JP4453101B2 - Game machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gaming machine, and more particularly, to a gaming machine capable of controlling the timing of a regular symbol confirmation display.
[0002]
[Prior art]
Conventionally, in a gaming machine such as a pachinko machine, a random number is obtained from, for example, a loop counter or the like when a game ball is won at a start winning opening, and a player can acquire a large number of game balls based on the obtained random number. A lottery in a winning game state is performed, and based on the result of the lottery, the player is made to win a game. In Patent Document 1, when a game ball wins a start winning opening, a winning game state is selected, the fluctuation of the normal symbol is controlled, and then the combination of a plurality of symbols displayed when the fluctuation display of the normal symbol is stopped is performed. In this case, it is notified whether or not the winning gaming state has been won.
[0003]
[Patent Document 1]
JP 2003-62214 A
[0004]
[Problems to be solved by the invention]
However, in Patent Document 1, each time a game ball is won at the start winning opening, a winning game lottery is performed with the same winning probability based on a random number obtained from a loop counter or the like, and a fixed display of a normal symbol for informing the result is displayed. The player could not have a sense of expectation for the game state every time the regular symbol was displayed every time the game ball was won.
[0005]
The present invention has been made in order to solve the above-mentioned problem, and the normal symbol confirmation display is performed by performing the regular symbol confirmation display when the stop condition for stopping the variation of the normal symbol is satisfied. It is an object of the present invention to provide a gaming machine that allows a player to have a sense of expectation for a winning gaming state each time the player is hit.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, the gaming machine of the invention according to claim 1 is a main board that controls main control of the gaming machine, and is a symbol that is connected to the main board and notifies whether or not it is a hit. A gaming machine having a symbol control board for controlling a symbol display device for displaying symbols, a gaming board on which game balls flow down, a start winning opening provided on the gaming board and winning the game balls, A game ball detecting means for detecting a winning of a game ball at the start winning opening, and the main board can acquire a large number of game balls when triggered by the detection of the game ball by the game ball detecting means. A winning random number acquisition means for acquiring a winning random number for a lottery to determine whether or not to make a winning state, and a winning determination means for determining whether or not the winning random number acquired by the winning random number acquisition means is a winning On the symbol control board. A variable display instruction means for instructing start of variable display of the symbol on the normal symbol display device, and a predetermined predetermined value when the fluctuation display of the normal symbol is started by the variable display instruction means or after that A stop condition determining means for determining whether or not the stop condition is satisfied; and when the stop condition determining means determines that the predetermined stop condition is satisfied, the determination of the hit determining means on the symbol control board A confirmation display instruction means for instructing the normal symbol display device based on the result to be confirmed on the normal symbol display device; After the start of the normal symbol variation display, the counting means for counting the number of detected game balls detected by the game ball detecting means, and the number of detected gaming balls counted by the counting means are used as a reference. A reference detection number determination means for determining whether or not the reference detection number is exceeded, a reference detection number lottery means for performing a lottery for determining the reference detection number, and a lottery result of the reference detection number lottery means; A storage unit that stores a first reference detection number table that correlates the number of reference detection numbers, and a first reference detection number table that is stored in the storage unit based on a lottery result of the reference detection number lottery unit Reference detection number determination means for determining the reference detection number by referring to With The stop condition determination means determines that the stop condition is satisfied when the reference detection number determination means determines that the number of detected game balls is equal to or greater than the reference detection number, and the reference detection number The determination means determines the reference detection number based on the lottery result of the reference detection number lottery means when the normal symbol variation display is started. It is characterized by.
[0007]
[0008]
[0009]
Claims 2 The gaming machine of the invention according to claim 1 In addition to the configuration of the invention described in (2), the storage means includes a second reference detection number that is different from the reference detection number table in that the proportion of the reference detection number associated with the lottery result of the reference detection number lottery means is different from the reference detection number table. The main substrate stores a first mode in which the first reference detection number table is referred to when the reference detection number is determined by the reference detection number determination means, and the second reference detection number. Mode switching means for switching to the second mode in which the table is referenced is provided.
[0010]
Claims 3 The gaming machine according to the present invention is claimed in claim 1. Or 2 In addition to the configuration of the invention described in the above, each of the start winning opening and a plurality of the game ball detection means corresponding to the start winning opening, respectively, the main board is a detection of the game ball by each of the game ball detection means A detection order determination means for determining a detection order; and a detection order condition satisfaction determination means for determining whether or not each game ball detection means has detected a game ball according to the detection order determined by the detection order determination means; And the stop condition determination means is satisfied when the detection order condition satisfaction determination means determines that each game ball detection means has detected a game ball according to the determined detection order. It is characterized by judging.
[0011]
Claims 4 The gaming machine of the invention according to claim 1 to claim 1 3 In addition to the configuration of the invention according to any one of the above, a special prize opening provided on the gaming board and different from the start prize opening, and a special game ball detecting means for detecting a game ball won in the special prize opening The stop condition determining means determines that the stop condition is satisfied when the special game ball detecting means detects a game ball.
[0012]
Claims 5 The gaming machine of the invention according to claim 4 In addition to the configuration of the invention described in (2), the main board includes stop condition satisfaction lottery means for performing a lottery as to whether or not the stop condition is satisfied when a game ball is detected by the special game ball detection means. The stop condition determining means determines whether or not the stop condition is satisfied based on a lottery result of the stop condition satisfaction lottery means.
[0013]
In the gaming machine of the present invention, when the winning determination means determines that the winning condition is satisfied, the winning prize is opened / closed so that the player can acquire a large number of game balls. A mouth opening / closing control means, a prize winning game ball detecting means for detecting a winning of a game ball at the prize winning opening, and a predetermined number of game balls with respect to the game balls detected by the prize winning game ball detecting means And a game ball payout means for paying out the money.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a pachinko machine according to an embodiment of a gaming machine according to the present invention will be described with reference to the drawings. First, the mechanical configuration of the pachinko machine 1 will be described with reference to FIGS. FIG. 1 is a front view of the pachinko machine 1. FIG. 2 is a front view of the game board 2. The pachinko machine 1 according to the present embodiment is a so-called “third type” pachinko machine.
[0015]
As shown in FIG. 1, in the upper half of the front surface of the pachinko machine 1, a game board 2 is provided in which a game ball as a game medium launched from a launcher (not shown) flows down. This game board 2 is substantially square, and a substantially circular game area 4 surrounded by guide rails 3 is provided on the front surface. A lower plate 5 of the pachinko machine 1 is provided with an upper plate 5 for supplying game balls to the launcher and receiving prize balls. A lower plate 6 for receiving a prize ball is provided immediately below the upper plate 5, a firing handle 7 is provided on the right side of the lower plate 6, and a speaker 48 is provided on the lower plate 6.
[0016]
As shown in FIG. 2, in the approximate center of the game area 4 located at the front center of the game board 2, there is provided a normal symbol display device 8 including a symbol display screen 28 composed of an LCD, various lamps, and LEDs. Yes. In addition, a stage 21 on which a game ball can be temporarily placed from the surface of the game board 2 toward the back of the game board 2 is provided substantially horizontally at the lower part of the normal symbol display device 8. Further, a start winning opening 12 is provided immediately below the stage 21, and a slight gradient is provided on the stage 21 so that a game ball on the stage 21 can easily fall toward the starting winning opening 12. Yes.
[0017]
Further, a specific winning opening 15 is provided immediately below the starting winning opening 12. Opening and closing members 15a and 15b are provided in the specific winning opening 15, and game balls cannot be won when the opening and closing members 15a and 15b are closed. A game ball can be won only when the opening / closing members 15a and 15b are opened (indicated by a two-dot chain line in the figure), and a rotating body operation area (not shown) is provided inside the specific winning opening 15. It has been.
[0018]
A third type starting port 11 is provided on the right side of the normal symbol display device 8, and a big prize opening 16 is provided below the third type starting port 11. The third type starting port 11 is provided with a depression in the upper part of which one game ball can be stopped. When the rotating body 11a provided inside rotates, the stopped game ball is taken into the third type starting port 11 and won. An open / close door member 16a is provided at the big winning opening 16, so that a game ball cannot be won when the open / close door member 16a is closed. This open / close door member 16a is normally closed, and when a game ball wins the big winning opening 16 while the open / close door member 16a is open, a predetermined number of game balls are paid out. ing. In addition, a V region (not shown) is provided in the special winning opening 16.
[0019]
In the pachinko machine 1 according to the present embodiment, when a game ball wins the start winning opening 12, the player determines whether or not to shift to a winning game state in which the player can acquire a large number of prize balls. A hit determination is made. The result is displayed on the symbol display screen 28. When a winning display is made on the symbol display screen 28, the winning game state is entered, and the opening / closing members 15a and 15b of the specific winning opening 15 are opened for several seconds (for example, 5 seconds). Here, when the player wins a game ball in the specific winning opening 15 and the game ball stops in the rotating body operation area in the specific winning opening 15, the rotation of the rotating body 11a of the third type starting port 11 is started. The The rotating body 11a does not rotate in the normal gaming state. At this time, on the symbol display screen 28, the player is instructed to “right hit” (operating the firing handle 7 (see FIG. 1) so that the game ball flows down near the third type starting port 11). When the player makes a right strike according to the message, a game ball can be won at the third type starting port 11. Then, when the game ball wins at the third type starting port 11, the opening / closing door member 16a of the big winning port 16 is opened for several seconds (for example, 9 seconds). The rotating body 11a of the third type starting port 11 continues to rotate, and when the game ball passes through the V region provided in the special winning opening 16 during opening, after the opening / closing door member 16a is closed. Again, the winning ball 16 is opened up to a predetermined number of times (for example, 15 times, 16 times, etc.) by winning the game ball in the third type starting port 11 again. Accordingly, the winning gaming state is terminated when the predetermined number of large winning openings 16 are released or when the gaming ball does not pass through the V area during the opening.
[0020]
In addition, an out-ball collection port 13 for collecting game balls that have not won any prize opening is provided in the lower central portion of the game area 4. In the upper left and right sides of the out-ball collecting port 13, there are provided normal winning ports 19 and 20, and in the upper left part of the normal winning port 19, two normal winning ports 17 and 17 arranged in parallel in the left and right direction are provided. 18 is provided. When a game ball wins these normal winning ports 17 to 20, a predetermined number of game balls are paid out. In addition to the above, the game board 2 is provided with various electric lamps, other LEDs, a windmill, and many obstacle nails.
[0021]
Next, the structure of the normal symbol display device 8 and the screen displayed thereon will be described. The normal symbol display device 8 includes a symbol display screen 28 in the center. A demo image display unit D1 is provided in the center of the symbol display screen 28, and a normal symbol display unit L1 is provided in the lower left. The demo image display portion D1 occupies a wider area than the normal symbol display portion L1 so as to attract the player's eyes. In addition, on the symbol display screen 28, symbols and images are not always displayed on the normal symbol display portion L1 and the demo image display portion D1, and a moving image, a message, or the like can be displayed instead of these displays. It has become. The normal symbol display device 8 includes a symbol control board 44 (see FIG. 3) on the back surface thereof.
[0022]
Here, the normal symbol display part L1 is demonstrated. The normal symbol display portion L1 is configured to display symbols such as single-digit numbers, single-letter alphabets, and marks. As the symbols displayed on the normal symbol display portion L1, in the example of the present embodiment, the numbers “0”, “1”, “2”, “3”, “4”, “5”, “6”, There are 10 types of “7”, “8” and “9”, and the types of background colors displayed on the design are “red”, “orange”, “yellow”, “green”, “light blue”, Eight types of “blue”, “purple” and “white” are prepared. When a game ball wins a winning prize opening 12 and a winning determination is made, these ten kinds of symbols are displayed in this order in principle (this state is referred to as “variable display”), and the symbols and background colors are displayed. The determination result is displayed by the combination (this state is referred to as “determined display”). There are two types of results displayed on the normal symbol display portion L1, namely “win” and “out”. For example, this embodiment is configured as follows.
[0023]
When a combination of a design and a background color is represented as (design, background color), a combination that is “hit” (hereinafter referred to as “hit design”) is (0, red), (0, orange), (1, Orange), (1, yellow), (2, yellow), (2, green), (3, green), (3, light blue), (4, light blue), (4, blue), (5, blue) , (5, purple), (6, purple), (6, white), (7, white), (7, red), (8, red), (8, orange), (9, orange), ( 9, yellow), (0, yellow), (0, green), (1, green), (1, light blue), (2, light blue), (2, blue), (3, blue), (3, Purple), (4 purple), (4 white), (5 white), (5 red), (6 red), (6 orange), (7 orange), (7 yellow) , (8, yellow), (8, green), (9, green), (9, light blue). Further, since there are 10 types of numbers and 8 types of background colors, there are 80 types of combinations, and the combinations that become “out of” (hereinafter referred to as “out of symbol”) are combinations other than the above 40 types, so there are 40 types. In addition, which symbol is displayed when it is determined to be winning or losing is determined by lottery, and each has a probability of 1/40. These combinations are stored in the normal symbol combination pattern storage area 5304 (see FIG. 4) of the ROM 53.
[0024]
Next, the demonstration image display unit D1 will be described. This demonstration image display unit D1 is for performing notification of the hit determination with a degree of freedom as compared with the normal symbol display unit L1. For example, in the normal gaming state, images and videos such as characters and moving images are displayed on the demo image display unit D1. If this image or video is narrative and if the game ball wins the start prize opening 12 or if the story is developed when a lottery for special effects is won, the player will have a sense of expectation. Can be held. In addition, there may be occasions such as giving a character a special action or giving a change to a video. Then, if the climax of the story is produced in synchronization with the display of the combination of the normal symbols displayed on the normal symbol display portion L1, and the result of the hit determination is notified, the player's sense of expectation in the normal gaming state is enhanced. , Can increase the fun of the game.
[0025]
The demo image display unit D1 is configured by, for example, demo image display units D1a, D1b, and D1c divided into three in the left-right direction, and a plurality of symbols are displayed from the top to the bottom for each demo image display unit D1a to D1c. The display may be changed so as to scroll in the direction. Then, the combination of symbols when the variable display is stopped may be synchronized with the combination of normal symbols displayed on the normal symbol display unit L1, and the result of the hit determination may be notified. In this case, it goes without saying that the arrangement of the demonstration image display units D1a to D1c, the stop display order, the scroll direction, and the like can be arbitrarily changed.
[0026]
Next, the electrical configuration of the pachinko machine 1 according to the present embodiment will be described with reference to FIG. FIG. 3 is a block diagram showing an electrical circuit configuration of the pachinko machine 1. As shown in FIG. 3, the control unit 40 includes a main board 41, a power board 42, a sound board 43, a design control board 44, a payout control board 45, an electrical decoration board 46, a relay board 47, and a sub-integrated board 58. Has been. This control part 40 is provided in the back side (back side) of the pachinko machine 1 (refer FIG. 1).
[0027]
The main board 41 that controls the main control of the pachinko machine 1 is provided with a CPU unit 50 that performs various processes according to a program. The CPU unit 50 includes a CPU 51 that performs various arithmetic processes, a RAM 52 that temporarily stores data values generated during arithmetic processes such as flags and counters, a control program, initial values of various data, and the like. And a ROM 53 that stores commands and the like for instructing the circuit board, and these are integrally molded as a single LSI. Further, an interrupt signal generating circuit 57 is connected to the CPU unit 50. The interrupt signal generating circuit 57 sends an interrupt signal to the CPU 51 every 0.002 seconds (hereinafter abbreviated as “2 ms”), for example. To give. The CPU 51 executes a control program stored in the ROM 53 every time this interrupt signal is input, and controls the pachinko machine 1 according to this control program.
[0028]
The main board 41 is provided with an I / O interface 54 connected to the CPU unit 50, and is connected to sub boards such as the sub integrated board 58, the payout control board 45, and the relay board 47. Furthermore, the sound board 43, the design control board 44, and the electrical decoration board 46 are connected to the main board 41 via the sub-integrated board 58. The payout control board 45 controls the prize ball payout device 49, and the relay board 47 relays wiring of switches and solenoids. The sub-integrated board 58 performs comprehensive control of the sound board 43, the design control board 44, and the electrical decoration board 46. The sound board 43 controls the generation of sound effects of the pachinko machine 1, and the design control board 44. Controls the symbols displayed on the symbol display screen 28 of the normal symbol display device 8, and the illumination board 46 controls the light emission mode of each illumination of the pachinko machine 1.
[0029]
The sub-integrated board 58 is provided with a CPU 581, a RAM 582, and a ROM 583, and the sound board 43, the symbol control board 44, the payout control board 45, and the electrical decoration board 46 also have a RAM and a ROM that are not shown, respectively. CPUs 43a, 44a, 45a, 46a, input / output interfaces not shown, and the like are mounted. Further, the I / O interface 54 of the main board 41 is connected to an output port 55 that outputs information of the pachinko machine 1 to a game hall management computer (not shown).
[0030]
An LED 62 for illumination and an illumination lamp 63 are connected to the illumination board 46. In addition, a normal symbol display device 8 is connected to the symbol control board 44, a speaker 48 is connected to the sound board 43, and a prize ball payout device 49 is connected to the payout control board 45. Further, the relay board 47 includes a start winning port switch 70 for detecting a game ball won in the starting winning port 12, a specific winning port opening solenoid 71 for opening / closing the opening / closing members 15a and 15b of the specific winning port 15, A stationary ball switch 72 for detecting a game ball parked in a rotating body operating region (not shown) in the winning opening 15, a rotating body drive motor 73 for rotating the rotating body 11 a of the third type starting port 11, A third-type start port switch 74 that detects a game ball won at the three-type start port 11, a large-open-port opening solenoid 75 that opens and closes the opening / closing door member 16 a of the large-winning port 16, and a V in the large-winning port 16 A V switch 76 for detecting a game ball won in the area, a count switch 77 for counting the number of game balls won in the big prize opening 16, and a winning ball won in the normal winning openings 17, 18, 19, 20 Usually winning opening switch 78,79,80,81 are connected to detect, respectively. The start winning opening switch 70 corresponds to the “game ball detecting means” in the present invention.
[0031]
The power supply board 42 is connected to the main board 41, the sound board 43, the symbol control board 44, the payout control board 45, the electrical decoration board 46, and the sub-integrated board 58, respectively, and supplied with stabilized DC power. It has become so. The power supply board 42 is supplied with AC 24V. The power supply board 42 is provided with a rectifier made of a silicon diode bridge (not shown), a smoothing circuit made of an electrolytic capacitor, a stabilizing circuit made of a regulator IC, and the like, and can be supplied with stabilized DC 12V, 5V, etc. It is like that. In FIG. 3, although not shown in particular, the main board 41, the power supply board 42, the sound board 43, the symbol control board 44, the payout control board 45, the electrical decoration board 46, the relay board 47, and the sub-integrated board 58 are all grounded. Connected by line.
[0032]
In the pachinko machine 1, the CPU 51 of the main board 41 performs the main routine processing shown in FIG. 9 by an interrupt signal generated by the interrupt signal generation circuit 57 (see FIG. 3) at a constant interval (2 ms in this embodiment). It is repeatedly executed and programmed to finish within 2 ms. The main operation of the pachinko machine 1 is performed by repeatedly executing this main routine process. The main routine processing is performed by the CPU 51 of the main board. During the main routine processing, various commands (for example, a command for starting the fluctuation display of the normal symbol display portion L1 and a command for stopping, A command for opening the big prize opening 16 or a command for closing the big prize opening 16). The CPU 581 of the sub-integrated board 58 determines an image to be displayed on the demo image display unit D1 based on a command transmitted from the CPU 51 of the main board 41, determines the appearance timing thereof, and displays a normal symbol. The display timing of the normal symbol displayed on the part L1 is determined, the sound effect output from the speaker 48 is determined, the output timing is determined, and the timing for blinking the other illumination lamps 63 is determined. Thus, the CPU 44a of the symbol control board 44, the CPU 43a of the sound board 43, and the CPU 46a of the illumination board 46 are instructed.
[0033]
Further, in the pachinko machine 1 according to the present embodiment, in the normal game state, when the normal ball displayed on the normal symbol display unit L1 is not performing the variable display, The symbol variation display is started. At this time, there is a lottery for determining the number of game balls to be awarded to the start winning opening 12 during the normal symbol variation display, that is, the condition for stopping the regular symbol variation display (hereinafter referred to as “stop condition”). Done. Then, the number of game balls selected as the number of remaining games is set as the number of remaining games, and the number of remaining games is subtracted from the number of remaining games as one game per game ball to be won in the start winning opening 12, and when the number of remaining games becomes “0”, Stop changing the display of normal symbols. The establishment of the stop condition includes a case where a “special condition” described later is satisfied.
[0034]
As will be described later, the probability of “winning” in the pachinko machine 1 is about 1 / 1.08, and if the normal symbol is confirmed and displayed, in most cases, the transition to the winning gaming state is performed. For this reason, if it is desired to continuously generate the winning game state, the remaining number of games is set to be small, and if it is desired to be generated intermittently, it is sufficient to set the remaining number of games to be large. The pachinko machine 1 has two modes, a high probability mode in which the number of remaining games is likely to be set relatively short and a normal mode in which the number of remaining games is easily set relatively long. Each mode is triggered by winning a lottery performed each time, winning a game ball in other special winning openings not shown in the figure, winning a predetermined lottery performed independently of the winning judgment, etc. (Including the transition to the same mode as before the transition).
[0035]
In the case where the transition between the modes is performed, in the lottery performed when the game ball wins the start winning opening 12, the probability that the lottery is won and the transition between the modes is performed is low. Is set. For this reason, in the high probability mode, it is easy to draw a small number of remaining games in the lottery of the number of game balls to be awarded to the start winning opening 12 during the above-described normal symbol variation display, and the mode is once shifted to the high probability mode. Then, since the high probability mode is continued for a while, it is possible to easily generate the winning gaming state continuously. The normal mode and the high probability mode correspond to the “first mode” and the “second mode” in the present invention.
[0036]
Hereinafter, referring to FIG. 4 to FIG. 13, main routine processing executed for controlling the above-described normal symbol fluctuation display and its stop, processing performed in the main routine processing, and used in those processing The data to be processed will be described. FIG. 4 is a conceptual diagram showing a storage area of the ROM 53 of the main board 41. FIG. 5 is a conceptual diagram showing a storage area of the RAM 52 of the main board 41. FIG. 6 is a conceptual diagram showing the counter storage area 5201 of the RAM 52. FIG. 7 is a conceptual diagram showing a hit relation information storage area 5203 of the RAM 52. FIG. 8 is a conceptual diagram showing a remaining game number table stored in the remaining game number lottery table storage area 5305 of the ROM 53. FIG. 9 is a flowchart of a main routine process performed by the CPU 51 of the main board 41. 10 to 12 are flowcharts of normal symbol processing called in the main routine processing. FIG. 13 is a flowchart of the mode update process called in the normal symbol process.
[0037]
As shown in FIG. 4, the ROM 53 has an initial setting storage area 5301 for storing initial values stored in the respective storage areas when the pachinko machine 1 is reset, and the CPU 51 for controlling the pachinko machine 1. Control program storage area 5302 for storing various control programs, control command table storage area 5303 for storing a table of control commands output from the main board 41 to the sub-integrated board 58, and symbols and background colors to be displayed on the normal symbol display unit L1 The normal symbol combination pattern storage area 5304 for storing the combination of the game, the remaining game number lottery table storage area 5305 for storing the table to be referred to when the number of remaining games is lottered, and the effect performed when the result of the hit determination is notified. Production pattern storage area 530 in which information about the pattern is stored It is provided. Further, the ROM 53 is provided with various storage areas not shown.
[0038]
As shown in FIG. 5, the RAM 52 has a counter storage area 5201 for storing various counters, a flag indicating whether or not a game ball has passed through each gate, and whether or not a game ball has won each winning opening. A winning ball flag storage area 5202 for storing a game, a winning relation information storage area 5203 for storing a random number acquired when winning a game ball to the start winning port 12, and a control command output from the main board 41 to the sub-integrated board 58. A command relation storage area 5204 for storing, a flag relation storage area 5205 for storing various flags such as a special condition establishment flag, a winning game state flag, a mode flag, a normal symbol variation flag, and a high probability transition flag are provided. Further, the RAM 52 is provided with various storage areas not shown.
[0039]
Here, the special condition flag is, for example, when a winning of a game ball in a special winning opening (not shown) is detected, when a special lottery is performed independently of the winning judgment, and the lottery is won. This flag is used to immediately stop the fluctuation display of the normal symbol when a special condition (hereinafter referred to as “special condition”) is satisfied, such as when a specially set condition is satisfied. In addition, the winning game state flag is a flag indicating whether or not the winning game state, and the mode flag is a high-probability mode with a relatively short interval until the normal symbol fluctuation stop and a relatively long normal mode. This is a flag indicating which mode is selected. The normal symbol variation flag is a flag indicating the state of the normal symbol display portion L1, and the high probability transition flag is a flag for causing transition from the normal mode to the high probability mode. Note that a backup battery (not shown) is connected to the RAM 52 so that stored contents are retained even when the pachinko machine 1 is powered off.
[0040]
As shown in FIG. 6, the counter storage area 5201 includes a winning determination counter LC1, a normal symbol selection counter LC2, a first mode transition lottery counter LC3, a second mode transition lottery counter LC4, a remaining game number lottery counter LC5, and an auxiliary lottery. A counter LC6, an effect pattern determination counter LC7, an effect time counter TC1, a specified variation time counter TC2, and a remaining game number counter NC1 are stored. The value of each loop counter is captured and stored in the hit relation information storage area 5203 in normal symbol processing (see FIGS. 10 to 12) described later.
[0041]
The values of the hit determination counter LC1, the normal symbol selection counter LC2, the first mode transition lottery counter LC3, the second mode transition lottery counter LC4, the remaining game number lottery counter LC5, the auxiliary lottery counter LC6, and the effect pattern determination counter LC7 are: In the counter update process (see FIG. 9) of the main routine process of the control program of the pachinko machine 1 that is executed based on the interrupt signal from the interrupt signal generation circuit 57 (see FIG. 3), a time (for example, A predetermined amount (for example, “1”) is added every 2 ms (interval signal generation interval). Each counter is provided with a minimum value (lower limit value) and a maximum value (upper limit value), and is configured to circulate within a numerical value in the range from the minimum value to the maximum value. In other words, if the counter value becomes the same as the maximum value as a result of the update, the counter value takes the minimum value in the next update.
[0042]
The effect time counter TC1 and the specified variation time counter TC2 are used as timer counters for measuring the elapsed time, and are subtracted by a predetermined amount (for example, “1”) in the counter update process (see FIG. 9). The The remaining game number counter NC1 is used to count the number of remaining games in normal symbol processing (see FIGS. 10 to 12), and is decremented by a predetermined amount (for example, “1”) when a predetermined condition is satisfied. The Hereinafter, each counter will be described in detail.
[0043]
The value of the hit determination counter LC1 is used to determine the hit. The maximum value of the hit determination counter LC1 is “719”, and the minimum value is “0”. When “1” is added every interrupt (every 2 ms) and becomes “720” or more, the value returns to “0”. Accordingly, the value of the hit determination counter LC1 takes any value from “0” to “719”, and one period is 1440 ms. In addition, when the pachinko machine 1 is started, “0” is set as the initial value in the hit determination counter LC1, and when the value is rounded up to the same value as the initial value “0” by the update, a new initial value is acquired. Then, “1” is added to the initial value. This new initial value is repeatedly executed while the CPU 51 does not perform the main routine process (see FIG. 9) (until the main routine process ends and the main routine process is started by the next interrupt signal). Random numbers generated by initial value random number processing (processing for generating random numbers by a predetermined algorithm) (not shown) are used. For example, when the random number generated by the initial value random number processing is “18”, “19” and “20” are added by update, and when “719” is reached, “0” is returned and “1” is returned. , “2” is added, and when “18” is reached, a new initial value is acquired. Note that the maximum value of the hit determination counter LC1 may be a single set value, or setting means for selecting and setting different values such as setting 1, setting 2, and setting 3 may be provided.
[0044]
The value of the normal symbol selection counter LC2 is a combination of symbols and background colors displayed on the normal symbol display unit L1 for notifying the result of the hit determination, one of the 40 types of hits or 40 types of outliers. Used to select. The maximum value of this normal symbol selection counter LC2 is “39”, and the minimum value is “0”. When “1” is added every interrupt (every 2 ms) and becomes “40” or more, it becomes “0”. Return. Accordingly, the value of the normal symbol selection counter LC2 takes any value from “0” to “39”, and one period is 80 ms.
[0045]
The values of the first mode transition lottery counter LC3 and the second mode transition lottery counter LC4 determine whether or not to shift between the high probability mode and the normal mode in the mode change process (see FIG. 13). Used for. When a lottery based on the value of the first mode transition lottery counter LC3 is won, the second mode transition lottery counter LC4 is referred to, and based on this, the transition to either the high probability mode or the normal mode is determined. The values of the first and second mode transition lottery counters LC3 and LC4 are both the maximum value “255” and the minimum value “0”, and the first mode transition lottery counter LC3 has a first value every interrupt (every 2 ms). The 2-mode transition lottery counter LC4 is incremented by “1” every 5 interrupts (every 10 ms), and returns to “0” when it becomes “256” or more. Therefore, each of the values of the first and second mode transition lottery counters LC3 and LC4 takes any value from “0” to “255”, and one cycle of the first mode transition lottery counter LC3 is 512 ms. One cycle of the transfer lottery counter LC4 is 2560 ms.
[0046]
The value of the remaining game number lottery counter LC5 is used to determine the number of remaining games as a stop condition for stopping the variation display when the variation display of the normal symbol is started. The values of the remaining game number lottery counter LC5 are the maximum value “255” and the minimum value “0”, and “1” is added every 10 interrupts (every 20 ms) and becomes “256” or more. Return to. Therefore, the value of the remaining game number lottery counter LC5 takes any value from “0” to “255”, and one period is 5120 ms.
[0047]
The value of the auxiliary lottery counter LC6 is used as an auxiliary when determining the number of remaining games based on the value of the remaining game number lottery counter LC5. The remaining game number is determined based on the value of the auxiliary lottery counter LC6 from the range of the remaining game number selected from the remaining game number lottery table (see FIG. 8) referred to based on the value of the remaining game number lottery counter LC5. It has become so. The value of the auxiliary lottery counter LC6 is the maximum value “382” and the minimum value “0”, and “1” is added every interrupt (every 2 ms) and becomes “0” when it becomes “383” or more. Return. Therefore, the value of the auxiliary lottery counter LC6 takes any value from “0” to “382”, and one period is 766 ms.
[0048]
The effect pattern determination counter LC7 is used to determine an effect pattern to be displayed on the demo image display unit D1 or the like when the normal symbol is stopped. The effect pattern is a type of effect mode when notifying the result of the hit determination, and is selected according to the value of the effect pattern determination counter LC7 and the result of the hit determination. The selected effect pattern is transmitted to the sub-integrated board 58 as an effect pattern designation command, and further transmitted from the sub-integrated board 58 to the sound board 43, the symbol control board 44, and the illumination board 46. The time required for the production is determined for each production pattern, and is stored in the production pattern storage area 5306. In the present embodiment, 62 types of effect patterns are provided. Furthermore, different production patterns are provided depending on whether the hit determination result is a win or not. The maximum value of the effect pattern determination counter LC7 is “65535”, the minimum value is “0”, and “1” is added every interrupt (every 2 ms), and when it becomes “65536” or more, “ Return to "0". Accordingly, the effect pattern determination counter LC7 takes any value from “0” to “65535”, and any one of 62 types of effect patterns is assigned to each value.
[0049]
The effect time counter TC1 is a timer counter that is used to measure the lapse of time required for the effect performed when the variation of the normal symbol is stopped. If the variation display of the normal symbol is stopped, it becomes a chance to shift to the winning game state, and therefore, it is used for timing adjustment so that the variation display of the normal symbol is not stopped before the presentation is finished. An effect time determined by referring to a table (not shown) based on the effect pattern determined based on the value of the effect pattern determination counter LC7 and the hit determination result, an effect time column CLM8 ( When the effect for performing the fixed display of the normal symbol is performed, the effect time is stored as an initial value in the effect time counter TC1. Then, “1” is subtracted every interrupt (2 ms) in the counter update process, and when the value becomes “0”, the timing to end the effect is determined. For example, when the effect time associated with the determined effect pattern is 10 seconds, “5000” is set as the initial value. If the value is smaller than “0”, “0” is set.
[0050]
The prescribed variation time counter TC2 is defined so that the normal symbol variation display is not stopped within a prescribed time, for example, when “1” is selected during the lottery of the remaining number of games. It is a timer counter that is used to keep track of the fluctuation time. The specified fluctuation time is stored as an initial value, and “1” is subtracted every interrupt (2 ms) in the counter updating process, and the value may be stopped by stopping the fluctuation of the normal symbol. And If the specified fluctuation time is 5 seconds, “2500” is set as an initial value. If the value is smaller than “0”, “0” is set.
[0051]
The remaining game number counter NC1 is a counter for storing the number of remaining games determined based on the values of the remaining game number lottery counter LC5 and the auxiliary lottery counter LC6. When the number of remaining games is determined, the value is stored as an initial value. For example, every time a game ball wins the start winning opening 12 (every game), “1” is subtracted and the value becomes “0”. Normal symbols change is stopped. The remaining game number counter NC1 corresponds to “counting means” in the present invention.
[0052]
Next, the winning relation information storage area 5203 will be described. As shown in FIG. 7, the hit relation information storage area 5203 is provided with a determination area and a storage area M1. This winning relation information storage area 5203 is used in normal symbol processing (see S16 in FIG. 9) of main routine processing described later. In the storage area M1, random numbers acquired for the game balls won in the start winning opening 12 in the normal gaming state are stored. In the determination area, only when the random numbers stored in the storage area M1 are random numbers acquired before the start of the normal symbol variation display, these random number values are shifted from the storage area M1 and stored. A new random number is acquired every time the game ball wins the start winning opening 12, and each time the newly acquired random number is overwritten and stored in the storage area M1.
[0053]
Each of the determination area and the storage area M1 includes a hit random number column CLM1, a normal symbol pattern random number column CLM2, a first mode transition lottery random number column CLM3, a second mode transition lottery random number column CLM4, a remaining game number lottery random number column CLM5, An auxiliary lottery random number column CLM6 and an effect pattern determination random number column CLM7 are provided, and a winning random number, a normal symbol pattern random number, a first mode transition lottery random number, a second mode transition lottery random number, a remaining game number lottery random number, an auxiliary lottery random number, Each value of the effect pattern determination random number is stored. That is, the winning random number column CLM1, the normal symbol pattern random number column CLM2, the first mode transition lottery random number column CLM3, the second mode transition lottery random number column CLM4, the remaining game number lottery random number column CLM5, the auxiliary lottery random number column CLM6, the effect pattern determination random number Each of the columns CLM7 includes a hit determination counter LC1, a normal symbol selection counter LC2, a first mode transition lottery counter LC3, a second mode transition lottery counter LC4, a remaining game number lottery counter LC5, an auxiliary lottery counter LC6, and an effect pattern determination counter. The value of LC7 is stored. Furthermore, an effect time column CLM8 is provided in the determination area, and the time required for the effect by the effect pattern determined based on the effect pattern determination random number is stored.
[0054]
Next, the remaining game number lottery table stored in the remaining game number lottery table storage area 5305 will be described. As shown in FIG. 8, the remaining game number lottery table is a table for determining the remaining game number with different selection probabilities in each case when the value of the mode flag is “0” and “1”. is there. In the remaining game number column CLM11, the remaining game number ranges are “1”, “2-4”, “5-16”, “17-64”, “65-128”, “129-320”, “ It is divided into nine ranges of “321 to 640”, “641 to 1023”, and “1024” and stored. In the normal mode column CLM12 and the high probability mode column CLM13, when the mode flag is “0” (normal mode) and “1” (high probability mode), the remaining game number lottery random numbers (“0” to “255”). The value of the remaining game number lottery random number associated with each range is stored so that any one of the remaining game numbers is selected on the basis of “any one value”. For example, when the value of the remaining game number lottery random number is “128” in the high probability mode, any value of “5 to 16” is set as the remaining game number. Then, the number of remaining games is determined based on a table (not shown) in which each value in the range of “5 to 16” is associated with the value of the auxiliary lottery random number (any one of “0” to “255”). Is done. Similarly, each value in the other range of the number of remaining games is associated with the value of the auxiliary lottery random number (any value from “0” to “255”) in the table. Note that the remaining game number lottery table referred to in the normal mode corresponds to the “first reference detection number table” in the present invention, and the remaining game number lottery table storage area 5305 storing this is the “storage means” in the present invention. Is equivalent to. Further, the remaining game number lottery table referred to in the high probability mode corresponds to the “second reference detection number table” in the present invention.
[0055]
Next, details of the operation of the pachinko machine 1 will be described with reference to the flowcharts shown in FIGS. Hereinafter, each step of the flowchart is abbreviated as “S”.
[0056]
The control of the pachinko machine 1 is performed by a control program stored in a control program storage area 5302 (see FIG. 4) of the ROM 53. The main routine process of the control program is executed by the CPU 51 when the CPU 51 senses an interrupt signal generated by the interrupt signal generation circuit 57 (see FIG. 3). Since the interrupt signal is generated at regular intervals (2 ms in the present embodiment), the main routine process is repeatedly executed every 2 ms. Note that one main routine process is configured to end within 2 ms. When the power of the pachinko machine 1 is turned off, the checksum of the RAM 52 is calculated and a password is generated by, for example, a hash function. When the power is turned on next time, the checksum of the RAM 52 calculated by performing the same process and the generated password are performed. The identity check is performed. When the identity with the last power-off is not recognized, the CPU 51 of the pachinko machine 1 uses the value stored in the initial setting storage area 5301 of the ROM 53, for example, clears the value of each counter and each flag. For example, the pachinko machine 1 is reset. The pachinko machine 1 is also reset when the power of the pachinko machine 1 is turned on while pressing a reset button (not shown). When the pachinko machine 1 is not reset, so-called return processing is performed in which the state of each storage area of the RAM 52 is returned to the same state as when the power was previously turned off.
[0057]
When the main routine process shown in FIG. 9 is started by sensing the interrupt signal, a command output process is first performed (S10). In this command output process, a control command is output to the sub integrated board 58 via the I / O interface 54. The control command is, for example, instructed to start the normal symbol variation display, and is performed when designating which winning symbol to notify of the hit determination result or the off symbol, or when stopping the normal symbol. Normal symbol variation start command for designating a production pattern, normal symbol variation stop command for stopping variation display of a normal symbol, winning notification command for transmitting that a game ball has won a winning winning opening 12, and other winning games For example, a command for controlling each accessory activated in the state, a command for notifying the operation state, and the like. The control command output here is a control command stored as an output command in the command relation storage area 5204 in the main routine process executed last time.
[0058]
As for the output of the control command to the sub integrated board 58, only one command is transmitted in one main routine process. When a plurality of control commands are stored in the command relation storage area 5204, they are sequentially output one by one in the processing of the main routine after the next time.
[0059]
Next, a switch reading process is performed (S11). This switch reading process is to detect the winning of game balls to the start winning opening 12, the specific winning opening 15, the third type starting opening 11, the large winning opening 16, the normal winning openings 17 to 20, and the like. Specifically, the start winning opening switch 70 provided in the start winning opening 12, the stop ball switch 72 provided in the rotating body operating region in the specific winning opening 15, and the third type starting opening 11 are provided. The third type start port switch 74, the V switch 76 provided in the V region of the grand prize winning port 16, the count switch 77 provided in the big prize winning port 16, the normal prize winning ports 17 to 20, etc. The detection state of the normal winning opening switches 78 to 81 for detecting the winning of the game ball is confirmed. When it is determined that the winning is made, “1” is stored in the flag corresponding to each switch stored in the winning ball flag storage area 5202 of the RAM 52 and is set to “ON”.
[0060]
It should be noted that the main routine process that performs the switch reading process is executed at intervals at which the CPU 51 receives the interrupt signal, that is, every 2 ms. Therefore, considering the speed at which the game ball passes through the switch and the size of the game ball, the switch reading process is performed a plurality of times while one game ball passes through the switch. Therefore, winning of one game ball is detected by a plurality of continuous switch reading processes. Therefore, for example, it is determined that the game ball has won a prize only when the state of “non-detection”, “detection”, and “detection” is reached in three consecutive executions of the switch reading process. At the start of the switch reading process, all the flags in the winning ball flag storage area 5202 are reset.
[0061]
When the switch reading process ends, a counter update process is then performed (S12). In this counter update process, the hit determination counter LC1, the normal symbol selection counter LC2, the first mode transition lottery counter LC3, the second mode transition lottery counter LC4, which are stored in the counter storage area 5201 (see FIG. 6) of the RAM 52, respectively. Each value of the remaining game number lottery counter LC5, auxiliary lottery counter LC6, and effect pattern determination counter LC7 is added by the predetermined amount described above, and each value of the effect time counter TC1 and the specified variation time counter TC2 is subtracted by the predetermined amount described above. The
[0062]
When the counter update process is completed, the electric accessory process is performed (S13). In this electric accessory processing, control commands such as a command for controlling the operation of each accessory in the winning game state and a command for notifying the operating state of each accessory are stored in the command relation storage area 5204. The This electric accessory processing is executed when “1” is stored in the winning game state flag stored in the flag relation storage area 5205 of the RAM 52 and is “ON”. The winning game state flag is set in the normal symbol process (S16) when winning is notified as a winning determination result. Then, when the next main routine process is executed, the operation in the gaming state is started by the electric accessory process. The winning game state flag is “OFF” because “0” is stored when the operation in the winning game state is terminated.
[0063]
When the electric accessory process is completed, a normal symbol process (S16) is performed. In the normal symbol processing, winning determination, combination of symbols displayed on the normal symbol display portion L1, determination of effect pattern when stopping the variation display of the normal symbol, instruction, start and end of variation display of the normal symbol Instructions are given. This normal symbol processing will be described later with reference to the flowcharts shown in FIGS.
[0064]
When the normal symbol process is completed, a payout process for paying out prize balls is performed (S17), and then an error check is performed (S18). When an error has occurred in the pachinko machine 1, the normal symbol display device 8 displays an error, the illumination lamp 63 performs a lighting / flashing pattern at the time of an error, or an error sound is output from the speaker 48. In order to generate a sound, an error command to be transmitted to the sub-integrated board 58 in the command output process of S10 is stored in the command relation storage area 5204. Next, an information output process is performed (S19). In this information output process, various types of information such as hit information of the pachinko machine 1 and start information are output via the output port 55 to a game hall management computer (not shown). When the information output process ends, the main routine process ends. When the interrupt signal is received from the interrupt signal generation circuit 57, the main routine process is repeatedly executed.
[0065]
Here, a series of flows of the main routine process will be described by taking as an example the operation of the pachinko machine 1 when a certain game ball wins the start winning opening 12 and is determined to be a win. When the player operates a launch handle 7 provided on the lower side of the game board 2 to launch a game ball into the game area 4, the game ball flows down the game area 4. When the game ball wins the start winning opening 12, the winning of the game ball to the start winning opening 12 is detected in the switch reading process, and the corresponding flag in the winning ball flag storage area 5202 is set to “ON” (S 11). . Next, in the normal symbol process (S16), a hit determination is performed, and the variation of the symbol on the normal symbol display portion L1 is started. If the stop condition for stopping the fluctuation display of the normal symbol is satisfied while the main routine process is repeatedly performed, the normal symbol is fixedly displayed. The combination of the normal symbols at this time is a combination that is “winning”, and when the stop display of the winning symbol is finished, “1” is stored in the winning game state flag of the flag relation storage area 5205 in the normal symbol processing. “ON” is set (S16). Then, the operation in the winning game state is started in the electric accessory process (S13) of the main routine process performed by the next interrupt signal. As described above, if the game ball stops in the rotating body operation area in the specific winning opening 15, the gaming ball can be won at the third type starting port 11, and further the gaming ball wins at the third type starting port 11. As a result, the special winning opening 16 is opened. In the winning game state, while the main routine process is repeatedly performed, each accessory is controlled in accordance with a predetermined condition generated in the electric accessory process (S13), and the player can acquire a large number of prize balls. it can. At the end of the winning game state, “0” is stored in the winning game state flag and set to “OFF”, and a series of operations relating to the game ball is ended. The pachinko machine 1 is shifted to the normal gaming state.
[0066]
Next, the details of the normal symbol process (S16) of the main routine process will be described with reference to the flowcharts shown in FIGS. As described above, in the normal symbol processing, determination of winning, combination of symbols displayed on the normal symbol display portion L1, determination of effect pattern when stopping the variation display of the ordinary symbol, instruction, variation display of the ordinary symbol The start and end instructions are performed.
[0067]
First, flags used in normal symbol processing will be described. As described above, the flag relation storage area 5205 stores a special condition satisfaction flag, a winning game state flag, a mode flag, a normal symbol variation flag, and a high probability transition flag. As described above, the special condition satisfaction flag is used to immediately stop the normal symbol variation display even if the number of remaining games is not “0” when the special condition preset in the pachinko machine 1 is satisfied. In the normal gaming state, “0” is stored and “OFF”, but “1” is stored and “ON” when the special condition is satisfied. The winning game state flag stores “1” when the winning game state is stored and is “ON”, and stores “0” and is “OFF” during the normal game state. When the remaining game number is determined, the mode flag indicates whether the mode is a high probability mode in which a relatively small remaining game number is easily set or a normal mode in which a relatively large remaining game number is easily set. This flag is for indicating “1” in the high probability mode and “0” in the normal mode. The normal symbol variation flag is a flag indicating the state of the normal symbol displayed on the normal symbol display portion L1, and is “0” when the normal symbol variation display is not started, and when the variation variation of the normal symbol is performed. Or “1” during variable display, and “2” is stored when postponing the stop display of the normal symbol variation display to delay the normal symbol variation display when a stop condition is met. ing. The high probability transition flag is a flag for ensuring that the high probability mode is set when determining the number of remaining games. In the normal gaming state, “0” is stored and “OFF”, but “1” is stored when a special condition is satisfied, or when a predetermined condition set in advance is satisfied. "ON", and is referred to when the number of remaining games is determined.
[0068]
As shown in FIG. 10, when the normal symbol process of the main routine process is started, a determination is made as to whether or not a winning gaming state is made by a winning gaming state flag (S100). When it is a winning game state, no hit determination or notification of the determination result is performed. If the winning game state flag is “ON” (S100: YES), the process returns to the main routine without doing anything.
[0069]
When the winning game state flag is “OFF” (S100: NO), since it is in the normal game state, processing related to the control of the normal symbol display portion L1 is performed. First, it is determined whether or not the special condition satisfaction flag is “1” (S101). If the above-described special condition is not satisfied (S101: NO), it is next determined whether or not a game ball has won the start winning opening 12 (S106). In the main routine processing switch reading process (FIG. 9, S11), when the start winning port switch 70 provided in the start winning port 12 detects the winning of a game ball, the start winning in the winning ball flag storage area 5202 is detected. The flag corresponding to the mouth switch 70 is “ON”. Therefore, in S106, it is determined whether or not the flag corresponding to the start winning opening switch 70 is “ON”. If it is not “ON” (S106: NO), a game ball is placed in the starting winning opening 12. Since no winning is made, the process proceeds to S160 in FIG.
[0070]
In S160 shown in FIG. 12, after the start of normal symbol fluctuation display, whether or not the prescribed fluctuation time has elapsed is checked so as not to be fixedly displayed within a predetermined time (S160). Specifically, it is confirmed whether or not the value of the specified fluctuation time counter TC2 is “0”. The value of the specified fluctuation time counter TC2 is subtracted every time the main routine process is executed, and the initial value is set only when the normal symbol fluctuation display is started. Many (S160: YES). However, if the stop condition is not satisfied even before or after the start of variation display of the normal symbol, the value of the normal symbol variation flag is “0” or “1” (S161: NO). Returning to the main routine process as it is.
[0071]
On the other hand, as shown in FIG. 10, when the game ball wins the start winning port 12 and the flag corresponding to the start winning port switch 70 is "ON" (S106: YES), the winning game ball Is obtained, and the random number is stored in the storage area M1 of the winning relation information storage area 5203 (S107). Specifically, in the storage area M1, the value of the hit determination counter LC1 is used as the hit random number in the hit random number column CLM1, and the value of the normal symbol selection counter LC2 is set as the normal symbol pattern random number in the normal symbol pattern random number column CLM2. The value of the first mode transition lottery counter LC3 is the first mode transition lottery random number in the 1 mode transition lottery random number column CLM3, and the value of the second mode transition lottery counter LC4 is the second mode in the second mode transition lottery random number column CLM4. As the transfer lottery random number, the value of the remaining game number lottery counter LC5 is used as the remaining game number lottery random number column CLM5 as the remaining game number lottery random number, and the value of the auxiliary lottery counter LC6 is used as the auxiliary lottery random number in the auxiliary lottery random number column CLM6. The pattern determination random number column CLM7 has a production pattern determination counter LC. Values as presentation pattern determining random numbers, are respectively stored. In the process of S107, the CPU 51 that acquires the winning random number, the remaining game number lottery random number, and the auxiliary lottery random number corresponds to the “winning random number acquisition means” and the “reference detection number lottery means” in the present invention, respectively. To do.
[0072]
Next, a mode update process is performed (S108). As described above, the pachinko machine 1 according to the present embodiment has a high probability mode in which a relatively small remaining game number is easily set when determining the remaining game number, and a normal mode in which a relatively large remaining game number is easily set. And have two modes. The transition between the modes is a win determination when a lottery is made each time a game ball wins the start winning opening 12 or when a game ball wins other special winning openings not shown. It is triggered when a predetermined lottery performed independently is won. The mode update process is a process of performing a lottery for mode transition every time a game ball wins the start winning opening 12 among the above. The CPU 51 that executes the mode update process called in the process of S108 corresponds to the “mode switching means” in the present invention.
[0073]
As shown in FIG. 13, in the mode update processing subroutine, first, the first mode transition lottery random number (the value of the first mode transition lottery random number column CLM3 in the storage area M1 of the winning relation information storage area 5203) is referred to. As described above, the first mode transition lottery random number has any value from “0” to “255”, and is based on the second mode transition lottery random number depending on whether this value is smaller than “8”. Whether or not to perform a mode change lottery is determined (S171). If the value of the first mode transition lottery random number is “8” or more, the mode change lottery is not performed (S171: NO), and the routine returns to the normal symbol processing. If the value of the first mode transition lottery random number is less than “8”, a mode change lottery is performed (S171: YES). Next, in order to confirm whether or not the current mode is the high probability mode, the mode flag is referred to (S172).
[0074]
If the current mode is the normal mode (S172: NO), the lottery random number indicating whether or not to maintain the normal mode is performed, so the second mode shift lottery random number (the value of the second mode shift lottery random number column CLM4 in the storage area M1) is Reference is made (S173). The value of the second mode transition lottery random number is also one of “0” to “255”, and if this value is smaller than “254” (S173: YES), the normal mode is maintained, so that it is normal as it is. Return to symbol processing. If the value of the second mode transition lottery random number is “254” or “255” (S173: NO), “1” is stored in the mode flag in order to shift from the current normal mode to the high probability mode (S175). Return to normal symbol processing.
[0075]
Therefore, from the normal mode to the high probability mode, when the game ball wins the start winning opening 12, a lottery with a probability of 1/32 based on the first mode transfer lottery random number is won, and further, the second mode transfer lottery random number is selected. This is a case where a lottery with a probability of 2/256 is won, and a transition is made with a probability of 1/44096.
[0076]
On the other hand, when the mode change lottery is performed (S171: YES), if it is the high probability mode (S172: YES), in order to perform the lottery whether to maintain the high probability mode, the second mode transition lottery random number is Reference is made (S176). If the value of the second mode transition lottery random number is smaller than “208” (S176: YES), the process returns to the normal symbol processing as it is to maintain the high probability mode. However, if the value of the second mode transition lottery random number is “208” or more (S176: NO), “0” is stored in the mode flag in order to shift from the current high probability mode to the normal mode (S177), Return to normal symbol processing.
[0077]
Therefore, from the high probability mode to the normal mode, when the game ball wins the start winning opening 12, a lottery with a probability of 1/32 based on the first mode transition lottery random number is won, and further, the second mode transition lottery random number is selected. This is a case where a lottery with a probability of 48/256 is won and a transition is made with a probability of 1/170.
[0078]
When the mode update process is terminated and the normal symbol process is resumed, it is next confirmed whether or not the normal symbol has not changed (S110). If the normal symbol variation display has already been started, the normal symbol variation flag has a value of “1” or “2” (S110: NO), so that the normal symbol variation display is started. A series of processing (S115 to S132) is not performed. However, in order to transmit to the sub-integrated board 58 that a game ball has been won at the start winning opening 12, a winning notification command is stored in the command relation storage area 5204 (S111), and thereafter, the process proceeds to S135 (see FIG. 11). On the other hand, when the normal symbol variation flag is “0” and the variation display of the ordinary symbol has not started yet (S110: YES), the process proceeds to S115 to start the variation display.
[0079]
In the next process, each random number value stored in the storage area M1 of the winning relation information storage area 5203 is shifted to the determination area (S115). By this processing, each random number value acquired for the game ball won in the start winning opening 12 when the normal symbol variation display is not performed is shifted and stored in the determination area. As described above, the stored value in the storage area M1 is overwritten with a newly acquired random number each time a game ball wins the start winning opening 12.
[0080]
The processing of S116 to S118 performed next increases the determination of the number of remaining games performed in the processing of S120 to S122 when a special condition is satisfied or when a predetermined condition set in advance is satisfied. This is processing for performing in the probability mode. That is, when the high probability transition flag is “1” (S116: YES), “1” is stored in the mode flag (S117), and the forced transition to the high probability mode is performed. Then, “0” is stored in the high probability transition flag (S118), and the processing of S117 and S118 is not performed in the normal symbol processing after the next time (S116: NO). Thereafter, the process proceeds to S120.
[0081]
In the present embodiment, the processing of S116 to S118 is executed only when the game ball is won at the start winning opening 12 in the normal game state before the start of the normal symbol variation display (S100: NO, S106: YES, S110: YES). Therefore, even if the above condition is satisfied and “1” is stored in the high probability transition flag at any timing during the normal gaming state or the winning gaming state, the “ON” state of the high probability transition flag is maintained. Is done.
[0082]
In the processing of S120 to S122, the remaining game number lottery table (see FIG. 8) stored in the remaining game number lottery table storage area 5305 is referred to, and the remaining game number is determined with a selection probability that differs depending on the current mode. . As described above, the value of the remaining game number lottery random number (the value of the remaining game number lottery random number column CLM5 in the determination area of the winning relation information storage area 5203) and the value of the auxiliary lottery random number (the auxiliary lottery random number column CLM6 of the determination area) Value) and the value of the mode flag, the remaining game number is determined from the referenced remaining game number lottery table. That is, the value of the mode flag is referred to confirm whether or not the current mode is the high probability mode (S120). If the value of the mode flag is “0” (S120: NO), The remaining game number is determined with the selection probability, and the remaining game number is stored in the remaining game number counter NC1 to set the remaining game number (S121). Similarly, when the value of the mode flag is “1” (S120: YES), the remaining game number determined by the selection probability in the high probability mode is stored in the remaining game number counter NC1, and the remaining game number is set. Is performed (S122). In the processing of S121 and S122, the CPU 51 that determines the number of remaining games corresponds to the “reference detection number determining means” in the present invention.
[0083]
Next, as shown in FIG. 11, a hit determination is performed, and based on the determination result, determination of a combination of symbols at the time of fixed display of a normal symbol and determination of an effect pattern performed at that time are performed. (S125-S129). First, it is determined whether or not the winning random number (the value of the winning random number column CLM1 in the determination area) satisfies the winning condition (S125). As described above, the value of the winning random number is any one of “0” to “719”, and when the value is less than “667”, it is determined as “winning” (S125: YES). That is, the probability of winning is 666/720 (about 1 / 1.08). Then, based on the value of the normal symbol pattern random number (the value of the normal symbol pattern random number column CLM2 in the determination area), any of the 40 types of winning symbols stored in the normal symbol combination pattern storage area 5304 of the ROM 53 is fixedly displayed. Is determined (S128). Further, based on the effect pattern determination random number (value of the effect pattern determination random number column CLM7 in the determination area), the effect patterns for confirming and displaying the winning symbol are determined from the 62 types of effect patterns at the time of winning (S129). Similarly, when the value of the hit random number is “667” or more and it is determined to be “out of” (S125: NO), the 40 types stored in the normal symbol combination pattern storage area 5304 based on the value of the normal symbol pattern random number. It is determined which of the out-of-place symbols is to be confirmed and displayed (S126), and the effect patterns for confirming and displaying the out-of-order symbols are determined from 62 types of effect patterns at the time of detachment (S127). Note that the CPU 51 that determines whether or not it is a hit in the determination process of S125 corresponds to the “hit determination unit” in the present invention.
[0084]
The hit condition is that the hit random number is a specific value determined as a hit, for example, any value from “0” to “666” in the present embodiment. The specific value determined as the hit need not necessarily be this value, and the probability of winning can be arbitrarily set by increasing or decreasing the type of the specific value determined as the hit. Good.
[0085]
Then, a normal symbol variation start command for starting the normal symbol variation display is stored in the command relation storage area 5204 (S130). At this time, the number of remaining games determined by the processing of S120 to S122, the winning symbol or the off symbol determined by the processing of S126, S128, and the effect pattern at the time of hitting or losing determined by the processing of S127, S129 Is stored as a variable of the normal symbol variation start command, and is output to the sub integrated board 58 in the command output process (see S10 in FIG. 9) of the next main routine process. The CPU 51 that stores the normal symbol variation start command in the processing of S130 corresponds to the “variation display instruction means” in the present invention.
[0086]
Next, “1” is stored in the normal symbol variation flag (S131). Thereby, in the normal symbol processing after the next time, the processing of S115 to S132 is not performed, and the hit determination and the determination of the number of remaining games are not performed again. Then, the set value of the specified variation time stored in the initial setting storage area 5301 of the ROM 53 is set as the value of the specified variation time counter TC2 (S132), and the measurement of the passage of the specified variation time is started.
[0087]
The next processing of S135 to S138 is processing for immediately stopping the change display of the normal symbol even if the remaining game number is not “0” when the above-described special condition is satisfied. Further, in this process, the remaining number of games is determined in the high probability mode when the next normal symbol variation display is started. Therefore, first, it is confirmed whether or not “1” is stored in the special condition satisfaction flag and is “ON” (S135). If the special condition satisfaction flag is “OFF” (S135: NO), the process proceeds to S150 without performing the processes of S136 to S138.
[0088]
When the special condition satisfaction flag is “ON” (S135: YES), normally, “1” is subtracted for each game and “0” is displayed, so that the normal symbol is displayed. “1” is stored in the remaining game number counter NC 1 (S 136) so that the normal symbol variation display can be stopped immediately. Further, “1” is stored in the high probability transition flag (S137) so that the next remaining game number is determined in the high probability mode. Next, “0” is stored in the special condition satisfaction flag (S138), and the processing of S136 to S138 is not performed in the normal symbol processing after the next time (S135: NO). Thereafter, the process proceeds to S150.
[0089]
Then, a process of subtracting “1” from the value of the remaining game number counter NC1 is performed (S150). Further, it is confirmed whether or not the value of the remaining game number counter NC1 is “0” (S151). When the value of the remaining game number counter NC1 set in the processing of S120 to S122 is not “0”, the process proceeds to S160 in order to continue the normal symbol variation display (S151: NO). On the other hand, if the value of the remaining game number counter NC1 is “0” (S151: YES), the process of S152 and S153 is performed to display the fixed symbol. The CPU 51 that checks whether or not the number of remaining games has become “0” in the determination process of S151 corresponds to “stop condition determination means” in the present invention, and “reference detection number determination in claim 2”. It corresponds to “means”.
[0090]
When the normal symbol confirmation display is performed (S151: YES), first, “2” is stored in the normal symbol variation flag (S152), and the ordinary symbol variation display is stopped. The output timing of the symbol stop command can be adjusted. Then, the effect time determined in the process of S127 or S129 is read from the effect time column CLM8 in the determination area, and is set in the effect time counter TC1 (S153). Then, the process proceeds to S160.
[0091]
As described above, in the determination process of S160 shown in FIG. 12, whether or not the specified variation time has elapsed is confirmed based on the value of the specified variation time counter TC2. For example, when a game ball is won at the start winning opening 12 (S106: YES) and the normal symbol variation display is started (S110: YES), the number of remaining games is determined (S121 or S122). When “1” is set as the number of remaining games, the remaining game number counter NC1 is subtracted (S150), and when it becomes “0” (S151: YES), it is normal when the normal symbol variation start command has not yet been output. The condition for stopping the fluctuation of the symbol is satisfied. However, since the initial value is set to the value of the specified fluctuation time counter TC2 in the process of S132, the value of the specified fluctuation time counter TC2 is a value larger than “0” (S160: NO), and the main routine is left as it is. Since the process returns, the normal symbol variation stop command is not output.
[0092]
Further, even after the specified fluctuation time has elapsed since the start of the normal symbol variation display (S160: YES), if the normal symbol variation stop condition is not satisfied (S161: NO), the main routine process is continued. Therefore, the normal symbol fluctuation stop command is not output.
[0093]
Further, when the remaining number of games becomes “0”, the condition for stopping the variation of the normal symbol is satisfied, and after “2” is stored in the normal symbol variation flag (S161: YES), the effect time counter TC1 is determined in S153. As long as the production time set to 1 has not elapsed (S162: NO), the routine returns to the main routine as it is, so that the normal symbol variation stop command is not output. Also, even if the game ball wins the start winning opening 12 during this production time, the remaining game number will not be “0” (S150, S151: NO), and the production time is reset. There is no.
[0094]
When the main routine process is repeated and the value of the effect time counter TC1 becomes “0” (S162: YES), the normal symbol stop command is stored in the command relation storage area 5204 (S163). At this time, the winning determination is performed again, and it is confirmed whether or not the winning random number (the value of the winning random number column CLM1 in the determination area) satisfies the winning condition (S165). : YES), “1” is stored in the winning game state flag (S166), and when it is determined to be “disconnected” (S165: NO), the winning game state flag remains “0” and the process proceeds to S167. In the processing of S163, the CPU 51 that stores the normal symbol stop command corresponds to the “determining display instruction means” in the present invention.
[0095]
Next, when “0” is stored in the normal symbol variation flag (S167), the pachinko machine 1 is in a state before the normal symbol variation display is started. If the result of the hit determination is “out of place”, in the normal gaming state, the state is the state before the start of the normal symbol variation display and before the game ball wins the start winning opening 12. Further, if the result of the winning determination is “winning”, “1” is stored in the winning game state flag. Therefore, in the next and subsequent normal symbol processing, nothing is performed by the determination processing in S100 and the main routine processing is performed. Return. Further, in the electric accessory process (S13) of the main routine process, the operation of the accessory in the winning gaming state is controlled.
[0096]
By the way, when the special condition is satisfied, the process for stopping the change display of the normal symbol is performed immediately even if the remaining game number is not “0” in the processes of S135 to S138. If the special condition is not established when the game ball is won at the start winning opening 12, if the normal symbol variation display is already started, the normal symbol variation is not waited for the game ball to win. Processing of S101 and S102 is provided so that the display can be stopped. That is, in the normal symbol process, it is confirmed whether or not the special condition satisfaction flag is “ON” (S101) before the determination of whether or not a game ball is won at the start winning opening 12 (S106). If it is “ON” (S101: YES), it is next checked whether or not the value of the normal symbol variation flag is “0” (S102). In order to ensure that the normal symbol variation display and finalization display are always performed, if the normal symbol variation display has not yet been started (S102: YES), the process proceeds to S106, and the game ball winning of the start winning opening 12 is determined. Existence is confirmed. This is because it is necessary to win at least one game ball into the start winning opening 12 in order to perform the normal symbol variation display. If the normal symbol is already being displayed in a variable manner (S102: NO), the process proceeds to S135, and as described above, the processing of S136 to S138 is performed, so that even if the remaining number of games is not “0”, immediately. A process for stopping the variable symbol display of normal symbols is performed.
[0097]
As described above, in the pachinko machine 1 according to the present embodiment, when a game ball wins the start winning opening 12 (S106: YES), various random numbers are acquired (S107), and the number of remaining games is based on the random numbers. Are set (S121, S122), the winning symbol or the off symbol is determined (S126, S128), and the effect pattern is determined (S127, S129). Further, a control command for starting the normal symbol variation display on the sub-integrated board 58 is stored (S130). Then, while the main routine process is repeatedly performed, the normal symbol process is also repeatedly performed, and the number of remaining games is subtracted every time the game ball wins the start winning opening 12 (S150). When the remaining number of games becomes “0” (S151), an effect for performing the fixed display of the normal symbol is performed, and when the time required for the effect has elapsed (S162: YES), the variable symbol display is stopped. The control command is stored (S163), and a fixed display is performed. At this time, if the normal symbol displayed on the normal symbol display portion L1 is a winning symbol, the winning gaming state flag is set to “ON” (S166), and the state is shifted to the winning gaming state. In the normal symbol processing after the next time, processing based on winning of a game ball at the start winning opening 12 is not performed until the winning gaming state is finished (S100: YES).
[0098]
In addition, when the special condition is established during the normal gaming state, the remaining number of games can be set to “1” and the normal symbol can be immediately displayed (S135 to S138). If a game ball winning is detected in a special winning opening not shown in the figure, or if a special lottery is performed independently of the winning judgment and the lottery is won, other specially set conditions are satisfied. If the case is set, chances of transition to various hit gaming states can be set for the pachinko machine 1, and the player's sense of expectation for the hit game can be increased and the enjoyment of the game can be increased.
[0099]
In addition, by having a high probability mode in which the remaining number of games is relatively small and easy to set, and a normal mode in which relatively many games are easy to set, the game state is continuously generated when transitioning to the high probability mode. It can be made easier. The transition from the normal mode to the high probability mode is performed by lottery when a special condition is satisfied or when a game ball is won at the start winning opening 12, but the condition for establishing the high probability transition flag is arbitrarily set. Is also possible. The transition from the high-probability mode to the normal mode is performed by lottery, but if the lottery is not won, the high-probability mode can be maintained. You can have a sense of anticipation and increase the enjoyment of the game.
[0100]
The sub-integrated board 58 is notified of the normal symbol hit determination result, the number of remaining games, and the effect pattern at the start of the normal symbol variation display, and the game ball wins the start winning opening 12. Since the winning is notified every time, the timing of the transition to the gaming state can be grasped on the sub-integrated board side based on the transmitted information, and the demonstration image display unit D1 or the like is notified accordingly. It can be carried out.
[0101]
Needless to say, the present invention can be modified in various ways. For example, a special feature may be established on the basis of a winning combination and the like. For example, as shown in FIG. 14, a known croon 30 is provided at the bottom of the symbol display screen 28, and a croon inlet 31 is provided at the left. The Kroon 30 is provided with two Kroon winning ports 30a, 30b, and Kroon winning switches 32a, 32b for detecting game balls that have won the respective Kroon winning ports 30a, 30b. The Kroon winning switches 32a and 32b are provided on the back side of the game board 2, and the game balls that have won the Kroon winning ports 30a and 30b pass therethrough, respectively. Further, a passage 30 c for guiding the game ball to the croon 30 is connected to the croon inlet 31 on the back side of the symbol display screen 28. And the obstacle nail around the Kroon entrance 31 adjusts the game ball so that it is difficult to enter the Kleon entrance 31, so that the player feels uplifted when the game ball enters the Kleon entrance 31. You can hold them. Then, the game ball guided into the crune 30 by the passage 30c turns for a while along the inner periphery of the crune 30 and eventually wins one of the crone winning openings 30a, 30b. For example, if the prize winning at the Kroon winning opening 30a is “win” and “1” is stored in the special condition satisfaction flag, the normal symbol is confirmed and displayed even if the remaining number of games is not “0”. Can get a chance to enter the gaming state. The Kroon winning ports 30a and 30b correspond to “special winning ports” in the present invention, and the Kroon winning switches 32a and 32b correspond to “special game ball detecting means” in the present invention.
[0102]
In addition, for example, a loop counter LC8 similar to that of the present embodiment is provided separately, and when a game ball wins a crone winning opening 30a, 30b, a random number is obtained from the loop counter LC8, and based on the value of the random number, for example, The special condition establishment flag may be set to “ON” with a probability of 1/10 when winning at the Kroon winning opening 30a, and 1 / 1.1 when winning at the Kroon winning opening 30b. It is possible to realize various game characteristics. In addition, the arrangement position of the croon 30 is not limited to the lower part of the above-mentioned symbol display screen 28, You may provide in arbitrary positions. The CPU 51 that determines whether or not the special condition satisfaction flag is set to “ON” based on the random number obtained from the loop counter LC8 corresponds to the “stop condition satisfaction lottery means” in the present invention.
[0103]
In addition, when a game ball winning is detected in a plurality of winning holes, for example, the starting winning hole 12 or the normal winning holes 17 to 20, and the winning order is a predetermined winning order, a special condition is established. The special condition satisfaction flag may be set to “ON”. For example, the mission process shown in FIG. 15 is executed as a subroutine called between the normal symbol process S153 and the process S160. Further, for example, when a mode update process (see FIG. 13) is performed, it is possible to separately acquire a value of a loop counter LC9 (for example, “0” to “65535”) similar to the present embodiment. ) And using the random number (mission selection random number) acquired from the loop counter LC9, the lottery for starting the mission and the determination of the conditions I, II, III, and IV to instruct the player during the mission I do. The mission refers to a gaming state in which the player can establish a special condition by satisfying the conditions I to IV according to the procedure displayed on the symbol display screen 28 or the like.
[0104]
Here, the mission flag used in the mission process and the conditions I to IV will be described. The mission flag is a flag indicating the state of the mission, and the value thereof is any one of “0”, “1”, “2”, “3”, “4”, “5”. If the mission is not started, “0” is stored as the value of the mission flag. “1” is stored when the mission is started, “2” is satisfied when the condition I is satisfied, and “3” is satisfied when the condition II is satisfied. “4” is stored when the condition III is satisfied, and “5” is stored when the condition IV is satisfied. If the conditions I to IV are not satisfied in that order, “0” is stored in the mission flag.
[0105]
The conditions I to IV include, for example, flags corresponding to the start winning port switch 70 and the normal winning port switches 78 to 81 for detecting winning at the start winning port 12 and the normal winning ports 17 to 20 (winning ball flag storage area). 5202). Which of the conditions I to IV corresponds to which flag is established depends on a mission selection table (see FIG. 16) associated with the value of the mission selection random number acquired from the loop counter LC9 in a predetermined storage area of the ROM 53. It should be stored and referred to only when the mission flag is “0” and the mission is won (for example, when the value is “624” or less). Further, the conditions I to IV may be overlapped. When a mission is won, a mission state command (having a mission flag value “1” as a variable) is output to the sub-integrated board 58. It should be noted that the normal winning ports 17 to 20 and the starting winning port 12, and the normal winning port switches 78 to 81 and the starting winning port switch 70 are respectively “a plurality of start winning ports” and “ It corresponds to “a plurality of game ball detecting means”.
[0106]
Here, the mission selection table will be described with reference to FIG. In the mission selection table, the value of the mission selection random number (“0” to “624”) obtained from the loop counter LC9 is associated with the mission conditions I to IV. The mission selection random number column CLM15 is assigned values “0” to “624” of mission selection random numbers. One of the setting conditions i, ii, iii, iv, and v is set in the condition I column CLM16, the condition II column CLM17, the condition III column CLM18, and the condition IV column CLM19 corresponding to each value. For example, the setting condition i is a prize to the normal prize opening 17, the setting condition ii is a prize to the normal prize slot 18, the setting condition iii is a prize to the normal prize slot 19, and the setting condition iv is a prize to the normal prize slot 20. It is assumed that the setting condition v is winning at the start winning opening 12. If the value of the acquired mission selection random number is “9”, it is determined that the lottery for determining whether to start the mission is won, and “1” is stored in the mission flag. Furthermore, as conditions I and II, winning in the normal winning opening 17 is set, winning in the normal winning opening 18 is set as condition III, and winning in the starting winning opening 12 is set as condition IV. The CPU 51 that sets the conditions I to IV with reference to the mission selection table corresponds to the “detection order determination unit” in the present invention.
[0107]
The details of the mission will be described below with reference to the flowchart shown in FIG. It is assumed that a lottery for determining whether or not to start a mission in the mode update process is won, the acquired mission lottery random number is “9”, and the above-described conditions I to IV are determined. At this time, “1” is stored in the mission flag.
[0108]
When the mission process is called in the normal symbol process, if the value of the mission flag is “0” (S200: NO), the process returns to the normal symbol process, but if the value of the mission flag is “1” or more (S200). : YES) Next, it is checked whether or not all the target flags are satisfied (S201). In this example, all the target flags are flags corresponding to the setting conditions i, ii, iii, iv, v described above, that is, the start winning port 12 and the normal winning port stored in the winning ball flag storage area 5202. All the flags corresponding to each of 17-20. If any of these flags is “1”, it is confirmed that if all are “0” (S201: NO), the mission process is terminated and the process returns to the normal symbol process.
[0109]
If at least one of the flags corresponding to each of the start winning port 12 and the normal winning ports 17 to 20 is “1” (S201: YES), then to confirm the progress of the current mission The value of the mission flag is referenced (S205, S210, S215). If the mission flag is “1” (S205: YES), it is confirmed whether or not the established flag is a flag associated with condition I (S206). If the flag is a flag corresponding to the normal winning opening 17 in this example (S206: YES), “2” is stored in the mission flag assuming that the condition I is satisfied (S207). As the value of the mission flag is changed, a mission state command for transmitting the current mission progress state to the sub-integrated board 58 is stored in the command relation storage area 5204 (S220). Return to. On the other hand, if the established flag is not the normal winning port 17 among the start winning port 12 and the normal winning ports 17 to 20, the condition I is not satisfied, that is, “0” is stored in the mission flag because the mission has failed. (S208). After the mission state command is stored (S220), the process returns to the normal symbol process. However, since the mission flag is “0”, the mission is started even if the mission process subroutine is called after the next time. The process is not executed (S300: NO).
[0110]
S210 to S226 are the same as S205 to S208, that is, a game ball is won at any one of the start winning opening 12 and the normal winning openings 17 to 20, and the value of the mission flag at that time is “2”. If so (S205: NO, S210: YES), it is determined whether or not the condition II is satisfied (S211). If the value of the mission flag is “3” (S205: NO, S210: NO, S215: YES), it is determined whether or not the condition III is satisfied (S216). If the value of the mission flag is “4” (S205: NO, S210: NO, S215: NO), it is determined whether or not the condition IV is satisfied (S225). In each determination process of S206, S211, S216, and S225, the CPU 51 that determines whether or not the conditions I to IV are satisfied corresponds to the “detection order condition satisfaction determination unit” in the present invention.
[0111]
If a winning at the normal winning opening 17 is detected and the condition II is satisfied (S211: YES), “3” is stored in the mission flag (S212), and then a winning at the normal winning opening 18 is detected. If condition III is satisfied (S216: YES), “4” is stored in the mission flag (S217). Similarly to the above, if a winning is made in another winning slot and the flag determined as a condition is not established (S211: NO, S216: NO, or S225: NO), “0” is stored in the mission flag. (S213 or S218). When the conditions II and III are satisfied and the conditions II to IV are not satisfied, the mission state command is stored (S220), and the mission progress state is transmitted to the sub-integrated board 58. Become. And it returns to normal symbol processing.
[0112]
Subsequently, when a winning at the start winning opening 12 is detected and the condition IV is satisfied (S225: YES), “5” is stored in the mission flag (S226). In this case, the conditions I to IV are satisfied in that order, that is, assuming that the special condition is satisfied, “1” is stored in the special condition satisfaction flag (S227). Then, the mission state command with the mission flag value “5” as a variable is stored (S228), and the mission progress state (in this case, the special condition is established) is transmitted to the sub-integrated board 58. Become. After the special condition satisfaction flag is established, “0” is stored in the mission flag so that the processing related to the mission is not executed (S230), and the routine returns to the normal symbol processing.
[0113]
As described above, if the conditions I to IV are not satisfied in that order, the value of the mission flag becomes “0” when the conditions are not satisfied, and the process related to the mission is not performed thereafter. In addition, if the conditions I to IV are satisfied in that order, the special condition establishment flag is set to “ON”, and even if the remaining number of games does not become “0” in the normal symbol processing, the fixed symbol is displayed, and the player A chance to shift to the winning gaming state can be obtained.
[0114]
Note that the sub-integrated board 58 can perform notification or the like based on the progress state of the mission by transmitting the mission state command. If the contents of the conditions I to IV are notified to the player, the player may be given a sense of mission for satisfying the conditions I to IV, and a sense of expectation for transitioning to the gaming state when satisfied. it can. In addition, for example, if the player is notified for the first time when the conditions III of the conditions I to IV are satisfied, the mission can be achieved only by satisfying the condition IV for the player, and the enjoyment of the game can be achieved. Can be increased.
[0115]
Further, the flags corresponding to the setting conditions i, ii, iii, iv, and v are not limited to the flags corresponding to the above-described normal winning openings 17 to 20 and the like, for example, on a stop button (not shown) provided on the firing handle 7. A corresponding flag or the like may be arbitrarily set, and the type of the setting condition may be arbitrarily set. Further, all the flags to be checked in S201 may be selectable by the mission selection table. In other words, in this example, whether or not the flags corresponding to the setting conditions i to v are satisfied is confirmed in S201. However, for example, when the flag corresponding to the setting condition i is set as the condition I, the flag is checked. The flag corresponding to the setting conditions i, ii, and v may be used.
[0116]
Further, as shown in FIG. 17, a pair of normal winning ports 22 and 23 are provided on the left and right of the normal symbol display device 8, and each of the mission conditions I to IV is awarded to one of the normal winning ports 22 and 23. The mission content may be such that the player is not notified of the winning order. Since the normal winning openings 22 and 23 are arranged separately on the left and right of the normal symbol display device 8, the player can aim to win each by operating the firing handle 7. Then, by letting the player predict and aim which of the normal winning holes 22 and 23 should be won, the player can actively win the chance to enter the gaming state regardless of the lottery. Can increase the enjoyment of the game.
[0117]
In the present embodiment, the transition from the high probability mode to the normal mode is based on a lottery. However, when the normal mode is shifted to the high probability mode, the number of times that the normal symbol is determined and displayed in advance (the consecutive resort) The number of times) may be determined, and when the number of times is satisfied, the mode may be shifted to the normal mode. In this case, as shown in FIG. 18, the mode update process confirms whether or not the high probability transition flag is established (S350). If not established, the process proceeds to S355 (S350: NO). (S350: YES) By storing “1” in the mode flag (S351), the mode is shifted to the high probability mode.
[0118]
Separately, the counter storage area 5201 of the RAM 52 is provided with a loop counter LC10 and a number counter NC2 similar to those of the present embodiment, and the number of consecutive times is determined based on the value of the loop counter LC10 (S352), or not shown. The number of consecutive resorts is determined by selecting from a table or the like, and the value is added to the value of the number counter NC2 (S353). Here, with respect to the value of the number counter NC2, even when the establishment of the special condition establishment flag is continued, the player can continuously generate the winning gaming state by adding (so-called addition) the number of extended games determined for each of them. Can be expected to last for a long time, and can increase the enjoyment of the game. Furthermore, “0” is stored in the high probability transition flag and set to “OFF” (S354), so that the processing of S351 to S354 is not performed again.
[0119]
In the next S355, it is checked whether or not the remaining number of consecutive resorts, that is, the value of the number counter NC2 is “0” (S355). If the number of remaining reams is greater than “0”, the mode update process is terminated as it is (S255: NO). If it is “0” (S355: YES), “0” is stored in the mode flag (S356). The mode is switched to the normal mode and the mode update process is terminated.
[0120]
The subtraction of the number of remaining reams is preferably performed when the number of remaining games at the start of the variable symbol display is determined. For example, after the process of S115 in FIG. 10, the process shown in FIG. 19 may be performed, and then the process of S125 shown in FIG. 11 may be performed. That is, in the high probability mode (S120: YES), when the remaining number of games is set (S122), the value of the number counter NC2 is decremented by “1” to reduce the number of remaining consecutive resorts (S123). Thereby, as long as the number of consecutive games is not “0”, the number of remaining games can be determined in the high probability mode.
[0121]
In the process of S136 shown in FIG. 11, “1” is stored in the remaining game number counter NC1, but a random number is acquired by providing a separate loop counter, for example, values “1” to “4” are acquired. If this is set as the value of the remaining game number counter NC1, it is possible to perform various effects on the demo image display unit D1 or the like until the remaining game number reaches “0”. .
[0122]
Further, when the mode is changed (S108, S117), a control command for notifying the sub-integrated board 58 of the changed mode may be output. As a result, the sub-integrated board 58 can perform various effects based on the current mode on the demo image display unit D1 or the like.
[0123]
Further, the remaining game number counter NC1 may be a timer counter similar to the effect time counter TC1, and the remaining game number counter NC1 may be set to the remaining game number counter NC1 with the remaining game number as a length of time. That is, it is assumed that the condition for performing the fixed display of the normal symbol is satisfied with the elapse of time set by the remaining game number counter NC1 from the start timing of the normal symbol variation display. In this way, if the elapsed time is short, it is possible to continuously generate a chance to shift to the winning gaming state and increase the enjoyment of the game.
[0124]
The remaining game number counter NC1 subtracts the value from the set remaining game number to “0” as a criterion for determining whether or not the condition is satisfied, but adds the counter value from “0”. Whether the number of remaining games is set or more may be used as a criterion. Similarly, the value of the timer counter may be added and it may be determined that the time has passed when the set value is reached.
[0125]
In the present embodiment, the sub-integrated board 58 is provided between the main board 41 and the symbol control board 44, and the symbol control board 44 and the like are controlled based on a control command output from the main board 41. However, a control command may be issued directly from the main board 41 to the symbol control board 44, and control based on the control command may be performed by the symbol control board 44.
[0126]
In this embodiment, a pachinko machine called “third type” is taken as an example. However, the present invention is not limited to this type of pachinko machine, and is applicable to various game machines such as a pachikon machine and a pachislot machine. May be. Moreover, it is needless to say that the hit probability and the lottery probability described above are merely examples and can be arbitrarily set.
[0127]
【The invention's effect】
As described above, in the gaming machine according to the first aspect of the present invention, the normal symbol confirmation display is not performed unless the predetermined stop condition is satisfied after the normal symbol variation display is started. The timing of the final display can be adjusted according to the stopped condition.
[0128]
Also , Inspection Whether or not the number of detected game balls is equal to or greater than the reference detection number is used as a condition for determining whether or not the stop condition is satisfied. It is possible to produce a game form similar to that of a conventional gaming machine in which the game is performed, and it is easy for the player to understand the conditions for the transition to the winning game state.
[0129]
Also The second If the reference detection number associated with the lottery result of the reference detection number lottery means is slightly biased in the one reference detection number table, the player can have a sense of expectation for continuous occurrence of the hit state.
[0130]
Claims 2 In the gaming machine of the invention according to claim 1 In addition to the effects of the present invention, the first mode and the second mode can be switched, and the reference detection number determined depending on which mode the reference detection number is determined is slightly inclined. Since it can be performed, the player's sense of expectation for continuous occurrence of the hit state can be further increased depending on which mode is currently set.
[0131]
Claims 3 In the gaming machine according to the present invention, the claim 1 Or 2 In addition to the effect of the invention according to the present invention, whether or not a winning of a game ball is detected in accordance with the determined order of detecting winnings to a plurality of winning holes is set as a determination condition for establishment of the stop condition. A game for winning game balls in the determined detection order can be performed, and the pleasure of actively playing the game is increased.
[0132]
Claims 4 In the gaming machine according to the present invention, claims 1 to 3 In addition to the effects of the invention according to any one of the above, the player can aim for winning a special ball for a game ball in order to win a special winning port by making the winning at the special winning port a criterion for establishing the stop condition. When winning a prize, satisfaction can be obtained for achieving the objective.
[0133]
Claims 5 In the gaming machine of the invention according to claim 4 In addition to the effects of the invention according to the above, the result of the lottery based on the winning at the special winning opening is set as the determination condition for the establishment of the stop condition, so that the player can win the special winning opening with the game ball When winning in the mouth, it is possible to have a sense of expectation for the winning state until the determination of whether or not to win is notified.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko machine 1. FIG.
FIG. 2 is a front view of the game board 2;
FIG. 3 is a block diagram showing an electrical circuit configuration of the pachinko machine 1;
4 is a conceptual diagram showing a storage area of a ROM 53 of a main board 41. FIG.
5 is a conceptual diagram showing a storage area of a RAM 52 of a main board 41. FIG.
6 is a conceptual diagram showing a counter storage area 5201 of a RAM 52. FIG.
7 is a conceptual diagram showing a hit relation information storage area 5203 of a RAM 52. FIG.
8 is a conceptual diagram showing a remaining game number table stored in a remaining game number lottery table storage area 5305 of ROM 53. FIG.
FIG. 9 is a flowchart of a main routine process performed by a CPU 41 of the main board 41.
FIG. 10 is a flowchart of normal symbol processing called in main routine processing.
FIG. 11 is a flowchart of a normal symbol process called in the main routine process.
FIG. 12 is a flowchart of a normal symbol process called in the main routine process.
FIG. 13 is a flowchart of mode update processing called in normal symbol processing.
FIG. 14 is a view showing a modified example of the game board 2;
FIG. 15 is a flowchart of a mission process which is an example of establishment of special conditions.
FIG. 16 is a conceptual diagram showing a mission lottery table used for mission processing which is an example of establishment of special conditions.
FIG. 17 is a diagram showing a game board 2 for realizing a modified example in the mission processing.
FIG. 18 is a diagram showing a modification of the mode update process.
FIG. 19 is a diagram illustrating a modification of the mode update process.
[Explanation of symbols]
1 Pachinko machine
2 Game board
8 Symbol display device
12 Start prize opening
17-20, 22, 23
30a, 30b Kroon prize opening
32a, 32b Kroon winning switch
41 Main board
44 design control board
51 CPU
53 ROM
58 Sub-integrated board
70 Start prize switch
78-81 Regular winning opening switch
5305 Number of remaining games lottery table storage area
5306 Production pattern storage area
L1 Normal symbol display part

Claims (5)

A game comprising a main board that controls main control of a gaming machine, and a symbol control board that is connected to the main board and controls a normal symbol display device that displays a normal symbol that is a symbol for notifying whether or not it is a hit. Machine,
A game board where game balls flow down,
A start prize opening provided in the game board and for a game ball to win;
Game ball detecting means for detecting a winning of a game ball to the start winning opening,
The main substrate is
With the detection of the game ball by the game ball detection means, a per-random number acquisition means for acquiring a per-random number for lottery whether or not a player can acquire a large number of game balls.
Hit determination means for determining whether or not the hit random number acquired by the hit random number acquisition means is a win;
Fluctuation display instruction means for instructing the symbol control board to start variation display of the normal symbol on the normal symbol display device;
Stop condition determination means for determining whether or not a predetermined stop condition set in advance is established when or after the display of fluctuation of the normal symbol is started by the change display instruction means;
When it is determined by the stop condition determining means that the predetermined stop condition is satisfied, the symbol control board is caused to make a fixed display of the normal symbol on the normal symbol display device based on the determination result of the hit determination means. and determined display instruction means for instructing as,
Counting means for counting the number of detected game balls detected by the game ball detecting means after the start of the normal symbol variation display;
Reference detection number determination means for determining whether or not the number of detected gaming balls counted by the counting means is equal to or greater than a reference detection number serving as a reference;
Reference detection number lottery means for performing lottery for determining the reference detection number;
Storage means for storing a first reference detection number table in which a lottery result of the reference detection number lottery means is associated with some of the reference detection numbers;
A reference detection number determination means for determining the reference detection number by referring to the first reference detection number table stored in the storage means based on the lottery result of the reference detection number lottery means ;
The stop condition determination means determines that the stop condition is satisfied when the reference detection number determination means determines that the number of detected game balls is equal to or greater than the reference detection number,
The game machine according to claim 1, wherein the reference detection number determination means determines the reference detection number based on a lottery result of the reference detection number lottery means when the normal symbol variation display is started . The storage means stores a second reference detection number table in which a proportion of the reference detection number associated with the lottery result of the reference detection number lottery means is different from the reference detection number table,
The main substrate is
A first mode in which the first reference detection number table is referred to when the reference detection number is determined by the reference detection number determination means, and a second mode in which the second reference detection number table is referred to. The gaming machine according to claim 1 , further comprising mode switching means for switching. Each of the start winning opening and a plurality of the game ball detection means corresponding to the starting winning opening,
The main substrate is
Detection order determining means for determining the detection order of detection of game balls by each of the game ball detecting means;
Detection order condition satisfaction determination means for determining whether or not each game ball detection means has detected a game ball according to the detection order determined by the detection order determination means, and
The stop condition determination means determines that the stop condition is satisfied when the detection order condition satisfaction determination means determines that each game ball detection means detects a game ball according to the determined detection order. The gaming machine according to claim 1 or 2 , characterized in that. A special prize opening provided on the game board and different from the start prize opening;
Special game ball detecting means for detecting a game ball won in the special winning opening,
The stop condition determination means, when the special game ball detection means detects the game ball, a game machine according to any of claims 1 to 3, characterized in that it is determined that the stop condition is satisfied. The main substrate is
A stop condition establishment lottery means for performing a lottery on whether or not to establish the stop condition when a game ball is detected by the special game ball detection means;
The gaming machine according to claim 4 , wherein the stop condition determining means determines whether or not the stop condition is satisfied based on a lottery result of the stop condition satisfaction lottery means.

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