JP4225776B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine represented by a pachinko gaming machine or the like. More specifically, the variable display device that variably displays a plurality of types of identification information that can be identified by the predetermined start condition after the predetermined execution condition is satisfied, and displays the display result, and the execution Predetermining means for deciding the display result before its derivation display based on the establishment of a condition, and the specific display on the variable display device when the predetermination means decides to use the display result as the specific display result The present invention relates to a gaming machine that generates a specific gaming state advantageous to a player after displaying a result.
[0002]
[Prior art]
What is conventionally known as this type of gaming machine can be identified by establishing a predetermined start condition after a predetermined execution condition is satisfied, such as a pachinko game machine. A variable display device that variably displays a plurality of types of identification information and derives and displays a display result, and a predetermining unit that determines the display result before the derivation display based on establishment of the execution condition. When the means determines that the display result is the specific display result, the specific display result is displayed on the variable display device, and then a specific game state advantageous to the player is generated.
[0003]
In such a gaming machine, whether or not the display result of the variable display device becomes a specific display mode in advance in order to sufficiently enhance the fun of variable display by the variable display device and improve the player's expectation If the content of the determination is a specific display mode, the color or shape of the display state of the start-up memory display is changed, and the specific display mode is displayed to the player. There was a thing which notified the notice (for example, refer to patent documents 1).
[0004]
[Patent Document 1]
JP 08-243224 A (page 14)
[0005]
[Problems to be solved by the invention]
However, in the gaming machine as described above, the start memory or variable display in which a specific display mode is displayed can be directly recognized by the player according to the display state of the start memory display, and therefore no notice is given. Players could not be interested in starting memory, etc., and the interest was reduced. In addition, even when a false notice is made when a specific display mode is not displayed, the display result of the variable display device does not become a specific display form, and the player is immediately notified that it is a false notice. Because it was possible to recognize it, the player's expectations were lost at once, and discomfort remained, and no remedy was taken.
[0006]
The present invention has been made in view of the above-mentioned problems, and its purpose is to make the player interested not only in the variable display of the reserved storage in which the advance notice is made, but also in other variable displays, It is an object of the present invention to provide an interesting gaming machine that can further enhance the sense of expectation for a notice notification effect and realize an unexpected notice notification effect.
[0007]
[Specific Examples of Means for Solving the Problems and Their Effects]
(1) Each can be identified when a predetermined start condition (for example, the end of the previous variable display, etc.) is satisfied after a predetermined execution condition is satisfied (for example, a hitting ball wins a start winning opening 14). For example, a variable display device (for example, a player can distinguish and recognize each of them) and variably display a plurality of types of identification information (for example, numeric symbols “1” to “9”, etc.) Variable display device 8) and pre-determining means (for example, see SA01 in FIG. 15) for determining the display result before the derivation display (for example, before the symbol is fixed and stopped) based on the establishment of the execution condition. And the predetermining means displays the specific display result on the variable display device when it is determined that the display result is the specific display result (for example, a doublet such as “777”). A gaming machine (pachinko gaming machine 1) that generates a specific gaming state (for example, jackpot) advantageous to the player,
Reservation storage means (RAM 55 of game control board 31, SB 06 in FIG. 16) for suspending storage of the number of satisfied execution conditions (for example, the number of stored storage) for which the execution condition is satisfied but the start condition is not yet satisfied Etc.) and
Hold display control means (for example, refer to SE09 to SE17 in FIG. 19) for controlling the number of establishments stored in the hold storage means to be specified and displayed in a predetermined hold display mode;
When the execution condition is satisfied, execution condition satisfaction determination means (SC01, SC05 in FIG. 17) determines whether or not the display result of variable display resulting from the satisfaction of the execution condition becomes the specific display result. , SC06 etc.) and
Whether to execute a notice that the display result of the variable display becomes the specific display result based on the pre-determination result by the determination means when the execution condition is satisfied (for example, notification to the player, hold notice, etc.) Notice determination means for making a notice determination (see SH08 to SH13, etc. in FIG. 22);
The execution condition stored and stored by the storage device when the notification is determined by the notification determination unit (eg, when “YES” is determined in SF04 and SF05 in FIG. 20). A target object determining means (see SI01 to SI12, etc. in FIG. 23) for determining which one of the target information (for example, the number of the stored storage stored) is to be executed.
The hold display control means is a hold notice execution means (SE13 in FIG. 19) that controls to execute the notice by changing the hold display mode of the execution condition to be a notice object determined by the notice object determining means. SE17 etc.).
[0008]
According to the above-described configuration, when the execution condition is satisfied, the execution condition is determined, and the determination of the advance notice is performed based on the determination result. The execution condition can be determined, the hold display mode of the determined execution condition can be changed, and a notice can be executed, so even for variable display caused by execution conditions other than the execution condition that is the subject of the notice An unexpected game in which the display result of the variable display can be expected to be the specific display result, and the display result of the variable display resulting from the execution condition after the end of the notice is the specific display result. It can be provided and the interest of the game can be improved.
[0009]
(2) The notice target determining means is:
True notice target decision means for deciding whether or not to execute the notice for the execution condition determined by the decision means when the execution condition is established that the display result of the variable display becomes the specific display result (See SI02, SI12, etc. in FIG. 23),
Before the execution condition is satisfied when the true notice target determination means determines that the notice is not executed for the execution condition (when “NO” is determined in SI02 of FIG. 23). False notice target determination means (refer to SI03 to SI11, etc. in FIG. 23) for determining which of the execution conditions that have been satisfied and the start condition has not yet been fulfilled is to be executed. Including.
[0010]
According to the above-described configuration, the player may have a sense of expectation for the variable display of the execution condition that is the execution target of the notice because the notice may be executed for the execution condition that is the specific display result. Can do.
[0011]
(3) The advance notice determining means is subject to the advance notice after the advance notice for executing the advance notice is performed (for example, after the advance notice flag is turned on in SF04 and “YES” is made in SF05). The notice determination is not performed (for example, “NO” is determined in SF02) until the variable display determined to be completed is completed (for example, until the notice flag is turned off in SG09).
[0012]
According to the above-described configuration, it is possible to avoid duplication processing in which a notice determination for another execution condition is performed when a notice is being executed by the hold notice executing means, and thus it is possible to reduce the control burden.
[0013]
(4) The advance notice display control unit is configured to start the variable display due to the establishment of the start condition of the execution condition determined to be the subject of the advance notice by the advance object determination unit (for example, the target of the advance notice) According to the notice hold display mode in a plurality of times of variable display (for example, the variable display of the hold memory stored before the hold memory as the target of the notice is stored). Display control is executed (for example, after the hitting ball wins the start winning opening 14 and the notice flag is set in SH10 and SH13 in FIG. 22, the notice flag is turned off in SG09 in FIG. 21 until the notice flag is turned off in FIG. SJ13 and SJ17 in FIG. 21 and the hold display mode corresponding to the mode flag set in SG04 in FIG. 21 are displayed in SE13 and SE17 in FIG. To do).
[0014]
According to the above-described configuration, the advance notice can be executed by the hold advance notice execution means before the variable display due to the execution condition subject to the advance notice is started, so the advance notice is continuously provided over a plurality of variable displays. And the player's sense of expectation can be further enhanced.
[0015]
(5) The notice determination unit performs the notice determination when the number of established execution conditions stored by the hold storage unit is equal to or greater than a predetermined number (for example, 2 or more) (see SF03 in FIG. 20).
[0016]
According to the above-described configuration, when the number of establishments stored on hold is greater than or equal to a predetermined number, it is determined whether or not a notice is to be given. Therefore, the ratio of the notice being continuously given over a plurality of variable displays is high. Thus, the player can be interested for a long time, and the expectation that the player has over time can be improved.
[0017]
(6) It is controllable to a special gaming state (for example, a probability improving state, so-called probability variation state) in which the probability of becoming the specific gaming state is improved,
The notice determination unit does not perform the notice determination when the gaming state is the special gaming state (see SF01 in FIG. 20).
[0018]
According to the above-described configuration, when the player is in a special gaming state in which the player's sense of expectation has already improved, the notice determination is not performed, so that the control burden can be reduced.
[0019]
(7) Game control means (game control board 31) for controlling the progress of the game and outputting a command (for example, a display control command);
Production control means (display control board 80) for controlling the display state of the variable display device based on a command from the game control means,
The game control means includes
Means for determining when the execution condition is satisfied;
A specific display command (for example, non-probability variable big hit command, probable variable big hit command, etc.) indicating that the specific display result is obtained based on the determination that the execution condition is satisfied is made as the specific display result. Specific display command transmission means (see S14 in FIG. 14) to be transmitted to the production control means,
The holding storage means;
Established number command transmission means for transmitting the established number command (for example, the retained storage number command or the like) for specifying the established number stored on hold in the hold storage means (see S14 in FIG. 14). Including
The production control means includes
The notice determination means;
The notice target determining means;
Including the holding notice execution means,
The advance notice determining means performs the advance notice determination in accordance with the specific display command transmitted by the specific display command transmitting means (for example, see SH08, SH11, etc. in FIG. 22),
The advance notice target determining means performs the decision by the advance notice target determining means in accordance with the established number command transmitted by the established number command transmitting means (see, for example, SI03 to SI12 in FIG. 23),
The holding advance notice execution means executes control for performing the advance notice determination by the advance notice determination means and the indication that the number of formations can be specified corresponding to the determination by the advance object determination means (for example, SE13, FIG. 19). See SE17 etc.).
[0020]
According to the above-described configuration, when the execution condition is established by the game control means, and the notice control determination, the notice target determination and the notice can be executed by the effect control means, the process for performing the notice is performed with the game control means. It can be shared with the production control means, and the control burden on the game control means can be reduced.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. In the following embodiments, a pachinko gaming machine is shown as an example of a gaming machine. However, a plurality of types of identification that can be identified by a predetermined start condition after a predetermined execution condition is satisfied. A variable display device for variably displaying information and deriving and displaying a display result; and a predetermining unit for determining the display result before the deriving display based on establishment of the execution condition, the predetermining unit displaying the display result The present invention is applicable to any gaming machine that generates a specific gaming state advantageous to a player after displaying the specific display result on the variable display device when it is determined to be a specific display result. Is possible.
[0022]
FIG. 1 is a front view of a pachinko gaming machine 1 as an example of a gaming machine according to the present invention and a card unit 50 installed correspondingly.
[0023]
The pachinko gaming machine 1 has a glass door frame 2 formed in a frame shape. On the lower surface of the glass door frame 2, there is a hitting ball supply tray 3. Under the hitting ball supply tray 3, there are provided an extra ball receiving tray 4 for storing prize balls overflowing from the hitting ball supply tray 3 and a hitting operation handle (operation knob) 5 for firing the hitting ball. A game board 6 is detachably attached to the rear of the glass door frame 2. A game area 7 is provided in front of the game board 6. This will be described later with reference to FIG. Two speakers 27 that emit sound effects are provided on the left and right upper portions outside the game area 7. On the outer periphery of the game area 7, a game effect LED 28a and game effect LEDs 28b and 28c are provided. In this example, a prize ball lamp 51 that is turned on when the prize ball is paid out is provided at the left center portion of the glass door frame 2, and a ball-out lamp that is turned on when the replenishment balls run out at the upper center of the glass door frame 2. 52 is provided.
[0024]
Further, FIG. 1 also shows a card unit 50 that is installed adjacent to the pachinko gaming machine 1 and enables a ball lending by inserting a prepaid card. The card unit 50 is provided with a card availability display lamp 151, and the player is notified by the lighting or blinking of this card availability display lamp 151 that the card unit 50 is in a usable state. This card unit 50 is installed in a state of being inserted between a plurality of pachinko gaming machines 1 installed on the gaming machine installation island, and it is connected to the left or right gaming machine indicating the connected table direction. Displayed by the instrument 153.
[0025]
When the player inserts a prepaid card in which the card balance is recorded into the card insertion slot 155, the card balance recorded in the prepaid card is read. Next, when the player performs a predetermined ball lending operation, the balance for the lending unit amount set in advance is reduced, and the hit ball for the lending unit amount is supplied to the pachinko gaming machine 1 It is rented out to dish 3.
[0026]
The card unit 50 is provided with a fraction display switch 152. By pressing the fraction display switch 152, for example, information such as a card balance or an error code when an error occurs is displayed on an information display (not shown) provided in the pachinko gaming machine 1. In the figure, reference numeral 156 denotes a card unit lock, which is configured to open the front side of the card unit 50 by inserting a predetermined key into the card unit lock 156 and performing an unlocking operation.
[0027]
FIG. 2 is a diagram for explaining a game area 7 provided on the front surface of the game board 6 of the pachinko gaming machine 1.
[0028]
Near the center of the game area 7, a variable display device 8 having a special symbol display unit 9 and an accessory 77 that operates in accordance with the game effect is provided. The variable display device 8 is provided with an electric starter 15 for starting which constitutes a start winning opening 14 at the lower center portion thereof, and a passing gate 11 is provided on both sides thereof. Further, a variable winning ball apparatus 19 is attached below the start winning opening 14.
[0029]
In the special symbol display unit 9 of the variable display device 8, three special symbols of “left symbol”, “middle symbol”, and “right symbol” are variably displayed by scrolling from top to bottom. In this pachinko gaming machine 1, 12 symbols in total are displayed as special symbols, which are common to the left, middle, and right symbols, number symbols “1” to “9”, and alphabetic symbols “A” to “C”. The special symbol is variably started on the basis that the hit ball starts and wins the start winning opening 14. In addition, the special symbol display unit 9 displays various characters for enhancing the effect of the game. The special symbol may be any display as long as it is a plurality of types of identification information that can be identified. In this embodiment, numeric symbols and alphabetic symbols are adopted as special symbols. However, the present invention is not limited to this, and a special symbol may be configured from one type of symbols such as numeric symbols or alphabetic symbols. Good.
[0030]
The hit ball that has entered the passing gate 11 at the bottom of the variable display device 8 is detected by the gate switch 12 and then guided to the out port 26. When a hit ball is detected by the gate switch 12, the normal symbol stopped and displayed on the upper left side in the special symbol display unit 9 is variably started. When the display result is a predetermined specific display result (for example, “7”), the starter electric accessory 15 constituting the start winning opening 14 is obtained by exciting the solenoid 16. It is established for a predetermined time, and it becomes easy to make a hitting ball easily enter the start winning opening 14. If the hit ball passes through the passing gate 11 during the variable display of the special symbol display unit 9, the passage is stored in the hold memory, the variable display of the special symbol display unit 9 ends, and the fluctuation can be started again. After entering the state, the special symbol display unit 9 starts variably based on the reserved storage. The upper limit of the passage memory is set to “4”, for example, and the current number of passage memories is displayed by the passage memory display displayed on the upper right side in the special symbol display unit 9. The passing memory display is turned on by adding one lighting display each time the passing is stored. Each time the normal symbol variable display is started in the special symbol display unit 9, one lighting display is turned off.
[0031]
The start winning ball that has entered the start winning opening 14 is detected by the start opening switch 17. When a hitting ball is detected by the start port switch 17, the special symbol of the variable display device 8 is variably started. For example, if a hitting ball is detected by the start opening switch 17 during variable display of the special symbol, the start winning is stored in the buffer, and the variation of the special symbol is finished and the variation can be started again. After that, the special symbol variable display is started based on the start winning memory. The upper limit of the start winning memory is set to, for example, “4”, and the current number of reserved memories is displayed by a reserved memory display displayed in the special symbol display unit 9. Each time the start winning prize is stored in the buffer, the on-hold storage display is turned on by adding one lighting display. Each time the special symbol variable display is started in the special symbol display unit 9, one lighting display is turned off. In the present embodiment, a big hit determination or the like is made before variable display is started due to the start winning of a hit ball, and based on such a determination result, the display mode of the hold storage display is changed to make a hold notice. Similarly, in the passing memory display, it is possible to make a determination based on the passing through the passing gate of the hit ball, and to change the display mode based on the determination result to make a hold notice.
[0032]
Next, the scrolling of the special symbols on the middle left and right in the variable display device 8 is terminated, for example, in the order of the left symbol, the middle symbol, and the right symbol, and the final display result is derived and displayed. As a result, when the same type of symbols (for example, 111, 222, etc.) are stopped and displayed, it is a big hit. If a big hit occurs, the open / close plate 20 is tilted by the excitation of the solenoid 21 to open the big winning opening of the variable winning ball apparatus 19. As a result, the variable winning ball apparatus 19 is in a first state that is advantageous to the player. This first state ends when a predetermined period (for example, 30 seconds) or a predetermined number of hit balls (for example, 10) wins, whichever comes first, which is disadvantageous for the player. The second state is entered. The large winning opening is provided with a V count switch 22 for detecting a winning ball that has entered a specific area (V pocket) and a count switch 23 for detecting a winning ball that has won a normal area other than the specific area. When the hit ball that has entered the variable winning ball apparatus 19 in the first state wins a specific area (V pocket) and is detected by the V count switch 22, the first state of that time is finished. After that, the opening / closing plate 20 is opened again to be in the first state. The repeated continuation control in the first state can be executed up to 15 times, and the gaming state in which the repeated continuation control is executed is referred to as a specific gaming state (big hit state). The specific gaming state is determined using a random value extracted from a random counter (for example, whether or not it matches a predetermined value). As a result of the determination process, a predetermined predetermined determination result ( For example, if it is a result that matches a predetermined value, it means a gaming state in which a jackpot symbol (for example, a doublet such as “777”) is derived and displayed on the variable display device, and then transferred. In the repeated continuation control, the state where the variable winning ball apparatus 19 is in the first state is called a round. When the upper limit number of executions of the repeated continuation control is 16, the variable winning ball apparatus 19 can be set to the first state for 16 rounds from the first round to the 16th round.
[0033]
When the result of jackpot displayed on the variable display device 8 is composed of a predetermined probability variable symbol, the probability fluctuation state in which the probability of the jackpot occurrence is improved compared to the normal gaming state It becomes. In the following, jackpots with probability variation symbols are referred to as probability variation jackpots. A jackpot symbol other than the probability variation symbol is referred to as a non-probability variation symbol, and a jackpot of the non-probability variation symbol due to a doublet is referred to as a non-probability variation jackpot. When a probable big hit occurs, the probability variation state is controlled for a predetermined duration. In addition, when the probability variation jackpot occurs again within this period, the probability variation state again occurs after the end of the specific gaming state associated with the second probability variation jackpot.
[0034]
Therefore, if the number of consecutive probable big hits is not limited, it may be repeatedly controlled to the probability variation state for a very long time, and the player's gambling will be overwhelmed by the special gaming state. .
[0035]
Therefore, in this pachinko machine 1, an upper limit is set for the number of times that the probable big hit is continuously generated during the probability variation state in order to limit the continuous control of the probability variation state from being performed indefinitely. Then, when the big hit display mode is determined to be an uncertain change big hit based on the upper limit number of times, the continuous control of the probability variation state is forcibly terminated at that time. It is to be noted that the restriction that prohibits the big hit with the probability variation symbol is called a limiter operation.
[0036]
The game board 6 is provided with a plurality of winning openings 24. In addition, decorative lamps 25 that are lit and displayed during the game are provided around the left and right sides of the game area 7, and an outlet 26 for collecting hit balls that have not won a prize is provided at the bottom.
[0037]
Next, the structure of the back surface of the pachinko gaming machine 1 will be described. FIG. 3 is an overall rear view showing the internal structure of the pachinko gaming machine 1.
[0038]
A front frame 2b is provided on the back side of the pachinko gaming machine 1, and a mechanism plate 36 is provided in front of the front frame 2b. On the front frame 2b, a display control board 80 for performing display control of the special symbol display unit 9, a game control board 31 covered with a board case 32 and mounted with a game control microcomputer, and the pachinko ball payout control are performed. A payout control board 37 on which a payout control microcomputer and the like are mounted is installed. Further, a ball launching device 34 that launches a ball to the game area 7 using the rotational force of the motor, and a lamp control board 35 for sending signals to the speaker 27 and the game effect LEDs / lamps 28a, 28b, 28c are provided. It has been. On the other hand, a ball tank 38 is provided on the upper portion of the mechanism plate 36, and pachinko balls are supplied to the ball tank 38 from above in a state where the pachinko gaming machine 1 is installed on the gaming machine installation island. The pachinko balls in the ball tank 38 are supplied to the ball dispensing device through the guide rod 39.
[0039]
FIG. 4 is a block diagram illustrating an example of a circuit configuration in the game control board 31. FIG. 4 shows a game control board (also referred to as a main board) 31, a payout control board 37, a lamp control board 35, an audio control board 70, and a display control board 80 as control boards.
[0040]
The payout control board 37, the lamp control board 35, the sound control board 70, and the display control board 80 are equipped with a microcomputer, for example, a CPU (Central Processing Unit) and an I / O port.
[0041]
A ball payout device 97 and a card unit 50 are connected to the payout control board 37. Connected to the lamp control board 35 are the game effect LEDs 28a, 28b, 28c, the prize ball lamp 51, the ball break lamp 52, the accessory decoration lamp 76, and the decoration lamp 25. A speaker 27 is connected to the sound control board 70.
[0042]
The display control board 80 is connected to the variable display device 8 (not shown) and the lamp control board 35 and the voice control board 70 described above.
[0043]
The game control board 31 includes a basic circuit (game control microcomputer) 53 for controlling the pachinko gaming machine 1 in accordance with a game control program, a switch circuit 58, a solenoid circuit 59, an information output circuit 64, and an address decoding circuit. 67.
[0044]
The basic circuit 53 is a game control microcomputer, which includes a ROM (Read Only Memory) 54 for storing a game control program and the like, a RAM (Random Access Memory) 55 used as a work memory, and a control program. Therefore, the CPU 56 and the I / O port 57 that perform control operations are included. The basic circuit 53 repeatedly executes the game control program stored in the ROM 54 periodically (for example, every 2 msec) from the top. In the present embodiment, the RAM 55 stores random values extracted at the time of starting winning.
[0045]
The switch circuit 58 is a circuit that supplies signals from various switches to the basic circuit 53. The switch circuit 58 is connected to the gate switch 12, the start port switch 17, the V count switch 22, the count switch 23, the prize ball count switch 301A, and the like.
[0046]
The information output circuit 64, according to the data given from the basic circuit 53, probability variation information indicating that a probability variation has occurred and is in a probability variation state, and jackpot information indicating that a big hit has occurred and a specific gaming state has occurred. And a circuit for outputting start winning information indicating occurrence of the start winning used effectively for variable display of the special symbol display unit 9 to the host computer such as a hall management computer.
[0047]
The solenoid circuit 59 is a microcomputer for game control of the solenoid 16 for operating the movable piece of the starter electric accessory 15, the solenoid 21 for opening / closing the opening / closing plate 20 of the variable winning ball apparatus 19, and the solenoid 13 for operating the accessory character 77. The circuit is driven in accordance with a command from 53.
[0048]
Commands that are examples of command information are transmitted from the game control board 31 to the payout control board 37 and the display control board 80.
[0049]
The commands transmitted from the game control board 31 to the payout control board 37 include commands as command information related to prize ball payout control, and commands as command information related to ball payout control (for example, ball lending prohibition commands, balls Lending prohibition release command, etc.).
[0050]
The command transmitted from the game control board 31 to the display control board 80 is used as command information relating to the display of the variable display device 8, the lighting of the lamps of the game effect LEDs 28, and the control of effects such as game sounds generated from the speakers 27. Display control commands to be transmitted and determination result commands such as a miss command and a reach command that are set to be transmitted in a random number determination process to be described later with reference to FIG. 17 are transmitted. The display control board 80 controls the display of the special symbol display unit 9 in accordance with the transmitted display control command. The display control board 80 is provided with a display control microcomputer (not shown). This display control microcomputer has the same configuration as the above-described game control microcomputer 53, and a VDP (Video Display Processor) or the like for supplying an image display signal for generating an image to be displayed on the LCD display. It also includes components for image processing. The VDP periodically transmits an INT1 signal for requesting an address signal, a data signal, a control signal, and the like necessary for image generation. The display control board 80 analyzes the transmitted display control command, sets a lamp / sound control command, and outputs the command to the lamp / sound control board. This display control command is composed of two sets of 2-byte data of MODE data and EXT data each consisting of 1-byte data. The MODE data is data indicating a command type such as a change start command or a fixed symbol designation command, and the EXT data is data that specifically specifies a specific display control content among the command types indicated by the MODE data.
[0051]
The display control board 80 outputs a predetermined lamp control command to the lamp control board 35 based on a display control command and a determination result command described later. On the lamp control board 35, the lighting control of the electrical decorative component is performed based on the lamp control command.
[0052]
Further, the display control board 80 outputs a predetermined voice control command to the voice control board 70 based on the display control command and the determination result command. The sound control board 70 performs control to output a predetermined sound effect from the speaker 27 based on the sound control command.
[0053]
Based on the detection signal of the start port switch 17, the detection signal of the V count switch 22, and the detection signal of the count switch 23, the basic circuit 53 sends a prize ball signal for paying out a predetermined number of prize balls to the payout control board 37. Output. The payout control board 37 performs control for paying out a predetermined number of prize balls by controlling the ball payout device 97 based on the outputted prize ball signal.
[0054]
More specifically, for example, 15 prize balls are paid out for each winning ball for the winning ball that has won the big winning gate of the variable winning ball apparatus 19, and one for the winning ball that has won the starting winning port 14. For example, 6 prize balls are paid out for each winning ball, and for the other winning balls 24 awarded to the winning opening 24, for example, 10 prize balls are paid out for each winning ball.
[0055]
The award ball number signal sent from the game control board 31 to the payout control board 37 is received by a payout control microcomputer (not shown) provided on the payout control board 37. The payout control microcomputer controls the payout device 97 to drive out the number of prize balls specified by the prize ball number signal.
[0056]
FIG. 5 is a diagram for explaining various random counters used by the basic circuit 53 on the game control board 31 side for game control. FIG. 5 shows five types of random counters: a random counter R1, a random counter R2, a random counter R3, a random counter R4 (4-1, 4-2, 4-3), and a random counter R5.
[0057]
The random counter R1 is a big hit determination random counter used for determining at the time of starting winning whether or not the result of variable display of a special symbol based on the start memory is a big hit when there is a start memory. The random counter R1 is incremented by 1 for each timer interrupt (specifically, 2 msec), is added and updated from 0, and is added and updated up to the upper limit of 299, and then is added and updated again from 0.
[0058]
The random counter R2 is a random counter that is used to determine a stop symbol (the same stop symbol on the left, middle, and right) when the random counter R1 is determined to be a big hit at the time of starting winning. Whether or not to shift to the above-described probability variation state is determined depending on whether the extracted value in the random counter R2 is an odd number or an even number.
[0059]
The random counter R3 is used for determining at the time of starting winning whether or not the symbol variation effect when the random counter R1 is not determined to be a big win can be reached (for example, the left symbol and the middle symbol are the same symbol). It is a random counter. Therefore, when the extracted value of the random counter R3 is a predetermined value (for example, “11” or the like), the reach state is always generated in the stop symbol and symbol variation effect corresponding to the start memory. Reach refers to a condition in which the display result of a display area that has already been derived and displayed is a combination of specific display results when the display result has not yet been derived and displayed in some display areas of the plurality of display areas. A display state that satisfies the display state or a display state in which variable display is performed while a combination of specific display results is held in all of the plurality of display areas.
[0060]
When the random counter R4 (4-1, 4-2, 4-3) is determined to deviate the result of the variable symbol special display based on the extracted value of the random counter R1, the type of the off symbol This is a stop symbol determination random counter used to determine However, if the extracted value of the random counter R3 is a predetermined value, the middle symbol is changed to the same symbol as the left symbol, and the reach state is forcibly entered.
[0061]
The random counter R4-1 is for determining the left symbol. When the random counter R4-1 is added from 0 and is added up to 11 which is the upper limit thereof, it is added again from 0. The random counter R4-2 is a random counter for medium symbol determination. When the random counter R4-2 is added from 0 and is added up to 11 which is the upper limit thereof, it is added again from 0. The random counter R4-2 is incremented by one for every carry of the random counter R4-1. The random counter R4-3 is a random counter for determining the right symbol, is added from 0 and is added up to 11 which is the upper limit thereof, and is added again from 0. The random counter R4-3 is incremented by one for every carry of the random counter R4-2.
[0062]
The random counter R5 is a random counter for determining the type of display variation mode by the special symbol display unit 9. The random counter R5 is added and updated from 0 and updated up to the upper limit of 249, and then added and updated again from 0. . The random counter R5 is incremented by 1 every timer interrupt, that is, every 2 msec, and every interrupt processing surplus time.
[0063]
Although not shown, the display result of the normal symbol displayed on the display screen of the special symbol display unit 9 is also determined by the random counter. The random counter is incremented by 1 every 2 msec, for example, and counts up from 0, counts up to the upper limit of 10, and then counts up from 0 again. The count value of the random counter is used to randomly determine whether or not to generate a normal hit that occurs based on the display result of the normal symbol. When the gate passage is detected by the gate switch 12, the count value of the random counter is extracted accordingly. When gate passage is detected, it is determined whether or not the extracted random counter value matches the normal hit determination value (for example, “2”). Control is performed. When the normal hit is determined, the stop symbol corresponding to the normal hit is determined accordingly, and when the deviation is determined, the stop display result of the normal symbol is determined using other random counters. .
[0064]
FIG. 6 is a diagram for explaining a random counter for generating a random number for display control used for selection of a hold notice performed by the display control board 80. As a random number for display control, a random counter for notice determination R6 used for determining whether or not to give a notice, and a random counter for notice object determination R7 for deciding on-hold storage as a target (object) when the notice is given. And whether or not to promote the display to a display mode with a high probability of being a big hit and a high reliability when the hold notification is being executed, or There is provided a promotion determination random counter R9 that is used to determine whether or not to promote the display mode to the big hit determination.
[0065]
The count range of the random counter R6 for the advance notice determination, the random counter R7 for the advance notice determination, and the random counter R9 for the advancement determination is 0 to 9, and the count range of the random counter R8 for the hold advance notice is 0 to 99.
[0066]
The numerical value is sequentially updated within the count range by the random number generating means for generating the random number. Then, the numerical value being counted is extracted by the extracting means for extracting the random number generated by the random number generating means, and it is determined or determined by what range of the numerical value to be determined belongs to the extracted numerical value.
[0067]
FIG. 7 is an explanatory diagram showing an example of the contents of the display control command sent to the display control board 80. In the example shown in FIG. 7, only the display control command sent at the time of starting winning will be described, but there are other display control commands for designating a special symbol variation pattern in the special symbol display section 9 for variably displaying the special symbols. The description is omitted here.
[0068]
The command C3XX (H) is a determination result command that is transmitted when a start prize is generated. C300 (H) is a display control command for specifying a winning prize (outlier command), C301 (H) is a display control command for specifying a winning prize (reach command), and C302 (H) is a display for specifying a non-specific big hit winning prize. This is a control command (non-probable variable jackpot command), and C303 (H) is a display control command (probable variable jackpot command) for specifying a specific big hit prize. When the display control board 80 receives the above-described display control command from the game control board 31, the display control board 80 makes a decision or determination regarding the hold notice according to the contents shown in FIG.
[0069]
FIG. 8 is a diagram for explaining the notice determination table. The notice determination table corresponds to each of the determination result commands that are determined when the execution condition is established (hereinafter referred to as advance determination) and transmitted as to whether or not the hitting ball wins the start winning opening 14 or not. Is set. For example, if the determination result command transmitted from the game control board 31 is a “out-of-order command”, refer to the RS1 table in FIG. When the random number extracted from R6 is “0-8”, the notice flag is turned off, and when it is “9”, the notice flag is turned on. If the determination result command transmitted from the game control board 31 is a “reach command”, refer to the RS2 table of FIG. When the random number extracted from R6 is “0-6”, the notice flag is turned off, and when it is “7-9”, the notice flag is turned on.
[0070]
Further, when the determination result command transmitted from the game control board 31 is a “non-probability change jackpot command” or “probability change jackpot command”, the RS3 table or the RS4 table in FIG. The notice flag is turned off or on depending on which random number extracted from the random counter R6 belongs to according to a preset distribution rate.
[0071]
Although the notice determination table has been described above, the reliability that becomes a big hit when the notice effect is executed can be adjusted by the distribution ratio of the table. That is, when the ratio of the notification flag ON of the RS3 or RS4 used when the non-probability variable jackpot command and the probabilistic jackpot command are transmitted is a big hit, the loss command and the reach command are not transmitted. By reducing the ratio of the RS1 or RS2 notification flag that is used, the ratio of the big hit when the notification effect is executed can be increased and the reliability can be increased. Therefore, in this embodiment, not only the distribution rate mentioned above but what kind of distribution rate may be sufficient.
[0072]
FIG. 9 is a diagram for explaining the notice target determination table. The advance notice target determination table corresponds to the hold stored in order to select the execution count number of the advance notice corresponding to the hold memory number command transmitted when the hit ball wins the start winning opening 14. The distribution rate is set. For example, if the reserved memory number command transmitted from the game control board 31 is “4”, refer to the RS5 table in FIG. When the random number extracted from the counter R7 is “0 to 2”, “4” is set as the execution count value, and when “3 to 6”, “3” is set as the execution count value and “7 to 8”. In this case, “2” is set as the execution count value, and “1” is set as the execution count value when “9”. Further, when the reserved memory number command transmitted from the game control board 31 is “3”, the RS6 table in FIG. 9 is referred to, and the randomness for determining the notice target is determined according to the preset distribution rate. When the random number extracted from the counter R7 is “0 to 2”, “3” is set as the execution count value, and when “3 to 7”, “2” is set as the execution count value and “8 to 9”. In this case, “1” is set as the execution count value.
[0073]
Further, when the pending storage number command transmitted from the game control board 31 is “2”, the random number extracted from the notice target determination random counter R7 is also “0” with reference to the RS7 table of FIG. When it is ˜2 ”,“ 2 ”is set as the execution count value, and when it is“ 3-9 ”,“ 1 ”is set as the execution count value. In the present embodiment, when the pending storage number command transmitted from the game control board 31 is “1”, a table for determining the notice target is not provided. This is because the hold storage in which the notice flag is turned on in the notice determination described above is necessarily the object of the notice.
[0074]
As described above, the notice target determination table has been described. The ratio of the reserved memory to which the notice target when the notice effect is executed is the reserved memory in which the notice flag is turned on in the notice determination is determined based on the distribution ratio of the table. Can be adjusted. In other words, it is possible to adjust the proportion of the reserved memory that is the target of the notice effect is the true reserved memory that has executed the notice effect. Specifically, when the random number extracted from the notice target determination random counter R7 is “0 to 4”, “4” is set as the execution count value and the distribution ratio of the RS5 table is “5 to 9”. When “2” is set as the execution count value, the reserved memory to be notified when the notice effect is executed is the true reserved memory at the rate of 50%, and 50% That is, it is the reserved memory two times after the reserved memory. Therefore, in this embodiment, not only the distribution rate mentioned above but what kind of distribution rate may be sufficient.
[0075]
In the present embodiment, the ratio of the hold memory that is the target of the notice when the notice effect is executed is the hold memory in which the notice flag is turned on in the notice determination, and the extracted value is whatever the number of the reserved memories. When “0-2”, that is, the distribution ratio of the table is set so as to be a ratio of 3/10. As a result, when the notice flag is set when the number of reserved memories is large, on the contrary, the reserved memory is set so that the probability that a notice is performed targeting the reserved memory for which the notice flag is set is increased. When the notice flag is set when the number is small, it is possible to increase the probability that the notice will be made to the target with the reserved memory stored before the reserved memory for setting the notice flag. .
[0076]
FIG. 10 is a diagram for explaining the hold notice determination table. The hold notice determination table is used to determine whether or not the hold notice is to be executed in any display mode when the notice flag is turned on by determination with reference to the notice determination table. A distribution rate is set corresponding to each. For example, if the determination result command transmitted from the game control board 31 is “out-of-order command”, refer to the RS8 table of FIG. When the random number extracted from the counter R8 is “0 to 94”, “0” is turned on as an aspect flag, and when it is “95 to 99”, “1” is turned on as an aspect flag. If the determination result command transmitted from the game control board 31 is a “reach command”, refer to the RS9 table in FIG. When the random number extracted from the counter R8 is “0-69”, “0” is turned on as a mode flag, “1” is turned on as a mode flag when “70-94”, and “95-99”. “2” is turned on as the mode flag.
[0077]
Further, when the determination result command transmitted from the game control board 31 is a “non-probable change jackpot command” or “probability change jackpot command”, similarly, with reference to the RS10 table or the RS11 table of FIG. The mode flag to which the random number extracted from the random counter R8 belongs is turned on according to the preset distribution rate.
[0078]
The hold notice determination table has been described above, but the possibility and reliability of a big hit can be adjusted according to the display mode when the hold notice is executed, based on the distribution ratio of the table. That is, in this embodiment, for example, the rate at which “2” is turned on as the mode flag is extremely high in RS10 and RS11 that are used when the non-probable big hit command and the probable big hit command are transmitted big hits, and vice versa. In addition, RS8 and RS9, which are used when a loss command and a reach command are transmitted, are set to be extremely low. On the contrary, the rate at which “0” is turned on as the mode flag is deviated so as to be extremely low in RS10 and RS11 that are used when the non-probable big hit command and the probable big hit command have been transmitted. RS8 and RS9 used when the command and reach command are transmitted are set to be extremely high. Accordingly, the hold notice is executed by the display mode corresponding to the mode flag “2”, rather than the possibility / reliability when the hold notice is executed by the display mode corresponding to the mode flag “0”. It is possible to increase the possibility and reliability of a big hit sometimes. In the present embodiment, the distribution ratio is set such that the possibility / reliability is the lowest when the hold notice is executed according to the display mode corresponding to the mode flag “0”, and from “0” to “ As the value becomes “1” and “2”, the possibility and reliability increase gradually, and when the hold notice is executed according to the display mode corresponding to the mode flag “3”, the jackpot The distribution ratio is set to maximize the possibility and reliability.
[0079]
In this embodiment, the example in which the notice determination is performed using the notice determination table in FIG. 8 and the display mode of the reservation notice is determined using the reservation notice determination table in FIG. 10 has been described. However, the present invention is not limited to this, and a table in which the distribution ratios are collected may be used. That is, a plurality of display modes relating to execution of the hold notice are defined, and storage means for determining whether or not to hold the hold notice is stored. In one display mode and another display mode, at least one of a ratio selected when a determination is made that a big hit is made and a ratio selected when a determination is made that a big hit is not made A table in which data is stored so that the ratio is different may be used. Further, the display mode of the pending notice may be determined based on the execution count value set using the notice target determination table and the determination result command.
[0080]
FIG. 11 is a diagram for explaining the promotion determination table. The promotion determination table has a possibility that the display mode of the hold notice becomes a big hit every time the variable display change is started when the hold notice is continuously performed over a plurality of variable display changes. It is used to determine whether or not to change to a high display mode, and is set corresponding to each determination result command. For example, when the notice flag is set to “ON” by the “off command”, the random number extracted from the promotion determination random counter R9 is referred to the RS12 table of FIG. 11 according to the preset distribution rate. When "0-6", the promotion flag is turned off, and when "7-9", the promotion flag is turned on. When the advance flag is turned on by the “reach command”, the random number extracted from the promotion determination random counter R9 according to the pre-assigned distribution rate with reference to the RS13 table of FIG. When “0” is “0-4”, the promotion flag is turned off, and when “5” is “5-9”, the promotion flag is turned on.
[0081]
Further, when the notice flag is turned “ON” by the “non-probable variation jackpot command” or “probability variation jackpot command”, the RS14 table or the RS15 table in FIG. 11 is referred to and extracted from the promotion determination random counter R9. The promotion flag is turned off or on depending on which of the assigned random numbers belongs to a preset distribution rate.
[0082]
The promotion determination table has been described above, but the promotion ratio of the promotion determination table in this embodiment is the promotion of RS14 or RS15 used when the non-probability variable jackpot command and the probability variable jackpot command are the big hits transmitted. The flag turn-on rate is increased, and the rate at which the promotion flag of RS12 or RS13 used when the loss command and reach command are transmitted is reduced, and the rate at which the promotion flag is turned on is reduced, so that it is executed when it is a big hit Since there is a high possibility that the display mode of the hold notice will be promoted, when the display form of the hold notice is promoted, it is possible to indirectly notify the player that there is a high possibility that it will be a big hit, and for a long time Since the player can have a sense of expectation, the interest of the game can be improved.
[0083]
FIGS. 12 to 13 are diagrams for explaining display modes of the hold storage display 10 when the hold notice is executed in the special symbol display unit 9. This display mode corresponds to each of the mode flag “0” to the mode flag “3” described above with reference to FIG. 10, and the hold notice is executed according to the display mode described below by the set mode flag. The As described above, the special symbol display unit 9 displays the left middle right special symbol display and the display mode of the hold storage display 10. In addition, when the on-hold storage displays 10a, 10b, 10c, and 10d are lit (in the painted state), it is informed that four on-hold memories are stored, and the variable symbol special display is digested. Each time, a display process is performed to turn off the light from the on-hold storage display 10d (in the white state).
[0084]
FIG. 12 is a diagram for explaining a hold notice for changing the display mode of the hold storage display for each variable display.
[0085]
In FIG. 12A, while three special symbols of the left middle right symbol are variably displayed from top to bottom, four hits are stored in the start winning opening 14 and four stored memories are variably displayed. Shows the display screen when is finished. FIG. 12B shows a display screen when variable display is started for the hold memory stored first among the hold memories.
[0086]
In FIG. 12 (c), while the variable display described in FIG. 12 (b) is being performed, it is determined that the hit ball has won the start winning opening 14 and a notice is given, and the execution count value is “3”. Is set, “0” is set as the mode flag, and the display screen when the variable display ends is shown. In the present embodiment, the display mode of the hold storage display can be displayed in the notice display mode even during variable display. That is, the advance notice can be made by displaying the display form of the hold storage display 10c in the display form to which the “?” Mark is added. In addition, since the reserved memory 10c stored before the reserved memory 10d that has been determined to give a notice can be the target of the notice, the notice effect can be given unexpectedness and the interest of the game can be improved. Can do.
[0087]
FIG. 12D shows a display screen when the variable display when it is determined that the advance notice is made ends and the hold storage display 10 is subtracted by “1”. In the present embodiment, when the number of reserved memories decreases, it is possible to change the display mode of the variable display of the reserved memory display that is the target of the notice. That is, when the hold storage display 10c in FIG. 12C is slid to the display position of the hold storage display 10b, the display mode to which the “?” Mark is added is changed to the display mode to which the “re” mark is added. And hold notice. This is because it is determined to be promoted and a process of changing the mode flag from “0” to “1” is performed.
[0088]
FIG. 12E shows a stop display screen in which the variable display of FIG. 12D is finished and the stop symbol is fixed. At this time, since the number of reserved memories has not decreased and the display position of the reserved memory display has not been slid, the display mode of the reserved memory 10b is displayed in a display mode with a “re” mark added. ing.
[0089]
FIG. 12 (f) shows a display screen when the hold storage display 10 is further subtracted by “1”. When the hold storage display 10b of FIGS. 12D and 12E is slid to the display position of the hold storage display 10a, the display mode to which the “re” mark is added is added with the “S” mark. The display mode is changed and a preliminary announcement is made. This is because it is determined to be promoted and a process of changing the mode flag from “1” to “2” is performed.
[0090]
FIG. 12G shows a stop display screen in which the variable display of FIG. At this time, since the number of reserved memories has not decreased and the display position of the reserved memory display has not been slid, the display mode of the reserved memory 10a is displayed in the display mode with the “S” mark added. ing.
[0091]
FIG. 12 (h) shows a display screen when the hold storage display 10 is further subtracted by “1”. The variable display screen when it is made to slide to the display position of the storage storage display 10a of FIG.12 (f) and FIG.12 (g) is represented. That is, the variable display screen corresponding to the hold storage display 10a of FIG. 12 (f) and FIG.
[0092]
FIG. 12 (i) shows a display screen in which the special symbol display result in the variable display that is the target of the advance notice is a loss of “185” and no big hit has occurred. That is, in the hold storage display 10a of FIG. 12 (f) and FIG. 12 (g), the hold notice is performed in the display form of “S” corresponding to the setting of “2” as the form flag. The gap is displayed by the variable display corresponding to.
[0093]
FIG. 12 (j) shows a display screen when the hold storage display 10 is further subtracted by “1”. FIG. 12 (k) shows a display screen in which a special symbol display result is “7” in the variable display after the variable display that is the target of the notice described in FIG. Is shown. That is, the big hit is generated by the variable display corresponding to the hold storage display 10d to which the “?” Mark is added to the display mode of the hold storage display 10c in FIG.
[0094]
As described above, every time a hitting ball wins the start winning opening 14, it is determined that a notice is given. The display mode of the display is determined. Further, it is determined to be promoted for each variable display, and “1” and “2” where the degree of expectation / reliability that becomes a big hit is increased from “0” that has a relatively low degree of expectation / reliability for the mode flag. It has been changed gradually. Then, every time the mode flag is changed, the hold storage display is performed according to the display mode corresponding to the mode flag, and the display mode is changed from “?” To “Li” and “S” to give a hold notice. Note that the stepwise change means, for example, that the display mode in which the reliability that is a big hit is 20% is changed to the display mode in which the reliability that is a big hit is 40%, and further, the reliability that is a big hit is 80%. The reliability is changed step by step so that the display mode is changed. The pattern for changing the display mode of the hold notice is not limited to the one that changes stepwise as described above, but the form flag is changed from “0” to “2” or “3”, and the display of the hold notice is displayed. The mode is changed from “?” To “S” or “Hit”, and the display mode is changed from the display mode of 20% to the big hit reliability to the display mode of 80% or more of the reliability of the big hit at once. As described above, the reliability may be changed steplessly.
[0095]
In the present embodiment, it is not determined whether or not the advance notice is performed until the variable display that is the target of the advance notice ends and the stop symbol is determined. Specifically, during the variable display of FIG. 12 (f), there is a hitting winning and the hold memory display 10c is lit up to indicate that the number of hold memories has increased, but a notice is given to the hold memory display 10c. Since it is not determined whether or not to perform the reservation, the holding notice is not performed. That is, as shown in FIG. 12 (a), after the hold notice is made by the hold memory display, the hold display is held by another hold memory display until the variable display of the hold memory as the target of the notice is finished and the stop symbol is fixed. No notice is given. As a result, it is not necessary to perform a process for determining whether or not to make a notice when a hold notice is being made, and the processing burden can be reduced.
[0096]
FIG. 13 is a diagram for explaining a hold notice for changing the display mode of the hold memory display.
[0097]
In FIG. 13A, while three special symbols of the left middle right symbol are variably displayed from the top to the bottom, the hitting ball wins the start winning opening 14 and four holding memories are stored, and the variable display is performed. Shows the display screen when is finished. FIG. 13B shows a display screen when variable display is started with respect to the hold memory stored first among the hold memories.
[0098]
In FIG. 13C, while the variable display described in FIG. 13B is being performed, it is determined that the hit ball wins the start winning opening 14 and a notice is given, and the execution count value is “3”. Is displayed, and the display screen when the mode flag “2” is selected and set is shown. In the present embodiment, the display mode of the on-hold storage display can be displayed in the notice display mode even during variable display, so the display mode of the on-hold storage display 10c is displayed with the “S” mark added. A hold notice can be made by displaying the above. In addition, since the reserved memory 10c stored before the reserved memory 10d that has been determined to give a notice can be the target of the notice, the notice effect can be given unexpectedness and the interest of the game can be improved. Can do.
[0099]
FIG. 13D shows a display screen when the variable display when it is determined that the advance notice is made ends and the hold storage display 10 is subtracted by “1”. In the present embodiment, when the number of reserved memories decreases, it is possible to change the display mode of the variable display of the reserved memory display that is the target of the advance notice, so the reserved memory display 10c of FIG. When the display 10b is slid to the display position, the display mode to which the “S” mark is added can be changed to the display mode to which the “present” mark is added, and a holding notice can be made. However, since the determination to promote was not made, the process of changing the mode flag from “2” to “3” is not performed, “2” is reset as the mode flag, and the display mode with the “S” mark added again. The hold notice is made by.
[0100]
FIG. 13 (e) shows a stop display screen in which the variable display of FIG. 13 (e) is finished and the stop symbol is fixed. At this time, since the number of reserved memories has not decreased and the display position of the reserved memory display has not been slid, the display mode of the reserved memory 10b is displayed in the display mode with the “S” mark added. ing.
[0101]
FIG. 13F shows a display screen when the hold storage display 10 is further subtracted by “1”. When the hold storage display 10b of FIG. 13 (d) and FIG. 13 (e) is slid to the display position of the hold storage display 10a, the display mode to which the “S” mark is added is added with the “present” mark. The display mode is changed and a preliminary announcement is made. This is because it is determined to be promoted and a process of changing the mode flag from “2” to “3” is performed.
[0102]
FIG. 13 (g) shows a stop display screen in which the variable display of FIG. 13 (f) is finished and the stop symbol is fixed. At this time, since the number of reserved memories has not decreased and the display position of the reserved memory display has not been slid, the display mode of the reserved memory 10a is displayed in a display mode to which “this” mark is added. ing.
[0103]
FIG. 13 (h) shows a display screen when the hold storage display 10 is further subtracted by “1”. 13 shows a variable display screen when sliding to the display position of the hold storage display 10a in FIGS. 13 (f) and 13 (g). That is, the variable display screen corresponding to the hold storage display 10a of FIG. 13 (f) and FIG.
[0104]
FIG. 13 (i) shows a display screen in which the special symbol display result in the variable display that is the target of the advance notice is “185”, and no big hit has occurred. That is, in the hold storage display 10a of FIG. 13 (f) and FIG. 13 (g), the hold notice is performed in the display mode of “O” corresponding to the setting of “3” as the form flag. The gap is displayed by the variable display corresponding to.
[0105]
FIG. 13 (j) shows a display screen when the hold storage display 10 is further subtracted by “1”. FIG. 13 (k) shows a display screen in which a special symbol display result is “7” in the variable display after the variable display that is the target of the notice described in FIG. Is shown. That is, the big hit is generated by the variable display corresponding to the hold storage display 10d to which the “re” mark is added to the display mode of the hold storage display 10c in FIG.
[0106]
As described above, when the promotion determination is made for each variable display and the determination to promote is not made, the previous aspect flag is set again, and when the determination to promote is made, the aspect flag is set Is changed from “2”, which is not the highest expectation / reliability to be a big hit, to “3”, which is the highest expectation / reliability to be a big hit. Each time the mode flag is changed, a hold storage display is performed in accordance with the display mode corresponding to the mode flag, and the display mode is changed from “S” to “NO” to give a hold notice.
[0107]
In the present embodiment, “?”, “Li”, “S”, and “S”, which can cause the player to predict the degree of expectation / reliability that will be a big hit, as display modes corresponding to the mode flags. “This” is adopted. For example, “?” Gives a player the impression that he / she does not know anything about whether it will be a big hit or a reach, so that he / she can have little expectation. “Re” gives players the impression that they may become reach, while enjoying the reach production and giving them a little expectation for the big hit. “S” gives the player the impression that he / she may become a super reach performed when the probability of winning a big hit is high, and can further increase the expectation for the big hit. “This” has the highest probability of winning and reliability, and can please the player, and whether or not it will be a big hit that shifts the player to the probability fluctuation state during the announcement performance. You can have a sense of expectation. As described above, the display mode and the number of display modes corresponding to the mode flag may be any number of display modes and display modes that allow the player to have different expectations, and are limited to the display modes and the number of display modes described above. It is not a thing. For example, “push” corresponding to the mode flag “3” is set as the display mode of the pending storage display that has a high probability of winning / reliability, but the display mode of the pending storage display that is 100% jackpot is as follows: It is possible to provide a “probability” corresponding to the mode flag “4” so as to be selected only when a probability variation jackpot command is received, and to predict the probability variation jackpot. It is possible to provide the player with a more varied reservation notice effect.
[0108]
FIG. 14 is a flowchart showing game control main processing and interrupt processing executed by the basic circuit 53. In FIG. 14, (a) shows the game control main process, and (b) shows the timer interrupt process. This interrupt process is executed once every 2 msec, for example.
[0109]
In the game control main process, an initialization process is first performed in step S (hereinafter simply referred to as S) 01. In the initialization process, it is determined whether an error is included in the RAM 55. If an error is included, the RAM 55 is initialized and various flags are initialized. Further, in the initialization process, a process of setting a timer interruption time (for example, 2 msec) that defines timing for executing an interruption process, which will be described later, to the CPU 56 is performed. As a result, the time measurement for defining the timing at which the first interrupt process is executed after the reset due to power-on or the like is started. In the initialization process, various timers are set and a process of outputting a sub-board initialization command for the display control board 80 or the like is performed.
[0110]
Next, a random number update process for determining a fixed symbol (scheduled stop symbol) is performed in S02. In the pachinko gaming machine 1, the fixed symbol of the special symbol in the variable display of the variable display device 8 is determined based on random numbers (count values of the random counters R3, R4, and R5). In S02, display random numbers (count values of random counters R3, R4, and R5) for determining a stop symbol are updated. Usually, the infinite loop only for update processed in S02 is repeatedly executed. If a timer interrupt occurs during this time, the timer interrupt process shown in FIG. 14B is executed. After the timer interrupt process of FIG. 14B is executed, the step of S02 is again executed in an infinite loop.
[0111]
In S03, the state of the gate switch 12, the start port switch 17, the V count switch 22, the count switch 23, etc. is input, and a switch process is performed to determine whether or not each winning port or variable winning ball device has been won. . When a start winning is detected by the start port switch 17, a start storage process is executed in this switch process. Specifically, when a start winning is detected by the start port switch 17, the count value is extracted from the random counter R1 for jackpot determination at that timing, and the extracted value is stored in the special symbol determination bank for start memory. Is done. As a result, the start memory is stored. The special symbol determination bank for starting memory is composed of four locations of bank 0 to bank 3, and a maximum of four starting memories can be made by these four banks. Therefore, when a start winning is detected and there is a memory in all the banks, the start winning is invalidated.
[0112]
Next, error processing is performed in S04. This error process is a process in which various abnormality diagnosis is performed by a self-diagnosis function provided in the pachinko gaming machine 1, and an alarm is generated if necessary according to the result.
[0113]
Next, it progresses to S05 and a random number update process is made. This is a process of updating each random counter indicating various determination random numbers used for game control. Specifically, this is a counter updating process for the random counters R1 and R2. Accordingly, the counters of the random counters R1 and R2 are updated by 1 every 2 ms.
[0114]
Next, the process proceeds to S06, and display symbol random number update processing is performed. This process is the same process as S03, and specifically, the process of updating the random counters R3, R4, and R5 is performed.
[0115]
Next, the process proceeds to S07, and a special symbol process is performed. In this special symbol process, one of a plurality of types of processing is selected and executed according to the value of the special symbol process flag after the winning determination process is performed. The value of the special symbol process flag is updated during each process according to the gaming state. Next, the normal symbol process is performed in S08. In the normal symbol process, the corresponding process is selected and executed according to the normal symbol process flag for controlling the normal symbols displayed in the special symbol display unit 9 in a predetermined order. The value of the normal symbol process flag is updated during each process according to the gaming state.
[0116]
In step S09, special symbol command processing is executed. This special symbol command processing is processing in which the basic circuit 53 transmits the above-described special symbol display command data to the display control board 80. Next, the process proceeds to S10, where normal symbol command processing is executed. This normal symbol command process is a process in which the basic circuit 53 transmits command data for display control of the normal symbol displayed in the special symbol display unit 9 to the display control board 80.
[0117]
Next, it progresses to S11 and an information output process is made. This information output process is a process for outputting the above-described probability variation information, jackpot information, and starting information via the information output circuit 64 to the outside. Next, it progresses to S12 and a solenoid output process is made. This solenoid output process is a process for outputting a control signal for controlling the excitation of the solenoids 13, 16, and 21 to the solenoid circuit 59. Next, it progresses to S13 and a prize ball process is made. This prize ball process is a process for the basic circuit 53 to send a prize ball number signal and a prize ball possible signal to the payout control board 37 to issue a prize ball payout command.
[0118]
Next, it progresses to S14 and a pending | holding memory | storage process is made. This hold memory processing is a hold memory that can specify the number of hold memories when the number of hold memories changes, for example, when there is a start prize and the hold memory increases or when the change starts and the hold memory decreases. A process for transmitting the storage number command is performed. For example, when there is a start prize for satisfying the variable display execution condition and the holding memory increases, the holding memory display corresponding to the holding memory number can be displayed on the variable display device 8 so that the holding memory display corresponding to the holding memory number can be displayed. A number command is transmitted, and a determination result command indicating the determination result set in the winning determination process in which determination is performed at the time of starting winning is transmitted. That is, when there is a start winning prize, a determination result command is transmitted in connection with transmission of a pending storage number command. As a result, only the pending storage number command can be received, the judgment result command cannot be received, and the inconvenience of missing the command can be prevented in advance, and the deviation of the number of times that the pending notice is executed can be prevented. it can. On the contrary, when the change that establishes the variable display start condition is started and the hold memory decreases, the hold memory display corresponding to the hold memory number can be displayed on the variable display device 8 so as to correspond to the hold memory number. Processing for transmitting the pending storage number command is performed.
[0119]
In S15, a test signal output process is performed. In this test signal output process, a test is performed as to whether a normal command corresponding to the gaming state is being output. For example, at the time of big hit, a test is performed to determine whether a command corresponding to the big hit is being output. As control after S15, a process of repeating the infinite loop of S02 is performed.
[0120]
FIG. 15 is a flowchart showing a subroutine program for the special symbol process shown in S07 of FIG. This special symbol process is controlled so that one of the ten types of processing (SA02 to SA11) is executed according to the value of the special symbol process flag after the winning determination process of SA01 is executed. Is done. In SA01 to SA11, the following processing is executed.
[0121]
In SA01, winning determination processing is performed. When a hitting ball enters the start winning opening 14 (in this embodiment, the winning opening of the variable winning ball apparatus 15) and the start opening switch 17 is turned on, various random number determination processes are performed, and the extracted random numbers A process of storing in the random number storage area is performed.
[0122]
In SA02, special symbol variation waiting processing is performed. It is determined whether or not there is a start prize (whether or not there is a start memory). If there is no start prize, command information for setting the display state on the special symbol display unit 9 to a standby state for waiting for a customer is provided. This is a process for setting and allowing the special symbol process flag to be transferred to the special symbol determination process when there is a start winning.
[0123]
In SA03, special symbol determination processing is performed. When the special symbol variable display can be started, the number of reserved memories is confirmed. If the number of reserved memories is not 0, whether to win or not is determined according to the value of the random number for jackpot determination extracted using the random counter R1.
[0124]
In SA04, a stop symbol setting process is performed. The stop symbol of the left middle right symbol is determined according to the value of the random symbol for determining the loss symbol extracted using the random counter R4.
[0125]
In SA05, a variation pattern setting process is performed. The variation pattern table is looked up, and the variation pattern is determined according to the value of the variation pattern determination random number extracted using the random counter R5.
[0126]
In SA06, all symbol variation start processing is performed. The special symbol display unit 9 performs control so that all symbols start to fluctuate. At this time, a variation pattern command and three stop symbol commands of left, middle, and right that respectively command a left middle right scheduled stop symbol (final stop symbol) are transmitted to the display control board 80 as display control commands. .
[0127]
In SA07, all symbol stop waiting processing is performed. When a predetermined time has elapsed, control is performed so that all symbols displayed on the special symbol display unit 9 are stopped. Further, control is performed so that the left middle symbol is stopped at a predetermined timing until all symbols stop.
[0128]
In SA08, a big hit display process is performed. If the extracted value based on the random counter R1 is a value that causes a big hit state, control is performed so that a display control command corresponding to the value extracted by the random 2 is transmitted to the display control board 80 and the internal state (Process flag) is updated to shift to Step SA09. If not, the internal state is updated to shift to step SA02. Further, the display control microcomputer of the display control board 80 performs a big hit display on the special symbol display unit 9 according to the data of the display control command. The jackpot display is a process performed to notify the player of the occurrence of a jackpot.
[0129]
In SA09, the big hit middle round display process is performed. The control for displaying the big hit round on the special symbol display unit 9 is started.
[0130]
In SA10, V display processing is performed while the special winning opening is open. Control for transmitting display control command data for the big hit and middle round display to the display control board 80 is performed. If the closing condition for the big prize opening is satisfied and the continuation condition for the big hit gaming state is satisfied, the internal state is updated to shift to SA09. If the end condition for the big hit gaming state is satisfied, the internal state is updated to shift to SA11.
[0131]
In SA11, a big hit end display process is performed. A display for notifying the player that the big hit gaming state has ended is performed. When this display is completed, the internal flag or the like is returned to the initial state, and the internal state is updated to shift to SA02.
[0132]
As described above, when a hitting ball is won in the start winning opening 14, the game control board 31 determines whether or not it will be a big hit or not in order to set a determination result command in the special symbol process, reach The determination result command and the INT signal corresponding to the determination are output to the display control board 80. The display control microcomputer on the display control board 80 side determines whether or not to make a hold notice based on the determination result command from the game control board 31 and in what manner the hold notice is given.
[0133]
FIG. 16 is a flowchart showing a subroutine program of the SA01 winning determination process performed every 2 ms described in the special symbol process of FIG.
[0134]
First, in SB01, it is determined whether or not there is a start prize. When there is no start winning, the winning time determination process is terminated, and when there is a start winning, the process proceeds to SB02, and it is determined whether or not the number of reserved memories is “4”. When the number of reserved memories is “4”, the winning determination process is terminated, and when the number of reserved memories is not “4”, the process proceeds to SB03 and a process of adding “1” to the number of reserved memories is performed. .
[0135]
Next, in SB04, processing for extracting the counter values of the random counters R1, R2, R3, R4, and R5 described above is performed. In SB05, a random number determination process is performed. Here, as will be described later, commands are set based on various random counter values. In SB06, a process of storing the counter value extracted in SB04 in the corresponding random number storage area is performed. In the present embodiment, the RAM 55 described above is provided as the random number storage area.
[0136]
FIG. 17 is a flowchart showing a subroutine program of the random number determination process of SB05 described in the winning determination process of FIG.
[0137]
First, in SC01, it is determined whether or not the count value extracted using the random counter R1 is “7”, which is a big hit. When the count value is “7”, the process proceeds to SC02, and it is determined whether or not the extracted count value is “odd” that is a probability variation big hit using the random counter R2, and the process proceeds to SC03 / SC04. If it is “odd”, the probability variation jackpot command is set for transmission, and if it is not “odd”, the non-probability variation jackpot command is set for transmission, and the random number determination process is terminated.
[0138]
If it is determined in SC01 that the game is not a big hit, the process proceeds to SC05, and it is determined whether or not the flag indicating that the current gaming state is changing in probability is ON. If the probability is changing, the process proceeds to SC06, and it is determined whether or not the extracted value is “7, 17, 41, 57, 107” using the random counter R1. If there is, the process proceeds to SC02 and the processing described above is performed. If not, the process proceeds to SC07, and it is determined whether or not the count value extracted using the random counter R3 is the count value “11” that can reach the reach state. If it is “11”, the reach command is set to be transmitted in SC08, and if it is not “11”, the slip command is set to be transmitted in SC09 and the random number determination process is terminated.
[0139]
It should be noted that the determination result command set in the random number determination process is the display control of the reserved memory number command and the determination result command from the game control board 31 at the start winning in the hold storage process described using S14 in FIG. It is transmitted to the substrate 80. As a result, the determination result command and the like are transmitted independently of the process of transmitting the variation pattern command and the fixed symbol (stop symbol) command from the game control board 31 to the display control board 80 in the special symbol command process. The processing burden on the substrate 31 can be distributed.
[0140]
18A is a flowchart showing the display control main process, and FIG. 18B is a flowchart for explaining the timer interrupt process. In the display control main process, an initialization process is performed in SD01. In this initialization process, all stored contents stored in the RAM are erased, and initial values (for example, “0”) of each parameter are newly set. Next, in SD02, random number update processing is performed. In this random number update process, the random numbers for the advance notice determination random counter R6, the advance notice determination random counter R7, the hold advance notice determination random counter R8, and the promotion determination random counter R9 are updated.
[0141]
Next, in SD03, it is determined whether or not a timer interrupt flag is set. If the timer interrupt flag is not set, the process returns to SD02 and further updates the random number. If the timer interrupt flag is set, the process proceeds to SD04, and after clearing the timer interrupt flag, the command analysis process is performed in SD05. Do. In the command analysis processing of SD05, the command transmitted from the game control board 31 is received, the command is analyzed, and the symbol for displaying on the variable display device 8 is set, or the reserved memory Is displayed.
[0142]
Next, in SD06, display control process processing is performed. In this display control process, processing such as change start command reception waiting processing for displaying on the variable display device 8, variable display operation setting processing, symbol variation processing, all symbol stop waiting processing, and jackpot display processing are performed. . In SD07, sound / lamp control command processing is performed. In this sound / lamp control command processing, a sound control command related to the generation of a game sound and a lamp control command related to a lighting pattern such as a decoration lamp are associated with the variation pattern command transmitted from the game control board 31 and the pending notice to be executed. Transmission is performed to the sound control board 70 and the lamp control board 35, respectively. As a result, when execution of the hold notice is determined, a control command for executing the generation of the game sound and the lighting of the lamp can be transmitted in synchronization with the hold notice. It is possible to prevent inconvenience that the game sound and the lighting of the lamps are shifted from each other. In FIG. 18B, a timer interrupt process is performed, and a timer interrupt flag is set in SD08. In SD09, the timer interrupt is permitted and the timer interrupt process is terminated. The timer interrupt process is performed once every 33 msec.
[0143]
FIG. 19 is a flowchart for explaining command analysis processing performed in the display control board 80 to which a command output from the game control board 31 is input. In SE01 to SE05, in the command analysis processing shown in FIG. 19, it is determined whether or not there is a received command in the command reception buffer, and whether or not it is a designation command for the symbols in the middle left and right, and in each symbol stop storage area. Stores the symbol number and sets each symbol designation command reception flag.
[0144]
If the received command is not a symbol designating command in SE03, the process proceeds to SE06 to SE08 to determine whether the received command is a variation pattern command, and the received variation pattern command is stored in the storage buffer of the variation pattern storage area. Stored. By receiving such a variation pattern command, a variation pattern command reception flag is set, and when the variable display is not being performed, the special symbol variable display on the special symbol display unit 9 is started.
[0145]
If the received command is not a variation pattern command in SE06, it is determined in SE09 whether the received command is a pending storage number command. If the received command is a pending storage number command, processing for storing the pending storage number in the storage buffer of the reserved storage number storage area is performed in SE10.
[0146]
In SE11, it is determined whether or not the pending storage number command received this time is a decrease in the pending storage number relative to the previously received pending storage number command. When the number of reserved memories is reduced, the variable time holding display process described later is performed at SE12, and when the number of reserved memories is not decreased, the process proceeds to SE13.
[0147]
In SE13, a process for updating the hold memory display is performed based on the set notice flag, the mode flag, the execution count, and the hold memory number. Specifically, when the number of reserved memories increases, the display screen is updated so as to increase the number of reserved memories, and when the number of reserved memories decreases, the display screen is updated so as to decrease the number of reserved memories. Further, when the advance notice flag is set and the advance notice is performed, the hold storage display corresponding to the execution count value determined to be the target of the advance notice is displayed as the advance hold storage display corresponding to the set mode flag. The display screen is updated so as to increase / decrease the number of reserved memories.
[0148]
In SE14, it is determined whether or not the received command is a determination result command such as an outlier command, a reach command, a non-probability variable jackpot command, a probability variable jackpot command, or the like. As a result of the determination, if the command is a determination result command, the process proceeds to SE15 to store the command data in the storage buffer of the received determination result command storage area. Since it is a display control command, processing for setting a flag corresponding to the received command is performed in SE18.
[0149]
In SE16, a winning hold display process, which will be described later, is performed. In SE17, a process for updating the above-described held storage display is performed in SE13.
[0150]
Here, the processing from SE09 to SE17 will be described briefly. Processing to increase / decrease the reserved storage display to be displayed on the variable display device 8 in SE13 when it is determined in SE09 that the received command is the reserved storage number command. Is done. Further, when it is determined in SE14 that the received command is a determination result command, any one of the hold storage displays including the increased hold storage display is displayed on the display screen by the advance hold storage display or the normal hold storage display. Processing to update is performed.
[0151]
FIG. 20 is a flow chart for explaining a subroutine program of a winning hold display process performed in SE16 of the command analysis process described above with reference to FIG. Here, it is determined whether or not a notice effect is to be performed and a process for selecting a target / mode of notice is performed.
[0152]
First, in SF01, it is determined whether or not the current game state in which the winning hold display process is being performed is a normal game state other than a big hit game or a probability variation state. When it is determined that the game state is normal, the process proceeds to SF02, and it is determined whether or not the current notice flag is still in an off state. When it is determined to be in the off state, the process proceeds to SF03, and it is determined whether or not the received stored number of the stored storage number command is “2” or more. When it is determined that the value is “2” or more, the notice determination process of SF04 is performed. If “no” is determined in any of the determination processes from SF01 to SF03, the subroutine program for the on-hold display process at the time of winning is terminated.
[0153]
In SF04, a notice determination process described later with reference to FIG. 22 is performed. In the advance notice determination process, it is determined whether or not the advance notice is to be executed based on which command is the type of the received determination result command. When it is determined that the advance notice is to be executed, a process for setting the advance notice flag to the “on” state is performed.
[0154]
It should be noted that the determination result of SF01 to SF03 is related to whether or not the notice determination process of SF04 is executed. For example, since SF01 reduces the processing load during the big hit game and the processing load during the probability variation state, the notice determination process is not performed even when there is a start winning during the big hit game or the probability variation state. So that it is controlled. In addition, SF02 is controlled so that the notice determination process is not performed when the notice flag is already set in order to prevent the duplicate notice determination process from being executed. Furthermore, SF03 is controlled so that the notice determination process is not performed except when the number of reserved memories is “2” or more, that is, when the expectation of the player is lowered because the notice cannot be executed for a long time. Yes. By not performing the notice determination process when the number of times is not more than the predetermined number in this way, it is possible to secure a certain time for the notice, so that the bug display is performed without securing the notice time. Can prevent inconvenience. For example, it is possible to prevent an inconvenience that would occur if the notice is given when the noticeable time is too short and noise is generated. Further, the notice determination process is not performed when it is impossible to change the display mode of the hold notice for each variable display change or when the target of the notice cannot be selected. That is, when the number of reserved memories is “1”, the hold notice can be executed only with a predetermined hold memory as a target, and even if it is executed, the variable display fluctuation that is the target of the hold notice is started. At the same time, since the hold notice disappears, it is possible to prevent the notice that the display mode of the hold notice cannot be changed step by step. Note that the number of reserved memories is not limited to “2” or more, but may be a predetermined number or more that improves the player's expectation. Further, the notice determination process may be performed when the number of reserved memories is an upper limit value.
[0155]
Next, in SF05, it is determined whether or not a notice is executed in SF04, and it is determined whether or not a notice flag is set. When it is determined that the notice flag is in the “on” state, the process proceeds to SF06, and when it is determined that the notice flag is not in the “on” state, the subroutine program for the on-hold display process at the prize is finished as it is.
[0156]
In SF06, a notice target determination process described with reference to FIG. 23 is performed. In the advance notice determination process, a process of setting an execution count value corresponding to the hold storage is performed in order to determine the hold storage display that is the target of the notice. For example, when the third stored storage is determined to be the target of the advance notice, a process of setting “3” as the execution count value is performed.
[0157]
In SF07, the hold notice selection process described with reference to FIG. 24 is performed. In the hold notice selection process, a process of selecting a display mode for executing the hold notice display is performed based on which command is the type of the received determination result command. When the display mode to be executed is selected, a mode flag corresponding to the display mode selected and determined is set, and the subroutine program for the winning hold display process is terminated.
[0158]
FIG. 21 is a flow chart for explaining a subroutine program of the variable hold display process performed in SE12 of the command analysis process described above with reference to FIG. Here, a process for reducing the hold storage display is performed, and a process for determining whether or not to promote the display mode is performed when the notice flag is in the “on” state.
[0159]
First, in SG01, it is determined whether or not the notice flag is in the “ON” state at the present time. When it is determined that the notice flag is in the “on” state, the process proceeds to SG02. When it is determined that the notice flag is not in the “on” state, the subroutine program for the variable on-hold display process is terminated.
[0160]
In SG02, the promotion determination process described with reference to FIG. 24 is performed. In this promotion determination process, whether or not to set a promotion flag that serves as a mark for promoting the display mode of the pending notice display based on which command is the type of the determination result command in which the notice flag is in the “on” state Processing for determining whether or not. In the present embodiment, the promotion means changing the display mode of the on-hold notice display that is being executed to a display mode with higher reliability that is more likely to be a big hit and more expectation. That means.
[0161]
In SG03, it is determined whether or not the promotion flag is set in the promotion determination process of SG02 and the state is "ON". When the promotion flag is in the “on” state, the process proceeds to SG04, and when it is not in the “on” state, the process proceeds to SG06.
[0162]
In SG04, a process for executing the above-described promotion is performed. That is, a process of setting the mode flag “+1” to the mode flag corresponding to the display mode of the previous hold notice display is performed. For example, when the mode flag that was previously set is “1”, a process of setting the mode flag of “2” is performed. As described above, the promotion in the present embodiment is performed in such a manner that the distribution rate is easily selected when the prior determination that the big win is made as the mode flag is changed from “0” to “3”. Is set. Subsequently, in SG05, the promotion flag set in SG02 is set to the “off” state.
[0163]
In SG06, a process in which the above-described promotion is not executed is performed. That is, processing for resetting the mode flag corresponding to the display mode of the previous hold notice display is performed. For example, when the mode flag that was set last time is “2”, the process of setting the mode flag “2” again is performed.
[0164]
In SG07, a process of subtracting “1” from the currently set execution count value is performed. This is a process of subtracting the execution count in advance in response to updating and displaying the hold storage display in SE13 of FIG. The advance notice in this embodiment is associated with an execution count for each variable display, and it is only necessary to subtract the corresponding execution count value when a pending storage number command for which the variable storage display is performed is reduced. It is.
[0165]
In SG08, it is determined whether or not the currently set execution count value is “0”. That is, it is determined whether or not all the execution count values set in SF06 have been processed in SE13 in response to the determination that the advance notice is made in SF04 of FIG. When it is determined that the execution count value is “0”, the process proceeds to SG09, and the notice flag set in SF04 is changed to “OFF” after the variable display that is started by decreasing the number of establishment is finished. When the execution count value is not yet “0”, the process of ending the variable hold display process is performed as it is.
[0166]
FIG. 22 is a flowchart for explaining the subroutine program of the notice determination process performed in SF04 of the winning hold display process described above with reference to FIG. Here, based on which command is the type of the received determination result command, a process for looking up the advance notice determination table corresponding to each command and setting the advance flag is executed. .
[0167]
First, in SH01, a process of extracting a counter value from a notice determination random counter R6 used for determining whether or not to execute a notice is performed.
[0168]
In SH02, it is determined whether or not the received determination result command is a disconnect command. If the command is a disconnect command, the process proceeds to SH03, and if it is not a disconnect command, the process proceeds to SH05.
[0169]
In SH03, the table RS1 provided in advance corresponding to the loss command is looked up, and the value extracted in SH01 based on the distribution ratio of RS1 in SH04 causes the notice flag to be “on”. Is set, the notice flag is set, and the notice determination process is terminated.
[0170]
In SH05, it is determined whether or not the received determination result command is a reach command. If it is a reach command, the process proceeds to SH06. If it is not a reach command, the process proceeds to SH08.
[0171]
In SH06, a look-up table RS2 provided in advance corresponding to the reach command is looked up, and in SH07, the extracted value extracted in SH01 based on the distribution ratio of RS2 is a value for turning on the notice flag. Is set, the notice flag is set, and the notice determination process is terminated.
[0172]
In SH08, it is determined whether or not the received determination result command is a non-probability variable jackpot command. If the command is a non-probability variable jackpot command, the process proceeds to SH09.
[0173]
In SH09, the non-probable variable jackpot table RS3 provided in advance corresponding to the non-probable variable jackpot command is looked up, and in SH10, the extracted value extracted in SH01 based on the distribution ratio of RS3 sets the notice flag as “ When the value is “ON”, a notice flag is set, and the notice determination process ends.
[0174]
In SH11, it is determined whether or not the received determination result command is a probability variation jackpot command. If the command is a probability variation jackpot command, the process proceeds to SH12, and if it is not a probability variation jackpot command, the notice determination processing ends.
[0175]
In SH12, the probability variation jackpot table RS4 provided in advance corresponding to the probability variation jackpot command is looked up, and in SH13, the extracted value extracted in SH01 based on the distribution ratio of RS4 sets the notice flag to “ON”. When the value is the value to be set, a notice flag is set, and the notice determination process ends.
[0176]
FIG. 23 is a flowchart for explaining a subroutine program for the advance notice determination process performed in SF06 of the winning hold display process described above with reference to FIG. Here, based on which command is the type of the received pending storage number command, the process of looking up the notification target determination table prepared in advance corresponding to each command and setting the execution count is executed. Is done.
[0177]
First, in SI01, a process of extracting a counter value from a notice target determination random counter R7 used for determining a hold storage display as a notice target is performed.
[0178]
In SI02, it is determined whether or not the extracted counter value is any one of “0”, “1”, and “2”, and when it is any one of “0”, “1”, and “2”. Processing to set the storage number corresponding to the received pending storage number command transferred to SI12 as an execution count value is performed, and if it is not “0”, “1”, or “2”, the processing is shifted to SI03 and received It is determined whether or not the stored number command is “4”.
[0179]
In SI03, when the received pending storage number command is “4”, the process shifts to SI04 to look up the notification target determination table RS5, and in SI05, the extracted value extracted in SI01 is based on the distribution ratio of RS5. The execution count value to which it belongs is set, and the notice target determination process is terminated.
[0180]
In SI06, it is determined whether or not the received pending storage number command is “3”. If it is “3”, the process proceeds to SI07, and if it is not “3”, the process proceeds to SI09.
[0181]
In SI07, look-up target table RS6 provided in advance corresponding to the reserved memory number command is looked up, and in SI08, the execution count value to which the extracted value extracted in SI01 belongs based on the distribution ratio of RS6 Is set, and the notice target determination process ends.
[0182]
In SI09, it is determined whether or not the received pending storage number command is “2”. If it is “2”, the process proceeds to SI10, and if it is not “2”, the notice target determination process is terminated.
[0183]
In SI10, a look-up target determination table RS7 provided in advance corresponding to the pending storage number command is looked up, and in SI11, the execution count value to which the extracted value extracted in SI01 belongs based on the distribution ratio of RS7 Is set, and the notice target determination process ends.
[0184]
Note that the hold notice is executed with the hold storage display corresponding to the execution count value set in the notice object determination process as the target. Specifically, when the set execution count value is “4”, a hold notice is made by changing the display mode of the hold storage display 10d in FIG. 12A, and the set execution count value is When it is “3”, a hold notice is made by changing the display mode of the hold storage display 10c of FIG. 12A, and when the set execution count value is “2”, FIG. 12A. The hold notice is made by changing the display mode of the hold storage display 10b.
[0185]
FIG. 24 is a flow chart for explaining a subroutine program for a hold notice selection process performed in SF07 of the pay hold display process described above with reference to FIG. Here, based on which command is the type of the received determination result command, a process for looking up the hold notice determination table provided in advance corresponding to each command and setting the mode flag is executed. The
[0186]
First, in SJ01, a process of extracting a counter value from a notice determination random counter R8 used for determining the display mode of the hold notice is performed.
[0187]
In SJ02, it is determined whether or not the received determination result command is a disconnect command. If it is a disconnect command, the process proceeds to SJ03, and if it is not a disconnect command, the process proceeds to SJ06.
[0188]
In SJ03, a table for losing RS8 provided in advance corresponding to the detachment command is looked up, and in SJ04, the extracted value extracted in SJ01 based on the distribution ratio of RS8 is a value for executing any display mode. Is determined, the display mode of the hold notice to be executed is determined, the mode flag corresponding to the display mode determined in SJ05 is set, and the hold notice selection process is terminated.
[0189]
In SJ06, it is determined whether or not the received determination result command is a reach command. If it is a reach command, the process proceeds to SJ07. If it is not a reach command, the process proceeds to SJ10.
[0190]
In SJ07, a look-up table RS9 provided in advance corresponding to the reach command is looked up, and the extracted value extracted in SJ01 based on the distribution ratio of RS9 in SJ08 causes any display mode to be executed. Is determined, the display mode of the hold notice to be executed is determined, the mode flag corresponding to the display mode determined in SJ09 is set, and the hold notice selection process is terminated.
[0191]
In SJ10, it is determined whether or not the received determination result command is a non-probability variable jackpot command. If it is a non-probability variable jackpot command, the process proceeds to SJ11, and if it is not a non-probability variable jackpot command, the process proceeds to SJ14.
[0192]
In SJ11, the non-probable variable jackpot table RS10 provided in advance corresponding to the non-probable variable jackpot command is looked up, and the extracted value extracted in SJ01 based on the distribution ratio of RS10 in SJ12 is displayed in any display mode. Is determined, the display mode of the hold notice to be executed is determined, the mode flag corresponding to the display mode determined in SJ13 is set, and the hold notice selection process is terminated.
[0193]
In SJ14, it is determined whether or not the received determination result command is a probability variation jackpot command. If it is a probability variation jackpot command, the process proceeds to SJ15. If it is not a probability variation jackpot command, the pending notice selection process is terminated.
[0194]
In SJ15, the probability variation jackpot table RS11 provided in advance corresponding to the probability variation jackpot command is looked up, and the extracted value extracted in SJ01 executes any display mode based on the distribution ratio of RS11 in SJ16. The display mode of the hold notice to be executed is determined, the mode flag corresponding to the display mode determined in SJ17 is set, and the hold notice selection process is terminated.
[0195]
FIG. 25 is a flowchart for explaining the subroutine program of the promotion determination process performed in SG02 of the change hold display process described above with reference to FIG. Here, based on which command is the type of the received determination result command, a process for looking up a promotion determination table provided in advance corresponding to each command and setting a promotion flag is executed. .
[0196]
First, in SK01, it is determined whether or not the previously set aspect flag is “3”. This is based on the fact that the mode flag having the highest reliability and the highest reliability in this embodiment is “3”, and the mode having a higher probability and reliability than the mode flag “3”. This is because the flag cannot be promoted. Therefore, when the mode flag is not “3” by this determination, the process proceeds to SK02, and when it is “3”, the promotion determination process is terminated without performing a substantial promotion determination.
[0197]
In SK02, processing for extracting the counter value from the promotion determination random counter R9 used for determining whether or not to promote is performed.
[0198]
In SK03, it is determined whether or not the determination result command with the notice flag set to the “on” state is an outlier command. If it is an outlier command, the process proceeds to SK04, and if not, the process proceeds to SK06. The
[0199]
In SK04, a look-up table RS12 provided in advance corresponding to the miss command is looked up, and in SK05, the extracted value extracted in SK02 is a value for turning on the promotion flag based on the allocation rate of RS12. When it is, the process of setting the promotion flag is performed, and the promotion determination process is terminated.
[0200]
In SK06, it is determined whether or not the determination result command with the notice flag set to “ON” is a reach command. If it is a reach command, the process proceeds to SK07. If it is not a reach command, the process proceeds to SK09. The
[0201]
In SK07, a look-up table RS13 provided in advance corresponding to the reach command is looked up. In SK08, the extracted value extracted in SK02 based on the distribution ratio of RS13 is a value for turning on the promotion flag. When it is, the process of setting the promotion flag is performed, and the promotion determination process is terminated.
[0202]
In SK09, it is determined whether or not the determination result command with the notice flag set to the “on” state is a non-probable variable big hit command, and if it is a non-probable variable big hit command, the process proceeds to SK10 and is not a non-probable variable big hit command. If it happens, the process proceeds to SK12.
[0203]
In SK10, the non-probability variable big hit table RS14 provided in advance corresponding to the non-probable variable big hit command is looked up. In SK11, the extracted value extracted in SK02 based on the distribution ratio of RS14 sets the promotion flag as " When the value is “ON”, a process of setting a promotion flag is performed, and the promotion determination process is terminated.
[0204]
In SK12, it is determined whether or not the determination result command with the notice flag set to "ON" is a probability variation jackpot command. If it is a probability variation jackpot command, the process proceeds to SK13, and if it is not a probability variation jackpot command, it is promoted. The determination process ends.
[0205]
In SK13, the probability variation jackpot table RS15 provided in advance corresponding to the probability variation jackpot command is looked up, and the extracted value extracted in SK02 based on the distribution ratio of RS15 in SK14 sets the promotion flag to “ON”. When the value is a value to be promoted, a process of setting a promotion flag is performed, and the promotion determination process is terminated.
[0206]
Next, main effects obtained by this embodiment will be described together.
As described above, it is determined in advance whether or not the hit ball wins the start winning opening 14, and based on the result of the preliminary determination, when the preliminary determination for performing the preliminary determination is made, the target of the notification The hold memory display to be determined is determined, and the display of the determined hold memory display can be changed to execute the hold notice, so that the variable display other than the variable display corresponding to the hold memory display that is the target of the notice However, it is possible to provide the player with a sense of expectation that a big hit may occur, and to provide an unexpected game that will be a big hit in the variable display after the hold notice ends. The interest of the game can be improved.
[0207]
As described above, when determining the target of the advance notice, it is determined whether or not to set the storage number corresponding to the pending storage number command as the execution count value, and only when it is determined not to set, A table provided for each received pending storage number command is looked up, and processing for setting an execution count value corresponding to the pending storage display that is the target of the notice is performed. Thereby, the control burden at the time of determining the hold storage display that is the target of the advance notice can be reduced.
[0208]
As described above, when the notice flag is already in the “on” state and a notice effect is performed by changing the display mode of the hold memory display, the hit ball wins and a notice is given to another hold memory. Since it is possible to avoid duplication processing such as determining whether or not the display control board 80 is performed, the control burden on the display control board 80 can be reduced.
[0209]
As described above, since the notification can be performed even during the variable display corresponding to the stored storage stored before the stored storage as the target of the determined notification is stored, the variable display can be performed multiple times. The hold notice can be executed continuously, and the player's expectation can be further enhanced.
[0210]
As described above, when the number of reserved memories is “2” or more, that is, a predetermined number or more, since it is determined whether or not to give a notice, the ratio of the notice being continuously given over a plurality of variable displays is high. Thus, the player can be interested for a long time, and the expectation that the player has over time can be improved. In addition, since a certain time for the advance notice can be secured, it is possible to prevent the bug display from being performed without securing the time for the advance notice.
[0211]
As described above, when the player's expectation is already in the probability variation state, control is performed so that the advance notice determination processing is not performed in the winning hold display processing. The control burden can be reduced.
[0212]
As described above, it is determined in advance whether or not a hit will be a big hit when the hit ball wins the start winning opening 14 in the special symbol process in the game control main process processed on the game control board 31 side, and displayed. In the display control main process processed on the control board 80 side, it is possible to determine whether or not to execute the advance notice by the on-hold display process at the time of winning in the command analysis process, and to select the display mode when the advance notice target is determined or the advance notice is executed. The process for performing the advance notice can be shared between the game control board 31 and the display control board 80, and the respective control burdens can be reduced. In addition, the display control board 80 can change the display mode of the hold storage display every time a variable display change that means a decrease in the number of hold storages as a predetermined condition is started. Therefore, it is possible to attract the player's interest in the change in the display mode of the on-hold storage display, to make the player interested, and to have a further expectation, and to improve the notice effect. Furthermore, the program and circuit configuration required for the game control board 31 can be simplified by transferring and dividing the control performed by the game control board 31 to the sub-board such as the display control board 80. As a result, it is possible to determine the occurrence of a big hit or a probable hit even in the big hit, and to easily inspect the malicious program of the game control board 31 that is the target of the fraudulent action. Lead to discovery. Furthermore, the same effect can be obtained in the discovery of an illegal circuit.
[0213]
As described above, the display mode in which the hold notice is executed in the display mode such as “?”, “Li”, and “S” can be changed every time the variable display fluctuation is started. The change opportunity is easy for the player to understand, and a notice effect can be provided by a variety of on-hold display display modes.
[0214]
As described above, every time the variable display change is started, the display mode is changed to the display mode with a high probability of being a big hit and the reliability, so that the process of changing the hold display mode can be interested. In addition, even if the first display mode is not a display mode with the highest likelihood / reliability, the promotion flag is set in the subsequent promotion determination process, and the display is more likely to be a big hit. Since the aspect flag of the aspect may be set, the player can have a sense of expectation for the big hit.
[0215]
As described above, even when it is determined that it will not be a big hit, that is, it is determined that it will reach or lose, it will be selected from the display mode such as “?”, “Li”, “S”, etc. Therefore, it is possible to increase the appearance frequency of the notice, and to increase the chances of giving the player an interest and an expectation.
[0216]
As described above, it is determined whether or not the gaming state can be a big hit at the time of starting winning, and whether or not the stop symbol can be reached, etc., and based on the determination result, the display mode of the hold storage display is changed and held. It is possible to determine whether or not to execute the advance notice, and to determine the hold memory that is the subject of the advance notice and the display mode of the hold memory display when the hold advance notice is executed. In other words, by changing the display mode of the hold memory display based on the jackpot determination etc. before the symbol variation due to the start winning is started, it is stored before the hold memory where the jackpot determination is performed is stored. It is possible to make a reservation notice by using the stored information as a target. Thereby, the display mode of the hold memory display can be changed in the variable display device in which the player always keeps a gaze of attention, so that the player overlooks the hold notice by the hold memory display. Can be prevented. Furthermore, the player can visually enjoy a variety of hold notices by changing the display mode of the hold storage display without performing a large viewpoint movement.
[0217]
As described above, it is determined whether or not the hold notice is executed according to the distribution ratio corresponding to the determination result command, and further, in which display mode the hold notice is executed is determined. As a result, it is possible to execute a hold notification with a rich variety only by changing data without significantly changing the program.
[0218]
As described above, the embodiment has been described in which each time the execution condition is satisfied, the reserved memory number command indicating the reserved memory number and the determination result command corresponding to the reserved memory are transmitted to the display control board 80 in association with each other. As a result, the judgment result command corresponding to the hold memory is shifted, for example, the notice is ended when the variable display of the hold memory as a target of the notice is not fluctuated, and the variable display which should originally be noticed is not displayed. It is possible to prevent inconveniences such as no notice due to fluctuations.
[0219]
As described above, when the execution condition is satisfied, the determination result command related to the selection of the hold notice is set and transmitted, and when the start condition is satisfied, the jackpot determination / hit symbol determination / reach determination / displacement symbol determination is performed and the corresponding command is set and transmitted. The processing burden on the game control board 31 can be distributed.
[0220]
Next, modifications and feature points of the embodiment described above are listed below.
(1) In the above-described embodiment, the determination to perform the advance notice is made, and when the target of the advance notice is determined, the display mode of the hold storage display corresponding to the hold storage for which the determination to make the advance notice is first changed. It is discriminated based on a certain ratio whether or not a holding notice is made. Then, when the result of the determination is a determination that no hold notice is made, from among the hold memories stored before the hold memory, whether or not the hold notice is made for the hold memory. However, the present invention is not limited to this, but the display of the hold storage display corresponding to the hold storage for which the determination is made based on a different ratio according to the received hold storage number command is performed to change the hold notification. It may be determined whether or not to perform the determination, or the target of the notice may be determined by one determination process. In such a case, the distribution ratio of the notice target determination table described above with reference to FIG. 9 may be changed to delete the process of SI02 in FIG. For example, for the distribution rate in FIG. 9, an allocation rate in which “4” is set as the execution count value of RS5, an allocation rate in which “3” is set as the execution count value of RS6, and an execution count of RS7 What is necessary is just to set the distribution rate so that the distribution rate for which “2” is set as the value is increased or decreased, and the other distribution rates are also increased or decreased so as to achieve consistency. As a result, it is possible to change the display mode of the hold memory display corresponding to the hold memory that has been determined to make a notice for each hold memory number command, and to change the ratio of the hold notice to be made, and to increase the variation. Can do.
[0221]
(2) In the embodiment described above, when the display control board 80 receives the determination result command transmitted from the game control board 31, it is executed by the notice target determination process of SF06 in the winning hold display process of FIG. After the count value is determined and the display mode is selected by the hold notice selection process of SF07, the display mode of the hold storage display corresponding to the execution count value is updated to the selected display mode in SE17 in the command analysis process of FIG. Although the example in which the process is performed has been described, the present invention is not limited to this, and an update time determination unit is provided to determine a time for updating the display mode of the hold storage display corresponding to the execution count value to the selected display mode, and the target of notification is determined. The execution count value is determined by the process, the display mode is selected by the hold notice selection process, and the update time determining means You may comprise so that the display mode of the pending | holding storage display corresponding to an execution count value may be updated to the selected display mode when it becomes the determined time. The update time determination means may be any means that determines the update time based on the extracted value extracted from the random counter using the random counter described above, for example. Thereby, since the time when a holding notice is executed can be made random, a more impactful and unexpected holding notice can be executed, and the interest of the game can be improved.
[0222]
(3) In the above-described embodiment, the display mode of the reserved memory display as the notice effect can be a big hit every time the variable display fluctuation that causes the number of reserved memories as a predetermined condition to decrease is started. We have explained the promotion pattern that develops with increased reliability and reliability, but it is not limited to this, and every time a given condition is met, the promotion pattern that regresses with a lower probability of being a big hit Also good. In this case, the processing content of SG04 in FIG. 21 is set to “a mode flag set with“ −1 ”as the previous mode flag”, and the processing content of SK01 in FIG. 25 is set to “the previous mode flag is“ 0 ”. warm? The process for determining “ Further, the content of the promotion determination process described with reference to FIG. 25 is the same as that of the hold notice selection process described with reference to FIG. 24, and there is a variable display fluctuation that reduces the number of reserved memories as a predetermined condition. Each time it is started, the counter value is extracted again from the notice determination random counter R8, and the display mode of the hold storage display is determined again based on the distribution ratio of the table provided corresponding to each determination result command. You may make it do. That is, when it is decided to execute the advance notice, the display form as the hold advance notice is selected, the hold storage display is performed in the selected display form, and the display form as the hold advance notice is again displayed every time a predetermined condition is satisfied. You may comprise so that it can select at random. In this case, the reservation notice selection process of FIG. 24 may be performed instead of the process of SG02 to SG06 of FIG. As a result, the promotion pattern and the demotion pattern can be merged, and a display mode with a high or low probability of being a big hit can appear at random. This makes it impossible for the player to be surprised and to improve the interest of the game. For example, even when the mode flag “0” is set, the mode flag “3” having the highest possibility of being a big hit and the reliability is re-established when the next on-change hold display process is executed. You can choose. On the other hand, even when the mode flag “3” having the highest possibility of being a big hit / reliability is set, the reliability is displayed when the next on-change display processing is executed. The mode flag “0” having the lowest degree / expectation can be selected again. Even in such a case, a display mode that is displayed as a hold storage display is provided only when a non-probable change jackpot command or a probable change jackpot command is transmitted in the hold notice determination table. When the on-hold storage display is performed according to the mode, it may not be promoted or demoted.
[0223]
(4) In the above-described embodiment, as the predetermined condition that causes the change of the display mode of the hold memory display that performs the notice effect, the number of the hold memories decreases in relation to the start of variable display. However, the present invention is not limited to this, and a notice effect is performed on the assumption that a predetermined condition is established when the number of reserved memories increases in association with the hitting of a hitting ball at the start winning opening 14. You may change the display mode of the pending storage display. Thereby, the player can easily recognize whether or not a predetermined condition that causes the display mode to change is satisfied. Further, the display mode of the hold memory display may be changed every time, for example, 5 seconds elapse after the notice effect is started by the hold memory display. That is, as a predetermined condition, the display mode of the hold storage display may be changed as a predetermined time elapses. In this case, the predetermined time may be set in advance so that the predetermined time is always changed at regular intervals, or the time is changed stepwise as the time becomes longer or shorter. . As a result, the capacity for storing data can be realized with the minimum necessary.
[0224]
Further, each time the display mode of the hold memory display is changed, the time until the display mode of the next hold memory display is changed may be determined by a random counter. That is, the notice hold display mode selection means for selecting the hold display mode to be displayed by the hold display control means from a plurality of types of the notice hold display modes when the notice determination for performing the notice is made by the notice determination means. It may be configured to include a condition satisfaction selection means for determining a timing at which the display mode of display changes with time and establishing a predetermined condition. Thereby, since the change speed of the display mode of the on-hold storage display is random, it is possible to improve the interest of the game without causing the player to be surprised and tired. In addition, it is possible to change the display mode of the hold storage display at various timings, add variations to the notice effect, and reduce the processing load on the display control board side by determining the timing of the change in advance. Can do.
[0225]
Further, every time a change occurs in the variable display state of the variable display device, a predetermined condition may be established in synchronization therewith. For example, when variable display fluctuation is started, when the speed of variable display fluctuation is changed to low speed, high speed, top feed speed, etc., part of special symbols such as left symbols are stopped and displayed during variable display. Or the like, a predetermined condition may be established. Since the display mode of the on-hold storage display changes in synchronization with the variable display state that the player pays attention to, the degree of concentration on the game can be increased. In addition, the predetermined condition may be established when the normal symbol has a specific display result, or may be established when the winning area is won, and the player presses the push button. It may be established by
[0226]
(5) In the above-described embodiment, the example of changing the display mode of the on-hold storage display has been described as the case where the notice effect is performed. However, the present invention is not limited to this, and the display mode of the normal winning storage image is changed. Also good. Accordingly, by making a hold notice in combination with the hold storage display and the normal winning storage image, the change mode can be varied, and the fun of the game can be improved. In addition, in relation to the display result of the identification information of the special symbol displayed on the special symbol display unit 9 such as jackpot or reach, an example in which it is determined whether or not to make a notice by changing the display mode of the hold storage display As described above, the present invention is not limited to this, and the target that the display result of the identification information of the normal symbol display displayed in the special symbol display unit 9 is a specific display result or the probability that the display result is a specific display result is high. It may be set to make a notice. As a result, players who are not interested in the normal symbol display results usually do not know whether a special symbol big hit or a normal symbol hit when a notice is given, so concentrate on the game production. It is possible to improve interest.
[0227]
(6) In the above-described embodiment, the game control board 31 performs determination such as jackpot / reach when the execution condition is established, sets the determination result command, and uses the determination result command only for determination of the hold notice, etc. However, the present invention is not limited to this, and special symbol display control such as special symbol variation waiting processing may be performed based on the determination result command. As a result, it is not necessary to provide a timer function in the game control board 31, and it is not necessary to store the extracted random number value in the storage buffer, so that the control burden can be reduced.
[0228]
(7) In the above-described embodiment, even when the determination result command is determined to be a big hit, the notification is not performed unless the notification flag is turned on based on the distribution rate in the notification determination table. Although described above, the present invention is not limited to this, and it may be set so that a preliminary announcement is always made when a big hit is determined. As a result, when a big hit is made, a notice is always made, so the chance to experience the notice increases and the interest is improved.
[0229]
(8) In the above-described embodiment, in the random number determination process of FIG. 17, it is determined at the time of start winning whether any display mode / display result is selected from among non-probable big hit, probable big hit, reach and outage. The determination result command corresponding to the determination in S14 of FIG. 14 is transmitted to the display control board 80, and the notice determination process of FIGS. 22 to 25 is performed using a table corresponding to the type of the determination result command received by the display control board 80. , The example of performing the advance notice determination process, the hold advance notice selection process, and the promotion judgment process has been described. However, the present invention is not limited to this, and in the random number judgment process of FIG. In addition to the above determination, when it is determined to reach, it is further determined at the start winning whether or not the super reach is reached, and in S14 of FIG. A super reach command can be transmitted to the display control board 80, and a notice corresponding to the super reach command received by the display control board 80, the notice determining process, the notice target determining process, the pending notice selecting process shown in FIGS. You may make it perform a promotion determination process.
[0230]
Note that, for example, the allocation ratio of the notice determination table in FIG. 8 is the notice ratio when the random number extracted from the notice determination random counter R6 is “0 to 5”. When the flag is off and “6-9”, the notice flag may be turned on. The allocation ratio of the notification target determination table in FIG. 9 is set such that the notification flag is off when the random number extracted from the notification object determination random counter R7 is “0-4”, and the notification flag is turned on when “5-9”. You can do so. The distribution ratio in the hold notice determination table of FIG. 10 is set to “0” as the mode flag when the random number extracted from the hold notice determination random counter R8 is “0 to 39” and “40 to 49”. In this case, “1” is turned on as the mode flag, and “2” is turned on as the mode flag when “50 to 99”. The distribution rate in the promotion determination table of FIG. 11 is such that the promotion flag is off when the random number extracted from the promotion determination random counter R9 is “0-3”, and the promotion flag is on when “4-9”. You can do it. Further, in the pending notice determination table of FIG. 10, “0” or “1” is set as the distribution rate in the RS9 table so that only “0” is selected as the distribution rate in the RS8 table as the mode flag. May be selected. By setting the distribution ratio so that the determination result content determined in advance and the variable display result that can be predicted from the notice hold display mode are matched, the allocation ratio may be set to be a big hit. The player can be notified of not only the reliability / expectation that may not be achieved but also the reliability / expectation that may become super-reach in the notice hold display mode, thereby improving the interest of the game.
[0231]
(9) In the above-described embodiment, the circuit configuration in which commands are transmitted from the game control board 31 to the display control board 80 and the commands are transmitted from the display control command 80 to the respective boards has been described. The command from the game control board may be directly transmitted to the sound control board 70 or the lamp control board 35 without going through 80. As a result, a synchronized effect can be executed. In addition, the control burden can be shared among the substrates. The commands transmitted from the game control board 31 are all input to the display control board 80, and the sound control command / lamp control command is displayed on the display control board 80 based on the command and the display mode of the selected hold storage display. The circuit configurations for setting and transmitting commands to the sound control board 70 and the lamp control board 35 to control each device have been described. However, the present invention is not limited to this. The circuit board is configured so that the board for controlling the game effects is integrated into the effect control board (not shown), and various commands are transmitted from the game control board 31 to the effect control board to control each device via the input / output driver board 82. May be. Thereby, a game can be enjoyed in the state that the whole display effects, such as the display mode corresponding to the notice by the selected hold storage display, game sound, lamp lighting, etc. are always synchronized, and the interest can be improved.
[0232]
(10) In the above-described embodiment, the determination result command transmitted from the game control board 31 to the display control board 80 is determined when the hit ball wins the start winning opening 14, that is, when the execution condition is satisfied. Although an example in which transmission is set has been described, the present invention is not limited to this, and determination may be made for each execution condition that is held and stored when variable display is started, and transmission may be set. For example, each can be identified when a predetermined start condition (for example, the end of the previous variable display, etc.) is satisfied after a predetermined execution condition is satisfied (for example, a hitting ball wins a start winning opening 14) ( For example, a variable display device (for example, variable display) that variably displays a plurality of types of identification information (for example, numeric symbols “1” to “9”, etc.) that can be distinguished and recognized by the player and that displays and displays a display result. And a display device 8) and pre-determining means (for example, see SA01 in FIG. 15) for determining the display result before the derivation display (for example, before the symbol is fixed and stopped) based on the establishment of the execution condition. When the pre-determining means determines that the display result is a specific display result (for example, a doublet such as “777”), the specific display result is displayed on the variable display device. A gaming machine (pachinko gaming machine 1) that generates a specific gaming state (for example, a big hit) that is advantageous to the player later, wherein the execution condition is satisfied but the start condition is not yet satisfied A holding storage means (see RAM 55 of the game control board 31, SB06 in FIG. 16, etc.) that holds the number of establishments (for example, the number of holding memories) on hold, and the number of establishments stored in the holding storage means can be specified. Hold display control means (for example, see SE09 to SE17 in FIG. 19) that controls the display in the hold display mode, and when the start condition is satisfied, the execution condition is not yet satisfied. Start condition determination means for determining whether or not the display result of variable display resulting from the occurrence is the specific display result (for example, start of all symbol fluctuations of SA06 in FIG. 15) The random number determination process shown in FIG. 17 is executed for each piece of execution condition information stored in the holding storage buffer immediately before the start of all symbol fluctuations). Based on the result, a notice determination means for making a notice to determine whether or not to execute a notice that the display result of the variable display becomes the specific display result (for example, informing the player, hold notice, etc.) (FIG. 22). Etc.) and when the advance notice determination that the advance notice is executed is made by the advance notice judging means (when it is judged as “YES” in SF04 and SF05 in FIG. 20, etc.) For which the advance notice is executed (for example, SI0 in FIG. 23). 1 to SI12, etc.), and the hold display control means performs control to execute the notice by changing the hold display mode of the execution condition that is the object of the notice determined by the notice target determining means. It may be configured to include a holding notice execution means (for example, see SE13, SE17, etc. in FIG. 19). According to such a configuration, a determination is made for an execution condition for which the start condition has not yet been established, a preliminary determination is performed based on the determination result, an execution condition subject to the preliminary determination is determined, and the determined execution is determined. Since it is possible to execute a notice by changing the hold display mode of the condition, the display result of the variable display is the same as the specific display result even for the variable display caused by the execution condition other than the execution condition subject to the notice. It is possible to provide an unexpected game in which a display result of variable display resulting from an execution condition after the display control in the notice hold display mode is finished becomes a specific display result. Can improve the interest of the game. Further, since the advance notice determination is performed again even for the execution condition for which the advance notice determination has been performed, even if the first notice determination is a determination that no notice is given, the advance notice determination is performed again. Since there is a possibility that the determination is made, it is possible to increase the chances of the holding notice.
[0233]
(11) The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko gaming machine as viewed from the front.
FIG. 2 is a front view of a gaming area of a pachinko gaming machine as viewed from the front.
FIG. 3 is an overall rear view for explaining the internal structure of the pachinko gaming machine.
FIG. 4 is a block diagram for explaining an example of a circuit configuration in a game control board.
FIG. 5 is a diagram for explaining various random counters for generating random numbers used for game control of a pachinko gaming machine.
FIG. 6 is a diagram for explaining a random counter for generating a random number for display control used for selection of a holding notice performed by the display control board.
FIG. 7 is a diagram for explaining an example of the content of a display control command sent to the display control board.
FIG. 8 is a diagram for explaining a notice determination table;
FIG. 9 is a diagram for explaining a notification target determination table;
FIG. 10 is a diagram for explaining a reservation notice determination table.
FIG. 11 is a diagram for explaining a promotion determination table;
FIG. 12 is a diagram for explaining a hold memory display when the hold notice is executed in the special symbol display unit, and for explaining the hold notice for changing the display form of the hold memory display for each variable display; .
FIG. 13 is a diagram for explaining a hold notice display mode when the hold notice is executed in the special symbol display unit, and for changing the display form of the hold memory display.
FIG. 14 is a flowchart for explaining game control main processing and interrupt processing executed by the game control board.
FIG. 15 is a flowchart for explaining a subroutine program for special symbol process processing;
FIG. 16 is a flow chart for explaining a subroutine program for winning determination processing;
FIG. 17 is a flowchart for explaining a subroutine program for random number determination processing;
FIG. 18 is a flowchart for explaining display control main processing and interrupt processing executed by the display control board;
FIG. 19 is a flowchart for explaining a subroutine program for command analysis processing;
FIG. 20 is a flowchart for explaining a subroutine program for winning hold display processing;
FIG. 21 is a flowchart for explaining a subroutine program for a variable hold display process;
FIG. 22 is a flowchart for explaining a subroutine program for a notice determination process;
FIG. 23 is a flowchart for explaining a subroutine program for a notice target determination process;
FIG. 24 is a flowchart for explaining a subroutine program for holding notice selection processing;
FIG. 25 is a flowchart for explaining a subroutine program for promotion determination processing;
[Explanation of symbols]
1 Pachinko machine, 80 display control board, 31 game control board, 35 lamp control board, 70 sound control board.

Claims (7)

A variable display device that variably displays a plurality of types of identification information that can each be identified when a predetermined start condition is satisfied after a predetermined execution condition is satisfied, and a display result is derived and displayed, and establishment of the execution condition Predetermining means for deciding the display result before the derived display based on the display result, and displaying the specific display result on the variable display device when the predetermination means decides to use the display result as the specific display result A gaming machine that generates a specific gaming state advantageous to the player after
A holding storage means for holding and storing the number of established execution conditions for which the execution condition is satisfied but the start condition is not yet satisfied;
A hold display control means for performing control to display the number of establishments stored in the hold storage means in a predetermined hold display mode so as to be specified;
Execution condition establishment determination means for determining whether or not a display result of variable display resulting from the establishment of the execution condition becomes the specific display result when the execution condition is established;
Preliminary determination means for performing a preliminary determination as to whether or not to execute a notification that the display result of the variable display becomes the specific display result based on the determination result by the determination means when the execution condition is established;
When the advance notice determining that the advance notice is to be executed by the advance notice determining means, the notice target determination for determining which of the execution conditions held and stored by the hold storage means is to be executed. Means and
The hold display control means includes a hold notice execution means for performing control to execute the notice by changing a hold display mode of the execution condition to be a notice object determined by the notice object determining means. A gaming machine. The notice target determining means is
True notice target decision means for deciding whether or not to execute the notice for the execution condition for which the determination by the decision means when the execution condition is established that the display result of the variable display becomes the specific display result. When,
When the true notice target determination means decides not to execute the notice for the execution condition, the execution condition is established before the execution condition is established and the start condition is not yet established. The gaming machine according to claim 1, further comprising: fake notice target determining means for determining which of the execution conditions is to be executed for the notice. The notice determination unit does not perform the notice determination until a variable display that is determined to be a notice is completed after the notice determination to execute the notice is completed. The gaming machine according to claim 1 or claim 2. The notice hold display control means is configured to hold the notice hold in a plurality of variable displays before the start of variable display due to establishment of a start condition of an execution condition determined to be a notice target by the notice target determining means. 4. The gaming machine according to claim 1, wherein display control according to a display mode is executed. 5. The notice determination unit according to claim 1, wherein the notice determination unit performs the notice determination when the number of established execution conditions stored in the hold storage unit is equal to or greater than a predetermined number. 6. Gaming machine. It is controllable to a special gaming state in which the probability of becoming the specific gaming state is improved,
The gaming machine according to any one of claims 1 to 5, wherein the notice determination unit does not perform the notice determination when the gaming state is the special gaming state. Game control means for controlling the progress of the game and outputting a command;
Production control means for controlling the display state of the variable display device based on a command from the game control means,
The game control means includes
Means for determining when the execution condition is satisfied;
A specific display command transmitting means for transmitting a specific display command indicating that the specific display result is obtained to the effect control means based on the determination that the specific display result is obtained by the execution condition establishment determining means;
The holding storage means;
An established number command transmitting means for transmitting an established number command for specifying the established number stored in the hold storage means to the effect control means,
The production control means includes
The notice determination means;
The notice target determining means;
Including the holding notice execution means,
The advance notice determining means performs the advance notice determination according to the specific display command transmitted by the specific display command transmitting means,
The advance notice target determining means performs the decision by the advance notice target determining means according to the established number command transmitted by the established number command transmitting means,
The holding notice execution means executes control for performing the notice determination by the notice determination means and the indication that the number of formations can be specified corresponding to the decision by the notice object determination means. The gaming machine according to any one of claims 1 to 6.

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