30a ends the sub-side notice determination process. That is, since the notice effect number F1 has already been set, the general CPU 30a invalidates the jackpot notice number value Y2 determined in the processing of steps S28 to S30 without resetting the notice effect number F1. In the present embodiment, when the number of notice effects F1 is set, the big hit notice (realized big notice) according to the number of notice effects F1 is preferentially executed. In the present embodiment, the overall CPU 30a is configured to function as a notice determining means and an execution number setting means, and the number value Y2 of the jackpot notice is the number of executions of the jackpot notice determined by the notice determining means. Number of times. Further, in the present embodiment, the overall CPU 30a functions as an execution determination unit that inputs a preview command and determines whether to execute the jackpot notification.
[0058]
As described above, in the present embodiment, the main CPU 26a of the main control board 26 determines whether to execute the jackpot notice. Then, upon inputting the advance notice command or the hold designation command, the overall CPU 30a of the overall control board 30 determines whether to execute the jackpot announcement, and if it is determined that the jackpot announcement is to be executed, the announcement effect number F1 or the announcement effect number. One of F2 is set in the RAM 30c. The announcement effect number F1 is set based on the determination result of the main side availability determination using the main determination value set to the same value as the big hit determination value, and thus is set when a big hit is determined in the big hit determination. Will be. Therefore, when the number of notice productions F1 is set to 2 or more, a big hit notice is executed every time the symbol combination game of the number of times indicated by the notice productions F1 is performed, and a continuous notice is made. In the symbol combination game several times ahead, the jackpot notice is realized and the jackpot is achieved. On the other hand, the notice effect number F2 is set in a state where the notice effect number F1 is not set, that is, when a loss is determined in the big hit determination. Therefore, if the number of notice productions F2 is set to 2 or more, a big hit notice is executed every time the symbol combination game indicated by the number of notice productions F2 is performed, and a continuous notice is given. It ends without the jackpot notice being realized, and it will be missed. That is, the main CPU 26a determines whether or not a big hit notice (continuous notice) appears when a big hit occurs, and the general CPU 30a determines whether or not a big hit notice (continuous notice) appears when a big hit occurs. decide.
[0059]
Next, the effect content pattern determination processing will be described with reference to FIG.
In the effect content pattern determination processing, when the effect pattern designation command is input, if the number of advance announcement effects F1 or the number of advance announcement effects F2 is set in the RAM 30c, the overall CPU 30a determines an effect content pattern with a jackpot notice, Control to execute the notice is performed. When the number of advance notice effects F1 or the number of advance notice effects F2 is set in the RAM 30c, the number of executions of the big hit notice (advance notice effect) is determined. In the present embodiment, the control for executing the jackpot announcement performed by the overall CPU 30a is to instruct the sub CPUs 27a to 29a to execute the announcement effect. In the effect content pattern determination process, the overall CPU 30a sets an advance notice flag YF in the RAM 30c when determining an effect content pattern with a jackpot announcement in accordance with the number of advance effect effects F2 set in the RAM 30c. The announcement flag YF is a flag indicating that the control for executing the jackpot announcement has been performed based on the effect content pattern with the jackpot announcement determined according to the announcement effect number F2. Then, when inputting the effect pattern designating command, the general CPU 30a sets the predetermined condition (the determination results in steps S50 and S51 in FIG. 8 are positive) even if the number of advance notice effects F1 or the number of advance notice effects F2 are not set. If the condition of ()) is established, the effect content pattern with the jackpot notice is determined, and control for executing the jackpot notice is performed. In the present embodiment, the central CPU 30a serves as an effect content pattern determining unit that determines an effect content pattern based on the effect pattern.
[0060]
In the effect content pattern determination process shown in FIG. 8, the overall CPU 30a checks the type of the effect pattern specified by the effect pattern specification command (any one of effect patterns P1, P2, P3, P4, and P5) (step S40). . Subsequently, the central CPU 30a determines whether or not the number of notice effect F1 is greater than “0” (step S41). In step S41, the central CPU 30a determines whether or not the number of advance notice effects F1 is set in the RAM 30c. If the result of the determination in step S41 is affirmative (F1> 0), the general CPU 30a subtracts 1 from the number of advance notice effects F1 and newly sets the updated notice effect number F1 in the RAM 30c (step S42). For example, when "3" is set to the number of advance notice effects F1, "1" is subtracted from "3", and "2" is set as the new notice effect number F1.
[0061]
Subsequently, the central CPU 30a resets the notice flag YF (step S43). That is, since the general CPU 30a performs the control of setting the announcement effect number F1 in the RAM 30c and executing the jackpot announcement based on the effect content pattern with the jackpot announcement determined according to the announcement effect number F1, the announcement control is performed in step S43. “0” is set to the flag YF. Then, based on the type of effect pattern determined in step S40, the overall CPU 30a determines an effect content pattern with a big hit notice (step S44). For example, when the effect pattern P3 is designated, the overall CPU 30a determines one effect content pattern from the effect content patterns P3aA and P3bA with the big hit notice. Subsequently, the central CPU 30a sets the effect content pattern designation command for designating the determined effect content pattern in the RAM 30c so as to output the command to the sub CPUs 27a to 29a of the control boards 27 to 29 (step S45). Thereafter, the overall CPU 30a ends the effect content pattern determination processing and outputs the effect content pattern designation command set in the RAM 30c.
[0062]
On the other hand, when the result of the determination in step S41 is negative (F1 = 0), the central CPU 30a determines whether or not the number of notice effect F2 is greater than "0" (step S46). In step S46, the central CPU 30a determines whether or not the number of advance notice effects F2 is set in the RAM 30c. If the result of the determination in step S46 is affirmative (F2> 0), the general CPU 30a subtracts 1 from the number of notice effects F2, and newly sets the number of notice effects F2 after rewriting in the RAM 30c (step S47). For example, when “4” is set as the number of advance notice effects F2, 1 is subtracted from “4”, and “3” is set as the new notice effect number F2. Subsequently, the supervisor CPU 30a sets a notice flag YF (step S48). That is, the supervisory CPU 30a performs the control to execute the jackpot notice based on the effect content pattern with the jackpot notice determined according to the notice effect number F2 set in the RAM 30c and determined in accordance with the notice effect number F2. "1" is set to the flag YF. Then, as in step S44, the centralized CPU 30a determines an effect content pattern with a big hit notice (step S49), and sets an effect content pattern designation command in the RAM 30c in step S45.
[0063]
As described above, the general CPU 30a determines the effect content pattern with the big hit notice while the notice effect number F1 or the notice effect number F2 is set (F1> 0 or F2> 0). Then, the supervising CPU 30a outputs an effect content pattern designation command for designating the determined effect content pattern with the jackpot notice to each of the sub CPUs 27a to 29a. Further, each of the sub CPUs 27a to 29a reads out the effect execution data corresponding to the specified effect content pattern with the big hit notice, and performs control based on the effect execution data. In other words, each of the sub CPUs 27a to 29a controls the variable display device 21 and the game board lamp 17 so that a big hit notice is executed every time the symbol combination game is performed for the number of times corresponding to the number of notice effects F1 or the number of notice effects F2. And the speaker 18 respectively. As a result, the jackpot notice is continuously executed over a plurality of symbol combination games.
[0064]
On the other hand, when the determination result of step S46 is negative (F2 = 0), the central CPU 30a determines whether "1" is set in the advance notice flag YF (step S50). If this determination result is affirmative (set), the central CPU 30a determines whether or not the effect pattern confirmed in step S40 is an effect pattern for a big hit effect (step S51). In the present embodiment, it is determined whether or not the effect pattern specified by the effect pattern specifying command is the effect pattern P1 or the effect pattern P2. When the result of the determination at the step S51 is affirmative, the overall CPU 30a resets the advance notice flag YF (step S52). Then, similarly to the steps S44 and S49, the general CPU 30a determines an effect content pattern with a big hit notice (step S53), and sets an effect content pattern designation command in the RAM 30c in a step S45.
[0065]
As described above, even when the number of advance announcement effects F1 or the number of advance announcement effects F2 is not set in the RAM 30c, the general CPU 30a performs control to execute the jackpot announcement if a predetermined condition is satisfied. In other words, in the state where the number of notice productions F1 and F2 is not set, the jackpot notice is executed in the previous symbol combination game, and the current symbol combination game is a big hit effect (steps S50 → S51 → S52 → S53). ), The overall CPU 30a determines the effect content pattern with the big hit notice. Then, the supervising CPU 30a outputs an effect content pattern designation command for designating an effect content pattern with a big hit notice to each of the sub CPUs 27a to 29a. As a result, the jackpot notice is also executed in the present symbol combination game following (continued from) the previous symbol combination game. The flow of the processing of steps S50 → S51 → S52 → S53 is such that when the symbol combination game executed immediately after the symbol combination game in which the jackpot notice is executed, This is a process for executing a jackpot notice. If the number of advance notice effects F1 or the number of advance notice effects F2 is not set in the RAM 30c (if the determination results in steps S41 and S46 are both negative), the number of executions of the big hit notice (announcement effect) is determined. Will not be. Further, in the present embodiment, as the requirement for satisfying the predetermined condition, two consecutive symbol combination games (the previous game and the current game) are targeted, so both the steps S50 and S51 are affirmed. In this case, "0" is set to the notice flag YF in step S52.
[0066]
On the other hand, when the result of the determination in step S50 is negative (YF = 0) or when the result of the determination in step S51 is negative (not P1 or P2), the central CPU 30a resets the notice flag YF (step S54). That is, in this case, since the predetermined condition for executing the jackpot notice in the present symbol combination game following the previous symbol combination game was not satisfied, “0” is set to the advance flag YF in step S54. Set. Then, the centralized CPU 30a determines an effect content pattern without a big hit notice based on the type of effect pattern determined in step S40 (step S55). For example, when the effect pattern P3 is designated, the overall CPU 30a determines one effect content pattern from the effect content patterns P3a and P3b without a big hit notice. Then, the supervisor CPU 30a proceeds to step S45, and sets an effect content pattern designation command in the RAM 30c as described above.
[0067]
Next, a mode in which continuous notice is executed in the pachinko machine 10 configured as described above will be described with reference to FIGS. 9 and 10. 9 and 10, the numbers attached to the respective lamps 25a to 25d of the reserved ball number display 25 indicate the order of the game balls that have won the starting winning opening 23, and 1, 2, and 3 respectively indicate the first time. This corresponds to the second and third symbol combination games. 9 and FIG. 10, the lighting state of each of the lamps 25a to 25d of the reserved ball number display 25 is indicated by "sloping diagonally to the left" and the extinguished state is indicated by "blank". ".
[0068]
First, the manner in which continuous notice is executed will be described with reference to FIG.
In FIG. 9A, a symbol combination game is played on the visible display section H of the variable display device 21. The symbol combination game is played in a state where the number of stored memories is “1”. Neither the number of notice effects F1 and F2 nor the notice flag YF is set (F1 = 0, F2 = 0, YF = 0). When a game ball newly wins during the symbol combination game (FIG. 9 (a)), the main CPU 26a performs a reservation storage number process (FIG. 5) to turn on the reservation 2 lamp 25b (FIG. 9 (b)). )), And outputs a pending 2 designation command to the central CPU 30a. Further, at the time of winning, the main CPU 26a performs a main-side notice determination process (FIG. 6). If the execution of the jackpot announcement is determined in the main-side announcement determination process, the announcement command is not output to the overall CPU 30a. Then, when the overall CPU 30a, which has input the hold 2 designation command, decides to execute the jackpot announcement in the sub-announcement determination process (FIG. 7), the overall CPU 30a sets “2” to the number of announcement effect F2.
[0069]
Immediately before starting the first and second symbol combination games (FIGS. 9C and 9D), processing for starting each game is performed, and the overall CPU 30a inputs an effect pattern designation command. . The control CPU 30a sets the announcement effect number F2 in the effect content pattern determination process (FIG. 8) every time the effect pattern designating command is input, so that the effect content pattern of each game has a big hit announcement. Determine the content pattern. Further, in the effect content pattern determination processing, the control CPU 30a subtracts 1 from the number of advance notice effects F2 and sets an advance notice flag YF to “1” each time an effect pattern designation command is input. As a result, in the first symbol combination game (FIG. 9C) and the second symbol combination game (FIG. 9D), a big hit notice is executed after the start of each game. That is, after the start of each game, a big hit notice in which the notice character K appears on the visible display portion H is executed, and the big hit notice by blinking of the game board lamp 17 and the speaker 18 are synchronized with the appearance of the notice character K. A jackpot notice is executed with a sound effect output of “hit, hit”. When the second symbol combination game is performed, the number of notice effect F2 becomes “0”, and the notice flag YF is set to “1”. After that, in the second display combination game, a combination of losing (for example, [567]) is derived on the visible display portion H, and the losing is determined by inputting all the symbols stop commands (FIG. 9 (e)). In this state, the continuous notice (two large jackpot notices) started from the first symbol combination game has not been realized.
[0070]
On the other hand, in FIG. 9B, when the execution of the jackpot notice is determined in the main-side notice determination processing, the central CPU 30a inputs a notice command (instructing the number of retained storage “2”), and Perform a notice determination process. When the overall CPU 30a decides to execute the big hit announcement in the sub-advance announcement determination processing, the overall CPU 30a sets “2” to the number of announcement effect F1. Then, the control CPU 30a sets the announcement content number F1 in the effect content pattern determination processing every time the effect pattern designation command is input, so that the effect content pattern with the jackpot notice is given as the effect content pattern of each game. To determine. In addition, in the effect content pattern determination processing, the control CPU 30a decrements the notice effect number F1 by 1 and sets the notice flag YF to “0” each time the effect pattern designation command is input. As a result, in the first symbol combination game (FIG. 9C) and the second symbol combination game (FIG. 9D), the big hit notice is executed as described above. Then, a big hit combination (for example, [777]) is derived in the second symbol combination game on the visible display portion H, and the big hit is determined by inputting the all symbol stop command (FIG. 9 (f)). In this state, the continuous notice (two jackpot notices) started from the first symbol combination game has been realized.
[0071]
Next, with reference to FIG. 10, a description will be given of a mode in which, when the number of advance announcement effects F1 or the number of advance announcement effects F2 is not set, the jackpot announcement is executed following the previous symbol combination game, and the continuous announcement is executed. In the following description, the same content as that in the above-described continuous announcement mode is omitted or simplified for the same content.
[0072]
FIGS. 10 (a) and 10 (b) show a state in which a game ball newly wins (winning corresponding to lighting of the hold 2 lamp 25b shown in FIG. 10 (b)) during the symbol combination game of FIG. 10 (a). It is shown. At the time of the prize winning, it is determined whether or not to execute the jackpot announcement in the main-side announcement determination process, and to execute the jackpot announcement in the sub-side announcement determination process. In addition, “2” is set as the number of notice effects F2. Immediately before the start of the first symbol combination game (FIG. 10 (c)), a process for starting the game is performed, and when the overall CPU 30a inputs the effect pattern designation command, the effect content with the big hit notice is given. Determine the pattern. Further, in the effect content pattern determination processing, the general CPU 30a subtracts 1 from the number of notice effect F2 and sets the notice flag YF to “1”. At this point, the number of notice effect F2 is “1” after subtracting 1 from “2”. Therefore, in the first symbol combination game (FIG. 10C), a big hit notice is executed as described above.
[0073]
Then, when the game ball newly wins (winning corresponding to the lighting of the hold 2 lamp 25b shown in FIG. 10D) during the first symbol combination game, the main CPU 26a performs the main-side notice determination process at the time of winning. Do. When the execution of the jackpot notice is determined in the main-side notice determination processing, the central CPU 30a inputs a notice command (instructing the number of retained storages "2") and performs the sub-side notice determination processing. At this time, if the overall CPU 30a determines not to execute the big hit announcement in the sub-advance announcement determination process, the overall CPU 30a maintains the state in which the announcement effect number F2 (at this time, “1”) is set, and The determination processing ends. In FIG. 10D, when the main CPU 26a determines that the execution of the jackpot notice is permitted in the main-side notice determination process, a jackpot combination is derived in the third symbol combination game, that is, the jackpot effect is not performed. Will be done.
[0074]
Immediately before the start of the second symbol combination game (FIG. 10 (e)), a process for starting the game is performed, and when the overall CPU 30a inputs the effect pattern designation command, the effect content with the big hit notice is given. Determine the pattern. Further, in the effect content pattern determination processing, the general CPU 30a subtracts 1 from the number of notice effect F2 and sets the notice flag YF to “1”. At this time, the number of notice effects F2 is subtracted from "1" by one to become "0", and the RAM 30c is in a state where neither the notice effect number F1 nor the notice effect number F2 is set. Then, in the second symbol combination game (FIG. 10E), a big hit notice is executed in the same manner as described above. After that, in the visible display portion H, a combination of losing (for example, [567]) is derived in the second symbol combination game, and the losing is determined by the input of all symbol stop commands (FIG. 10 (f)). In the flow from FIG. 10A to FIG. 10F, the continuous announcement (two large jackpot announcements) started from the first symbol combination game according to the number of announcement effects F2 has not been realized. .
[0075]
Immediately before the start of the third symbol combination game (FIG. 10 (g)), processing for starting the game is performed, and the overall CPU 30a inputs an effect pattern designation command, and in the effect content pattern determination process, Determine the production content pattern. At this time, since the main CPU 26a has determined the big hit by the big hit determination, the general CPU 30a sends an effect pattern specifying command for specifying an effect pattern for the big hit effect (in the present embodiment, any one of the effect patterns P1 and P2). input. Therefore, the general CPU 30a determines the effect content pattern with the jackpot notice because the notice flag YF is set to “1” and the effect pattern for the jackpot effect is specified by the effect pattern designation command. In other words, in a state where the number of announcement effects F1 and F2 are not set in the RAM 30c, the big hit announcement is executed in the previous (second) symbol combination game, and the current (third) symbol combination game is executed. Since the condition for the jackpot production is satisfied, the production content pattern with the jackpot notice is determined. At this point, the notice flag YF is set to “0”.
[0076]
Then, in the third symbol combination game (FIG. 10 (g)), following the second symbol combination game, a big hit notice is executed as described above. After that, a big hit combination (for example, [777]) is derived in the third symbol combination game on the visible display portion H, and the big hit is determined by inputting all the symbol stop commands (FIG. 10 (h)). In this state, the continuous notice (as a result, three big hit notices) started from the first symbol combination game is realized.
[0077]
Therefore, according to the present embodiment, the following effects can be obtained.
(1) When the jackpot notice is executed in the previous symbol combination game and the symbol combination game of this time is a jackpot effect, even if the number of notice effects F1 or the number of notice effects F2 are not set. The big hit notice is configured to be executed in the symbol combination game of this time following the last time. Therefore, when the symbol combination game of this time is a big hit effect, even if the number of the notice effects F1 or the number of the notice effects F2, which is a trigger for executing the big hit notice in the symbol combination game, is not set, the previous symbol is set. If the jackpot notice has been executed in the combination game, the jackpot notice can be subsequently executed. Therefore, it is possible to prevent the symbol combination game in which the big hit is executed without executing the big hit notice immediately after the symbol combination game in which the big hit notice is executed but the result is unsuccessful. Can be done with
[0078]
(2) Also, by performing the jackpot notice at an appropriate timing, the player does not feel uncomfortable with the game performance of the pachinko machine 10, and can improve the interest. Therefore, it is possible to suppress the player's expectation of the big hit notice from weakening, and to improve the expectation of the big hit given to the player by the appearance of the big hit notice.
[0079]
(3) Conditions for continuing the jackpot notice have been added. Therefore, only in a specific case (in the present embodiment, after the jackpot notice is executed, the next symbol combination game becomes a jackpot effect), the jackpot notice can be continuously executed. Therefore, as in the related art, it is possible to create a continuous announcement in which the jackpot announcement is realized and a continuous announcement in which the jackpot announcement is not realized, thereby improving the interest.
[0080]
(4) The main control board 26 compares the value of the big hit random number with the main determination value to determine whether or not the main side is acceptable, and the overall control board 30 also performs the execution determination. Therefore, the main control board 26 determines whether to execute the jackpot notice (or the continuous notice) in the case of a big hit. That is, the main control board 26 does not determine whether or not to execute the jackpot notice (or the continuous notice) in the case of a miss. Therefore, the process for executing the jackpot notice performed by the main control board 26 is simplified, and the jackpot notice (or the continuous notice) can be executed without imposing a burden on the main control board 26.
[0081]
(5) The number values Y1 and Y2 of the jackpot notice are determined based on the number of reserved storages. Therefore, the big hit notice can be executed every time the symbol combination game is performed for the number of times corresponding to the number value of the big hit notice Y1, Y2. Therefore, the big hit notice can be reliably and continuously made without interruption.
[0082]
(6) The overall control board 30 makes an execution determination in response to the input of the hold designation command. The hold designation command is an existing control command output from the main control board 26, and the overall control board 30 makes an execution determination using the existing control command. Therefore, even when the overall control board 30 performs the execution determination, the main control board 26 having the same configuration as that of the related art can be adopted without changing the design of the main control board 26. Furthermore, since the main control board 26 does not need to output a dedicated control command for the overall control board 30 to make an execution determination, it is possible to suppress an excessive burden on the main control board 26. Further, since the hold designation command is associated with the number of storages to be held, the central control board 30 can set the number of times of jackpot notice Y2 based on the hold designation command.
[0083]
(7) The general control board 30 further determines whether or not to execute the jackpot notice when the notice command is input (execution judgment), and executes the jackpot notice only when the judgment result is affirmative. did. Therefore, even when the combination of jackpots is finally stopped, a case where a jackpot notice (continuous notice) is executed and a case where it is not executed can be created. Therefore, it is possible to impress the player that the big hit notice (continuous notice) is a very special effect. In this determination, the general control board 30 uses the effect random number. Therefore, it is possible to randomly select whether to execute the jackpot notice (continuous notice) or not.
[0084]
(8) The general control board 30 sets the notice effect number F1 or the notice effect number F2 using the jackpot notice number value Y1 or the count value Y2, and every time the effect pattern designation command is input, the notice effect number F1 or notice The number of effects F2 is subtracted and reset. Therefore, the information (the number of notice effects F1 or the number of notice effects F2) necessary for continuously performing the jackpot notice can be managed by the overall control board 30. Therefore, the jackpot notice (or the continuous notice) can be executed without imposing a burden on the main control board 26.
[0085]
(9) In the case where the general control board 30 newly sets the notice production number F1 based on the input of the notice command while the notice production number F2 is set, the general control board 30 resets the previously set notice production number F2. I did it. Therefore, the overall control board 30 can execute the jackpot notice based on the newly set notice effect number F1. Therefore, the realized jackpot notice (or continuous notice) can be preferentially executed.
[0086]
(Second embodiment)
Hereinafter, a second embodiment in which the present invention is embodied in a pachinko gaming machine (hereinafter, referred to as a “pachinko machine”), which is a kind thereof, will be described with reference to FIG.
[0087]
In the present embodiment, a condition for executing the jackpot notice in the present symbol combination game following the previous symbol combination game in a state where the number of advance notice effects F1 and F2 is not set is added. Specifically, the processing of steps S60, S61, and S62 surrounded by a two-dot chain line in FIG. 11 is added.
[0088]
Hereinafter, the processing of steps S60 to S62 performed in the effect content pattern determination processing (FIG. 11) in the present embodiment will be described in detail.
If the result of the determination in step S51 (ie, whether or not the effect pattern confirmed in step S40 is an effect pattern for a big hit effect) is negative, the overall CPU 30a determines whether the effect pattern confirmed in step S40 is an effect pattern. It is determined whether it is P3 (step S60). The effect pattern P3 is an effect pattern in which a reach effect (normal reach effect → super reach effect) that develops in two stages is performed as described above. If the result of the determination in step S60 is affirmative (P3), the central CPU 30a sets the advance notice flag YF (step S61). That is, "1" is set to the notice flag YF. Then, similarly to the steps S44, S49, and S53, the general CPU 30a determines an effect content pattern with a big hit notice (step S62), and sets an effect content pattern designation command in the RAM 30c in a step S45. On the other hand, if the result of the determination in step S60 is negative (not P3), the supervisory CPU 30a resets the advance notice flag YF in step S54, and determines an effect content pattern without a big hit announcement in step S55.
[0089]
As described above, in a state where the number of preview effects F1 and F2 has not been set, the jackpot notice is executed in the previous symbol combination game, and the present symbol combination game is determined to be an unrealistic effect including a specific reach effect. If it does (steps S60 → S61 → S62), the effect content pattern with the big hit notice is determined. Then, the supervising CPU 30a outputs an effect content pattern designation command for designating an effect content pattern with a big hit notice to each of the sub CPUs 27a to 29a. As a result, the jackpot notice is also executed in the present symbol combination game following (continued from) the previous symbol combination game. The process flow of steps S60 → S61 → S62 is such that when a special reach effect is performed in a symbol combination game performed immediately after a symbol combination game in which a jackpot notice is executed but results in a loss, the symbol combination is performed. This is also a process for executing a jackpot notice in a game. In the present embodiment, the jackpot announcement executed when the above step S60 is affirmed is not realized as the jackpot announcement executed in accordance with the announcement effect number F2. , "1" is set to the notice flag YF. Therefore, when the effect pattern for the big hit effect is specified by the effect pattern specification command for performing the next symbol combination game, the same as the first embodiment, The jackpot notice is also executed in the symbol combination game described above.
[0090]
Therefore, according to the present embodiment, the following effects can be obtained in addition to the effects (1) to (9) of the first embodiment.
(10) When the jackpot notice is executed in the previous symbol combination game and the off-state effect including the specific reach effect is performed in the current symbol combination game, the number of the announcement effects F1 and F2 is not set. Even so, it is configured to execute a jackpot notice in the present symbol combination game following the previous time. In this case, the executed jackpot notice is not realized, but when a reach effect (a reach effect that develops into two stages in the present embodiment) in which a sense of expectation for the jackpot is performed is performed, it is continued from the previous symbol combination game. By executing the jackpot notice, it is possible to further increase the sense of expectation of the jackpot held by the player.
[0091]
(11) Also, when a jackpot notice is executed following the previous symbol combination game when a loss effect including a specific reach effect is performed, the notice flag YF is reset to the notice flag YF without resetting the notice flag YF. "1" was set. For this reason, it is possible to suppress the execution of the symbol combination game in which the big hit is performed without executing the big hit notice immediately after the symbol combination game in which the hit effect including the reach effect in which the expectation of the big hit is increased is performed. Therefore, a big hit notice can be given at an appropriate timing.
[0092]
The above embodiments may be modified as follows.
In each of the above embodiments, the processing of steps S21 and S22 in the sub-side notice determination processing (FIG. 7) may be omitted. In this case, upon inputting the notice command, the supervisory CPU 30a sets the notice effect number F1 based on the notice command. Further, the processing of step S43 in the effect content pattern determination processing (FIGS. 8 and 11) may be performed as the pre-processing or post-processing of step S25 of the sub-side notice determination processing, or similarly, the processing of step S48 May be performed as pre-processing or post-processing of step S32. In the second embodiment, the processing of steps S51, S52, and S53 in the effect content pattern determination processing (FIG. 11) may be omitted.
[0093]
In the above embodiments, the control of the notification device may be performed by the general CPU 30a, and the general CPU 30a may function as a notification device control unit. Also, a notice command and a hold designation command are input to each of the sub CPUs 27a to 29a, and each of the sub CPUs 27a to 29a is caused to function as a notice determination means, an execution number setting means, a notice control means, an effect determination means, and a notice execution determination means. Is also good. That is, as long as the sub-control means including the display control board 27, the lamp control board 28, the audio control board 29, and the general control board 30 has any of the functions of these CPUs (the general CPU 30a, The CPUs 27a to 29a) may perform the processing.
[0094]
In the above embodiments, the general control board 30 may be omitted, and the control boards 27 to 29 may input control commands from the main control board 26 and execute various processes. In this case, the sub-control means is constituted by the control boards 27 to 29. When the jackpot notice is executed in this configuration as in the above-described embodiment, the notice command and the hold designation command are input to each of the sub CPUs 27a to 29a, and the notice determination means, the execution number setting means, the notice control means, the effect determination means , And function as a notice execution determination unit. Further, when it is determined whether or not to execute the jackpot notice based on the notice command, the sub CPUs 27a to 29a are caused to function as execution determination means.
[0095]
In the above embodiments, the general control board 30 may be configured to also be used as one or two of the display control board 27, the lamp control board 28, and the audio control board 29. For example, the voice control board 29 may play the role of the general control board 30 described in the above embodiment, and may control the respective control boards 27 to 29 based on the control command output from the main control board 26. . At this time, the CPU, the ROM, and the RAM may be provided separately for voice control and general control, or may be shared. In this case, the audio control board 29 serves as an effect control unit and an overall control unit.
[0096]
In each of the above embodiments, the display control board 27, the lamp control board 28, and the audio control board 29 are configured as separate boards. However, the control boards 27 to 29 may be arbitrarily combined and configured as a single board. good. For example, the control boards 27 to 29 may be constituted by a single board. At this time, the CPU, ROM, and RAM may be separately provided for display control, light emission control, and audio control, or may be shared. The single substrate configured as described above can execute a plurality of controls of the display control, the light emission control, and the voice control, and serves as a plurality of effect control units.
[0097]
In the above embodiments, the variable display device 21 is configured by a liquid crystal type, but the type of the variable display device 21 may be arbitrarily changed. For example, a CRT (CRT) type, a plasma display type, a 7-segment LED type, a dot matrix type, or a mechanical type (drum type or belt type) may be used.
[0098]
In the above-described embodiment, the game effect is performed by the variable display device 21, the frame lamp 16, the game board lamp 17, and the speaker 18, but a device (game device) for performing the game effect may be arbitrarily changed. For example, a movable device that performs a game effect by the operation of a movable body, a vibration device that performs a game effect by vibration, or an odor generating device that performs a game effect by generating an aroma may be used. Further, a game effect may be performed by a combination of these optional devices.
[0099]
In each of the above embodiments, the device for executing the jackpot notice (notice device) may be arbitrarily changed. For example, a winning notification means such as the reserved ball number display 25 may be configured to also be used as a device for executing a jackpot notice. In the case of executing the jackpot notification by the prize notification means, the notification mode (for example, blinking, lighting in a different color) different from the notification mode (lighting in the embodiment) of the number of stored storages (prize notification), and the jackpot notification is performed. Prize information can be differentiated. In addition, the variable display device 21, the game board lamp 17, and the speaker 18 may independently execute a jackpot notice. Further, a lamp, a display, or the like dedicated to the big hit notice may be provided.
[0100]
In each of the above embodiments, the range of values that can be taken by various random numbers such as the big hit random number and the effect random number, and various judgment values (big hit judgment value, main judgment value, sub judgment value, and execution judgment value) can be arbitrarily changed. good. For example, the main determination value may be only “7” or “7,919”. That is, the set number may be arbitrarily changed on condition that the main determination value is set to the same value as the big hit determination value. Further, the set number of sub-determination values may be increased to, for example, “11, 150, 200”. By changing the set number of sub-judgment values, it is possible to change the appearance ratio of the continuous notice executed based on the execution judgment. In addition, the upper limit of the number of reserved storages may be arbitrarily changed, or the upper limit may not be set.
[0101]
In each of the above embodiments, the pachinko machine 10 may be configured such that only the general control board 30 (the general CPU 30a) performs a process (execution determination) for executing the jackpot notice. That is, in the above-described embodiment, the process performed by the main control board 26 (main CPU 26a) to execute the jackpot notice (main-side feasibility determination) is omitted, and the overall CPU 30a executes the hold designation command in the same manner as in the embodiment. Make an execution judgment based on the input. And it is comprised so that a big hit notice may be performed based on the determination result of execution determination. According to this configuration, the jackpot notice can be reliably continued in the symbol combination game for the number of times corresponding to the number of reserved storages by utilizing the existing control command, and the burden on the main CPU 26a (main control board 26) is increased. The jackpot notice can be executed without forcing.
[0102]
In the above embodiments, the big hit notice is executed by one kind of notice pattern, but may be executed by plural kinds of notice patterns.
In the above embodiments, the number of effect patterns stored in the ROM 26b of the main control board 26 may be arbitrarily changed. Further, the number of effect content patterns to be assigned to one effect pattern may be arbitrarily changed, such as a single effect or a plurality of effects. When distributing a plurality of effect content patterns, the distribution number may be arbitrarily changed.
[0103]
In the above embodiments, a common hold designation command is used. However, the hold designation command output in the hold number processing (FIG. 5) and the hold designation command output at the start of the symbol combination game are separated. Is also good. Then, the central CPU 30a makes an execution determination based on the hold designation command output in the hold storage number process.
[0104]
In each of the above embodiments, the rate at which the determination result of the execution determination performed by the overall CPU 30a becomes affirmative may be changed according to the number of times Y1 and Y2 of the jackpot notice. That is, as the number of times of jackpot notice Y1, Y2 approaches the numerical value indicating the upper limit of the number of reserved storages, the set number of execution determination values and sub-determination values is increased, and the rate at which the determination result of the execution determination becomes affirmative is increased. You may make it raise. For example, when the number value Y1 of the jackpot notice is “1”, the execution determination value is not set, and it is determined that the jackpot notice is not executed. When the number Y1 of the jackpot notice is "2, 3", the execution judgment value is set to "0 to 199 (all 200 patterns)", and the execution judgment is made. When the number Y1 of the jackpot notice is "4" , The execution determination is made with the execution determination value set to “0 to 250 (total 251 patterns)”. According to this configuration, as the number of pending symbol combination games increases, the rate at which the continuous notice is executed increases, and when the continuous notice is executed, the number of times the jackpot notice is continued increases. The expectation of the big hit that the person has can be further evoked.
[0105]
In the above-described embodiments, the main CPU 26a performs the jackpot determination and the main-side determination using the jackpot random number. However, the main CPU 26a determines the main-side determination using the announcement determination random number (determination random number) different from the jackpot random number. You may go. The random number for announcement determination is a random number that is sequentially updated (that is, updated synchronously) at predetermined intervals so as to take the same value within the same numerical range as the jackpot random number. The main CPU 26a reads the jackpot random number and the random number for announcement determination from the RAM 26c at the time of winning detection.
[0106]
In each of the above-described embodiments, the notice effect number F1 or the notice effect number F2 is set in the RAM 30c, and the effect content pattern determination process (FIG. 8) is performed based on the notice effect numbers F1 and F2. You may change it. That is, in the sub-advance notice determination process (FIG. 7), the effect of the jackpot notice is produced based on the number values Y1 and Y2 without setting the notice effect numbers F1 and F2 in the RAM 30c based on the number value Y1 or the number value Y2 of the jackpot notice. It is set in the RAM 30c in advance. For example, when the number-of-times value Y1 is "3", the jackpot notice is executed in the three symbol combination games, so that the effect of the three jackpot notices is set in the RAM 30c. Then, every time the control CPU 30a inputs the effect pattern designating command, it outputs a command for designating the effect of the jackpot notice set in the RAM 30c to each of the sub CPUs 27a to 29a. In this configuration, when the jackpot announcement effect is set in the RAM 30c, the overall CPU 30a performs control to execute the jackpot announcement because the number of executions of the jackpot announcement (announcement effect) is determined. On the other hand, when the effect of the jackpot notice is not set in the RAM 30c, the number of executions of the jackpot notice (notice effect) is not determined, so that the predetermined condition is satisfied as in the above-described embodiments. Control to execute the jackpot notice. That is, the overall CPU 30a executes the jackpot notice in the effect of the jackpot notice set based on the number-of-times value Y2 in the previous symbol combination game, and the present symbol combination game has the specific effect contents (the jackpot effect, the specific reach). In this case, the control for executing the jackpot notice is performed in the case of the “missing effect including the effect”).
[0107]
Next, technical ideas that can be grasped from the embodiment and other examples will be additionally described below.
(A) main control means: a big hit determination means for comparing the value of the random number for determination read out upon the detection of the winning with a predetermined big hit determination value to determine whether or not a big hit is determined; It is determined whether or not to execute a notice effect by comparing a notice judgment value predetermined to be the same value and a value of a judgment random number read in response to the prize detection, and when the judgment result is executable, The main-side notice determining means for determining the number of executions of the notice effect based on the stored number of the starting reserved balls, and a notice signal indicating the number of executions of the notice effect determined by the main notice determination means are output to the sub-control means. Notice signal output means, and the number-of-executions setting means is the first number of executions, which is the number of times of the notice effect indicated by the notice signal, or the number of executions of the notice effect, determined by the notice decision means. Second run Any of the numbers is set in the setting means, and the notice execution determination means is configured to determine whether or not the notice effect has been executed based on the second execution number in the previous game effect. The gaming machine according to claim 4.
[0108]
(B) When the first execution number is set based on the input of the advance notice signal in a state where the second execution number is set in the setting means, the execution number setting means sets the set second execution number. The gaming machine according to the above technical concept (a), wherein the setting is reset and the first execution number is set in the setting means.
[0109]
(C) The gaming machine according to claim 2, wherein the sub control means includes an execution determining means for determining whether or not to execute a notice effect when a notice signal is input.
The gaming machine according to claim 4, wherein the number-of-executions setting means is configured to subtract the number of executions set in the setting means each time the game effect is started.
[0110]
(E) The gaming machine according to claim 4, wherein the execution number setting means is configured to subtract the execution number set in the setting means every time a pattern signal is input.
(F) The number of executions setting means is configured to subtract the first execution number or the second execution number set in the setting means every time a pattern signal is input. ).
[0111]
【The invention's effect】
According to the present invention, a notice effect can be executed at an appropriate timing.
[Brief description of the drawings]
FIG. 1 is a front view showing the front side of a pachinko gaming machine.
FIG. 2 is a front view showing a variable display device.
FIG. 3 is a block diagram showing a control configuration of the pachinko gaming machine.
4A is an explanatory diagram showing an effect pattern, FIG. 4B is an explanatory diagram showing an effect content pattern, and FIG. 4C is an explanatory diagram showing effect execution data.
FIG. 5 is a flowchart showing a reserved storage number process.
FIG. 6 is a flowchart illustrating a main-side notice determination process.
FIG. 7 is a flowchart showing a sub-side notice determination process.
FIG. 8 is a flowchart showing an effect content pattern determination process.
FIGS. 9A to 9F are schematic diagrams showing a mode in which a big hit notice (continuous notice) is performed.
FIGS. 10A to 10H are schematic diagrams showing a mode in which a big hit notice (continuous notice) is continuously performed.
FIG. 11 is a flowchart showing a part of the effect content pattern determination process according to the second embodiment.
[Explanation of symbols]
SE1: start winning opening sensor, P1, P2, P3, P4, P5: effect pattern, 10: pachinko game machine (game machine), 23: start winning opening, 26: main control board (main control means), 26a: main CPU (big hit determination means, main side notice determination means, notice signal output means, signal output means), 26c RAM (holding ball number storage means), 27 display control board (sub-control means), 28 lamp control board ( 29: voice control board (sub-control means), 30: general control board (sub-control means), 30a: general CPU (notice determination means, execution count setting means, effect determination means, notice execution determination means, Notice control means), 30c ... RAM (setting means).

Claims (4)

Reservation ball number storage means capable of storing the storage number of start-reservation balls triggered by the detection of a game ball winning by the winning detection means,
Pattern determining means for determining an effect pattern that can specify at least the effect contents of the game effect,
It is determined whether or not to execute a notice effect in the game effect, and if the judgment result is affirmative, a notice determining means for determining the number of times of the notice effect to be executed based on the stored number of the starting hold balls,
Effect determination means for determining whether the effect content of the game effect based on the effect pattern determined by the pattern determining means is a specific effect content,
Notice execution determining means for determining whether or not the notice effect has been executed in the previous game effect performed immediately before the game effect,
When the number of executions is determined, control is performed to execute the notice effect in accordance with the number of executions, and when the number of executions is not determined, the determination by the effect determination unit and the notice execution determination unit is performed. A gaming machine comprising: a notice control unit that performs control to execute the notice effect when all the results are positive. In a gaming machine having a main control means for controlling the entire gaming machine, and a sub-control means capable of executing various controls related to the game effect based on the control signal output by the main control means,
The main control means determines a reserved ball number storage means capable of storing the stored number of start-reserved balls upon detection of a winning of a game ball by the winning detection means, and an effect pattern capable of specifying at least the effect contents of the game effect. Pattern determining means, and a signal output means for outputting to the sub-control means a reserved ball number signal indicating the number of stored start reserved balls and a pattern signal indicating the effect pattern,
The sub-control means determines whether or not to execute a notice effect in the game effect triggered by the input of the reserved ball count signal, and when the determination result is affirmative, the sub-control means is instructed by the reserved ball count signal. Notice determination means for determining the number of executions of the notice effect based on the number of stored start-holding balls, and whether or not the effect contents of the game effect based on the effect pattern instructed by the pattern signal are specific effect contents. Effect determination means for determining whether or not the notice effect has been executed in the last game effect performed immediately before the game effect, and when the number of executions is determined Performs control to execute the announcement effect according to the number of executions, and when the number of executions is not determined, when the determination results of the effect determination unit and the advancement execution determination unit are both positive, Gaming machine that includes a notice control means for performing control to execute the serial announcement attraction. The specific production content includes the production content of the jackpot production that is finally developed to stop at the jackpot combination, and the specific reach production, and the unfolding that is finally developed to stop at the unmatched combination. The gaming machine according to claim 1, wherein the effect is at least one of the effect contents of the effect. An execution number setting unit capable of setting the number of executions of the notice effect to a setting unit, wherein the notice control unit sets the notice effect in accordance with the number of executions when the number of executions is set in the setting unit. When the number of executions is not set in the setting means, the control for executing the notice effect is performed when the judgment results of the effect judgment means and the notice execution judgment means are both positive. The gaming machine according to any one of claims 1 to 3, wherein the gaming machine is configured to perform the game.

Images