JP4358534B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention comprises variable display means having a plurality of variable display areas capable of variably displaying identification information that can be individually identified, and after a predetermined variable display start condition is satisfied, The present invention relates to a gaming machine that starts variable display of identification information based on establishment, and can be controlled to a specific gaming state advantageous to a player when the display result of variable display of the identification information becomes a specific display result. .
[0002]
[Prior art]
In gaming machines such as pachinko machines, there are many things that can be used as jackpots when the identification information is variably displayed on the variable display device when the game ball starts to win and the display result is a specific display result. However, in some of such gaming machines, there is a variable display device that produces a notice notification such as a reach notice. Thus, in the case of a gaming machine that performs the effect of the advance notice, conventionally, in order to enhance the effect of the production, the effect mode is changed in accordance with the type of the advance notice, for example, the variable display device is related to the effect of the advance notice. There is one that changes the background display (for example, Patent Document 1).
[0003]
On the other hand, in the gaming machine as described above, the start winning number is stored for a predetermined number of times, and the variable display of the identification information and the display result derivation display are sequentially repeated for the number of start stored times. When there is a start memory that is determined to be a big hit, there are some that perform a plurality of notice effects, so-called continuous notice until the start memory.
[0004]
[Patent Document 1]
JP 2002-58822 A (Page 7, FIG. 4)
[0005]
[Problems to be solved by the invention]
However, in the case of what is described in Patent Document 1 described above, if the effect mode of continuous notice is set for each effect mode, and only the effect mode is changed during the continuous notice, the effect mode and effect of continuous notice are changed. There is a problem that inconsistency occurs with the mode effect mode. The present invention has been made in view of the above-described circumstances, and the object of the present invention is to execute the present mode without changing the production mode even if the conditions for changing the production mode are satisfied during the continuous notice. An object of the present invention is to provide a gaming machine that improves the interest of the game by continuing the continuous notice based on the effect mode.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, there is provided variable display means capable of variably displaying identification information that can be individually identified, and after a predetermined variable display start condition is established, the variable information is variable. A game in which variable display of identification information is started based on the establishment of a display start condition, and when the display result of the variable display of the identification information becomes a specific display result, the game can be controlled to a specific game state advantageous to the player In the machine A game control means for controlling the progress of the game based on a game control program; and an effect control means for controlling the variable display means based on a command transmitted by the game control means. Determination numerical data updating means for updating determination numerical data used for determining whether or not a specific display result is obtained, and the determination numerical data is extracted and stored in a predetermined storage area when the start condition is satisfied. When the start condition is satisfied, when the start condition is satisfied, the display result of the variable display is set as the specific display result based on the numerical data for determination extracted by the data extraction and store means when the start condition is satisfied. A start time determination means for executing a start time determination process to determine whether or not the determination numerical data stored in the storage area when the start condition is satisfied. And a start determination unit that executes a determination process before start for determining whether or not the display result of variable display is set as the specific display result based on the read numerical value data for determination, and the start condition is satisfied Sometimes, a determination result command that can specify the determination result by the start-time determination means, and a start memory that can specify the start memory number that is the number of variable displays of the identification information that has satisfied the start condition but has not yet started. Command transmission means for transmitting a number command to the effect control means, the effect control means, Data used to determine the effect of variable display, the effect mode storage means for storing a plurality of effect modes with different determined effects of variable display, and the current effect mode based on the establishment of a predetermined condition Effect mode switching means for switching an effect mode to be used from a plurality of effect modes stored in the effect mode storage means from the current effect mode to another effect mode; Based on the establishment of the start condition, Corresponding to the production mode switched by the production mode switching means Identity Variable table Execute Do Variable display execution means When, The determination result command received from the command transmission means is Specific display result Indicates that sometimes, Before the variable display start condition for the specific display result is satisfied Over multiple variable displays Notice that it will be a specific display result Decide whether to run a continuous notice Continuous notice determination means When, A start memory number display control means for controlling a start memory number display means for displaying the start memory number based on the start memory number command; Of the continuous notice Notice mode Is stored for each production mode. Notice mode storage means And said Continuous notice determination means When the decision to execute continuous notice is made by Notice mode storage means Remembered Above plural Notice mode Corresponding to the production mode switched by the production mode switching means Notice mode Select Notice mode selection means And said Notice mode selection means Selected by Notice mode Execute the continuous notice based on Continuous notice execution means The production mode switching means includes switching restriction means for regulating switching from the current production mode to another production mode even if the predetermined condition is satisfied during execution of the continuous notice. Features. By configuring in this way, even if the transition condition of the production mode is satisfied during execution of the continuous notice, the continuous notice is executed by the currently executed production mode without changing the production mode. In addition, there is no inconsistency between the production mode of the continuous notice and the production mode of the production mode, and a unified production without any sense of incongruity can be performed as a whole.
[0007]
In the invention of claim 2, Above The pre-start determination process and the start-time determination process are configured by a common processing module. With this configuration, it is possible to reduce the amount of program when the pre-start determination unit and the start-time determination unit are provided, and it is possible to reduce costs.
[0008]
[0009]
[0010]
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. In the following description, reach is not yet derived and displayed when the derived and displayed identification information (referred to as reach state identification information) forms part of the jackpot identification information (specific display result). The identification information (identification information during variable display) is variably displayed, and all or part of the identification information is variably displayed synchronously while constituting all or part of the jackpot identification information. State.
[0012]
Specifically, an effective line that is a big hit is determined by deriving and displaying predetermined identification information on a plurality of predetermined variable display units, and a part of the variable display units on the effective line is determined. A state in which variable display is being performed on the variable display section on the active line that has not been derived and displayed when the predetermined identification information is derived and displayed (for example, left of the left, middle, and right variable display sections , In the state in which the identification information (for example, “7”) that is a part of the identification information of the big hit is derived and displayed in the variable display portion in the middle, and the variable display portion on the right is still in the variable display state) A state in which all or part of the identification information of the variable display section on the active line is variably displayed synchronously while constituting all or part of the jackpot identification information (for example, the left, middle, and right variable display sections Variable display on all Be displayed is the same state of variable display in a state where the identification information is aligned is being performed).
[0013]
In addition, during the reach, unusual effects may be performed with lamps and sounds. This production is called reach production.
[0014]
In the case of a reach, a character (an effect display imitating a person or the like, which is different from identification information) may be displayed, or the background display mode may be changed. This change of character display and background display mode is called reach effect display.
[0015]
First, with reference to FIG. 1 thru | or FIG. 4, the whole structure of the ball game machine 1 as a game machine which concerns on embodiment is demonstrated. As shown in FIGS. 1 and 3, a bullet ball game machine 1 includes an outer frame 2 that is formed into a vertically long frame, and is pivotally supported on one side of the outer frame 2 so as to be openable and closable. 1 comprises a front frame 3 provided with almost all of the main components integrated, and a front opening / closing frame 4 provided openably on the front upper portion of the front frame 3. The main components provided in the front frame 3 include the front opening / closing frame 4, the game board 40, the upper plate 19, the lower plate 27, the ashtray 29, the operation handle 30, the mechanism plate 100, and the ball launcher 87. . In the illustrated embodiment, a card unit device 31 for lending a game ball to a player is attached to the side of the ball game machine 1.
[0016]
The front opening / closing frame 4 is provided with a circular see-through window 5 through which a game area 41 of a game board 40 to be described later can be substantially seen through, and a multilayer glass plate is mounted from the back of the circular see-through window 5. Further, on the upper side of the front opening / closing frame 4, decorative lamps 6 to 8, 15, 16 as game effect lamps face along the outer periphery of the circular see-through window 5. These decoration lamps 6-8, 15, and 16 are lit or flashed in accordance with the gaming state, and notify the player of the occurrence or continuation of a special gaming state and increase the gaming atmosphere. is there. In addition, a predetermined number of balls are provided on the outer periphery of the circular see-through window 5 based on the occurrence of a ball break lamp 9 for notifying that the number of prize balls is insufficient to be paid out (when a ball break switch 115 described later is activated) or the occurrence of a winning ball. A prize ball lamp 10 for notifying that a prize ball has been paid out (a system for notifying that a prize ball has not been paid out may be used) is provided on the upper left and right sides of the front opening / closing frame 4. Speakers 12a and 12b that generate sound effects according to the progress are provided. The front of each of the lamps 6 to 8, 9, 10, 15, 16 is covered with a lamp cover of red or green having translucency. In particular, the player is notified of the situation by turning on the ball break lamp 9 with red light emission and turning on the prize ball lamp 10 with green light emission. In addition, a punch metal 11 is attached to the front surfaces of the speakers 12a and 12b so as to pass sound generated from the speakers 12a and 12b. In addition, decoration LEDs 37 and 38 as game effect LEDs for light decoration are attached to the front opening / closing frame 4 in the vicinity of the speakers 12a and 12b (on the back side of the punch metal 11), respectively.
[0017]
Next, the structure of the upper plate 19 attached to the lower side of the front opening / closing frame 4 will be described. The upper plate 19 is configured by fixing a plate member in which a plurality of synthetic resin members are combined. A ball removal operation lever 21 is provided above the open side of the upper plate 19. The ball removal operation lever 21 is provided so as to be movable in the left-right direction, and moves the game ball stored in the upper plate 19 on the back side by moving it in one direction against the biasing force of a spring (not shown). The ball extraction path (not shown) formed on the bottom plate 27 is caused to flow down and guided to the lower plate 27.
[0018]
The upper plate 19 will be described in more detail. The upper plate 19 temporarily stores the prize balls paid out from the prize ball payout opening 20 formed on the upstream side thereof, and then supplies the game balls to the launch position. To do. In addition, the upper plate 19 is provided with an operation unit that is operated when borrowing a game ball via a card unit device 31 provided adjacent to the ball game machine 1. The operation unit includes a ball lending switch 24 and a return switch 25 (both are shown only with reference numerals in FIG. 4) and a balance display board 23 (only reference numerals are shown in FIG. 4) on which display LEDs (not shown) are mounted. The balance display substrate 23 is provided so as to face the upper surface of the upper plate 19. Further, on the open side of the upper plate 19, a cylinder lock for operating a locking device (not shown) that locks the front opening / closing frame 4 to the front frame 3 and locks the front frame 3 to the outer frame 2. 26 is on the way.
[0019]
The lower plate 27 attached to the lower part of the front frame 3 is a prize ball overflowing from the upper plate 19 and is discharged from a connecting rod 93 (see FIG. 3) through an excess ball passage (not shown). The ball removing operation lever 28 is slidably attached to the front wall of the lower plate 27. By operating the ball removal operation lever 28, the prize balls stored in the lower plate 27 can be removed and transferred to a portable ball box. An ashtray 29 is provided on the left side of the lower plate 27, and an operation handle 30 is provided on the right side. The operation handle 30 detects that the player touches the operation handle 30 and the single-shot switch 91 for temporarily stopping the driving of the launcher motor 88 (stepping motor) of the ball launcher 87 shown in FIG. A touch sensor (not shown) is provided, and a finger hook 32 (see FIG. 1) for adjusting the elastic force is provided.
[0020]
On the other hand, as shown in FIG. 3, a mechanism plate 100 equipped with various mechanisms for paying out a predetermined number of prize balls based on the occurrence of winning balls is provided on the back of the ball game machine 1. A ball launcher 87 having a launcher motor 88 and a ball striking rod (not shown) is fixed to the back surface corresponding to the operation handle 30, and an excess ball passage of the mechanism plate 100 is located on the side of the ball launcher 87. A connection rod 93 for guiding the game ball flowing down from the lower tray 27 is fixed. Among the above-described configurations, the ball launcher 87 is provided with a launch control board 90, and the ball launcher 87 is driven and controlled by the launch control board 90.
[0021]
The overall schematic configuration of the bullet ball gaming machine 1 has been described above, but the detailed configuration of the game board 40 and the mechanism plate 100 among the components constituting the bullet ball gaming machine 1 will be sequentially described below.
[0022]
First, the game board 40 will be described mainly with reference to FIG. The game board 40 is formed of a substantially square plywood (not shown) so as to be housed and fixed in a game board storage frame (not shown) integrally formed on the back side of the front frame 3, and is formed on the surface thereof. The guide rail 42 is attached in a circular spiral shape, and a ball hit by the inside of the guide rail 42 serving as a game area 41 falls. The game area 41 is provided with a variable display device 44, a special variable winning ball device 48, an ordinary variable winning ball device 58 as a winning port, a passing port 61a incorporating a passing ball detector 61b, etc. A winning opening for simply winning a ball, a windmill flow direction, a windmill that changes the speed, or a number of obstacle nails are provided, and at the bottom of the game area 41, a ball that does not win any winning device is taken in. An out port 69 is provided.
[0023]
The configuration of the game area 41 will be described in more detail according to the game operation. An ordinary variable winning ball device 58 is provided below the variable display device 44, and a passing ball is detected on both sides of the normal variable winning ball device 58, respectively. A passage port 61a is provided in which the container 61b is built. When this passing ball detector 61b detects the passing of a hit ball falling through the game area 41, the normal symbol display 63 comprising a pair of upper and lower LEDs provided on the right side of the special variable winning ball device 48 based on the detection signal. Is variably displayed (lighted and moved) to derive the display result (only one of the upper and lower LEDs is lit and displayed). Thus, when the display result of the normal symbol display 63 is a predetermined hit LED lighting (upper LED in the case of illustration), the normal variable winning ball device 58 is opened for a predetermined time. Note that the variable time of the normal symbol display 63 is relatively long (for example, 30 seconds) in a non-special game state to be described later, and relatively short (for example, 3 to 5) in a special game state to be described later. Sec) is set. A special symbol start memory display unit 46 (stores up to four symbols) that stores and displays the number of balls detected by a start ball detector 60 (to be described later) during the variable operation of the special symbol at the bottom of the display area of the variable display device 44. Display). In addition, in the special symbol start memory display unit 46 displayed at the lower part of the display area, the upper limit value of the start memory number is set to a constant four, but this is not restrictive, and the start is started when a predetermined condition is established in advance. You may comprise so that the upper limit of the number of memory | storage numbers can be changed (for example, when it is a probable big hit, it increases to 20 pieces etc.). Further, among the lighting parts constituting the special symbol start memory display part 46, those in the off state may be displayed with the outline “◯”, or the outline “O” may not be displayed at all.
[0024]
The normal variable winning ball device 58 is disposed between the variable display device 44 disposed substantially at the center of the game area 41 and the special variable winning ball device 48 disposed above the out port 69 of the game area 41. This is an electric tulip type variable winning ball apparatus that is driven to open and close by a solenoid 59 (only the reference numeral is shown in FIG. 4). The ordinary variable winning ball device 58 has a built-in starting ball detector 60 for detecting a winning ball received during opening or closing. Thus, when the hit ball is detected by the starting ball detector 60, the variable display device 44 starts variable display. The opening time of the normal variable winning ball device 58 is set to be relatively short (for example, 0.5 seconds) in the non-special game state and relatively long (for example, 2 seconds) in the special game state. Has been. Further, even when the normally variable winning ball apparatus 58 is not open, the hit ball is accepted.
[0025]
As shown in FIG. 2, the variable display device 44 is a liquid crystal display having an image display unit 160 that variably displays identification information (in the text, the identification information is also referred to as a symbol or a special symbol). The image display unit 160 displays identification information in three display areas of left, middle, and right. A decorative member 161 having a horizontally long window opening is provided on the front outer periphery of the image display unit 160. An attachment hole 164 for attaching the decoration member 161 to the game board 40 is formed in the outer periphery of the decoration member 161. Then, it is specified when the combination of symbols at the time when the variable display device 44 stops changing is a specific display result that is a combination of predetermined jackpot symbols (for example, when the same symbol is aligned with any of the winning lines). The game state is entered, and the special variable winning ball device 48 is driven to open and close in a predetermined manner described below. However, a part of the specific display result is set as a special display result. When the special display result is set to the specific game state, the normal symbol display 63 after the end of the specific game state (the hit LED is turned on) ) And an appearance probability of jackpot symbols on the variable display device 44 are set to be in a special gaming state advantageous to the player. On the other hand, the specific display result other than the special display result is set as a non-special display result that is in a non-special game state that is more disadvantageous to the player than the special game state. When the big hit symbol is displayed on the variable display device 44, the temporary display result (provisional symbol combination) may be displayed once, and the display result (determined symbol combination) may be displayed again. , Done with a certain probability. At this time, even if the temporary display result is a combination of identification information (non-probable variation) that does not become a special gaming state, it may be promoted to a combination of identification information (probability variation) that becomes a special gaming state in the display result. The probability of promotion from a combination of non-probable variable symbols to a combination of probabilistic symbols is called a rise rate.
[0026]
Further, in the vicinity of the variable display device 44, in addition to the normal symbol storage LED 64 as described above, a decoration LED 45 (only the reference numeral is shown in FIG. 4) for light-decorating the outer peripheral portion of the image display unit 160, and the variable display device A special symbol start memory display LED 46 (stores and displays up to four) is provided for storing and displaying the number of balls detected by the start ball detector 60 during the variable operation of 44. The variable display device 44 is not limited to the liquid crystal type, but may be a CRT, a dot matrix, an LED, a 7 segment, a drum, or the like.
[0027]
The special variable winning ball device 48 that is driven and controlled when a specific gaming state is reached has an opening / closing plate 49 that is opened and closed by a solenoid 50 (only the reference numeral is shown in FIG. 4), and is received by the opening / closing plate 49. A winning number detector 52 for detecting a hit ball is provided. In addition, a special ball detector 51 is provided in the special variable winning ball device 48 (inside the opening and closing plate 49) to establish the right to continue the specific gaming state with the detection of the hit ball (V winning detection). Above the specific ball detector 51, a V shutter 53 is provided to prevent a hit ball from passing through the specific ball detector 51 until the opening / closing plate 49 is next opened once the V prize is detected. The V shutter 53 is opened and closed by a solenoid 43 (only the reference numeral is shown in FIG. 4). In addition, as another example of the V shutter, for example, there is one constituted by a seesaw-like movable member that is stretched over the front side of a V winning opening arranged in the left and right and a normal winning opening. A fulcrum is provided at the center of the movable member, and a solenoid is connected to one end of the movable member. When the solenoid is driven, both ends of the movable member move up and down around the fulcrum. The operation of the V shutter is such that when the solenoid is turned off, the V winning opening side of the movable member descends and the game ball can win a V prize. In this state, when a game ball wins the V winning opening, the solenoid is turned on, the V winning opening side of the movable member is raised, the movable member is positioned on the front side of the V winning opening and is blocked, and the gaming ball is difficult to win. . On the other hand, the normal winning opening side of the movable member descends and it becomes easy to win a game ball to the normal winning opening.
[0028]
When the specific gaming state is reached, the opening / closing plate 49 is held until a predetermined time (for example, 28 seconds) elapses or a predetermined number (for example, 10) of winning balls are won within the predetermined time. Opening (hereinafter, this opening is referred to as an opening cycle), and when the hit ball received during the opening cycle is detected by the specific ball detector 51, the right to continue is established, and the above opening cycle is executed again. The opening cycle can be repeated a predetermined number of times (for example, up to 16 times) on condition that the continuation right is established in each opening cycle.
[0029]
In the present embodiment described above, all of the winning ball detectors 51, 52, 55a, 55b, 65a, and 65b from which signals for detecting the winning ball are derived are provided in the winning port and the winning device for winning the hit ball. It has been. This is used to pay out a predetermined number of prize balls based on these detection signals. Thus, as shown in FIG. 4, these winning ball detectors 51, 52, 55a, 55b, 65a, 65b serve as a main board 151 (game control means, start-up judgment means) for overall control of the game. It is connected.
[0030]
As described above, the game area 41 of the game board 40 is provided with a large number of electrical components such as switches, solenoids, decoration lamps and decoration LEDs, which are connected to the main board 151 and the display control board 75. It is like that. That is, as shown in FIG. 4, the switches 51, 52, 55 a, 55 b, 65 a, 65 b, 61 b and the solenoids 43, 50, 59 provided on the game board 40 are connected to the main board 151. Decoration lamps 56 and 67a (both are shown only as a game effect lamp in FIG. 4), a decoration LED 45 (shown as a game effect LED in FIG. 4), a special symbol start memory LED 46, and a normal symbol. The start memory LED 64 is connected to the display control board 75.
[0031]
On the other hand, as shown in FIG. 3, the back surface of the variable display device 44 protrudes from the back surface of the game board 40. On the back surface portion of the variable display device 44, a display control board 75 (effect mode storage means, effect mode switching means, game effect control means, notice effect execution means, notice effect) that executes effect control including variable display of identification information. Storage means, notice effect selection means, selection mode storage means, pre-start determination means) are attached to the display control board cover 74 so as to be covered. The display control board 75 drives and controls the variable display operation of the variable display device 44 in accordance with the type of information signal from the main board 151.
[0032]
Further, a cover body 70 is attached around the back surface of the variable display device 44 described above, and a winning ball guiding cover body 71 is attached to the lower portion thereof so as to communicate with the cover body 70. A window hole 72 into which the variable display device 44 is inserted is formed at the center of the cover body 70, and an information terminal board 78 is attached to the cover body 70. The cover body 70 is attached by attaching a mounting hole (not shown) drilled in the outer peripheral portion of the window hole 72 to the back surface of the game board 40. The information terminal board 78 is a game information necessary for business management of the ball game machine 1 (for example, one jackpot information notifying that the game is in a specific game state, a special display result, and a specific game state. And 2 jackpot information (a signal that continues to be output during the specific gaming state and during the probability fluctuation) to notify that the probability variation due to the jackpot is in progress, and the fact that the probability variation after the end of the specific gaming state due to the special display result Probability change information to be performed, start port information for informing the number of hit balls with the start ball detector turned on, symbol determination number 1 information for informing the number of variable operations of the variable display device 44, and the number of variable operations of the normal variable display device are informed. An external connection terminal for outputting the symbol confirmation number 2 information and the number of times of opening / closing of the ordinary variable winning ball apparatus 58 to a management computer installed in the game hall. Information is adapted to be supplied from the main board 151.
[0033]
A control board box 79 that houses the sound effect control board 82 is attached to the rear surface side of the winning ball guiding cover body 71. The sound effect control board 82 drives and controls the speakers 12a and 12b, and generates sound effects corresponding to the game contents in accordance with information signals from the main board 151. The sound effect control board 82 is provided with a volume switch 83 (only the reference numeral is shown in FIG. 4) for switching the volume.
[0034]
Next, the structure of the mechanism plate 100 provided on the back surface of the ball game machine 1 will be described with reference to FIG. In FIG. 3, the mechanism plate 100 includes a storage tank 105 for storing game balls, a ball alignment rail member 108 and a curve rail member 111 for guiding the prize balls stored in the storage tank 105 while aligning them downstream, and a curve. A ball passage 114 for guiding a game ball from the rail member 111, a ball payout device 116 for paying out a winning ball based on a winning, and a processing mechanism for processing a hit ball including a winning ball mainly driven into the game board 40. It is provided on the mechanism plate main body 101. An information terminal board 132 having external connection terminals to which signal lines to the outside are connected is provided at the upper part on the downstream side of the ball alignment rail member 108. The external connection terminal 133 provided on the information terminal board 132 outputs out of ball information, rented information, and prize ball information to the outside (for example, a management computer) that game balls are insufficient in the storage tank 105. Is done.
[0035]
Further, on the downstream side of the curve rail member 111, a spherical passage member is provided vertically. Specifically, a spherical passage member is constituted by two rows of the ball passages 114 on the left and right sides, and in each of the two rows of the ball passages 114, a ball break switch 115 is provided so as to face the passage. As shown in FIG. 4, the ball break switch 115 is connected to the main board 151, and when the ball break switch 115 no longer detects a game ball, the ball dispenser 116 is stopped and the game ball is dispensed. It is designed to be deactivated. The ball payout device 116 is housed inside a substantially rectangular parallelepiped case and is detachably attached to the front side of the mechanism plate main body 101.
[0036]
Further, on the lower rear surface side of the mechanism plate 100, a power unit box 136 that houses a power unit board 137 that generates a plurality of power sources having different voltages, a variable display device 44 provided in the game board 40, and a special variable winning ball device. A main board box 150 that houses a main board 151 that controls the operation of a gaming machine such as 48, and a payout control board box 143 that houses a payout control board 144 that controls the operation of the ball payout apparatus 116 are provided. The power supply unit board (power generation board) 137 generates five types of voltages of DC30V, DC21V, DC12V, DC5V, and AC24V, and supplies predetermined power to each control board.
[0037]
The configuration of the ball game machine 1, the configuration of the game board 40, and the configuration of the mechanism plate 100 have been described above. Next, a circuit configuration that is wired-connected will be described with reference to FIG. 4. On the main board 151, each ball detector (switch) 51, 52, 55 a, 55 b, 61 b, 65 a, 65 b provided on the game board 40 and the starting ball detector 60, the full switch 129 and the ball cut switch 115 are provided. Further, a signal from the prize ball count switch 120 for detecting the prize ball that has been paid out is input. The main board 151 drives and controls the solenoid 50 provided on the game board 40 and outputs game information to the external information terminal 78. The main board 151 is connected to the display control board 75 and the payout control board 144, and receives the control signal. The signals are output from the board 151 by one-way communication to the control boards 75 and 144, respectively. The main board 151 stores a CPU 151a that performs a control operation according to a program, a storage unit used as a work memory, a RAM 151b that stores an effect performed by the variable display device 44, a program for game control, and the like. ROM 151c is included.
[0038]
In addition, the display control board 75 performs control so as to derive the display results of the variable display device (described as a special symbol display) 44 and the normal symbol display 63 in accordance with a display control signal input from the main board 151. This display control board 75 is an example of a CPU 75a that performs a control operation according to a program, a storage means used as a work memory, a RAM 75b that temporarily stores effects and the like performed by the variable display device 44, and a game control ROM 75c for storing programs and the like, VDP 75d and VDP 75d having a display device control function and a high-speed drawing function for image display, and operating according to a drawing command from CPU 75a to display a character image or identification information for performing a specific effect Of the images displayed on the VRAM 75e, which is a frame buffer memory for expanding the generated image data, and the variable display device 44, character image data frequently used, for example, a person, animal, character, figure, or symbol is stored in advance. A store for storing Kuta ROM75f are included. This display control board 75 performs display drive control of the various lamps 6 to 10, 15, 16, 56, 67a and the various LEDs 37, 38, 45, 64 in accordance with the illumination control signal input from the main board 151. It is.
[0039]
The sound effect control board 82 drives and controls the speakers 12 a and 12 b in accordance with the sound effect control signal input from the display control board 75.
[0040]
Further, the payout control board 144 drives and controls the ball payout device 116 in accordance with the payout control signal input from the main board 151 and outputs a firing control signal to the firing control board 90. In addition, the payout control board 144 is connected to the card unit device 31 and the balance display board 23 and controls the lending payout. The launch control board 90 controls the hitting ball launcher 87 according to the launch control signal from the payout control board 144. The information terminal board 132 is connected to the main board 151 and the payout control board 144, and outputs game information to the outside. Note that the main board 151 described above progresses game control, and the display control board 75 controls a driver circuit (not shown) for controlling the variable display device 44 and the driving member 55. A driver circuit (not shown).
[0041]
Next, the operation of the gaming machine will be described. FIG. 5 is a flowchart showing main processing executed by game control means (peripheral circuits such as the CPU 151a, RAM 151b, and ROM 151c) on the main board 151. When power is turned on to the gaming machine and the input level of the reset terminal becomes high level, the CPU 151a starts main processing after step S1. In the main process, the CPU 151a first performs necessary initial settings.
[0042]
In the initial setting process, the CPU 151a first sets the interrupt prohibition (step S1). Next, the interrupt mode is set to interrupt mode 2 (step S2), and a stack pointer designation address is set to the stack pointer (step S3). Then, the built-in device register is initialized (step S4). Further, after initialization (step S5) of CTC (counter / timer) and PIO (parallel input / output port) which are built-in devices (built-in peripheral circuits), the RAM is set in an accessible state (step S6). In interrupt mode 2, an address synthesized from the value (1 byte) of the specific register (I register) built in the CPU 151a and the interrupt vector (1 byte: least significant bit 0) output from the built-in device indicates the interrupt address. Is the mode shown.
[0043]
Next, the CPU 151a checks the state of the output signal of a clear switch (not shown) input via the input port only once (step S7). When ON is detected in the confirmation, the CPU 151a executes normal initialization processing (steps S11 to S14).
[0044]
If the clear switch is not in the on state, it is confirmed whether or not the data protection processing of the RAM 151b (for example, processing at the time of power supply stop such as addition of parity data) is performed when power supply to the gaming machine is stopped ( Step S8). If it is confirmed that such protection processing is not performed, the CPU 151a executes initialization processing. Whether there is backup data in the RAM 151b is confirmed by, for example, the state of the backup flag set in the RAM 151b in the power supply stop process. In this example, if “55H” is set in the backup flag area, it means that there is a backup (ON state), and if a value other than “55H” is set, it means that there is no backup (OFF state).
[0045]
After confirming that there is a backup, the CPU 151a performs a data check (parity check in this example) of the RAM 151b (step S9). In step S9, the calculated checksum is compared with the checksum calculated and stored by the same process in the power supply stop process. When the power supply is stopped after an unexpected power outage or the like, the data in the RAM 151b should be stored, so the check result (comparison result) is normal (matched). That the check result is not normal means that the data in the RAM 151b is different from the data when the power supply is stopped. In such a case, since the internal state cannot be returned to the state when the power supply is stopped, the initialization process that is executed when the power is turned on is not performed when the power supply is stopped.
[0046]
If the check result is normal, the CPU 151a determines the internal state of the game control means and the control state of the effect control means (CPU 75a, RAM 75b, ROM 75c, VDP 75d, VRAM 75e, and peripheral circuits such as the character ROM 75f), etc. A game state restoration process for returning to (1) is performed. Then, the saved value of the PC (program counter) stored in the RAM 151b is set in the PC and returns to the address.
[0047]
In this embodiment, it is confirmed whether or not the data in the RAM 151b is stored using both the backup flag and the check data, but only one of them may be used. That is, either the backup flag or the check data may be used as an opportunity for executing the state recovery process.
[0048]
In the initialization process, the CPU 151a first performs a RAM clear process (step S11). In addition, a predetermined work area (for example, a normal symbol determination random number counter, a normal symbol determination buffer, a special symbol left middle right symbol buffer, a special symbol process flag, a payout command storage pointer, a winning ball flag, a ball out flag, a payout A work area setting process for setting an initial value to a flag such as a stop flag for selectively performing processing according to the control state is performed (step S12). Furthermore, a process of transmitting an initialization command for initializing the sub-boards (in this embodiment, the payout control board 144 and the display control board 75) to each sub-board is executed (step S13). As the initialization command, there are a command indicating the initial symbol displayed on the variable display device 44 (for the display control board 75), a command for instructing to turn off the winning ball lamp 10 and the ball-out lamp 9, and the like.
[0049]
Then, the CTC register provided in the CPU 151a is set so that a timer interrupt is periodically generated every 2 ms (step S14). That is, a value corresponding to 2 ms is set in a predetermined register (time constant register) as an initial value.
[0050]
When the execution of the initialization process (steps S11 to S14) is completed, the display random number update process (step S17) and the initial value random number update process (step S18) are repeatedly executed in the main process. When the display random number update process and the initial value random number update process are executed, the interrupt disabled state is set (step S16). When the display random number update process and the initial value random number update process are finished, the interrupt enabled state is set. (Step S19). The display random number is a random number for determining the symbol displayed on the variable display device 44, and the display random number update process is a process for updating the count value of the counter for generating the display random number. . The initial value random number update process is a process for updating the count value of the counter for generating the initial value random number. The initial value random number is a random number for determining the initial value of the count value, such as a counter for generating a random number for determining whether or not to make a big hit (a big hit determination random number generation counter). In a game control process to be described later, when the count value of the jackpot determination random number generation counter makes one round, an initial value is set in the counter.
[0051]
Note that when the display random number update process is executed, the interrupt is prohibited. The display random number update process is also executed in the timer interrupt process described later, and thus conflicts with the process in the timer interrupt process. This is to avoid that. That is, if the timer interrupt is generated during the process of step S17 and the counter value for generating the display random number is updated during the timer interrupt process, the continuity of the count value is impaired. There is a case. However, such an inconvenience does not occur if the interrupt is prohibited during the process of step S17.
[0052]
When a timer interrupt occurs, the CPU 151a performs a register saving process (step S20), and then executes the game control processes of steps S21 to S33 shown in FIG. In the game control process, the CPU 151a first inputs detection signals from switches such as the passing ball detector 61b, the starting ball detector 60, the specific ball detector 51, and the winning number detector 52, and determines their state ( Switch processing: Step S21).
[0053]
Next, a process of updating the count value of each counter for generating each determination random number such as a big hit determination random number used for game control is performed (step S22). The CPU 151a further performs processing for updating the counter value for generating the initial value random number and processing for updating the counter value for generating the display random number (steps S23 and S24).
[0054]
FIG. 7 is an explanatory diagram showing each random number. It is explanatory drawing which shows each random number. Each random number is used as follows.
(1) Random 1: Decide whether or not to generate a big hit (for big hit judgment)
(2) Random 2-1 to 2-3 (Random 2): For determining the left middle right of the special symbol (special symbol left middle right)
(3) Random 3: Determines the combination of special symbols that generate a big hit (for determining big hit symbols)
(4) Random 4: Determine the variation pattern of the special symbol (for variation pattern determination)
(5) Random 5: Decide whether or not to reach when no big hit is generated (for reach determination)
(6) Random 6: Determines whether or not to generate a hit based on a normal symbol (for determination per normal symbol)
(7) Random 7: Determine initial value of random 1 (for determining random 1 initial value)
(8) Random 8: Determine initial value of random 6 (for determining random 6 initial value)
(9) Random 9: Decide whether to execute the notice effect (for notice determination)
(10) Random 10: Determine the effect pattern of the notice effect (for notice pattern determination)
In step S22, the CPU 151a generates (1) big hit determination random number, (3) big hit symbol determination random number, (6) normal symbol determination random number, and (9) notice determination random number. The counter is counted up (added by 1). That is, they are determination random numbers, and other random numbers are display random numbers or initial value random numbers. In addition, in order to improve the game effect, random numbers related to ordinary symbols other than the random numbers (1) to (10) are also used.
[0055]
Further, the CPU 151a performs special symbol process processing (step S25). In the special symbol process control, corresponding processing is selected and executed according to a special symbol process flag for controlling the pachinko gaming machine 1 in a predetermined order according to the gaming state. The value of the special symbol process flag is updated during each process according to the gaming state. Further, normal symbol process processing is performed (step S26). In the normal symbol process, the corresponding process is selected and executed according to the normal symbol process flag for controlling the display state of the normal symbol display 63 in a predetermined order. The value of the normal symbol process flag is updated during each process according to the gaming state.
[0056]
Next, the CPU 151a performs a process of setting an effect control command related to the special symbol in a predetermined area of the RAM 151b and sending the effect control command (special symbol command control process: step S27). In addition, processing for setting the effect control command related to the normal symbol in a predetermined area of the RAM 151b and sending the effect control command is performed (normal symbol command control processing: step S28).
[0057]
Further, the CPU 151a performs information output processing for outputting data such as jackpot information, start information, probability variation information supplied to the hall management computer, for example (step S29).
[0058]
Further, the CPU 151a executes a prize ball process for setting the number of prize balls based on the detection signals of the prize opening switches 51, 52, 55a, 55b, 65a, 65b (step S30). Specifically, a payout control command indicating the number of winning balls is output to the payout control board 144 in response to winning detection based on whether any of the winning opening switches 51, 52, 55a, 55b, 65a, 65b is turned on. . The payout control CPU mounted on the payout control board 144 drives the payout device 116 in accordance with a payout control command indicating the number of prize balls.
[0059]
And CPU151a performs the memory | storage process which checks the increase / decrease in the number-of-start winning memory | storage number (step S31). In addition, a test terminal process, which is a process for outputting a test signal for enabling the control state of the gaming machine to be confirmed outside the gaming machine, is executed (step S32). Further, when a predetermined condition is satisfied, a drive command is issued to a solenoid circuit (not shown) (step S33). In order to switch the normal variable winning ball device 58 or the special variable winning ball device 48 to an open state or a closed state, or to switch the game ball path in the special variable winning ball device 48, the solenoid circuit is operated in response to a drive command. 43, 50, 59 are driven. Thereafter, the contents of the register are restored (step S34), and the interrupt permission state is set (step S35).
[0060]
With the above control, in this embodiment, the game control process is started every 2 ms. In this embodiment, the game control process is executed by the timer interrupt process. However, in the timer interrupt process, for example, only a flag indicating that an interrupt has occurred is set, and the game control process is performed by the main process. May be executed.
[0061]
FIG. 8 is a flowchart showing an example of a special symbol process processing program executed by the CPU 151a. The special symbol process shown in FIG. 8 is a specific process of step S25 in the flowchart of FIG. When performing the special symbol process, the CPU 151a performs a variable shortening timer subtraction process (step S310) to detect that the game ball has won the normal variable winning ball device 58 provided in the game board 40. If the starting ball detector 60 is turned on, that is, if a starting winning that causes the game ball to win the ordinary variable winning ball device 58 has occurred (step S311), after performing the starting port switch passing process (step S312), Depending on the internal state, any one of steps S300 to S308 is performed. The variation shortening timer is a timer for setting the variation time when the variation time of the special symbol is shortened.
[0062]
Special symbol normal processing (step S300): Waits until the variable symbol variable display can be started. When the special symbol variable display can be started, the start winning memory number is confirmed. If the start winning memorization number is not 0, it is determined whether or not to win the game as a result of variable display of special symbols. Then, the internal state (special symbol process flag) is updated so as to shift to step S301.
[0063]
Special symbol stop symbol setting process (step S301): The stop symbol of the left middle right symbol after variable display of the special symbol is determined. Then, the internal state (special symbol process flag) is updated so as to shift to step S302.
[0064]
Fluctuation pattern setting process (step S302): A variation pattern (variable display mode) of variable symbol special display is determined in accordance with the variation pattern determining random number. Also, a variable time timer is started. At this time, the left middle right final stop symbol and information for instructing the variation mode (variation pattern) are transmitted to the display control board 75. Then, the internal state (special symbol process flag) is updated so as to shift to step S303.
[0065]
Special symbol variation process (step S303): When a predetermined time (the time indicated by the variation time timer in step S302) elapses, the internal state (special symbol process flag) is updated to shift to step S304.
[0066]
Special symbol stop process (step S304): Control is performed so that all symbols displayed on the variable display device 44 are stopped. Specifically, it sets to the state where the production control command which shows special symbol stop is transmitted. If the stop symbol is a combination of jackpot symbols, the internal state (special symbol process flag) is updated to shift to step S305. If not, the internal state is updated to shift to step S300.
[0067]
Large winning opening opening process (step S305): Control for opening the special variable winning ball device 48 is started. Specifically, the counter and flag are initialized, and the solenoid 50 is driven to open the special variable winning ball device 48. Also, the process timer sets the execution time of the big prize opening opening process and sets the big hit flag. Then, the internal state (special symbol process flag) is updated so as to shift to step S306.
[0068]
Processing during opening of the special winning opening (step S306): control for sending the effect control command for round display of the special variable winning ball device 48 to the display control board 75 and processing for confirming the closing condition of the special variable winning ball device 48 Etc. When the closing condition of the last special variable winning ball device 48 is satisfied, the internal state is updated to shift to step S307.
[0069]
Specific area valid time processing (step S307): The presence or absence of passage of the specific ball detector 51 is monitored, and processing for confirming that the specific game state continuation condition is satisfied is performed. If the specific game state continuation condition is satisfied and there are still remaining rounds, the internal state is updated to shift to step S305. Further, when the specific game state continuation condition is not satisfied within a predetermined valid time, or when all the rounds are finished, the internal state is updated so as to shift to step S308.
[0070]
Big hit end process (step S308): Control for causing the effect control means to perform display control for notifying the player that the specific gaming state has ended. Then, the internal state is updated so as to shift to step S300.
[0071]
FIG. 9 is an explanatory diagram showing an example of a variation pattern used in this embodiment. In FIG. 9, “EXT” indicates the second byte of EXT data in the effect control command having a two-byte structure. “Time” indicates the variation time of the special symbol (variable display period of identification information).
[0072]
In this example, each variation pattern of the special symbol is a probability variation jackpot, whether it is a non-probability variation jackpot, whether to reach, whether to reach, whether to perform a notice effect In addition, a plurality of types are prepared according to differences in various types of effects, such as a notice mode when performing a notice effect.
[0073]
The “normal fluctuation” is a fluctuation pattern that does not involve a reach mode. “Normal reach” is a fluctuation pattern that involves a reach mode, but the fluctuation result (stop symbol) does not cause a big hit. “Reach A” is a variation pattern having a reach form different from “normal reach”. Further, the difference in reach mode means that a change mode (speed, rotation direction, etc.), a character, or the like of a different mode appears in the reach change time. For example, in “normal”, the reach mode is realized by only one type of change mode, whereas in “reach A”, a reach mode including a plurality of change modes with different speeds and directions of change is realized.
[0074]
Further, “reach B” is a variation pattern having a reach form different from “normal reach” and “reach A”. “Reach C” is a variation pattern having a reach form different from “normal reach”, “reach A”, and “reach B”. Note that “reach A”, “reach B”, and “reach C” may or may not be a big hit.
[0075]
Further, “notice A” to “notice D” are notice effects according to the effect modes of continuous notice A to continuous notice D described later.
[0076]
A shortened display pattern may be used. The shortened display pattern is a very short variation pattern in which the variation time of the left middle right symbol is 1.0 seconds, for example.
[0077]
Further, in this embodiment, the fluctuation patterns 1 to 89 are used both at high probability (during probability change) and at low probability (during non-probability change = normal state), but at high probability, the change patterns 1 to 14 are used. You may make it shorten each fluctuation time. Moreover, the variation pattern group used at the time of high probability (a plurality of variation patterns that can be used) may be separated from the variation pattern group used at the time of low probability. Furthermore, the variation time of each of the variation patterns 1 to 14 may be shortened depending on the difference in the effect mode of the game effect, or the variation pattern group may be divided depending on the difference in the effect mode.
[0078]
FIG. 10A is an explanatory diagram showing an example of a big hit hour variation pattern type selection table. The big hit hour variation pattern type selection table is a table used when it is determined that the big hit is, and is a table used for selection of the fluctuation pattern type table. As shown in FIG. 10A, in the big hit time fluctuation pattern type selection table, one big hit time fluctuation pattern type table (table TA) used when no notice effect is performed is set as the fluctuation pattern type table. In addition, corresponding to the remaining number of continuous notices, a notice time variation pattern type table (table T1 to table T4) used when the notice effect is performed is set. Note that a plurality of big hit time variation pattern type tables may be set, or a plurality of notice time variation pattern type tables may be set corresponding to the remaining number of continuous notices.
[0079]
FIG. 10B is an explanatory diagram showing an example of the variation pattern type selection table at the time of loss. The variation pattern type selection table at the time of loss is a table used when it is determined that there is a loss, and is a table used for selection of the variation pattern type table. As shown in FIG. 10 (B), in the deviation variation pattern type selection table, one variation pattern type table (table TH) is used as a variation pattern type table that is used when a notice effect is not performed. In addition, corresponding to the combination of the remaining number of continuous notices and the notice pattern, a notice time variation pattern type table (table T5 to table T20) used when the notice effect is performed is set. In FIG. 10B, only the variation pattern type table used in the case of an outage that cannot be reached is shown, but the outbreak variation pattern type selection table shown in FIG. Assume that a variation pattern type table used in the case of a shift after reaching reach is also set corresponding to each of the variation pattern type table used in the case of a shift that does not become reach.
[0080]
FIG. 11 is an explanatory diagram showing an example of each variation pattern type table. In each variation pattern type table, comparison values to be compared with variation pattern determination random numbers are set in a state of being distributed corresponding to each variation pattern. FIG. 11 shows the number of comparison values distributed in correspondence with each variation pattern in each variation pattern type table.
[0081]
In addition, each comparison value to be compared with the random number for determining the variation pattern is allocated in consideration of the characteristics of each variation pattern type table, and only the variation pattern showing the effects that can appear in relation to the variation pattern type table to be used. Sorted. Specifically, for example, since the table TA is a table used when “big hit” and “no notice effect”, the table TA corresponds to a fluctuation pattern that causes a loss or a notice pattern that causes a notice effect. The comparison value is not distributed.
[0082]
As shown in FIG. 11, in the variation pattern type table TA, out of 150 comparison values, 125 comparison values correspond to the variation pattern 15, 15 comparison values correspond to the variation pattern 16, and the remaining values. The comparison value is set so as to correspond to one or more other fluctuation patterns. In the variation pattern type table TH, all 150 comparison values are distributed corresponding to the variation pattern 1. In FIG. 11, only a part of the variation pattern type table appears, but in the other variation pattern type tables, the comparison values are assigned and set in the same manner.
[0083]
FIG. 12 is a flowchart showing the start port switch passing process (step S312). In the start port switch passing process, the CPU 151a checks whether or not the start winning memorized number has reached the maximum value of 4 (step S111). If the starting winning memory number has not reached 4, the CPU 151a of the main board 151 increases the starting winning memory number by 1 (step S112), extracts the random number values such as the big hit determination random numbers, and uses them as the starting winning memory number. Is stored in a storage area (special symbol determination buffer) corresponding to the value (step S113). Note that extracting a random number means reading a count value from a counter for generating a random number and setting the read count value as a random value. In step S113, the jackpot determination random number, the losing symbol determination random number, the jackpot symbol determination random number, the variation pattern determination random number, the reach determination random number, and the notice determination random number are extracted from the random numbers. Then, a variation time reduction determination time for determining whether or not to reduce the variation time is set (step S114).
[0084]
FIG. 13A is an explanatory diagram showing an example of a jackpot determination table used in the jackpot determination module. FIG. 13B is an explanatory diagram showing an example of a reach determination table used in the reach determination module. Further, FIG. 13C is an explanatory diagram showing an example of a notice determination table used in the notice setting process. As shown in FIG. 13A, in this embodiment, the big hit determination value is “3” at the time of low probability (non-probability change), and the big hit determination value is “3” at the time of high probability (when probability change). , “7”, “79”, “103”, “107”. As shown in FIG. 13B, the reach determination values are “0”, “1”, and “11” when the probability is low (non-probability change), and the reach determination value is “0” when the probability is high. , “1”, “9”, “11”, “12”. Further, as shown in FIG. 13 (C), when all of the on-hold storage is out of date, the notice determination values are “1”, “7”, and “17”, and there is a big hit in the on-hold storage. The notice determination values are “0” to “30” and “70” to “99”.
[0085]
FIG. 14 is a flowchart showing the jackpot determination module. In the big hit determination process, the CPU 151a first determines whether or not the state at that time is in a probable change (step S141), and if in the probable change, the high in the big hit determination table shown in FIG. It is decided to use the table at the time of probability (step S142). If the probability change is not in progress, it is determined to use the low probability table in the jackpot determination table (step S143).
[0086]
Then, it is determined whether there is a value that matches the extracted random 1 value in the jackpot determination table (steps S144 and S145), and if there is a matching value, the jackpot is determined (step S146). If there is no value to be determined, it is determined that no big hit is made (step S147).
[0087]
FIG. 15 is a flowchart showing the reach determination module. In the reach determination process, the CPU 151a first determines whether or not the state at that time is in the probability change state (step S151), and if it is in the probability change state, the high in the reach determination table shown in FIG. It is decided to use the table at the time of probability (step S152). If the probability change is not in progress, it is decided to use the table at the low probability in the reach determination table (step S152).
[0088]
Then, it is determined whether or not there is a value that matches the extracted random value 5 in the reach determination table (steps S154 and S155), and if there is a matching value, the reach is determined (step S156) and the values match. If there is no value, it is decided not to reach (step S157).
[0089]
FIG. 16 is a flowchart showing the special symbol normal process (step S300) in the special symbol process. In the special symbol normal process, the CPU 151a can start the variation of the special symbol (for example, when the value of the special symbol process flag is a value indicating step S300) (step S51), the start winning memory is stored. The number value is confirmed (step S52). Specifically, the count value of the start winning counter is confirmed. The case where the value of the special symbol process flag is a value indicating step S300 is a case where the symbol is not changed in the variable display device 44 and is not in the big hit game.
[0090]
If the start winning memory number is not 0, a notice setting process is executed (step S53). Next, each random number value stored in the storage area corresponding to the starting winning memory number = 1 is read and stored in the random number buffer area of the RAM 151b (step S54), and the starting winning memory number is decreased by 1, and The contents of each storage area are shifted (step S55). That is, each random number value stored in the storage area corresponding to the start winning memory number = n (n = 2, 3, 4) is stored in the storage area corresponding to the starting winning memory number = n−1.
[0091]
Next, the CPU 151a reads out the jackpot determination random number from the random number storage buffer (step S56), and before starting to determine whether or not to win the variable display of the variable display that is started based on the establishment of the variable display start condition. The big hit determination module (processing module) as the determination means (CPU 151a) is executed (step S57). When it is determined to be a big hit (step S58), the CPU 151a sets a big hit flag (step S59). Then, the value of the special symbol process flag is updated to a value corresponding to the special symbol stop symbol setting process (step S60).
[0092]
FIG. 17 is a flowchart showing the advance notice setting process (step S53) in the special symbol normal process. It should be noted that the notice setting process of the present example is terminated without executing any process when the start winning counter = 0. In the notice setting process, if the CPU 151a is not in a certain change state (step S121), the notice number counter that stores the remaining number of notice effects that have not yet been executed among the number of notice effects that are executed to realize the continuous notice effect. Is read (step S122). If the count value of the read notice counter is 0 (step S123), the CPU 151a sets the count value of the start winning counter to the processing number (step S124), and the count value of the inspection counter is an initial value. It is set to 0 (step S125). The inspection number counter is a counter for counting the number of repetitions of loop processing in steps S126 to S129 described later.
[0093]
Next, the CPU 151a adds 1 to the count value of the inspection number counter (step S126), and the jackpot determination disturbance stored in the storage area corresponding to the number of starting winning memories = (the number indicated by the count value of the inspection number counter). The numerical value is read (step S127), and the big hit determination module (processing module: start time determination means) is executed. That is, the jackpot determination subroutine is called (step S128). When it is determined that no big hit is made based on the big hit determination random number value read by the big hit determination module (step S129), the CPU 151a subtracts 1 from the number of processes (step S130), and the number of processes after the subtraction is 0. If not, the process proceeds to step S126 (step S131). Note that the jackpot determination module as the start-time determination means and the jackpot module as the pre-start determination means described above are based on a common processing module.
[0094]
That is, in this example, the processes in steps S126 to S131 are repeatedly executed until the number of processes becomes zero. However, in this example, if it is determined in step S129 in the loop processing of step S126 to step S131 that a big hit is made, the loop processing is terminated at that point. That is, in steps S126 to S131, until it is determined that there is a big hit among the variable displays that are on hold, or until the number of processes becomes zero (all determinations on the variable display that is on hold are finished. Until each jackpot determination random number value stored in each storage area corresponding to the start winning memory number = 1 to 4 is read out in order from the earlier extracted time, and whether or not it is a jackpot Is determined.
[0095]
When it is determined in step S129 that the game is a big hit (step S129), the CPU 151a sets the notice determination table (the table on the right side of FIG. 13C) when there is a big win as the use table (step S142). Note that the CPU 151a monitors whether the symbol is a probability variation symbol or a non-probability variation symbol when it is determined in step S129 that it is a big hit, and whether or not it is a probability variation big hit is determined based on this monitoring result. Is called. For example, as a result of monitoring, if the jackpot is constituted by an odd number of symbols, it becomes a probability variation jackpot, and if it is constituted by “0” or an even number of symbols, it becomes a non-probability variation jackpot. If the number of processes after subtraction is 0 in step S131, the CPU 151a sets the count value of the start winning counter to the number of processes (step S132), and sets the count value of the inspection number counter to the initial value. Is set to 0 (step S133). The inspection number counter is a counter for counting the number of repetitions of loop processing in steps S134 to S137 described later.
[0096]
Next, the CPU 151a adds 1 to the count value of the inspection number counter (step S134), and the reach determination disturbance stored in the storage area corresponding to the number of starting winning memories = (the number indicated by the count value of the inspection number counter). The numerical value is read (step S135), and the reach determination module is executed. That is, the reach determination subroutine is called (step S136). When it is determined that the reach is not reached based on the reach determination random number value read by the reach determination module (step S137), the CPU 151a subtracts 1 from the number of processes (step S138), and the number of processes after the subtraction is 0. If not, the process proceeds to step S134 (step S139).
[0097]
That is, in this example, the processes in steps S134 to S139 are repeatedly executed until the number of processes becomes zero. However, in this example, when it is determined in step S137 in the loop processing from step S134 to step S139 that reach is reached, the loop processing is terminated at that point. In other words, in steps S134 to S139, until it is determined that there is a reachable variable display, or until the number of processes becomes 0 (all determinations regarding the variable display being held are finished. Up to), whether or not each reach determination random number value stored in each storage area corresponding to the start winning memory number = 1 to 4 is read out in order from the earliest extracted time, and whether or not reach is reached Is determined.
[0098]
When it is determined in step S137 that reach is reached (step S137), the CPU 151a sets a reach determination table (not shown) as a use table (step S143). In addition, when the number of processes after subtraction is 0 in step S139, the CPU 151a determines that the big display and the reach are not included in the pending variable display, and the deviation is lost. The hour notice determination table (the table on the left side of FIG. 13C) is set as a use table (step S144).
[0099]
If the count value of the inspection number counter is 2 or more (step S145), the CPU 151a extracts the preliminary determination determination random number stored in the storage area corresponding to the start winning memory number = 1 (step S146). It is determined whether continuous notice is to be performed using the notice determination table set as the use table (step S147).
[0100]
If it is determined that the continuous notice is to be performed, the count value of the inspection number counter is set in the notice number counter that counts the remaining number of the continuous notice effects in the continuous notice (step S148). Then, the random number value for determining the notice pattern stored in the storage area corresponding to the number of start winning memories = 1 is extracted (step S149), and the notice pattern is determined based on the notice pattern determining random number (step S150). .
[0101]
For the determination of the notice pattern in step S150, for example, a notice pattern determination table (not shown) in which a comparison value to be compared with the extracted value of the random number for determining the notice pattern is assigned. In the notice pattern determination table, for example, combinations of notice effects for a continuous number of times using continuous notice A to continuous notice D are set in advance, and comparison values are assigned to the combinations. Therefore, in step S150, the notice effect for the continuous number of times is determined.
[0102]
Specifically, when “4” is set in the notice count counter in step S148, a notice pattern determination table in which combinations of notice effects for four times are preset in step S148 is used. Each notice effect to be executed in each of the four variable displays is determined by the random number value for determining the notice pattern extracted in step S149. For example, it is determined that the notice effect is executed in the order of the continuous notice A, the continuous notice C, the continuous notice B, and the continuous notice D.
[0103]
FIG. 18 is a flowchart showing the special symbol stop symbol setting process (step S301) in the special symbol process. In the special symbol stop symbol setting process, the CPU 151a checks whether or not the big hit flag is set (step S61). When the big hit flag is set, the big hit symbol is determined according to the value of the big hit symbol random number (random 3) (random 3 read in step S53) (step S62). In this embodiment, each symbol of the symbol number set in the jackpot symbol table corresponding to the value of random 3 is determined as a jackpot symbol. In the jackpot symbol table, left, middle and right symbol numbers corresponding to a plurality of types of combinations of jackpot symbols are set. Then, the value of the special symbol process flag is updated to a value corresponding to the variation pattern setting process (step S63).
[0104]
When the big hit flag is not set, the CPU 151a executes a reach determination module (step S65). Here, in the reach determination module, it is determined whether or not to reach based on the random 3 value read from the storage area in step S53, that is, the value stored in the random value buffer (step S64). Further, the left and right symbols are determined according to the value of random 2-1, and the middle symbol is determined according to the value of random 2-2 (step S67). Here, if the determined middle symbol matches the left and right symbols, the symbol corresponding to the value obtained by adding 1 to the random number corresponding to the middle symbol is set as the stop symbol of the middle symbol so that it does not match the jackpot symbol. To do. Then, the process proceeds to step S63.
[0105]
If it is decided not to reach in step S66, a stop symbol in the case of a loss is determined (step S68). Specifically, the left symbol is determined according to the value read in step S53, that is, the extracted random 2-1 value, the middle symbol is determined according to the random 2-2 value, and the random 2-3 value is determined. The right design is determined according to. Here, when the left and right symbols match, the right symbol is shifted by one symbol so that it does not become reach. Then, the process proceeds to step S63. When the probability variation symbol is determined in step S62, a probability variation flag indicating that the game is shifted to the probability variation state after the big hit game is ended is set.
[0106]
FIG. 19 is a flowchart showing the variation pattern setting process (step S302) in the special symbol process. In the variation pattern setting process, the CPU 151a reads the notice number counter (step S71). If the read notice number counter is not 0, the notice pattern counter table is selected (step S73). On the other hand, if the count value of the notice counter read in step S71 is 0, the state of the big hit flag is confirmed (step S74), and if the big hit flag is set, the big hit hour variation pattern type table selection processing is performed. (Step S75) If the big hit flag is not set, the off-time variation pattern type table selection processing is performed (Step S76).
[0107]
Next, the CPU 151a extracts the variation pattern determination random number from the variation pattern determination random number counter (step S77), and the variation pattern determination random number extracted in step S73, step S75, or step S76. A variation pattern is determined using the table (step S78). Specifically, in step S78, among the comparison values arranged in the variation pattern type table set as the use table from among a plurality of types of variation patterns (see FIG. 9) prepared in advance, It is determined that the comparison value that matches the extracted variation pattern determination random number value is associated with the variation pattern.
[0108]
When the variation pattern is determined, the CPU 151a sets the variation time data of the determined variation pattern in the special symbol process timer (step S79). Then, the CPU 151a sets the address of the determined command transmission table for specifying the variation pattern in the pointer (step S80), and executes a command setting process which is a subroutine (step S81).
[0109]
The effect control command is transmitted to the display control board 75 by executing the command set process. In this embodiment, each effect control command that can be transmitted to the effect control means is stored in the command transmission table of the ROM 151c. Further, in the command set process, the CPU 151a indicates that the effect control command data stored at the address of the ROM 151c indicated by the pointer is set as an output port for outputting the effect control command data and the command is transmitted. An effect control INT signal is output.
[0110]
FIG. 20 is a flowchart showing the change pattern type table selection process at the time of notice (step S73). In the notice variation pattern type table selection process, the CPU 151a reads the notice count counter (step S73a), and subtracts 1 from the count value of the notice count counter (step S73b).
[0111]
Next, if the big hit flag is set (step S73c), the CPU 151a sets the big hit hour variation pattern type selection table (see FIG. 10A) as the usage table (step S73d), and based on the remaining notice count. One of the change pattern type tables at the time of notice is selected and set as a use table (step S73e). The remaining number of notices means the number of notice effects that have not yet been executed among a plurality of notice effects that are executed as continuous notices, and here corresponds to the value obtained by adding 1 to the count value of the notice number counter. In step S73e, for example, when the big hit hour variation pattern type selection table shown in FIG. 10A is used, if the count value of the notice count counter is 2, the remaining notice count is three. The notice variation pattern type table 3 is selected.
[0112]
If the big hit flag is not set (step S73c), the CPU 151a sets the variation pattern type selection table at the time of loss (see FIG. 10B) as the use table (step S73f), and the remaining notice count and the notice pattern (step Based on the notice pattern determined in S139), one of the change pattern type tables at the time of notice is selected and set as a use table (step S73g). In step S73g, for example, when the loss variation pattern type selection table shown in FIG. 10B is used, if the count value of the notice count counter is 2, the notice when the remaining notice count is three is given. Of the time variation pattern type tables 13 to 16, the time variation pattern type table at the time of notice associated with the effect mode (any one of notice A to notice D) of the current notice effect in the notice pattern is selected. For example, it is assumed that the mode of the notice effect that is executed at each remaining notice number is determined as the notice pattern, and the notice effect that is executed when the remaining notice number is 3 times in the notice pattern is the notice B. Then, the notice variation pattern type table 14 is selected in step S73g.
[0113]
FIG. 21 is a flowchart showing the big hit hour variation pattern type table selection process (step S75). In the big hit hour variation pattern type table selection process, the CPU 151a sets the big hit hour variation pattern type selection table (see FIG. 10A) as a use table (step S75a), and from the big hit hour variation pattern type selection table, The variation pattern type table (table TA) is selected and set as a use table (step S75b). In this example, only one big hit variation pattern type table is provided. However, for example, when the probability variation big hit and the non-probable big hit are provided separately, the probability variation big hit or the non-probable big hit The big hit hour variation pattern type table may be selected according to the determination result.
[0114]
FIG. 22 is a flowchart showing the variation pattern type table selection process at the time of loss (step S76). In the deviation variation pattern type table selection process, the CPU 151a sets the deviation variation pattern type selection table (see FIG. 10B) as the usage table (step S76a), and the deviation from the deviation variation pattern type selection table. The variation pattern type table (table TH) is selected and set as a use table (step S76b). In this example, only one variation pattern type table at the time of loss is shown, but a table used at the time of failure that does not become reach and a table used at the time of loss after reaching reach are provided. It has been. Therefore, it is only necessary to determine whether it will be a non-reach or a non-reach and a non-reach and then a non-reach, and depending on the determination result, the shift variation pattern type table may be selected.
[0115]
FIG. 23 is a flowchart showing the storage process (step 31) in the 2 ms timer interrupt process. In the storage process, the CPU 151a confirms whether or not the count value of the start winning storage counter is the same as the count value of the previous start winning storage counter (step S161). If they are not the same, that is, if there is a change in the number of starting winning memories, the address of the command sending table for starting winning memory designation corresponding to the number of starting winning memories is set in the pointer (step S162), and a command set as a subroutine is set. Processing is executed (step S163). Then, the count value of the starting winning memory counter is set in the previous starting winning memory counter (step S164).
[0116]
When the start winning memory number is changed by the above processing, an effect control command for designating the start winning memory number is transmitted to the effect control means mounted on the display control board 75 (steps S161 to S163).
[0117]
As described above, when a condition (start condition) that allows variable display to be started is satisfied in the variable display device 44, it is determined whether to make a big hit or to make a shift reach (see steps S57 and S65). ). Based on the determination result, an actual variable display result is derived (see steps S62, S67, and S68). However, the random number value used when the variable display start condition is satisfied is a value extracted when the variable display execution condition is satisfied and stored in the storage area.
[0118]
FIG. 24 is an explanatory diagram showing an example of the contents of the effect control command sent to the display control board 75. In the example shown in FIG. 24, commands 8000 (H) to 8058 (H) are effect control commands for designating a variation pattern of the special symbol in the variable display device 44 that variably displays the special symbol. Note that a command for specifying a variation pattern (variation pattern command) also serves as a variation start instruction.
[0119]
The command 88XX (H) (X = any value of 4 bits) is an effect control command related to a normal symbol variation pattern. Command 89XX (H) is an effect control command for designating a stop symbol of a normal symbol. Command 8A00 (H) is an effect control command for instructing stop of variable display of normal symbols.
[0120]
Commands 91XX (H), 92XX (H), and 93XX (H) are effect control commands for designating a left middle right stop symbol of a special symbol. A symbol number is set in “XX”. Command A000 (H) is an effect control command for instructing stop of variable symbol special display. The command BXXX (H) is an effect control command that is sent from the start of the big hit game to the end of the big hit game. Commands C000 (H) to EXXXX (H) are effect control commands related to the display state of the variable display device 44 that are not related to special symbol variations and jackpot games.
[0121]
Command D000 (H) is an effect control command for designating a customer waiting demonstration.
[0122]
The command E0XX (H) is an effect control command indicating the number of start memory display areas 18 for changing the display color in the display area for displaying the start winning memory number in the variable display device 44. For example, the effect control means changes the display color of the number of start memory display areas 18 designated by “XX (H)” in each start memory display area 18. That is, the command E0XX (H) is a command for instructing control of a display area provided for informing information on the number of reserved items. Note that the command related to the number of start memory display areas 18 for changing the display color may be configured to indicate increase / decrease in the number of areas for changing the display color. In this embodiment, since the upper limit value of the start winning memory is 4, “XX” is any one of 0-4.
[0123]
The command E400 (H) is a command transmitted when the high probability state is changed to the low probability state, and the command E401 (H) is transmitted when the low probability state is changed to the high probability state. It is a command.
[0124]
When the effect control means of the display control board 75 receives the effect control command described above from the game control means of the main board 151, the display state of the variable display device 44 and the normal symbol display 63 is changed according to the contents shown in FIG. At the same time, the lamp / LED display state is changed, and if necessary, the sound number data is output to the sound effect control board 82. Note that control commands other than the example shown in FIG. 24 are also transmitted from the game control means to the effect control means. For example, a control command indicating the display state of the winning ball lamp 10 or the ball-out lamp 9, the number of lighting of the normal symbol start memory LED 64, and a more detailed presentation control command related to the big hit game are transmitted from the gaming control means to the presentation control means. Is done.
[0125]
The variable display start designation command indicating the start of variable display and the variable display mode designation command capable of specifying the variable display mode are realized by the variation pattern designation effect control command, and the identification information designation command capable of identifying the display result of the identification information. Is realized by an effect control command for designating the left symbol, middle symbol, and right symbol, and a variable display end designating command indicating the end of variable display is realized by an effect control command for stopping the special symbol. In this embodiment, the production control command for specifying the variation pattern is also used as the variable display start specifying command for indicating the start of variable display and the variable display mode specifying command for specifying the variable display mode. The designation command and the variable display mode designation command that can specify the variable display mode may be separated.
[0126]
Next, the operation of the display control board 75 will be described. FIG. 25 is a flowchart showing main processing executed by the CPU 75a. In the main processing, first, initialization processing is performed for clearing the RAM 75b, setting various initial values, and initializing a 2 ms timer for determining the display control activation interval (step S701). Thereafter, the CPU 75a shifts to a loop process for confirming the monitoring of the timer interrupt flag (step S702). As shown in FIG. 26, when a timer interrupt occurs, the CPU 75a sets a timer interrupt flag (step S711). If the timer interrupt flag is set in the main process, the CPU 75a clears the flag (step S703) and executes the following display control process.
[0127]
In this embodiment, the timer interrupt takes every 2 ms. That is, the display control process is started every 2 ms. In this embodiment, only the flag is set in the timer interrupt process, and the specific display control process is executed in the main process. However, the display control process may be executed in the timer interrupt process.
[0128]
In the display control process, the CPU 75a first analyzes the received display control command (command analysis execution process: step S704). Next, the CPU 75a performs display control process processing (step S705). In the display control process process, a process corresponding to the current control state is selected and executed from among the processes corresponding to the control state. And the process which updates a notice random number counter is performed (step S706). Thereafter, the process returns to the process of checking the timer interrupt flag in step S702.
[0129]
Next, display control command reception processing from the main board 151 will be described. FIG. 27 is an explanatory diagram showing a configuration example of a command reception buffer for storing a display control command received from the main board 151. In this example, a command reception buffer of a ring buffer format capable of storing six display control commands having a 2-byte configuration is used. Therefore, the command reception buffer is configured by a 12-byte area of reception command buffers 1 to 12. A command reception number counter indicating in which area the received command is stored is used. The command reception number counter takes a value from 0 to 11. It is not always necessary to use the ring buffer format. For example, three symbol designating command storage areas (2 × 3 = 6 byte command receiving buffer) and other command storing areas for designating other variation patterns ( (2 × 1 = 2-byte command reception buffer). Similarly, the sound effect control board 82 may have a buffer format other than the ring buffer format. In this case, the display control board 75 and the sound effect control board 82 are controlled based on the latest command stored in a storage area such as a variation pattern. Thereby, it is possible to quickly respond to an instruction from the main board 151.
[0130]
FIG. 28 is a flowchart illustrating a specific example of command analysis processing (step S704). The effect control command received from the main board 151 is stored in the reception command buffer, but in the command analysis process, the CPU 75a checks the content of the command stored in the command reception buffer.
[0131]
In the command analysis process, the CPU 75a first checks whether a received command is stored in the command receiving buffer (step S511). Whether it is stored or not is determined by comparing the value of the command reception number counter with the read pointer. The case where both match is the case where the received command is not stored. When the received command is stored in the command receiving buffer, the CPU 75a reads the received command from the command receiving buffer (step S512). When read, the value of the read pointer is incremented by one.
[0132]
If the received effect control command is a special symbol left designation effect control command (91XX (H)) (step S513), the CPU 75a uses the left symbol storage area in the RAM as data indicating the left symbol indicated by "XX". (Step S514). If the special design control command (92XX (H)) is specified (step S516), the CPU 75a stores the data indicating the middle symbol indicated by "XX" in the middle symbol storage area in the RAM ( Step S517). If it is the special symbol right designation effect control command (93XX (H)) (step S518), the CPU 75a stores the data indicating the right symbol indicated by "XX" in the right symbol storage area in the RAM ( Step S519).
[0133]
If the received effect control command is an effect control command for designating a variation pattern (step S521), the CPU 75a stores the EXT data of the command in the variation pattern data storage area (step S522), and then stores the variation pattern counter. The value is incremented by 1 (step S523), and the fluctuation pattern reception flag is set (step S524).
[0134]
If the received effect control command is an effect control command for specifying the start winning memory number (step S531), the CPU 75a updates the start winning memory number in the start winning number storage area in the RAM to the number specified by the effect control command. (Step S532). Further, the number of start memory display areas 18 whose display colors change in the variable display device 44 is updated (step S533). Further, the value of the notice random number counter is incremented by 1 (step S534). When the count value of the notice random number counter exceeds the maximum value, the value is returned to zero. Further, when a plurality of notice random number counters are provided, for example, the notice random number counter n (in the case where four notice random number counters are provided is provided) so that the advance of each notice random number counter is not synchronized as much as possible. When the count value of n = 1 to 3) is returned to 0, the count value of the notice random number counter n + 1 may be incremented by one.
[0135]
If the received command read in step S512 is another effect control command, a flag corresponding to the received command is set (step S535).
[0136]
FIG. 29 is an explanatory diagram showing an example of a range of count values of a rendering means determination counter that is one of the above-described notice random number counters. In this example, the effect means determining notice random number counter takes a numerical value in the range of 0 to 150.
[0137]
FIG. 30 is an explanatory diagram showing an example of a method for selecting effect means based on a random number for determining effect means. FIG. 30A shows an example of a big hit effect means determination table used when the received fluctuation pattern command indicates a big hit, and FIG. 30B shows a reception. An example of a table for determining the off-stage effect means used when the changed pattern command indicates a loss is shown. Each presentation means determination table shown in FIG. 30 is stored in a ROM mounted on the display control board 75. The values set in each effect means determination table are referred to as effect means determination values.
[0138]
As shown in FIG. 30, (1) speakers 12a and 12b (represented as “sound” in FIG. 30) and (2) lamps 6 to 8, 15, 16, 56, 67a · LEDs 37, 38, 45, (3) variable display device 44 (shown as “display” in FIG. 34), (4) speakers 12a, 12b and variable display device 44, (5) Lamps 6-8, 15, 16, 56, 67a · LEDs 37, 38, 45 and variable display device 44, (6) Speakers 12a, 12b and lamps 6-8, 15, 16, 56, 67a · LEDs 37, 38, 45 And the variable display device 44 are selected as effect means for performing the effect of continuous notice.
[0139]
In the selection method illustrated in FIG. 30, when the variable display result is determined to be a big hit by the change pattern command, the effect control means displays the variable display at a higher rate than when it is determined to be out of place. The device 44 is selected as effect means used for the effect of continuous notice. That is, the effect determining means included in the effect control means is a specific effect means (in this example) of a plurality of kinds of effect means when a predetermined variable display result (in this example, a big hit) is specified by the variation pattern command. Then, the variable display device 44) is selected at a high rate.
[0140]
Furthermore, when it is specified that the variable display result is a big hit by the variation pattern command, the ratio of selecting a plurality of rendering means is higher than when the deviation is specified. Accordingly, the player can strongly expect that a big hit will actually occur when a continuous notice effect is executed by a plurality of effect means. And when it is specified that the variable display result is out of place by the variation pattern command, the ratio of selecting all (three in this example) effect means is extremely low. Therefore, the player can expect more strongly that a big hit will actually occur when a continuous notice effect is executed by all the effect means.
[0141]
In this embodiment, the presentation means determination table is divided into two cases, that is, the case where the variable display result indicated by the variation pattern command is a big hit and the case where it is out of the big hit. , It may be divided into three cases of detachment. Further, it may be divided into four cases of specific big hit, non-specific big hit, reach, and off.
[0142]
FIG. 31 is an explanatory diagram showing an example of a method for selecting the effect mode of the notice effect based on the received variation pattern command. FIG. 31 shows an example of a notice mode determination table for determining a notice effect of continuous notice according to the received variation pattern command. 31 is stored in a ROM 75c mounted on the display control board 75. The value set in the notice mode determination table is referred to as a notice mode determination value.
[0143]
In this example, according to the type of the received variation pattern command, any one of the mode A, the mode B, the mode C, and the mode D is selected as the effect mode of the continuous notice. The modes A to D are the display modes A to D when the variable display device 44 is selected as the production means, and the lights are emitted when the lamp / LED is selected as the production means. When the speaker 12a, 12b is selected as the production means, the sound mode A is the sound mode D.
[0144]
FIG. 32 is a flowchart showing the display control process (step S705) in the main process shown in FIG. In the display control process process, any one of steps S800 to S806 is performed according to the value of the display control process flag. In each process, the following process is executed.
[0145]
Fluctuation pattern command reception waiting process (step S800): It is confirmed whether or not a display control command (variation pattern command) capable of specifying the fluctuation time has been received by the command reception interrupt process. Specifically, it is confirmed whether or not a flag (variation pattern reception flag) indicating that a variation pattern command has been received is set. The variation pattern reception flag is set when it is confirmed by command analysis processing that a variation pattern designation display control command has been received (step S524).
[0146]
All symbol variation start processing (step S802): Control is performed so that variation of the left middle right symbol is started.
[0147]
Symbol variation processing (step S803): Controls the switching timing of each variation state (variation speed) constituting the variation pattern, and monitors the end of the variation time. In addition, stop control of the left and right symbols is performed.
[0148]
All symbol stop waiting setting process (step S804): If a display control command (special symbol stop display control command) for instructing all symbol stop is received at the end of the variation time, the symbol variation is stopped and the stop symbol ( Control to display the fixed symbol).
[0149]
Big hit display process (step S805): After the end of the fluctuation time, the control of the probability variable big hit display or the normal big hit display is performed.
[0150]
Process during jackpot game (step S806): Control during jackpot game is performed. For example, when a display control command for display before opening the big winning opening or display when opening the big winning opening is received, display control of the number of rounds is performed.
[0151]
FIG. 33 is an explanatory diagram of a configuration example of process data set for each variation pattern table. The process data is composed of data obtained by collecting a plurality of combinations of process timer set values and presentation control execution data. The effect control execution data includes display control execution data and lamp control execution data. As the display control execution data, data indicating the display state of the variable display device 44 during the variation period of the special symbol is set. For example, the display control execution data 1 is set with data indicating the display state of the variable display device 44 at the start of variable display. The lamp control execution data is set to data indicating the lamp / LED display state during the special symbol fluctuation period. For example, in the lamp control execution data 1, data indicating the lamp / LED display state at the start of variable display is set. When the timing for switching the display state (for example, the timing at which a new character appears in the variable display device 44, the timing at which the lamp / LED is switched from the lit state to the unlit state) arrives during the special symbol fluctuation period. Controls the display state of the variable display device 44 and the lamp / LED according to the next effect control execution data in the process data. In the process timer set value, a time corresponding to the switching timing is set.
[0152]
Thus, the effect control means controls the effect means based on the program and process data stored in the ROM 75c, and controls a plurality of effect means (the variable display device 44 and the lamp / LED in this embodiment). The related program is stored in the ROM 75 c mounted on the display control board 75. And ROM75c which stores those programs can be comprised as one ROM. Therefore, the number of parts can be reduced. Of the process data stored in the ROM 75c, the process timer set value is shared. Therefore, the ROM capacity of the effect control means can be saved. Note that the effect control execution data may be one effect control execution data as long as the display control execution data and the lamp control execution data can be shared. Thus, in this embodiment, at least a part of the data related to the control of the plurality of rendering means can be stored in the same ROM.
[0153]
The process data shown in FIG. 33 is stored in the ROM 75c in the display control board 75. Further, process data is prepared for each variation pattern. Moreover, it prepares according to the kind of effect means used for a notice effect. For example, the process data in the case where the notice display effect of the notice A is executed by the variable display device 44 in the variation pattern 2 is prepared separately from the process data in the case where the notice effect of the notice A is executed by the lamp / LED in the change pattern 2. ing. Therefore, the CPU 75a selects process data to be used according to the variation pattern and the type of effect means used for the notice effect.
[0154]
FIG. 34 is a flowchart showing a variation pattern command reception waiting process (step S800) in the effect control process shown in FIG. In the variation pattern command reception waiting process, the CPU 75a checks whether or not the variation pattern reception flag is set (step S871). If it is set, the flag is reset (step S872). Then, the value of the effect control process flag is changed to a value corresponding to all symbol variation start processing (step S802) (step S873).
[0155]
FIG. 35 is a flowchart showing all symbol variation start processing (step S802) in the effect control process shown in FIG. In the all symbol variation start processing, the CPU 75a increments the variation pattern counter by 1 (step S910), and then determines whether or not to notify based on the received variation pattern command (step S911). Specifically, with reference to the received EXT data of the fluctuation pattern command, it is determined whether there is a fluctuation pattern command that specifies execution of the notice effect. For example, whether or not the same value as the value indicated by the EXT data of the received variation pattern command is included in the notice mode determination value set in the notice mode determination table shown in FIG. This is done by judging.
[0156]
Next, when it is determined that the CPU 75a is to give a notice (step S912), the CPU 75a sets a continuous notice flag (step S913), and uses the notice mode determination table shown in FIG. It is determined that the notice effect is executed in the notice form associated with the determination value for notice form determination having the same value as the data (step S914). Note that the notice mode data indicating the notice mode determined in step S914 is stored in an effect mode buffer provided in the RAM 75b provided in the display control board 75.
[0157]
Further, the CPU 75a extracts a notice means random number for determining the effect means (step S915), and uses the effect means determination table according to the jackpot / loss determination result determined based on the received EXT data of the variation pattern command. Set to. Then, the effect means corresponding to the same effect means determination value as the extracted effect means determination notice random number is determined as the effect means used in the notice effect (step S916). Note that the effect means name data indicating the effect means determined to be used for the notice effect in step S916 is stored in the effect means name buffer provided in the RAM 75b of the display control board 75.
[0158]
Then, a notice start time determination timer corresponding to the decided notice effect is started (step S917), and after selecting the effect mode, the process data of the variable display variation pattern is set from the table corresponding to the effect mode (step S918). ). The notice start time determination timer is a timer for determining the timing for starting the notice effect after the change of the symbol is started in the variable display device 44. If it is determined in step S912 that the notice effect is not performed, the process proceeds to step S918.
[0159]
Next, process data corresponding to the variation pattern of the variable display of the special symbol is selected from the table set for each effect mode (step S919). At this time, different types of variation pattern process data are selected for each rendering mode. Then, a process timer corresponding to the effect execution data 1 in the selected process data is started (step S920). Also, LCD control is performed based on the display control execution data 1 in the process data (step S921). For example, a signal corresponding to the content of the display control execution data 1 is given to the variable display device 44 using an LCD. Note that a ROM address may be set in the display control execution data, and more detailed control data may be stored in an area starting from the address, and LCD control may be performed according to the control data. Further, lamp / LED control is performed based on the lamp control execution data 1 in the process data (step S922). For example, a signal corresponding to the content of the lamp control execution data 1 is given to each lamp / LED. Note that the ROM address is set in the lamp control execution data, and more detailed control data is stored in an area starting from the address, and the lamp / LED control is performed according to the control data. Good.
[0160]
Further, the sound number data corresponding to the variation pattern is output to the sound effect control board 82 (step S923). In the sound effect control board 82, a speech synthesis IC (not shown) reads data corresponding to the sound number data from a sound data ROM (not shown), generates a sound and sound effect corresponding to the read data, and amplifies the circuit. (Not shown). The amplifier circuit outputs an audio signal obtained by amplifying the output level of the speech synthesis IC to a level corresponding to the volume set by a volume (not shown) to the speakers 12a and 12b.
[0161]
Thereafter, a variation time timer (a timer corresponding to the variation time of the special symbol) is started (step S924), and the value of the effect control process flag is set to a value corresponding to the symbol variation process (step S925).
[0162]
FIG. 36 is a flowchart illustrating the process during symbol variation (step S803) in the effect control process. In the symbol variation processing, the CPU 75a checks whether or not the notice start time determination timer has timed out (step S851). If time-out has occurred, the CPU 75a displays the effect means set in the effect means name buffer, that is, the data indicating the effect means determined to execute the continuous notice effect and the effect mode (mode) set in the effect mode buffer. Process data corresponding to (A, B, C or D) is selected (step S854). That is, thereafter, it is decided to control the effect of the effect means using the selected process data. Further, when the speakers 12a and 12b are used for the effect of continuous notice, the sound number data corresponding to the effect of the effect of continuous notice is output to the sound effect control board 82 (steps S855 and S856). In the sound effect control board 82, the speech synthesis IC reads data corresponding to the sound number data from the sound data ROM, generates sound and sound effects corresponding to the read data, and outputs them to the amplifier circuit. The amplifier circuit outputs an audio signal obtained by amplifying the output level of the speech synthesis IC to a level corresponding to the volume set by the volume to the speakers 12a and 12b.
[0163]
The effect control means ends the effect control of the notice effect before the time-out of the change time timer, that is, before the change display result is determined. This end time is a big hit, for example, before the left and right symbols stop (before it is decided whether or not to reach) when the notice effect is executed as a reach notice notification for notifying that the reach effect display mode is to be set. When a notice effect is executed as a jackpot notice notice for notifying the effect, for example, it may be during a variable display period after the left and right symbols are aligned (after reaching reach). Such a notice effect is not actually a notice of the occurrence of a big hit game or the like, but is effective for enriching variations of the game effect. In addition, the type of the notice used for the non-probable big jackpot notice and the type of the notice used for the probable big jackpot notice are separated, and the non-probable jackpot notice and the probable jackpot notice are executed separately. Good.
[0164]
Further, when the process timer times out (step S861), the CPU 75a switches effect control execution data in the process data (step S862). That is, in the process data, the next set process timer is started (step S863), and LCD control is performed based on the next set display control execution data (step S864). Further, lamp / LED control is performed based on the lamp control execution data set next in the process data (step S865).
[0165]
If the variable time timer has timed out (step S866), a monitoring timer for monitoring the reception of the special symbol stop display control command is started (step S867), and the value of the effect control process flag is set to all symbol stop waits. A value corresponding to the process is set (step S868).
[0166]
FIG. 37 is a flowchart showing the all symbol stop waiting process (step S804) in the display control process. In the all symbol stop waiting process, the CPU 75a checks whether or not a display control command (special symbol stop display control command) for instructing all symbol stop has been received (step S941). If a display control command for instructing stop of all symbols has been received, control is performed to stop the symbols with the stored stop symbol (step S942).
[0167]
When the big hit symbol is not displayed in step S943 (when the loss symbol is displayed), the CPU 75a determines whether or not the variation pattern counter is a predetermined number (step S944), and the predetermined number is reached. If not, it is determined whether or not change pattern mode change is designated (step S945). If the mode change is designated by the variation pattern, it is determined whether or not the continuous notice flag in step S913 is ON (step S957). When it is determined that the effect mode is ON, the process proceeds to step S946. When it is determined that the effect mode is not ON, it is determined whether or not the effect mode is changed by random lottery (step S958). When it is determined not to change the effect mode, the process proceeds to step S946. When it is determined to change the effect mode, the effect mode is changed (step S959), the variation pattern counter is reset (step S960), and the CPU 75a Data (see FIG. 41) corresponding to the changed effect mode is set in the mode change buffer (step S961). If the mode change is not designated in step S945, the continuous in-progress flag (the flag set in step S913) is reset (step S946), and the display control process flag value is changed to the variable pattern command reception wait process (step S946). A value corresponding to (S800) is set (step S947). As described above, when the continuous notice flag is ON, that is, during continuous notice execution, the effect mode switching means does not switch the present effect mode to another effect mode.
[0168]
On the other hand, if the display control command for designating all symbols to be stopped is not received in step S941, it is confirmed whether the monitoring timer has timed out (step S948). If time-out occurs, it is determined that some abnormality has occurred, and control is performed to display an error screen on the variable display device 44 (step S949). Then, control goes to a step S943.
[0169]
When the big hit symbol is displayed in step 943, the CPU 75a executes the processes of steps S950 to S954, which are the same as the above-described steps S957 to S961, and thus the description thereof is omitted. After executing step S954, the value of the display control process flag is set to a value corresponding to the jackpot display process (step S805) (step S955), and the continuous notice flag (flag set in step S913) is reset (step S955). S956).
[0170]
If the variation pattern counter is a predetermined number in step S944, the process proceeds to step S957.
[0171]
FIG. 38 is an explanatory diagram showing an example of sound number data output from the display control board 75 to the sound effect control board 82. As shown in FIG. 38, the sound number data includes sound number data corresponding to the variation pattern of the special symbol, sound number data during the big hit game, and sound number data corresponding to the sound modes A to D of the continuous notice. It is. The sound number data corresponding to the sound modes A to D of the continuous notice is the sound number data output from the display control board 75 to the sound effect control board 82 in step S856 described above. In addition, the thing of the structure which changes the sound effect produced for every production mode by changing sound number data according to the production mode of game production may be sufficient. In addition, by the control in the display control board 75, the effect by issuing lamps / LEDs may be varied for each game effect effect mode.
[0172]
As explained above, the game control means confirms whether or not a variable display that is determined to be executed in the future based on the start winning memory includes a big hit and wins a big hit. When there is something and the big win is not the result of the next variable display, it is decided to give a continuous notice at a predetermined rate, and each notice that is executed at the time of each variable display in the continuous notice The production mode of production is determined respectively. When confirming whether there is a thing that will be a big hit in the future based on the start winning memory, it is decided from the earliest time when variable display is executed and it will be decided that it will be a big hit If it is confirmed, the confirmation process is terminated. In addition, the number of times of performing the confirmation process is determined as the number of times of continuous notice.
[0173]
Then, when the game control means determines the continuous notice and the notice mode, the game control means transmits a variation pattern command including a decision result regarding the notice regarding the current variable display to the effect control means.
[0174]
On the other hand, the effect control means determines whether or not to give a notice in the current variable display effect based on the variation pattern command from the game control means, and an effect mode of the notice effect to be executed in the current variable display effect when performing Further, the production means to be used in the notice production is determined uniquely.
[0175]
For example, it is determined to be a big hit in the variable display corresponding to the start winning memory number “4” and the starting winning memory number “3”, and the start winning memory numbers correspond to 1, 2, and 4. Assume that the variable display is determined to be out of place. In that case, in the third confirmation process, the game control means confirms that the variable display corresponding to the start winning memory number “3” is a big hit (see Y in step S129). Since it is not the display result of the next variable display that is a big hit (see Y in step S145), a process of determining whether or not to perform continuous notice is executed (see step S147). If it is decided to perform the continuous notice (see Y in step S147), “3”, which is the number of confirmation processes, is decided as the number of executions of the continuous notice (see step S148), and each variable display in the continuous notice is determined. An effect mode of each notice effect to be executed is determined (see step S150).
[0176]
When the effect mode of each notice effect is determined, the game control means determines a change pattern including information on the notice effect to be executed this time (see step S78), and directs the change pattern command indicating the change pattern to the effect control means. (See step S80, step S81). Upon receiving the variation pattern command, the effect control means determines to give a notice for the current variable display effect (see Y in step S912) and selects the effect mode of the notice effect according to the game effect effect mode. (Refer to Step S913) and the effect mode of the notice effect to be executed is also determined (see Step S914). Further, the production means used for the notice production is determined (see step S916). And a variable display effect is performed and a notice effect is performed in it. In this way, the first notice effect is executed.
[0177]
For the second time and the third time, the confirmation processing of the display result of the variable display based on the start winning memory is not executed (because it is determined as N in step S123 described above). However, as the variation pattern command transmitted to the effect control means, a variation pattern command including information related to the effect mode of the notice effect executed at that time is selected (using the table set in step S73 described above). Because the variation pattern is selected). Therefore, the notice effect is also executed by the effect control means for the second time and the third time. In both the first and second times, the notice effect appears, but the display result of the variable display is not the same, and the third variable display becomes a big hit after the notice effect appears. Accordingly, it is possible to notify that the big variable is won by the third variable display by the previous three consecutive notice effects (that is, the continuous notice effect is executed).
[0178]
As illustrated in FIG. 13C, in the case where there is a variable display result based on the start winning memory when the variable display result is a big hit, the probability is higher than in the case where there is no big win. It is decided that continuous notice will be given. Therefore, the reliability of the continuous notice (the rate at which the big hit is actually generated when the continuous notice is executed) is high, and the player can strongly expect the occurrence of the big hit by the occurrence of the continuous notice. Note that it may be determined that the continuous advance notice is performed with a higher probability in the case of the probable big hit than in the case of the non-probable big hit. With such a configuration, when the probability variation is a big hit, the probability that the continuous notice is executed is increased, and the continuous notice with higher reliability for the player is realized. That is, the effect control means can perform an effect based on the number of reserved memories that suggests that a big hit or a probable big hit will appear in the future.
[0179]
Then, when it is determined that continuous notice is given, the effect control means uniquely determines which effect means (variable display device 44, lamp / LED, speakers 12a, 12b) to use. In the case where an effect movable member is provided, the effect control means also uniquely determines whether or not to use the movable member when executing the notice effect. Then, when the effect control command specifying the change pattern is received, the variable display device 44 is controlled to start the change of the special symbol, and if it is decided to perform the continuous notice, the effect means (variable display) The device 44, the lamp / LED, and a part or all of the speakers 12a and 12b) are used to control the continuous notice effect to be executed in a predetermined effect mode.
[0180]
FIG. 39 is a conceptual diagram showing a configuration of means for executing continuous notice. As shown in FIG. 39, the gaming machine according to the present invention includes numerical data updating means 31a for updating numerical data (for example, a numerical value indicating a random number for jackpot determination) used for determination relating to variable display within a predetermined numerical range. When the variable display execution condition is satisfied (for example, when a start prize is generated), the numerical data extraction means 31b for extracting numerical data from the numerical data update means 31a and the numerical data extracted by the numerical data extraction means 31b are extracted in order. A numerical data storage unit 31c that stores the data in an identifiable manner and a determination process that determines whether the numerical data stored in the numerical data storage unit 31c matches a predetermined determination value (for example, a big hit determination value). Storage data determination means 31d. In addition, when the stored data determination unit 31d determines that the predetermined determination value is met, start of variable display based on the establishment of the variable display execution condition corresponding to the numerical data determined to match It includes a notice effect executing means 80a for executing a predetermined notice effect over a plurality of variable displays from the variable display before the condition is satisfied. Further, a storage number specifying means 31e for specifying the number of numerical data stored in the numerical data storage means 31c, and an order prior to the extraction order of the numerical data determined to match the predetermined determination value in the determination process Storage state determination means 31f for determining whether or not there is numerical data stored by the numerical data storage means 31c, and the storage state determination means 31f determines that there is no numerical data stored by the numerical data storage means 31c. And invalidation means 31g for invalidating the determination result of the stored data determination means 31d.
[0181]
With such a configuration, it is possible to reliably match the determination result that the predetermined notice effect over a plurality of variable displays is executed with the content of the effect based on the determination results, and the variable display over a plurality of variable displays. The predetermined notice effect can be executed reliably. Specifically, when the storage state determination unit 31f determines that there is no variable display held before the variable display determined to be a big hit, and that the variable display that is a big hit is the next variable display. Is configured so that the invalidation means 31g invalidates the determination result of the determination process for determining whether or not to execute the continuous notice by the stored data determination means 31d. It is possible to prevent the continuous notice from being executed when possible, and to match the determination result on whether or not to execute the continuous notice and the production content based on the determination result. That is, it is possible to avoid a situation in which the announcement effect is executed only by one variable display and the predetermined effect is not made over a plurality of variable displays, even though it is decided to perform the continuous notice. be able to.
[0182]
In the above-described embodiment, as described in the notice setting process of FIG. 17, after executing the determination process (loop processing from step S126 to step S131) using the jackpot determination random number value stored in reserve. When the number of inspections is not equal to or greater than a predetermined number (for example, 2 or more), the configuration is such that it is determined not to perform the continuous notice effect regardless of the determination result in the determination process (that is, determination of the determination process) As shown in FIG. 40, the above determination process may be performed only when the start winning counter is equal to or greater than a predetermined number (Y in step S123a). . In other words, when the start winning counter is not equal to or greater than the predetermined number (N in Step S123a), the determination process using the jackpot determination random number stored in the pending storage (the loop process from Step S126 to Step S131) is not executed (that is, the determination) The configuration may be such that execution means for executing the process is invalidated. Even when configured as described above, it is possible to reliably match the determination result of executing a predetermined notice effect over a plurality of variable displays with the content of the effect based on the determination result. It is possible to reliably execute a predetermined notice effect over the variable display times. In addition, it is possible to prevent unnecessary processing from being executed.
[0183]
FIG. 41 is a table showing data numerical values corresponding to each effect mode. In this embodiment, four seasons of spring, summer, autumn, and winter are set as the production mode, and the data corresponding to each season are “00”, “01”, “10”, and “11”, respectively. It has become.
[0184]
It should be noted that the control shown in the flowcharts of FIGS. 5 to 24 and the like described above is a so-called determination of whether or not there is a hit with all currently stored start memories when the variable display of the variable display device 44 is started. Although the start full scan is shown, the control performed on the main board 151 is not limited to such a start full scan, but a so-called winning determination is made to determine whether or not the start winning is a win when the start winning is won. You may do it. The control based on the winning determination will be described below as a second embodiment with reference to FIGS.
[0185]
The main process and the 2 ms timer interrupt process executed by the main board 151 in the determination at the time of winning are the same as the main process and the 2 ms timer interrupt process (FIGS. 5 and 6) in all the scans at the start, and thus the description thereof is omitted.
[0186]
FIG. 42 is an explanatory diagram showing each random number. It is explanatory drawing which shows each random number. Each random number is used as follows.
(1) Random 1: Decide whether or not to generate a big hit (for big hit judgment)
(2) Random 2-1 to 2-3 (Random 2): For determining the left middle right of the special symbol (special symbol left middle right)
(3) Random 3: Determines the combination of special symbols that generate a big hit (for determining big hit symbols)
(4) Random 4: Determine the variation pattern of the special symbol (for variation pattern determination)
(5) Random 5: Decide whether or not to reach when no big hit is generated (for reach determination)
(6) Random 6: Determines whether or not to generate a hit based on a normal symbol (for determination per normal symbol)
(7) Random 7: Determine initial value of random 1 (for determining random 1 initial value)
(8) Random 8: Determine initial value of random 6 (for determining random 6 initial value)
Further, the special symbol process (FIG. 8) and the variation pattern type (FIG. 9) shown in the start-up full scan are the same in the determination at the time of winning.
[0187]
FIG. 43 is a flowchart showing the start port switch passing process (step S312) in the determination at the time of winning. When the hit ball wins an ordinary variable winning ball apparatus (described as a starting winning opening) 58 provided on the game board 40, the starting ball detector 60 is turned on. In the winning confirmation process, when the CPU 75a determines that the starting ball detector 60 is turned on (step S211), the CPU 75a confirms whether or not the starting winning memory number has reached a maximum value of 4 (step S212). If the starting winning memory number has not reached 4, the starting winning memory number is increased by 1 (step S213), and random numbers such as jackpot determination random numbers are extracted and stored corresponding to the starting win memory number. Store in the area (special symbol determination buffer) (step S214). Note that extracting a random number means reading a count value from a counter for generating a random number and setting the read count value as a random value. In step S214, random numbers 1 to 5 are extracted from the random numbers shown in FIG.
[0188]
Next, the CPU 75a again extracts random 1 from the counter for generating random 1 (random number for jackpot determination) (step S215), and executes the jackpot determination module. That is, the big hit determination subroutine is called (step S216). When the big hit determination module determines that the big hit is not based on the value of random 1 (step S217), random 5 is extracted from the counter for generating random 5 (reach determination random number) (step S218). The reach determination module is executed. That is, the reach determination subroutine is called (step S219).
[0189]
Further, the CPU 75a sets a command transmission table for specifying a start winning memory (step S221), and executes a command creation process which is a subroutine (step S222). Note that setting the command transmission table is a process of specifying an address of the command transmission table (a process of setting the address in a predetermined register or the like). Then, by executing the command creation process, a display control command or the like is transmitted to the display control board 75 or the like. In this embodiment, each display control command that can be transmitted to the display control board 75 is stored in a ROM command transmission table.
[0190]
When it is determined that the big hit is made in the big hit determination module (step S223), it is determined whether or not the big hit (probability change big hit) that enables the transition to the high probability state is made (step S224). Specifically, among the random numbers extracted in step S214, the big hit symbol is determined using random 3 (big hit symbol determination random number), and if the determined big hit symbol is a symbol with an odd symbol number, it is a probable big hit. judge. Each symbol of the symbol number set in the jackpot symbol table corresponding to the value of random 3 is determined as the jackpot symbol. Whether or not to make a promiscuous big hit using a random number that determines whether or not to make a probable change, instead of deciding whether or not to make a promising big hit after determining the big win symbol using a random number for determining the big win symbol May be determined.
[0191]
When the probability variation is not a big hit, a command transmission table for designating a big hit winning 1 is set (step S225), and a command creation process is executed (step S226). Further, in the case of a promising big hit, a command transmission table for designating a big win 2 is set (step S227), and a command creation process is executed (step S228).
[0192]
If it is determined in step S223 that the jackpot will not be a big hit, the reach determination module determines that it is a reach (not a big hit but a reach, hereinafter also referred to as a loss reach) (step S231). Then, a reach transmission designation command transmission table is set (step S232), and command creation processing is executed (step S233). If it is neither a big win nor a miss reach, a command transmission table for designating a miss prize is set (step S234), and a command creation process is executed (step S235).
[0193]
As a result of the above processing, when the starting winning memory number increases, a display control command for designating the starting winning memory number is transmitted to the effect control means mounted on the display control board 75, and the big win winning 1 designation, the big win A display control command for winning 2 designation, reach winning designation or out-of-place winning designation is transmitted. In this embodiment, when it is not a big win, a display control command for specifying a reach winning prize or a lost winning prize is transmitted, but when it is not a big hit, a display control command for specifying a lost winning prize is always transmitted. You may do it. Hereinafter, the display control command for the jackpot winning 1 designation, the jackpot winning 2 designation, the reach winning designation, and the extra winning designation may be referred to as a winning judgment result command or a judgment result command.
[0194]
The display control command for the reach winning designation is an example of the reach effect command, and the display control command for the jackpot winning 1 designation and the display control command for the jackpot winning 2 designation are examples of the specific display result command. Among the display control commands for the jackpot winning 1 designation and the display control command for the jackpot winning 2 designation, the display control command for the jackpot winning 2 designation is a probability change state (special status) in which the display result of the identification information is a state in which the jackpot gaming state is likely to occur. It is an example of a special display result command for designating whether or not the display result is a special display result that is a condition for shifting to (gaming state).
[0195]
The jackpot and reach determined at this time are determined based on the establishment of a condition (execution condition, not start condition) for starting variable display in the variable display device 44. When a condition (start condition) that allows variable display to be started in the variable display device 44 is satisfied, it is determined again whether to make a big hit or to make a shift reach. Based on the determination result, an actual variable display result is derived. However, the random number value used when the variable display start condition is satisfied is a value extracted when the variable display execution condition is satisfied and stored in the storage area. Therefore, the decision result of whether or not to make a probable big hit when the variable display start condition is met, whether to make a non-probable big hit or not, and the result of deciding whether or not to make the reach reach when the variable display execution condition is met It becomes the same as the decision result.
[0196]
The processing in step S214 corresponding to the extraction of numerical data by the display result determining means and the processing in steps S215 to S219 corresponding to the determination related to the display result of the identification information by the execution condition establishment time determining means are one timer. Completed in the interrupt process. Therefore, the decision result of whether or not to make a probable big hit when the variable display start condition is met, whether to make a non-probable big hit or not, and the result of deciding whether or not to make the reach reach when the variable display execution condition is met Is guaranteed to be the same as the decision result.
[0197]
FIG. 44A is an explanatory diagram showing an example of a jackpot determination table used in the jackpot determination module. FIG. 44B is an explanatory diagram showing an example of a reach determination table used in the reach determination module. As shown in FIG. 44 (A), in this embodiment, the jackpot determination value is “3” at the low probability (non-probability change), and the jackpot determination value is “3” at the high probability (probability change). , “7”, “79”, “103”, “107”. Further, as shown in FIG. 44B, the reach determination values are “0”, “1”, and “11”.
[0198]
Note that the jackpot determination process (FIG. 14) and reach determination process (FIG. 15) in all the scans at the start are the same in the determination at the time of winning, and thus the description thereof is omitted.
[0199]
FIG. 45 is a flowchart showing the stop symbol setting process (step S301). In the stop symbol setting process, the CPU 75a is in a state in which the variation of the special symbol can be started (when the value of the special symbol process flag is a value indicating step S301) (step S251), Is confirmed (step S252). The case where the value of the special symbol process flag is a value indicating step S301 is a case where the symbol is not changed in the variable display device 44 and is not in the big hit game.
[0200]
If the starting winning memory number is not 0, each random number value stored in the storage area corresponding to the starting winning memory number = 1 is read (step S253), the value of the starting winning memory number is decreased by 1, and each The contents of the storage area are shifted (step S254). That is, each random number value stored in the storage area corresponding to the start winning memory number = n (n = 2, 3, 4) is stored in the storage area corresponding to the starting winning memory number = n−1.
[0201]
Next, the CPU 75a sets a command transmission table for designating the number of starting winning prizes after subtraction (step S255), and executes a command creation process (step S256). Further, the big hit determination module is executed (step S257). Here, in the jackpot determination module, it is determined whether or not the jackpot is determined based on the random 1 value read from the storage area in step S253.
[0202]
When it is determined to be a big hit (step S258), the CPU 75a determines a big hit symbol according to the value of the big hit symbol random number (random 3) (step S259). In this embodiment, each symbol of the symbol number set in the jackpot symbol table corresponding to the value of random 3 is determined as a jackpot symbol. In the jackpot symbol table, left, middle and right symbol numbers corresponding to a plurality of types of combinations of jackpot symbols are set. Further, the variation pattern of the special symbol is determined based on the value of the variation pattern determining random number (random 4) (step S260).
[0203]
When it is determined not to be a big hit (step S258), the CPU 75a executes a reach determination module (step S261). Here, in the reach determination module, it is determined whether or not the jackpot is based on the random 3 value read from the storage area in step S253. Moreover, the stop symbol when not hitting a big hit is determined. In this embodiment, the left symbol is determined according to the value read in step S253, that is, the extracted random 2-1 value (step S57). If it is decided to reach, the left and right symbols are determined according to the value of random 2-1, and the middle symbol is determined according to the value of random 2-2 (step S263). Here, if the determined middle symbol matches the left and right symbols, the symbol corresponding to the value obtained by adding 1 to the random number corresponding to the middle symbol is set as the stop symbol of the middle symbol so that it does not match the jackpot symbol. To do. Then, the variation pattern of the special symbol is determined based on the value of the variation pattern determination random number (random 4) (step S264).
[0204]
If it is decided not to win and not reach, the CPU 75a determines a stop symbol when neither hit nor reach. That is, the left symbol is determined according to the random 2-1 value, the middle symbol is determined according to the random 2-2 value, and the right symbol is determined according to the random 2-3 value (step S265). Here, when the left and right symbols match, the right symbol is shifted by one symbol so that it does not become reach. Then, it is confirmed whether or not the probability change is in progress (step S266). If the probability change is in progress, it is determined that the change pattern is a reduced change pattern when the change occurs (step S267). If it is not the probability variation state, the variation pattern is determined to be the normal variation pattern at the time of deviation according to the value of random 4 (step S268). In addition, the fluctuation pattern shortened at the time of detachment is a fluctuation pattern in which the fluctuation period is shorter than the normal fluctuation pattern in which the fluctuation time of the left and right symbols is 1.0 seconds, for example.
[0205]
As described above, it is determined whether the display mode of the symbol variation is a big hit, a reach mode, or a loss mode when a start winning is received, and a variation pattern is selected based on the determination result. When the change of the symbol can be started, the change pattern used for the production is determined and the combination of the respective stop symbols is determined. Further, the game control means performs a process of transmitting a control command (a control command capable of specifying a variation pattern) based on the determination result to the display control board 75 and the sound effect control board 82.
[0206]
FIG. 46 is an explanatory diagram showing an example of the contents of a display control command sent to the display control board 75. As shown in FIG. In the example shown in FIG. 46, commands 8000 (H) to 800E (H) are display control commands for designating a special symbol variation pattern in the variable display device 44 that variably displays the special symbol. Note that a command for specifying a variation pattern (variation pattern command) also serves as a variation start instruction. Command 800E (H) is a command for designating a shortened display pattern.
[0207]
The command 88XX (H) (X = any value of 4 bits) is a display control command related to a normal symbol variation pattern. The command 89XX (H) is a display control command for designating a normal symbol stop symbol. Command 8A00 (H) is a display control command for instructing stop of variable display of normal symbols.
[0208]
Commands 91XX (H), 92XX (H), and 93XX (H) are display control commands for designating a left middle right stop symbol of a special symbol. A symbol number is set in “XX”. Command A000 (H) is a display control command for instructing stop of variable symbol special display. The command BXXX (H) is a display control command that is sent from the start of the big hit game to the end of the big hit game. The commands C000 (H) to EXXXX (H) are display control commands relating to the display state of the variable display device 44 that is not related to special symbol fluctuations and jackpot games.
[0209]
The command E0XX (H) is a display control command indicating the number of start memory display areas 18 for changing the display color in the display area for displaying the start winning memory number in the variable display device 44. For example, the display control board 75 changes the display color of the number of start memory display areas 18 designated by “XX (H)” in each start memory display area 18. That is, the command E0XX (H) is a command for instructing control of a display area provided for informing information on the number of reserved items. Note that the command related to the number of start memory display areas 18 for changing the display color may be configured to indicate increase / decrease in the number of areas for changing the display color. In this embodiment, since the upper limit value of the start winning memory is 4, “XX” is any one of 0-4.
[0210]
The command E400 (H) is a command transmitted when the high probability state is changed to the low probability state, and the command E401 (H) is transmitted when the low probability state is changed to the high probability state. It is a command.
[0211]
The command E5XX (H) is a command transmitted subsequent to the command E0XX (H) when a start winning is generated. E500 (H) is a display control command for designation of an extra prize, E501 (H) is a display control command for designation of a reach prize, E502 (H) is a display control command for designation of a big win, E503 (H) Is a display control command for designating one winning prize.
[0212]
When the CPU 75a of the display control board 75 receives the display control command described above from the game control means of the main board 151, the display state of the variable display device 44 and the normal symbol display 63 is changed according to the contents shown in FIG. .
[0213]
Note that the display control main process (FIG. 25), the timer interrupt process (FIG. 26), and the command reception buffer (FIG. 27) for storing display control commands in all scans at the start are the same in the determination at the time of winning. The description is omitted.
[0214]
47 and 48 are flowcharts showing a specific example of the command analysis process (step S704). The display control command received from the main board 151 is stored in the reception command buffer. In the command analysis process, the content of the command stored in the reception command buffer is confirmed.
[0215]
In the command analysis process, the CPU 75a first checks whether a received command is stored in the command receiving buffer (step S611). Whether it is stored or not is determined by comparing the value of the command reception counter with the read pointer. The case where both match is the case where the received command is not stored. When the reception command is stored in the command reception buffer, the CPU 75a reads the reception command from the command reception buffer (step S612). When read, the value of the read pointer is incremented by one.
[0216]
If the received display control command is a special symbol left designation display control command (91XX (H)) (step S613), the CPU 75a uses the left symbol storage area in the RAM as data indicating the left symbol indicated by "XX". (Step S614). If it is a display control command (92XX (H)) designated for special symbols (step S616), the CPU 75a stores the data indicating the middle symbol indicated by "XX" in the intermediate symbol storage area in the RAM ( Step S617). If the display control command (93XX (H)) designates the special symbol right (step S618), the CPU 75a stores the data indicating the right symbol indicated by "XX" in the right symbol storage area in the RAM ( Step S619).
[0217]
If the received display control command is a variation pattern designation display control command (step S621), the CPU 75a stores the EXT data of the command in the variation pattern data storage area (step S622), and sets the variation pattern reception flag. Set (step S623).
[0218]
If the received display control command is a display control command for designating the start prize memory number (step S631), the CPU 75a updates the start prize memory number in the start prize number storage area in the RAM to the number designated by the display control command. (Step S632). Further, the number of start memory display areas 18 whose display colors change in the variable display device 44 is updated (step S633). Further, the value of the synchronous random number counter is incremented by 1 (step S634). The synchronous random number counter is a counter for generating a synchronous random number for determining whether or not to execute continuous notice. In this embodiment, the count value of the synchronous random number counter takes a value in the range of 0 to 126, and when the count value reaches 127, the value is returned to 0.
[0219]
If the received display control command is a display control command for specifying a winning prize (step S635), the CPU 75a increments the value of the synchronous random number counter by 1 (step S636), and reads the count value of the synchronous random number counter. A synchronous random number is extracted (step S637), and a continuous notice is determined (step S638). Even when the received display control command is a reach control designation display control command (step S639), the value of the synchronous random number counter is incremented by 1 (step S640), and the synchronous random number is extracted (step S641). A determination is made (step S642).
[0220]
In addition, when the received display control command is a display control command designated as big win 1 (step S651), the value of the synchronous random number counter is incremented by 1 (step S652), and the synchronous random number is extracted (step S653). The continuous notice is determined (step S654). Further, even when the received display control command is a display control command for designating the big win 2 (step S655), the value of the synchronous random number counter is incremented by 1 (step S656), and the synchronous random number is extracted (step S657). The continuous notice is determined (step S658).
[0221]
If the received command read in step S612 is another display control command, a flag corresponding to the received command is set (step S659).
[0222]
Next, the determination of continuous notice will be described. FIG. 49 is an explanatory diagram showing an example of the relationship between the number of start winning memories and the number of times of continuous notice execution. FIG. 49A shows the relationship between the number of starting prizes stored and the number of consecutive notices executed when a display control command for specifying a winning prize is received, and FIG. 49B receives a display control command for specifying a reach prize. FIG. 49C shows the relationship between the number of start winning memories and the number of times of continuous notice execution when a display control command designating a big hit prize 1 is received. Indicates. FIG. 49D shows the relationship between the number of start winning memories and the number of executions of the continuous notice when the display control command designating the big hit winning 2 is received.
[0223]
As shown in FIG. 49, in this embodiment, when a display control command for specifying a winning prize is received, continuous notice can be executed if the value of the synchronous random number matches 29 or 124 (continuous notice judgment value). When the reach control designation display control command is received, the continuous notice can be executed if the value of the synchronous random number matches 7, 29, 79 or 124 (continuous notice judgment value), and the jackpot prize 1 When a designated display control command is received, continuous notice can be executed if the value of the synchronous random number matches 7 to 27 or 105 to 124 (continuous notice determination value). Then, when the display control command designating the big hit prize 2 is received, the continuous notice can be executed if the value of the synchronous random number matches 3 to 67 or 85 to 124 (continuous notice determination value).
[0224]
FIG. 50 is a flowchart showing an example of a continuous notice determination process executed by the CPU 75a (notice effect determining means) in steps S638, S642, S654, and S658. In the continuous notice determination process, the CPU 75a first determines whether or not the continuous notice is being executed (step S661). Whether or not it is being executed can be determined by a continuous advance notice executing flag that is an internal flag set during execution. If the continuous notice is not being executed, the continuous notice determination table is selected (step S662). The continuous notice determination table is a table in which the information shown in FIG. 34 is set, and when a display control command for specifying an extra prize is received, a table corresponding to the information shown in FIG. 49 (A) is selected. When a reach winning designation display control command is received, a table corresponding to the information shown in FIG. 49B is selected, and when a big win winning 1 designation display control command is received, FIG. 49C is selected. When the table corresponding to the information shown in FIG. 49 is selected and the display control command designating the big win 2 is received, the table corresponding to the information shown in FIG.
[0225]
Then, the CPU 75a checks whether or not the same continuous notice determination value as that of the extracted synchronous random number is set in the continuous notice determination table (step S663). Extract the corresponding execution count from the table. If the number of executions is not 0 (step S664), the CPU 75a (notification effect execution means) executes a notice effect selection process (step S665), and stores the number of executions in an execution number buffer in the RAM (step S666). The notice lottery completed flag is set (step S667).
[0226]
By the above processing, the synchronous random number counter advances each time a display control command for starting winning memory designation, missed prize designation, reach prize designation, jackpot prize 1 designation, jackpot prize 2 designation is received, and missed prize designation. When a display control command for specifying a reach winning prize, a jackpot winning prize 1 designation, or a jackpot winning prize 2 designation is received, a lottery for determining whether or not to perform a continuous notice is executed. When it is determined to perform the continuous notice, the number of executions determined in advance according to the number of start winning memories at that time is determined, and the content of the continuous notice effect to be executed is determined.
[0227]
As will be described later, when the CPU 75a performs variable display of the special symbol on the variable display device 44 after the non-zero number of executions is determined, the notice effect (continuous) Notice).
[0228]
FIG. 51 is an explanatory diagram of an example of the effect selection table. In this embodiment, an effect selection table 1 that is selected when a display control command for specifying a winning prize is received, an effect selection table 2 that is selected when a display control command for specifying a reach prize is received, and a jackpot winning prize There is an effect selection table 3 that is selected when a display control command of 1 designation is received, and an effect selection table 4 that is selected when a display control command of 2 wins is designated.
[0229]
In this embodiment, a plurality of notice effects with different selection probabilities are set in each effect selection table. For example, when the production selection table 1 is selected, it is decided to execute the notice A with a probability of 80/100, and to decide to execute the notice B with a probability of 20/100. Specifically, for each notice set in each effect selection table, a comparison value to be compared with the extracted value of the random number for determining the continuous notice effect is assigned, for example, according to the selection probability. In this example, the random number for determining the continuous notice effect is a random number in the range of 0 to 99 and is stored in the RAM area of the display control board 75, and is used for determining the continuous notice effect. It is. The random number for determining the continuous notice effect is updated in step S706, for example.
[0230]
FIG. 52 is a flowchart illustrating an example of continuous notice effect selection processing. In the continuous notice effect selection process, the CPU 75a (notice effect selection means) selects an effect selection table to be used from the ROM 75c (notice effect storage means) in accordance with the received display control command (step S665a). Then, the CPU 75a extracts a random number for determining the continuous notice effect, selects any one of the notice effects A to E according to the extracted value, and determines the notice effect to be executed as the continuous notice effect (step S665b).
[0231]
Note that the display control process in the main process for determination at the time of winning is the same as the display control process for all scans at the start (step S705), and thus description thereof is omitted.
[0232]
FIG. 53 is a flowchart showing the entire symbol variation start process (step S802) in the display control process process in the winning determination shown in FIG. In this flowchart, steps S810 to S830 are shown, but steps S816 to S827 are the same as steps S914 to S925 in the flowchart of all symbol variation start processing at the start of all scans, and thus the description thereof is omitted. Steps S810 to S815 and Steps S828 to S830 will be described. In the notice effect setting process, the CPU 75a increments the variation pattern counter by 1 (step S810), and confirms whether or not the continuous notice is being executed (in step S811, sees whether or not the counter value is 0). ). If it is not in execution (if the value of the counter is 0), it is confirmed whether or not the continuous notice lottery flag has been set (step S812). If the continuous notice lottery flag has been set, that is, if it has been decided to perform the continuous notice, the continuous notice lottery flag is reset (step S813), and the contents of the execution number buffer are set in the execution number counter. After that (step S814), a continuous notice execution flag is set (step S815).
[0233]
If it is confirmed in step S811 that continuous notice is being executed (if the counter value is not 0), the CPU 75a decrements the execution number counter (step S828), and if the execution number counter is not 0, the process proceeds to step S816. (Step S829). When the execution number counter reaches 0, it means that the continuous notice for the determined number of executions has already been completed. In this case, after resetting the continuous notice execution flag (step S830), the process proceeds to step S820. If the continuous notice lottery flag is not set in step 812, the process proceeds to step S820. Steps S823 and S824 are executed by the CPU 75a (game effect control means).
[0234]
Note that the symbol variation in-process (step S803) in the display control process is the same as steps S851, S854 to S856, and S861 to S868 (FIG. 36) in the start-up all scans, and thus description thereof is omitted.
[0235]
FIG. 54 is a flowchart showing all symbol stop waiting processing (step S804) in the display control process. In the all symbol stop waiting process, the CPU 75a checks whether or not a display control command (special symbol stop display control command) instructing all symbol stops is received (step S971). If the display control command for instructing stop of all symbols has been received, control is performed to stop the symbol with the stored stop symbol (step S972).
[0236]
When the big hit symbol is not displayed at step S973 (when the loss symbol is displayed), the CPU 75a determines whether or not the variation pattern counter is a predetermined number (step S974), and the predetermined number is reached. If not, it is determined whether or not change pattern mode change is designated (step S975). If the mode change is designated by the variation pattern, it is determined whether or not the continuous notice execution flag in step S815 is ON (step S988). When it is determined that it is ON, the process proceeds to step S977, and when it is determined that it is not ON, it is determined whether or not to change the effect mode by random number lottery (step S989). If it is determined not to change the effect mode, the process proceeds to step S977. If it is determined to change the effect mode, the effect mode is changed (step S990), the variation pattern counter is reset (step S991), and the CPU 75a Data (see FIG. 41) corresponding to the changed effect mode is set in the mode change buffer (step S992). If the mode change is not designated in step S975, the value of the display control process flag is set to a value corresponding to the variation pattern command reception waiting process (step S800) (step S977). As described above, when the continuous notice flag is ON, that is, during continuous notice execution, the effect mode switching means does not switch the present effect mode to another effect mode.
[0237]
On the other hand, if the display control command for designating the stop of all symbols has not been received in step S971, it is confirmed whether the monitoring timer has timed out (step S978). If the timeout has occurred, it is determined that some abnormality has occurred, and control is performed to display an error screen on the variable display device 44 (step S979). Then, control goes to a step S973.
[0238]
When the big hit symbol is displayed in step 973, the CPU 75a executes the processing of steps S980 to S984, and since this processing is the same as the above-described steps S988 to S992, description thereof will be omitted. After executing step S984, the value of the display control process flag is set to a value corresponding to the jackpot display process (step S805) (step S985), the execution number counter is cleared (step S986), and the continuous advance notice execution flag is set. (The flag set in step S815) is reset (step S987). If the variation pattern counter is a predetermined number in step S974, the process proceeds to step S988.
[0239]
Note that the processing in step S986 and step S987 may be executed before the processing in step 980. In other words, it may be possible to change the effect mode immediately after the continuous announcement related to the jackpot is ended by the jackpot display.
[0240]
FIG. 55 is a flowchart showing the jackpot display process (step S805) in the display control process. In the big hit display process, the CPU 75a determines whether or not the probability variation big hit is set (step S951). For example, the CPU 75a can determine whether or not the probability big hit is based on the confirmed symbol. If it is the probability variation big hit, for example, the CPU 75a performs display control to display “probability big hit” on the variable display device 44 (step S952). Specifically, the display instruction of “probability big hit” is notified to the VDP 75d. Then, the VDP 75d creates image data for the indicated display. Also, the image data is synthesized with the background image. If it is not the probable big hit, the CPU 75a performs display control for displaying, for example, “big hit” on the variable display device 44 (step S953). Then, the value of the display control process flag is set to a value corresponding to the big hit game processing (step S806) (step S954).
[0241]
FIG. 56 is a flowchart showing the big hit game processing (step S806) in the display control process. In the big hit game processing, when the CPU 75a receives a big hit end display control command from the main board 31 (step S861), the CPU 75a performs a control for causing the variable display device 44 to display the big hit end (step S862). ), The value of the display control process flag is set to a value corresponding to the variation pattern command reception waiting process (step S800). In the big hit game process, the CPU 75a performs display control of the number of rounds, etc., when receiving a display control command for display before opening the big winning opening or displaying when the big winning opening is opened.
[0242]
Next, an example of the display mode of the notice display performed by the image display unit 160 according to the present embodiment will be described with reference to FIG. FIG. 57 is a diagram illustrating a display mode (A to D) when the continuous notice display is not performed on the variable display device 44 and a display mode (E to H) when the continuous notice display is performed.
[0243]
First, a display mode in the case where continuous notice display is not performed in the variable display device 44 will be briefly described. When a ball is won in the normal variable winning ball device 58, the display result of the identification information 170 is derived when a predetermined time elapses after the variable display of the identification information 170 is started on the image display unit 160 (FIG. 57A). (FIG. 57B). At this time, “cherry tree and petals” is displayed on the image display unit 160 as the “spring background” 180a in the background of the identification information 170 (FIGS. 57A and 57B). Further, when a ball is won in the normal variable winning ball apparatus 58, the variable display of the identification information 170 is started again (FIG. 57C). At this time, in this embodiment, the variable display of the identification information 170 is changed. Simultaneously with the start, the background changes to “summer background” 180 b and an image of “fireworks” is displayed on the image display unit 160. Then, when the predetermined time has elapsed, the display result based on the identification information 170 is derived again (FIG. 57D). As described above, in the present embodiment, when the continuous notice is not executed, the background changes when the variable display is started by satisfying the condition mode transition condition. When the continuous notice is executed, the background is not changed even when the condition mode transition condition is satisfied, and the continuous notice corresponding to the background when the continuous notice is executed is executed.
[0244]
Then, next, the display mode when the transition condition (predetermined condition) of the effect mode is satisfied during the continuous notice execution will be described. In the ball game machine 1, when a ball wins the normal variable winning ball device 58, a display control command for instructing variable display based on a detection signal from the starting ball detector 60 is sent from the main board 151 to the display control board 75. Sent. When the control command from the main board 151 is received by the display control board 75, the image display unit of the variable display device 44 starts from the state where the identification information 170 is stopped by the CPU 75 a of the display control board 75 based on the display control command. In 160, variable display of the identification information 170 is executed. As described above, when a ball is further won in the normal variable winning ball apparatus 58 while the variable display of the identification information 170 is being executed in the image display unit 160, it is stored that the winning is made in the CPU 151a of the main board 151. That is, the establishment of the start condition that does not satisfy the variable display start condition of the variable display device 44 is stored. The establishment of the start condition stored in the CPU 151a is displayed on the special symbol start storage display 46 so that the number of establishment can be individually specified as shown in FIG. 57 (E). In the case shown in the figure, up to the second item is displayed. This indicates that two balls have been won in the normal variable winning ball device 58 while the variable display of the identification information 170 is being executed. Show.
[0245]
Whether the display result of variable display based on the start condition stored in the start storage means becomes a predetermined specific display result (big hit) or not is determined by the CPU 151a (startup determination means) of the main board 151, respectively. The start memory is determined. In this description, it is assumed that the display result of variable display based on the second (second) special symbol start memory display 46 from the left is a big hit. As described above, during execution of variable display of the identification information 170, the normal variable winning ball device 58 wins a ball and the start condition is stored, and the display result of the variable display based on one of the stored start conditions is started. When it is determined by the time determination means that the specific display result is obtained, as shown below, the CPU 75a (notification effect executing means) of the display control board 75 generates a continuous notice for performing a predetermined notice effect over a plurality of variable displays. Executed.
[0246]
As described above, the display result of the variable display based on the second special symbol start memory display 46 is determined to be the special display result by the start time determination means, and as shown in FIG. When the variable display based on the special symbol start memory display 46 is executed, a notice display 200c is displayed. At this time, “Moon” is displayed on the image display unit 160 as “Autumn background” 180c, and an image of “Tsunami dumpling” is displayed as the notice display 200c.
[0247]
When a predetermined time has elapsed after the “autumn background” 180c by the “moon” image and the notice display 200c by the “moon moon dumpling” image are displayed, as shown in FIG. 57 (F), the left, middle, and right Identification information 170 is displayed on the variable display section. Since the start memory in this case is determined that the display result of the variable display does not become a big hit, the display result is an out-of-order display result as shown in FIG. It should be noted that the image of “Tsunami Dango” displayed as the notice display 200c disappears at the same time as the identification information 170 is displayed.
[0248]
As described above, when a predetermined time elapses after the display result related to the variable display for which the first notice has been made among the continuous notices is displayed, the image display of the variable display device 44 is performed as shown in FIG. The variable display of the identification information 170 is executed again by the unit 160. Since this variable display is based on the special symbol start memory display 46 displayed at the left end of the two special symbol instruction memory displays 46 displayed, the special symbol start memory display is displayed simultaneously with the start of the variable display. The display of 46 is reduced to one as shown in FIG.
[0249]
At this time, the variable display of the identification information 170 is executed, so that the transition condition of the effect mode is satisfied. In this case, since the continuous notice is executed, the background does not change, and the background In this case, “Moon” is continuously displayed on the image display unit 160 as the “Autumn background” 180c, and the image of “Tsunami dumpling” is displayed again as the notice display 200c.
[0250]
When a predetermined time elapses after the variable display is executed, the identification information 170 is displayed on the left, middle, and right variable display sections as shown in FIG. Since the start memory in this case is determined that the display result of the variable display is a big hit, the display result is a win display result as shown in FIG. A winning display 210 is displayed. It should be noted that the image of “Tsunami Dango” displayed as the notice display 200c disappears at the same time as the identification information 170 is displayed.
[0251]
As described above, when continuous notice is executed, the background does not change even if the condition mode transition condition is satisfied, and the continuous notice corresponding to the background when the continuous notice is executed is executed. Is done.
[0252]
If the continuous notice is not executed, the production mode will change as the four seasons change, such as “Spring”, “Summer”, “Autumn”, “Winter”, and the same season will be displayed continuously. It will not be done. That is, the effect mode switching means does not switch to the same effect mode as the currently selected effect mode.
[0253]
Here, a plurality of effect modes as backgrounds representing the seasons are stored in the ROM 75c (effect mode storage means) of the display control board 75, and based on the end of variable display (satisfaction of predetermined conditions; step S972). The display control board 75 is switched by a CPU 75a (effect mode switching means). The background image changes as described above by controlling the game effect by the CPU 75a (game effect control means) of the display control board 75 based on the switched effect mode. The effect mode may be switched by the effect mode switching means based on the start of variable display. The background representing each season, the identification information, the variation pattern of the identification information, and the like are stored in the effect mode storage means as data used to determine the effect of variable display.
[0254]
In addition, the effect mode of the notice effect performed by the notice display 200c by the above-mentioned “Tsukimi Dango” is stored in the CPU 75a (notice effect storage means) of the display control board 75. In the above-described embodiment, the display of the image of “Tsukimi Dango” 200c is shown as the notice display corresponding to the “autumn background” 180c, but the notice display corresponding to the “spring background” 180a is “ “Mosquito trapping incense stick” or the like is set as a notice display corresponding to “Sakura Petal” and “Summer Background” 180b. It may be memorized.
[0255]
Further, in the present embodiment, as described above, the background changes (selects the effect mode) every time the variable display based on the start-up memory is executed (the predetermined condition is satisfied). For example, the background may be changed when 50 times of variable display is executed, or the background may be changed when a predetermined variation pattern such as reach is executed.
[0256]
Further, in the above-described embodiment, when the season background is switched in the image display unit 160, the already displayed background gradually disappears, and a new background is displayed while performing so-called fade-out. As the direction of this fade-out, those that fade out from the top to the bottom of the image display unit 160, those that fade out from the bottom to the top, those that fade out from the left side to the right side, and from the right side to the left side The one that fades out, the one that fades out from the center to the outside, the one that fades out from the outside to the center, etc. are conceivable. The direction of these fade-outs is determined by random number extraction using a dedicated table, is different depending on the number of start memory displays, and is not included when the start memory display includes a winning one. It can be different from time to time, a difference in the variation pattern of the identification information 170, for example, when the reach display is performed and when it is not performed, and different depending on the type of the currently displayed background.
[0257]
As described above, the ball game machine 1 according to the embodiment has been described in detail. In the present embodiment, variable display means (variable display device 44) that can variably display identification information that can be individually identified is provided in advance. When the specified variable display start condition is satisfied and then the variable information display starts based on the variable display start condition being satisfied, and the variable information display result of the identification information becomes the specific display result. In a gaming machine that can be controlled to a specific gaming state that is advantageous to the player, the data used for determining the variable display effects, and storing the plurality of effect modes with different variable display effects determined The mode storage means (ROM 75c of the display control board 75) and a plurality of effect modes stored in the effect mode storage means from the current effect mode based on the establishment of a predetermined condition. The production mode switching means (CPU 75a of the display control board 75, steps S982, S990) for switching the production mode to be used from the current production mode to another production mode, and the production mode switched by the production mode switching means. Game effect control means (CPU 75a of display control board 75, step S820) for controlling the effect of variable display, and when the start condition is satisfied, the display result of variable display based on the start condition becomes the specific display result. When the start time determining means (CPU 151a of the main board 151, step S217) for executing the start time determining process for determining whether or not the specific display result is determined by the start time determining means, the variable is performed a plurality of times. Preliminary effect decision maker that decides whether or not to execute a continuous advance notice that performs a predetermined notice effect over the display (CPU 75a of display control board 75, steps S638, S642, S654, S658), notice effect storage means (ROM 75c of display control board 75) for storing a plurality of effect modes of the continuous notice for each effect mode, and the notice Corresponding to the effect mode switched by the effect mode switching means from the plurality of continuous notice modes stored in the notice effect storage means when the effect determining means decides to execute the continuous notice. Notice effect selecting means (CPU 75a of the display control board 75, step S816) for selecting the effect effect performed, and notice effect executing means (display control) for executing the continuous notice based on the effect aspect selected by the notice effect selecting means. CPU 75a of the substrate 75, step S854), and the effect mode switching means, Switching control means (CPU 75a of display control board 75, steps S980, S988) for restricting switching from the current effect mode to another effect mode even if the predetermined condition is satisfied during the execution of the continuous notice. Thus, even if the transition condition of the production mode is established during the execution of the continuous notice, the continuous notice is executed according to the currently executed production mode without changing the production mode. There is no inconsistency between the production mode and the production mode of the production mode, and a unified production without any sense of incongruity can be performed as a whole.
[0258]
In the present embodiment, when the variable display start condition is satisfied, before the start of determining whether or not the display result of the variable display started based on the start condition is set as the specific display result. Pre-start determination means (CPU 151a of the main board 151, step S57) for executing the determination process is provided, and the pre-start determination process and the start-time determination process are configured by a common processing module, so that the pre-start determination is performed. It is possible to reduce the amount of program when the means and the starting time determination means are provided, and to reduce costs.
[0259]
In the present embodiment, the predetermined condition is established when it is determined that the specific variable display is executed in the variable display means, and when the variable display according to the predetermined mode is executed, the effect mode Is changed (steps S982, S989), the player can easily recognize that the effect mode has been changed, thereby improving the interest of the game.
[0260]
In the present embodiment, the predetermined condition is satisfied when a predetermined number of variable displays are executed in the variable display means, so that the rendering mode is changed every time the predetermined number of variable displays are executed. (Steps S982, S989) Since the effect mode is periodically changed, the player can have an expectation for the execution of the variable display, and does not get bored with the game.
[0261]
Further, in the present embodiment, the effect mode switching means is a function that does not switch to the same effect mode as the currently selected effect mode when the effect mode is switched based on the establishment of the predetermined condition ( By having the CPU 75a of the display control board 75 and steps S982, S990), the same production mode is not continuously selected, and a variety of productions can be executed, and the player gets bored with the production. There is no end.
[0262]
In the above-described embodiment, even if a predetermined condition for switching from the current effect mode to another effect mode is satisfied, the current effect mode is switched to another effect mode during the continuous notice. Not shown, but not limited to this, remember the predetermined conditions established during the execution of the continuous notice, unconditionally when the continuous notice ends, or after the continuous notice ends When a certain condition is established, the current effect mode may be switched to another effect mode based on the stored predetermined condition.
[0263]
As a specific process, first, all the scans at the start will be described. In the all symbol stop waiting process of FIG. 37, when the continuous notice flag is ON in steps S950 and S957, the predetermined condition established is satisfied. After storing, the process proceeds to the next step, and when the continuous advance notice flag is not ON, the process proceeds to the next step after resetting the storage of the predetermined condition. In step S945, if the variation pattern does not specify the change of the effect mode, a process for determining whether or not the continuous notice flag is ON as in step S950 is performed, and the continuous notice flag is ON. If YES, the process proceeds directly to step S946. When the continuous advance notice flag is not ON, the above-described process for determining whether or not there is a stored predetermined condition is performed. If the predetermined condition is not stored, the process directly proceeds to step S946. If there is a storage of the predetermined condition, after resetting the storage of the predetermined condition, the same processing as in steps S958 to S961 is performed, and then the process proceeds to step S946.
[0264]
Next, the winning time determination will be described. In the all symbol stop waiting process of FIG. 54, if the continuous notice execution flag is ON in step S980 and step S988, the next step is executed after storing the established predetermined condition. If the continuous advance notice flag is not ON, the process proceeds to the next step after resetting the storage of the predetermined condition. In step S975, if the variation pattern does not specify a change in the effect mode, a process for determining whether or not the continuous notice execution flag is ON as in step S988 is performed, and the continuous notice execution flag is set. If is ON, the process directly proceeds to step S977. When the continuous advance notice execution flag is not ON, the above-described process for determining whether or not there is a stored predetermined condition is performed. If the predetermined condition is not stored, the process directly proceeds to step S977. If there is a storage of the predetermined condition, the storage of the predetermined condition is reset, the same processing as in Steps S989 to S992 is performed, and then the process proceeds to Step S977.
[0265]
By performing the process as described above, if a predetermined condition for switching from the current production mode to another production mode is satisfied during execution of the continuous notice, the current production mode is changed to another production mode until the continuous notice ends. However, since the current effect mode is switched to another effect mode after the continuous notice is finished, the effect display can be changed, and the effect of the effect can be improved.
[0266]
【The invention's effect】
As is apparent from the above description, in the invention of claim 1, even if the transition condition of the effect mode is satisfied during execution of the continuous notice, the effect mode is currently executed without changing. Since the continuous notice is executed according to the production mode, there is no inconsistency between the production mode of the continuous notice and the production mode of the production mode, and a unified production without any sense of incongruity can be performed as a whole.
[0267]
In the invention of claim 2, the amount of program when the pre-start determination means and the start-time determination means are provided can be reduced, and the cost can be reduced.
[0268]
[0269]
[0270]
[Brief description of the drawings]
FIG. 1 is a front view showing a ball game machine according to an embodiment of the present invention.
FIG. 2 is a front view showing a game board.
FIG. 3 is an explanatory view showing each board provided on the back surface of the ball game machine.
FIG. 4 is a block diagram showing the relationship between the main board, various control boards, and electrical components.
FIG. 5 is a flowchart showing a main process executed by the main board.
FIG. 6 is a flowchart showing a 2 ms timer interrupt process.
FIG. 7 is an explanatory diagram showing each random number.
FIG. 8 is a flowchart illustrating an example of a special symbol process processing program executed by a CPU 151a.
FIG. 9 is an explanatory diagram showing an example of a variation pattern used in this embodiment.
FIG. 10 is an explanatory diagram showing an example of a big hit time variation pattern type selection table and an example of a loss variation pattern type selection table.
FIG. 11 is an explanatory diagram showing an example of each variation pattern type table.
FIG. 12 is a flowchart showing a start port switch passing process.
FIG. 13 is an explanatory diagram showing an example of a jackpot determination table used in the jackpot determination module and an example of a reach determination table used in the reach determination module.
FIG. 14 is a flowchart showing a big hit determination module.
FIG. 15 is a flowchart illustrating a reach determination module.
FIG. 16 is a flowchart showing a special symbol normal process in the special symbol process.
FIG. 17 is a flowchart showing a notice setting process in a special symbol normal process.
FIG. 18 is a flowchart showing a special symbol stop symbol setting process in a special symbol process.
FIG. 19 is a flowchart showing a variation pattern setting process in the special symbol process.
FIG. 20 is a flowchart showing a change pattern type table selection process at the time of notice.
FIG. 21 is a flowchart showing a big hit hour variation pattern type table selection process;
FIG. 22 is a flowchart showing a variation pattern type table selection process at the time of loss.
FIG. 23 is a flowchart showing a storage process in a 2 ms timer interrupt process.
FIG. 24 is an explanatory diagram showing an example of contents of an effect control command sent to the display control board.
FIG. 25 is a flowchart illustrating main processing executed by a CPU 75a.
FIG. 26 is a flowchart showing timer interrupt processing.
FIG. 27 is an explanatory diagram showing a configuration example of a command reception buffer for storing display control commands received from the main board.
FIG. 28 is a flowchart illustrating a specific example of command analysis processing.
FIG. 29 is an explanatory diagram showing an example of a range of count values of an effect means determination counter that is one of the advance random number counters.
FIG. 30 is an explanatory diagram showing an example of a method for selecting effect means based on a random number for determining effect means.
FIG. 31 is an explanatory diagram showing an example of a method for selecting a production mode of a notice effect based on a received variation pattern command.
FIG. 32 is a flowchart showing display control process processing in main processing;
FIG. 33 is an explanatory diagram showing a configuration example of process data set for each variation pattern table.
FIG. 34 is a flowchart showing a variation pattern command reception waiting process in the effect control process.
FIG. 35 is a flowchart showing a total symbol variation start process in the effect control process.
FIG. 36 is a flowchart showing a process during symbol variation in the effect control process.
FIG. 37 is a flowchart showing all symbol stop waiting processing in display control process processing;
FIG. 38 is an explanatory diagram showing an example of sound number data output from the display control board to the sound effect control board.
FIG. 39 is a conceptual diagram showing an outline of the present embodiment.
FIG. 40 is a part of a flowchart showing another embodiment of the advance notice setting process;
FIG. 41 is a table showing numerical values of data corresponding to each effect mode.
FIG. 42 is an explanatory diagram showing each random number.
FIG. 43 is a flowchart showing start port switch passing processing in determination at the time of winning.
FIG. 44 is an explanatory diagram showing an example of a jackpot determination table used in the jackpot determination module and an example of a reach determination table used in the reach determination module.
FIG. 45 is a flowchart showing a stop symbol setting process.
FIG. 46 is an explanatory diagram showing an example of the content of a display control command sent to the display control board.
FIG. 47 is a flowchart illustrating a specific example of command analysis processing;
FIG. 48 is a flowchart illustrating a specific example of command analysis processing;
FIG. 49 is an explanatory diagram showing an example of a relationship between the number of start winning memories and the number of times of continuous notice execution.
FIG. 50 is a flowchart showing an example of continuous notice determination processing executed in steps S638, S642, S654, and S658.
FIG. 51 is an explanatory diagram showing an example of an effect selection table.
FIG. 52 is a flowchart showing an example of continuous notice effect selection processing.
FIG. 53 is a flowchart showing all symbol variation start processing in display control process processing in determination at the time of winning a prize.
FIG. 54 is a flowchart showing all symbol stop waiting processing in display control process processing;
FIG. 55 is a flowchart showing jackpot display processing in display control process processing;
FIG. 56 is a flowchart showing big hit game processing in display control process processing;
FIG. 57 is a diagram showing a display mode of a notice display executed by the variable display device.
[Explanation of symbols]
1 Ball game machine (game machine)
44 Variable display device
75 display control board (effect mode storage means, effect mode switching means, game effect control means, notice effect execution means, notice effect storage means, notice effect selection means, selection mode storage means, pre-start determination means, switching restriction means)
75a CPU
75b RAM
75c ROM
151 Main board (startup judgment means)
151a CPU

Claims (2)

Each has variable display means that can variably display identification information that can be identified. After a predetermined variable display start condition is satisfied, variable information display is started based on the satisfaction of the variable display start condition. In the gaming machine that can be controlled to a specific gaming state advantageous to the player when the display result of the variable display of the identification information becomes the specific display result,
Game control means for controlling the progress of the game based on the game control program;
Production control means for controlling the variable display means based on a command transmitted by the game control means,
The game control means includes
Determination numerical data update means for updating determination numerical data used to determine whether or not to obtain the specific display result;
Data extraction storage means for extracting the numerical data for determination and storing it in a predetermined storage area when the start condition is satisfied;
When the start condition is satisfied, it is determined whether or not the variable display result is set as the specific display result based on the determination numerical data extracted by the data extraction and storage means when the start condition is satisfied. A start time determination means for executing a start time determination process;
When the start condition is satisfied, the determination numerical data stored in the storage area is read out, and whether or not the variable display result is set as the specific display result based on the read determination numerical data. A pre-start determination means for executing a pre-start determination process;
A determination result command that can specify a determination result by the start-time determination means when the start condition is satisfied, and a start memory number that is the number of variable displays of identification information that has been satisfied but the start condition is not yet started And a command transmission means for transmitting the start memory number command capable of specifying to the effect control means,
The production control means includes
Effect mode storage means for storing a plurality of effect modes, which are data used for determining the effect of variable display, wherein the determined effects of variable display are different;
Effect mode switching means for switching from the current effect mode to another effect mode among the plurality of effect modes stored in the effect mode storage means from the current effect mode based on establishment of the predetermined condition;
A variable display means for executing a variable Display of identification information corresponding to the effect mode switched by the presentation mode switching means based on said start condition is met,
When the determination result command received from the command sending means indicates that the specific display result is to be obtained , the specific display result over a plurality of variable displays before the variable display start condition to be the specific display result is satisfied. Continuous notice determination means for deciding whether or not to execute a continuous notice for notifying that
A start memory number display control means for controlling a start memory number display means for displaying the start memory number based on the start memory number command;
Notice mode storage means for storing a plurality of notice modes of the continuous notice for each effect mode;
When it is the decision to execute the continuous announcement by the continuous announcement determining means, corresponding to the effect mode switched by the presentation mode switching means from among said notice mode memory means and said plurality of notice aspects stored in a notice mode selecting means for selecting a notice embodiments set,
And a continuous announcement execution unit configured to execute the continuous announcement based on the notice mode selected by said advance notice mode selecting means,
The effect mode switching means includes a switching restriction means for restricting switching from the current effect mode to another effect mode even if the predetermined condition is satisfied during the execution of the continuous notice. . It said start before determination process, and the start time determination process, the gaming machine according to claim 1, characterized by being configured by a common processing module.

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