JP2004166766A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine capable of improving amusement of a game by providing variation to a feeling of expectation to be given to a player. <P>SOLUTION: When storage of balls stored on the exit rail of a center frame is released with a ball releasing solenoid to be driven according to key operation by the player, a release execution flag is turned from off to on during a variation waiting time processing. Whether the release execution flag is on or not is decided by processing at S31, and separated processing for selecting a variation pattern is performed under different conditions on the basis of the decided result. Thus, variation patterns to be selected can be made to differ between a case where a ball enters a pattern operation port by operation of the player himself/herself and a case where the ball enters the pattern operation port without making releasing operation, thereby the feeling expectation for the variation pattern to be selected to be given to the player can be varied. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ball-and-ball game machine represented by a pachinko machine and the like.
[0002]
2. Description of the Related Art In recent years, gaming machines such as pachinko machines which use a liquid crystal display device have become the mainstream in order to enhance the interest in gaming. Competition among companies is how to change the image displayed on the liquid crystal display device to satisfy the player. For this reason, various measures are taken to give the image displayed on the liquid crystal display device various variations. Has been made. Generally, in this liquid crystal display device, a variable display game is played, and the interest of the game is enhanced.
[0003]
The variable display game displays, for example, three symbols horizontally or vertically in an effective display area, or nine symbols in a 3 × 3 square, and an operation area provided in a game area into which a ball (game ball) is driven. The displayed symbols and the like are scrolled and displayed in a fluctuating manner, assuming that a ball (a winning in the operating port or passing through the operating gate) is required as a necessary condition. When the variable display shows a display result indicating a predetermined jackpot, the variable prize device provided in the game area as a predetermined game value is in a state where it is easy to win a ball, and the player enters the variable prize device by a ball game. A state is provided in which the ball can be won and predetermined profits can be collectively obtained. In addition, the variation display includes a plurality of variation patterns including variation patterns (variation types) accompanied by an entertaining effect, such as an effect by a reach display different from the normal time or an effect by the operation of a movable body while scrolling the symbol. Is performed to change the sense of expectation for the big hit for each change pattern.
[0004]
[Patent Document 1]
JP 2002-282465 A
[0005]
However, whether or not to execute a variation pattern accompanied by an entertaining effect, the content of the variation pattern, and the like are randomly selected for each variation display according to a predetermined probability. The ratio (expected value) of transition to the jackpot for each variation pattern is also a predetermined fixed value. For this reason, the player can obtain only the same degree of expectation every time the game ball enters the operation area, and there is a problem that the interest in the game is reduced.
[0006]
The present invention has been made in order to solve the above-described problems, and an object of the present invention is to provide a gaming machine that can change the sense of expectation given to a player and enhance the interest of the game. .
[0007]
According to a first aspect of the present invention, there is provided a gaming machine, comprising: a display device for displaying identification information; Detecting means for detecting the entry of a ball, and, when the detection means detects the entry of a game ball into the operation area, randomly selects whether or not to give a predetermined game value to the player and Control means for causing the display device to dynamically display the identification information, and when the control means derives a lottery result for giving the predetermined game value, the display device displays a predetermined display result on the display device. Storing means for storing the game balls on the upstream side in the downflow direction of the game balls with respect to the operation area in the game area, and the game balls stored by the storage means. Storage releasing means for releasing the storage in response to the operation of the player; and releasing operation of the storage releasing means for entering the game ball when the detecting means detects the entry of the game ball into the operation area. Selecting means for selecting whether or not to enter the ball based on the dynamic display when the entering ball of the game ball to the operation area is not determined as the entering ball based on the releasing operation of the storage releasing means by the selecting means A first variation type selecting means for selecting a variation type of the first variation type, wherein the entering of a game ball into the operation area by the selection means is made into an entering ball based on a releasing operation of the storage releasing means, A second variation type selection unit that selects a variation type of the dynamic display based on a variation type selection condition different from the selection unit.
[0008]
According to the gaming machine of the first aspect, the game balls thrown into the game area are stored by the storage means on the upstream side in the downflow direction of the game balls with respect to the operation area. The storage of the game balls stored by the storage means among the game balls thrown into the game area is released by the operation of the storage release means in response to the operation of the player. When the storage of the game balls is released by the storage release means, the game balls flow down to the operation area located on the downstream side in the downflow direction in the game area.
[0009]
Here, when the detection means detects that a game ball has entered the operation area, the selection means determines whether or not the entry of the game ball is to be entered based on the release operation of the storage release means. Is done. If the selection means does not determine that the game ball enters the operation area based on the release operation of the storage release means, the first variation type selection means selects the variation type of the dynamic display. On the other hand, when the entering ball of the game ball into the operation area is selected as the entering ball based on the releasing operation of the storage releasing device by the selecting device, the second variation type selecting device selects a variation type different from the first variation type selecting device. The variation type of the dynamic display is selected based on the selection condition. In other words, the change type of the dynamic display based on the selection condition of the change type that differs depending on whether the selection unit sets the ball in based on the release operation of the storage release unit and whether the ball is not entered based on the release operation of the storage release unit, Is selected, the change type of the selected dynamic display can be changed in association with the release operation of the storage release means.
[0010]
According to the gaming machine of the present invention, when the entering of the game ball into the operation area by the selecting means is made into the entering ball based on the releasing operation of the storage releasing means, the entering based on the releasing operation of the storing releasing means is performed. A dynamic display variation type is selected based on different variation type selection conditions depending on whether the ball is not a sphere. Therefore, the variation type of the dynamic display selected by entering the game ball into the operation area can be changed in association with the release operation of the storage release means, and the game type can be changed for the selected variation type of the dynamic display. There is an effect that the interest in the game can be enhanced by changing the sense of expectation to be held by the player.
[0011]
Further, the storage of the game balls stored by the storage unit among the game balls thrown into the game area is released by the operation of the storage release unit in response to the operation of the player. For this reason, the player can operate the storage release means by his / her own operation and aim at the entry of the game ball into the operation area, and the dynamic display selected in association with the operation of the storage release means can be changed. Types can be different. Therefore, when the storage release means operates by the player's own operation and the game ball enters the operation area and when the game ball enters the operation area without going through the operation of the storage release means, the selection is made. It is possible to increase the interest of the game by giving a change to the expectation that the player has for the dynamic display variation type according to the operation of the player. There is an effect that can be.
[0012]
Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. In this embodiment, a pachinko machine, which is a kind of a ball-and-ball game machine, will be described as an example of a game machine, in particular, a first-type pachinko game machine. Note that it is naturally possible to use the present invention for a third-type pachinko game machine and other game machines.
[0013]
FIG. 1 is a front view of a pachinko machine 1 according to an embodiment of the present invention. A front frame 51 is provided on the front of the pachinko machine 1, and a substantially rectangular opening 51a is formed in a substantially central portion thereof, and a metal frame 52 is provided on the inner periphery of the opening 51a. I have. Above the inside of the metal frame 52, a glass door frame 53 on which two glass plates are mounted is provided so as to be openable and closable, and the game board 2 is arranged behind the glass door frame 53. A substantially arc-shaped outer rail 2a is planted on the front surface of the game board 2, and an arc-shaped inner rail 2b is planted inside the outer rail 2a. On the front surface of the game board 2, a substantially circular game area 2c into which a ball is driven by an area surrounded by the inner rail 2b and the outer rail 2a is formed.
[0014]
At the center of the game board 2, there is provided a liquid crystal display (hereinafter simply abbreviated as "LCD") 3 for displaying a plurality of types of symbols as identification information. The display screen of the LCD 3 is divided into two upper and lower tiers, and the upper display area 3a is divided into three in the horizontal direction (see FIG. 6A). The symbol is displayed while scrolling vertically from the vertical direction.
[0015]
Below the LCD 3, there is provided a variable winning device 4 which forms a symbol operating port (first type starting port) 4a opened upward. When a ball (game ball) wins (enters) in the symbol operation port 4a, five balls are paid out as prize balls, and the above-described variable display of the LCD 3 is started. If a ball newly enters the symbol operation port 4a during the fluctuation display on the LCD 3, the fluctuation display due to the ball cannot be started immediately. The floating display is suspended. In the pachinko machine 1 according to the present embodiment, the number of times of holding the variable display is set to a maximum of four times, and four holding lamps 5 for displaying the number of times of holding the variable display are arranged above the LCD 3. . The display of the number of reservations is performed by turning on the four holding lamps 5 in order from the left by the number corresponding to the number of reservations.
[0016]
A specific winning port (large winning port) 6 is provided below the symbol operating port 4a. When the display result after the change of the LCD 3 matches one of the predetermined symbol combinations, the specific winning opening 6 becomes a big hit and a predetermined time (for example, 30 seconds elapses) so that the ball can easily win. Or until, for example, 10 balls are won). The specific winning opening 6 is provided with a V zone 6a. When a ball passes through the V zone 6a while the specific winning opening 6 is open, a continuation right is established and the specific winning opening 6 is closed. Thereafter, the specific winning opening 6 is opened again for a predetermined time (or until ten balls are won in the specific winning opening 6). The opening and closing operation of the specific winning opening 6 can be repeated up to 16 times (16 rounds), and the state in which the opening and closing operation can be performed is a state in which a predetermined game value is given (a special game state). is there.
[0017]
It should be noted that a state in which a predetermined game value is provided in the third-type pachinko gaming machine (special game state) is a state in which the display result after the fluctuation of the LCD 3 matches one of a predetermined combination of symbols. It means that the winning opening is opened for a predetermined time. If the ball wins inside the specific winning opening while the specific winning opening is being opened, the special winning opening provided separately from the specific winning opening is opened for a predetermined time and a predetermined number of times.
[0018]
Around the symbol operation port 4a, there are provided a plurality of winning ports 7 from which 5 to 15 balls are paid out when the ball wins. On the left and right sides of the LCD 3, two normal symbol operation ports 8 are provided, and when the ball passes through the normal symbol operation port 8, the variable display of the ordinary symbol display device 9 is started.
[0019]
The normal symbol display device 9 is disposed above the LCD 3 and includes a left symbol LED 9a displaying a symbol "O" and a right symbol LED 9b displaying a symbol "X". As described above, the variable display of the ordinary symbol display device 9 is started by the ball passing through one of the ordinary symbol operating ports 8, and the variable display is turned on by the left symbol LED 9a (ordinary symbol hit state). When the operation is completed, the opening / closing valves provided on both sides of the symbol operating port 4a allow a predetermined number of times (for example, approximately 0.3 seconds or 1.9 seconds) to elapse so that the ball can easily win. Twice or three times).
[0020]
Around the front side of the LCD 3, a center frame 10 around which the above-mentioned holding lamp 5 and the ordinary symbol display device 9 are disposed is provided. The center frame 10 is formed of a transparent and translucent resin material into a substantially hollow body, and has a plurality of built-in lamps, whereby the periphery of the LCD 3 is decorated.
[0021]
The center frame 10 is provided on its left side with a transfer path 10a formed in a tunnel shape so that a ball can pass therethrough. The transfer path 10 a is formed in a substantially rectangular shape with a width corresponding to the outer diameter of the sphere, and is formed at a sphere inflow port 10 b opening at an upper left portion of the center frame 10 and at a lower portion of the center frame 10. This is for communicating with the stage 10c. The sphere that has flowed in from the sphere inlet 10b is guided onto the stage 10c via the transfer path 10a. Note that the spherical inlet 10b does not necessarily need to open toward the side of the center frame 10, but may open upward. Further, the number of the spherical inlets 10b provided in the center frame 10 is not limited to one, and a plurality of spherical inlets may be provided on both left and right sides.
[0022]
A stage 10c is provided below the center frame 10. The stage 10c is a member for guiding the ball guided via the transfer path 10a to the center of the center frame 10. The stage 10c is formed in a substantially planar shape inclined downward from both sides toward the center thereof, and has a low center portion (portion of the exit rail 10e) such that the ball guided from the left and right of the stage 10c stops at the center. It is formed as a depression. A guide plate 10d is provided on the front side (front side in FIG. 1) of the stage 10c in order to prevent the ball from flowing out to the front side. The guide plate 10d is a rib-shaped member that protrudes upward in a state where the center portion is divided, and extends along the left-right direction.
[0023]
An exit rail 10e is formed in the central portion where the guide plate 10d is divided, and is formed to be inclined downward from the central portion of the stage 10c toward the front of the game board 2 and directly above the symbol operation port 4a. ing. The exit rail 10e is provided with a projection 10f that protrudes upward so as to prevent the ball from rolling toward the front side of the exit rail 10e due to the forward inclination, and the ball guided by the exit rail 10e is The projections 10f cannot be climbed over by their own weight, and once stopped and stored (storage state).
[0024]
This storage state is released when the operation button 56 disposed on the upper plate 55 of the pachinko machine 1 is pressed, and the ball discharge solenoid 15 (FIG. 3 ( b) pushes the ball forward in conjunction with the pressing operation of the operation button 56, and the storage of the ball is released. The ball whose storage has been released falls via the central exit rail 10e toward the symbol operating port 4a located almost immediately below the exit of the exit rail 10e, and almost all of the symbols win the symbol operating port 4a. That is, the ball that has flowed into the ball inlet 10b almost certainly wins the symbol operating port 4a via the transfer path 10a, the stage 10c, and the exit rail 10e.
[0025]
Note that the stored state does not necessarily need to be released by pushing the ball forward with the ball discharge solenoid 15 so as to get over the protrusion 10f. A configuration may be adopted in which a solenoid is connected to the projection 10f so that the projection 10f is driven up and down, and the projection 10f protruding above the exit rail 10e is lowered to allow the ball to flow forward of the exit rail 10e by its own weight. good.
[0026]
On the left side of the center frame 10, there is provided an accessory device 11 for guiding a ball so as to easily win the symbol operation port 4a. The accessory device 11 includes a movable member 12 formed to imitate a crow character on the lower side thereof, an accessory drive solenoid 13 for applying a driving force to the movable member 12, and a movable member 12 provided around the movable member 12. And a cover member 14.
[0027]
The movable member 12 is formed by molding a synthetic resin into an outer shape imitating a crow. The movable member 12 is provided with a guide portion 12a that forms an inclined surface that descends toward the center frame 10 by imitating the head of a crow. The movable member 12 is formed so as to have a thickness substantially the same as the gap between the game board 2 and the glass covering the game area 2c, and when a ball flows down on the guide portion 12a of the movable member 12. Acting on the flow path of the ball, the ball is guided to the center frame 10 along the guide portion 12a.
[0028]
On the lower side of the game board 2 on which the movable member 12 is provided, a front door plate (waist plate) 54 attached to the metal frame 3 so as to be openable and closable is provided. An upper plate 55 for storing the spheres and supplying the spheres to a sphere launching device (not shown) is disposed on the front surface (on the front side of the paper surface of FIG. 1) of the front door plate 54.
[0029]
At the left end of the upper plate 55, an operation button 56 formed in a substantially rectangular shape in a front view is provided. The operation button 56 is for operating the ball release solenoid 15 (see FIG. 3) provided inside the center frame 10 by the operation of the player at a timing intended by the player. A switch (ball release switch 17, see FIG. 4) that switches on and off in conjunction with the operation button 56 is built in the back side of the operation button 56 (the back side of the paper surface in FIG. 1), and the operation button 56 is pressed. In this case, the ball release switch 17 is turned on, and an ON signal is input to the main control board C described later. When the ON signal of the ball release switch 17 is input, the main control board C drives the ball release solenoid 15 inside the center frame 10 and when the ball is stored in the exit rail 10 e of the center frame 10, the ball is stored. To release.
[0030]
Below the upper plate 55 and below the front frame 51, a lower plate 57 for storing spheres that could not be stored in the upper plate 55 is disposed. An operation handle 58 operated by the player to drive the player into the game area 2c is provided. When the operation handle 58 is operated by the player, a motor (not shown) (the firing motor 27, see FIG. 4) is driven, and a ball is hit into the game area 2c.
[0031]
Next, details of the accessory device 11 will be described together with the operation of the movable member 12 by the accessory drive solenoid 13 with reference to FIG. FIG. 2 is a front view showing a part of the game board 2. FIG. 2A shows a state in which the movable member 12 is retracted, and FIG. FIG. In FIG. 2, among the components arranged on the game board 2, only the main members such as the symbol operating port 4 a, the center frame 10, and the accessory device 11 which are affected by the operation of the movable member 12 are shown. Other members are omitted.
[0032]
The accessory driving solenoid 13 applies a driving force to the movable member 12 to slide the movable member 12 diagonally upward. The state in which the accessory drive solenoid 13 is turned off is a normal game state, and forms a state in which the movable member 12 is retracted as shown in FIG. When the movable member 12 retreats, the sphere flowing between the movable member 12 and the center frame 10 flows down the left side of the center frame 10 without flowing into the sphere inflow port 10b of the transfer path 10a of the center frame 10. The ball that has flowed down is guided in various directions by a nail (not shown), and wins one of the winning openings 4a and 7 including the symbol operating opening 4a with a probability (winning rate) of approximately 1 to 20 balls.
[0033]
On the other hand, the state in which the accessory drive solenoid 13 is turned on is a game state that is advantageous for the player, and as shown in FIG. 2B, the movable member 12 advances toward the center frame 10 and the movable member 12 moves forward. The path between the center frame 12 and the center frame 10 is closed. The sphere that flows down the left side of the center frame 10 when the movable member 12 advances is guided to the sphere inflow port 10b by the guide portion 12a of the movable member 12 that protrudes on the sphere flow path, and the transfer path 10a, the stage 10c, and Then, the symbol working opening 4a is almost certainly won through the exit rail 10e.
[0034]
The moving of the movable member 12 is performed when the crow drive reach which is one of the patterns of the variable display performed on the LCD 3 is executed. The crow drive reach indicates a fluctuation pattern in which a reach display appears on the LCD 3 and thereafter a crow character comes after three symbols stop. The crow character flies from the right side of the LCD 3 to the left side of the accessory device 11 side. At about the same time as the crow character reaches the left side of the LCD 3 screen, the crow simulated by the movable member 12 drives the accessory. The effect of moving forward by turning on the solenoid 13 is performed. During the execution of the crow drive reach, the accessory drive solenoid 13 is turned on for 3 seconds by the control of the main control board C, which will be described later, and the movable member 12 moves forward (the state of FIG. 2B). Is guided to the symbol operation port 4a so as to be easily won. For this reason, the player is given a gaming state in which the ball easily flows into the transfer path 10a that guides the ball to the symbol operating port 4a when the crow drive reach is executed.
[0035]
As described above, when the movable member 12 is switched from the retracted state to the advanced state under the control of the main control board C, the movable member 12 is in a state where the ball easily flows into the sphere inflow port 10b of the transfer path 10a. The person can increase the number of balls guided to the symbol operation port 4a via the transfer path 10a. The ball that has flowed into the ball inlet 10b of the transfer path 10a is almost certainly guided to the symbol operating port 4a with a higher probability than when flowing down the path on the left side of the center frame 10, so that the player can move the movable member 12 It can be expected that more balls will win the symbol operation port 4a when is in the forward state. Therefore, it is possible to make the player aware of the ball game while giving the player a different sense of expectation in accordance with the state of the movable member 12, and it is possible to give an interest in the ball game.
[0036]
The balls flowing down the path on the left side of the center frame 10 are dispersed in a plurality of directions by nails (not shown), and are guided to the upper part of the symbol operating port 4a with a probability of approximately one ball from ten balls to twenty balls. While entering the symbol operation port 4a, the sphere that has flowed into the transfer path 10a is guided to the upper part of the symbol operation port 4a via the transfer path 10a, the stage 10c, and the exit rail 10e, and then the symbol operation port 4a. Will almost certainly win. Therefore, depending on the state of the movable member 12, the ball flows down in a fixed manner via a fixed path and wins the symbol operation port 4 a, or the ball is dispersed in a plurality of directions. It is possible to make the player visually recognize whether or not the ball flows down in various modes and wins the symbol operating port 4a in accordance with the state of the movable member 12, and gives the ball game a change to allow the ball game to be changed. It is possible to enhance the interest in visually recognizing.
[0037]
In addition, the player pays attention to a variable display that produces a predetermined display result when a predetermined game value is given, and the main control board C associates the variable display with the variable display. Thus, the switching operation of the movable member 12 between forward and backward is controlled. Therefore, the movable member 12 is interlocked with the fluctuation display that the player pays attention to, and the player who does not visually recognize the movable member 12 during the game can easily understand the switching operation of the movable member 12.
[0038]
When the crow drive reach corresponding to the switching of the state of the movable member 12 is performed by the LCD 3, the movable member 12 allows the ball to easily flow into the sphere inlet 10 b of the transfer path 10 a of the center frame 10. Become. Therefore, when the player hits the ball at the ball inlet 10b of the transfer path 10a and hits the ball into the game area 2c, the movable member 12 forms a normal state (the state of FIG. 2A). More balls can be guided to the symbol operating port 4a via the transfer path 10a. Therefore, the consciousness of the player is directed to the ball inflow port 10b of the transfer path 10a in which the ball has easily flowed temporarily by the movable member 12, and the area where the player is aware of the ball game in the game area 2c is set. In addition, it is possible to enlarge not only the area around the symbol operation port 4a for starting the fluctuation display, but also to give the player more interest in the game by the ball game.
[0039]
Note that the reach display means that the combination of the symbols that stops first after the symbol variation display is started on the LCD 3 satisfies the jackpot condition, and the symbol combination may be the jackpot depending on the display result of the symbol whose variation display continues. This is a display suggesting that the game will be performed. The suggestive effect is an effect such as causing a predetermined symbol to appear on the display screen of the LCD 3 during the change display, outputting a specific sound effect from the speaker 39, or vibrating the operation handle. This is to suggest in advance to the player that the later display result will be a big hit and a predetermined game value will be given. This suggestion effect is performed not only to make the player aware of the provision of the predetermined game value in advance, but also to imply the player when the predetermined game value is not provided.
[0040]
The cover member 14 is a member for protecting the movable member 12 from the sphere flowing down from the upstream side along the flow direction of the sphere, and is disposed so as to surround the upper, lower, left side of the movable member 12. The cover member 14 is formed of a plate-like synthetic resin protruding to a position close to the glass covering the game area 2c, and has an upper surface inclined downward toward the right side. The sphere flowing down toward the movable member 12 first contacts the upper surface of the cover member 14. The ball in contact with the upper surface of the cover member 14 is guided to the right along the slope of the upper surface, and flows down between the movable member 12 and the center frame 10. Therefore, the number of balls that come into contact with the movable member 12 when the movable member 12 retreats can be reduced, and deformation and breakage of the movable member 12 can be prevented.
[0041]
In addition, the movable member 12 protrudes on the downward flow path of the sphere only when the crow drive reach is performed when the crow drive reach is performed, and changes the path of the sphere, but in a normal state in which the crow drive reach is not performed. However, since the movable member 12 is disposed at a position where the movable member 12 retreats from the flow-down path and does not come into contact with the ball, the flow-down path of the ball is not affected. Therefore, in a state other than when the crow drive reach is executed, the movable member does not affect the flow path of the ball, and it is possible to ensure the playability in which the ball flows smoothly. Note that the cover member 14 does not necessarily need to be formed of a synthetic resin, but guides the ball so that the ball does not contact the movable member 12 by arranging and driving a plurality of nails on the upper side of the movable member 12. Is also good.
[0042]
Next, the operation of the ball discharge solenoid 15 disposed at the center of the stage 10c of the center frame 10 will be described with reference to FIG. FIG. 3A is a diagram illustrating the center frame 10 as viewed from the direction of the arrow IIIa in FIG. 1, and FIG. 3B is a diagram illustrating the center frame 10 in a cross-sectional view taken along line IIIb-IIIb in FIG. 1. It is. 3 (a) and 3 (b), the symbol operating port 4a, the ball discharge solenoid 15, and the stored ball detection switch 16 are shown together with the center frame 10. 3 (a) and 3 (b), the sphere releasing solenoid 15 is not shown in cross section for easy understanding of the drawings, and the sphere is stored on the stage 10c in FIG. 3 (b). FIG.
[0043]
As shown in FIG. 3A, the stage 10c of the center frame 10 is formed symmetrically in a top view, and is formed so as to descend toward an exit rail 10e provided at a central portion thereof. After the ball guided to the stage 10c reaches the exit rail 10e, it is stored on the back side (upper side in FIG. 3A) of the exit rail 10e by a projection 10f for storing the ball, and the stored ball is After that, the balls guided to the stage 10c are stored substantially in a line on the stage 10c toward the exit rail 10e as shown by a chain line in FIG. 3A. Behind the exit rail 10e (upper side in FIG. 3 (a)), a ball discharge solenoid 15 for discharging the ball stored on the exit rail 10e by the projection 10f toward the symbol operating port 4a is provided. I have.
[0044]
The sphere releasing solenoid 15 is a member for releasing the sphere stored on the exit rail 10e and releasing the sphere, and is configured by a general electromagnetic solenoid. As shown in FIG. 3B, the ball discharge solenoid 15 includes an arm 15a for pressing the ball forward of the exit rail 10e, a main body 15b for supporting the arm 15a so as to be slidable back and forth on the stage 10c, and an arm. There is provided a spring 15c for biasing the stage 15a to the rear of the stage 10c (to the right in FIG. 3B). The main body 15b of the ball discharge solenoid 15 is fixed to a part of the center frame 10 with screws (not shown). When the ball discharge solenoid 15 is not energized, the arm 15a is moved to the rear of the stage 10c with respect to the main body 15b by the action of the spring 15c, and as shown in FIG. A gap capable of storing one ball is formed between the projection 10f and the arm 15a. Therefore, when the ball discharge solenoid 15 is not energized, the ball guided to the stage 10c is stored on the exit rail 10e by the projection 10f.
[0045]
When the ball discharge solenoid 15 is energized and driven, the arm 15a moves forward (to the side of the protrusion 10f) of the stage 10c with respect to the main body 15b, and a gap between the protrusion 10f on the exit rail 10e and the arm 15a is formed. Shrunk. When a ball is stored between the arm 15a and the protrusion 10f in a state where the ball discharge solenoid 15 is not energized, the stored ball rides over the protrusion 10f by the pressing of the arm 15a, and is inclined by the inclination of the exit rail 10e. Along the way, a symbol operation opening 4a provided on the front side (the lower side in FIG. 3A) of the exit rail 10e wins a prize. The ball that has won the symbol operation port 4a is guided to the back side of the game board 2 via a passage provided on the back side (the right side in FIG. 3B) of the symbol operation port 4a.
[0046]
The stored ball detection switch 16 has a light emitting unit and a light receiving unit, and is configured by a general photosensor that receives reflected light of light emitted from the light emitting unit at the light receiving unit and switches on and off. . As shown in FIG. 3B, the stored ball detection switch 16 is disposed below the floor on the back side of the protrusion 10f of the exit rail 10e. When the ball is stored on the exit rail 10e by the protrusion 10f. It is turned on and turned off when there is no ball stored in the exit rail 10e. When the stored ball detection switch 16 is turned on, an ON signal is input to a main control board C, which will be described later, and the main control board C displays an effect suggesting the storage of the ball to the player when the ON signal is input. The operation control board D is executed, and the operation of the operation button 56 is enabled. When the operation is performed, the storage of the balls stored in the exit rail 10e is released.
[0047]
As described above, the sphere that has flowed into the transfer path 10a of the center frame 10 is stored on the back side of the exit rail 10e by the projection 10f on the exit rail 10e, and the sphere is released by operating the operation button 56 to release the sphere. It is released when the solenoid 15 operates. For this reason, the player performs the game in which the player directly participates in the flow of the ball, in which the ball release solenoid 15 is operated by oneself to release the storage of the ball at the timing intended by the player. The game can be played in expectation of more balls flowing into the ball inlet 10b of the transfer path 10a. Therefore, by increasing or decreasing the number of balls flowing into the ball inlet 10b of the transfer path 10a according to the state of the movable member 12, the chance of a game in which the player directly participates in the flow of the balls is temporarily increased. This can increase the interest and interest in the ball game.
[0048]
Note that the stored ball detection switch 16 does not necessarily need to be configured by a photosensor having a light emitting unit and a light receiving unit. Any switch that switches on and off depending on whether or not the ball is stored by the projection 10f of the exit rail 10e may be used. For example, the stored ball detection switch may be switched by a so-called micro switch that is switched on and off by operation of a mechanically movable movable piece. Alternatively, the movable piece may be projected from the floor surface of the exit rail 10e to detect whether or not the ball is stored.
[0049]
FIG. 4 is a block diagram showing an electrical configuration of the pachinko machine 1. On the main control board C of the pachinko machine 1, an MPU 21 as a one-chip microcomputer as an arithmetic unit is mounted. The MPU 21 includes a ROM 22 storing various control programs executed by the MPU 21 and fixed value data, and a memory for temporarily storing various data during execution of the control programs stored in the ROM 22. A certain RAM 23 and various circuits such as an interrupt circuit, a timer circuit, and a data transmission / reception circuit are built in. The effect selection table 22a shown in FIG. 5 is stored in the ROM 22 as a part of the fixed value data, and details of these tables will be described later with reference to FIG. The programs in the flowcharts shown in FIGS. 9 to 14 are stored in the ROM 22 as a part of the control program.
[0050]
The RAM 23 includes a reserved ball counter 23a, an internal random number counter 23b, a reach random number counter 23c, a big hit symbol counter 23d, a lost symbol counter 23e, a fluctuation pattern counter 23f, an effect execution area 23g, and effect executions 1 to 4. It has memories 23h to 23k, a counter buffer 231 and a release execution flag 23m.
[0051]
The pending ball counter 23a is a counter that stores the number of times the variable display is suspended. The value of the reserved ball counter 23a is “0” when the variable display is not performed on the LCD 3 or when the variable display is performed but there is no pending variable display, and the value of the suspended variable display is one. In this case, “1”,..., And “4” when there are four pending fluctuation displays. In the pachinko machine 1 of the present embodiment, the maximum number of times the variable display is held is four times, so that the value of the held ball counter 23a changes in a range from “0” to “4”. The count-up of the value of the reserved ball counter 23a is performed when a ball that has won the symbol operating port 4a is detected by the first-type starting port switch 24 (see S23 in FIG. 10), and the countdown starts the change display. (See FIG. 10, S28).
[0052]
Here, the backup voltage is supplied to the MPU 21 even when the power is turned off. Therefore, even if the power is turned off due to a power failure or the like, the data in the RAM 23 of the MPU 21 is retained (backed up). Therefore, the value of the number-of-reserved-balls counter 23a provided in the RAM 23 (the number of times the variable display is held) is maintained even at the time of the power outage, and after the power outage is resolved, the change display for the remaining number of holdings can be performed. The RAM 23 also stores the number of remaining payouts of prize balls, so that the remaining prize balls can be paid out after the blackout.
[0053]
The internal random number counter 23b is a counter for determining the occurrence of a jackpot, and is updated by being added one by one in the range of “0 to 599” by a counter updating process (see S14 in FIG. 9) described later. After reaching the maximum value (that is, 599), it is returned to “0” again. The value of the internal random number counter 23b is acquired when a ball hitting the front of the game board 2 wins the symbol operating port 4a and is detected by a first-type starting port switch 24 described later (at the time of starting winning). In normal times, if the value of the internal random number counter 23b acquired at this time is “7” or “307”, the occurrence of a jackpot is determined.
[0054]
When the occurrence of the jackpot is determined, a stop symbol command indicating a symbol combination (jackpot symbol) that becomes a jackpot is transmitted from the main control board C to the display control board D described later, and the display control board D transmits the stop symbol command. Based on the above, the display result after the change of the LCD 3 is set as a symbol combination that makes a big hit. The lottery to determine whether or not to give the player a predetermined game value (special game state) is performed based on the value of the internal random number counter 23b in the normal display command determination processing in S41 (see FIG. 11). And the special display command determination processing in S51 (see FIG. 12). If the value of the internal random number counter 23b acquired at the time of the start winning is a value for generating a jackpot, the result of the lottery to give a predetermined game value is derived (winning).
[0055]
The reach random number counter 23c is a counter for determining occurrence of losing reach. It is determined based on the value of the reach random number counter 23c whether the reach display appears during the variable display and the loss is reached after the reach display appears, or the normal loss does not appear the reach display. The value of the reach random number counter 23c is incremented and updated one by one in the range of "0 to 11" by a counter update process (see FIG. 9, S14) described later, and after reaching the maximum value (that is, 11). It is returned to "0" again.
[0056]
The value of the reach random number counter 23c is obtained at the time of the start winning, similarly to the value of the above-mentioned internal random number counter 23b, and the value of the above-mentioned internal random number counter 23b is not a value that causes a big hit, and the obtained reach random number When the value of the counter 23c is "7", occurrence of losing reach is determined. When this losing reach occurs, the losing reach symbol (combination of the symbols constituting the losing reach) stored in the counter buffer 231 to be described later is set to the stop symbol command (see FIGS. 11, S45, 12, and S55). The losing reach symbol appears as a display result after the change. In addition, the value of the reach random number counter 23c obtained at the time of the start winning is written and stored in the effect execution 1 to 4 memories 23h to 23k indicated by the value of the pending ball counter 23a together with the value of the internal random number counter 23b. (See FIG. 10, S25).
[0057]
The big hit symbol counter 23d is a counter for determining a big hit symbol (special symbol) that is stopped and displayed on the LCD 3 when a big hit occurs. In the pachinko machine 1 of the present embodiment, the variable display is performed on the LCD 3 by ten kinds of symbols composed of numbers from “0” to “9”, and three symbols displayed in the display area of the LCD 3 are the same. When a stop is displayed with the symbol of, a big hit occurs. The value of the big hit symbol counter 23d is updated by adding one by one in the range of “0 to 9” corresponding to the ten kinds of symbols for generating the big hit by a counter updating process (see FIG. 9, S14) described later. , After reaching the maximum value (ie, 9).
[0058]
The value of the jackpot symbol counter 23d is acquired together with the internal random number counter 23b and the reach random number counter 23c at the time of starting winning, and when the occurrence of the jackpot is determined based on the simultaneously acquired value of the internal random number counter 23b, the value of the jackpot is determined. The value of the big hit symbol counter 23d is used as the big hit symbol stopped and displayed with respect to the generated variable display. That is, a symbol formed by arranging and combining three numbers the same as the value of the big hit symbol counter 23d is set as the stop symbol command (see FIGS. 11, S42 and FIGS. 12, S52). The value of the jackpot symbol counter 23d acquired at the time of the winning start is written in the effect execution 1-4 memories 23h to 23k indicated by the value of the reserved ball counter 23a together with the values of the internal random number counter 23b and the reach random number counter 23c. And stored (see FIG. 10, S25).
[0059]
The losing symbol counter 23e is a counter for determining a combination of symbols (losing symbol) stopped and displayed on the LCD 3 at the time of losing. The lost symbol counter 23e is composed of three symbol counters each of which is associated with a symbol displayed in three display areas on the left, center, and right sides of the LCD 3. The losing symbol counter 23e is updated by adding one by one from "0" to "9" by a losing symbol counter updating process (see S17 in FIG. 9) described later, and is returned to "0" again after reaching "9". It is. When the symbol counter of the right symbol reaches the maximum value, the symbol counter of the central symbol is incremented by one and updated, and when the symbol counter of the central symbol reaches the maximum value, the symbol counter of the left symbol is updated. Is added by 1. When the value of the internal random number counter 23b is not a value that generates a jackpot and the value of the reach random number counter 23c is not a value that generates a loss reach, the symbol for stopping the variable display is determined according to the value of the loss symbol counter 23e. This is performed by setting the value of the lost symbol counter 23e to the stop symbol command (see S47 in FIG. 11).
[0060]
The variation pattern counter 23f is a counter used to determine a pattern (variation pattern) for causing the LCD 3 to perform a variation display. In the present embodiment, the variation pattern counter 23f is updated by adding one by one from “0 to 99”, and is updated to the maximum value (that is, 99). Is returned to "0" again. The value of the fluctuation pattern counter 23f may be referred to in the normal display command determination processing (see FIG. 10, S32) executed at the start of the fluctuation display. In this case, the value of the fluctuation pattern counter 23f referred to is referred to. Data (pattern) corresponding to the value is read from the effect selection table 22a shown in FIG. 4, and is set as a variation pattern command transmitted to the display control board D (see S46 in FIG. 11).
[0061]
The effect execution area 23g stores the values of the internal random number counter 23b, the reach random number counter 23c, the big hit symbol counter 23d, and the lost symbol counter 23e for the variable display being executed on the LCD 3 as variable display data (variable display information). It is an area for In the effect execution area 23g, when the variable display is not being executed on the LCD 3 and the value of the hold ball counter 23a is "1" or more and there is a change display on hold, the first of the change displays on hold The variable display data stored in the effect execution 1 memory 23h, which has been written, is written (see S29 in FIG. 10).
[0062]
The effect execution 1 to 4 memories 23h to 23k are memories that store the values of the internal random number counter 23b, the reach random number counter 23c, the big hit symbol counter 23d, and the lost symbol counter 23e for the pending variation display as variation display data. is there. The writing of the variable display data into the effects execution 1 to 4 memories 23h to 23k is executed at the time of the start winning. In addition, since the number of times the variable display is suspended in the present embodiment is a maximum of four times, four effect execution 1 to 4 memories 23h to 23k are provided. If there are pending data in these four effect execution 1 to 4 memories 23h to 23k, the data is written and used one by one in the effect execution area 23g for each change display.
[0063]
The counter buffer 231 is an area for temporarily storing the counter value being updated, and the value of each of the counters 23b to 23f is written and stored in the counter buffer 231 each time it is updated. . Further, when the value of the losing symbol counter 23e is updated by the losing symbol counter updating process (see S17 in FIG. 9), when the value becomes a value (count value) indicating a combination of symbols constituting the losing reach, The count value is stored as a value to be used when a losing reach occurs. Specifically, the symbol counter of the left symbol and the symbol counter of the right symbol that constitute the losing symbol counter 23e are a combination of the count values for stopping and displaying the same symbol, and a symbol different from the symbol in the center is displayed. When the symbol counter of the symbol indicates (for example, the combination of the symbols on the left, the center, and the right is “767” or “151”), the count value of the loss symbol counter 23e constitutes the loss reach. Is stored in the counter buffer 231 as a value indicating the combination of symbols to be performed.
[0064]
The release execution flag 23m is a flag for recognizing that the player has performed the release operation for releasing the storage of the balls stored on the stage 10c of the center frame 10. The release execution flag 23m is turned on when the player presses the operation button 56 to turn on the ball release switch 17 (see S66 in FIG. 13). The first start winning after the release execution flag 23m is updated to ON is determined to be due to the player's release operation (see S31 in FIG. 10), and a special fluctuation linked to the player's release operation as a fluctuation pattern. A pattern (any one of “pattern F” to “pattern I” described later) is set. The release execution flag 23m is turned off when a start winning is established when the release execution flag 23m is on, and it is determined that the start winning in the off state is not due to the release operation of the player, and the normal start winning is performed. A variation pattern (one of “pattern A” to “pattern E” described later) selected at that time is set.
[0065]
The MPU 21 containing the ROM 22 and the RAM 23 is connected to an input / output port 25. The input / output port 25 is provided with a payout control board H for controlling the payout of a prize ball or a lending ball by a payout motor 26, and A display control board D for controlling a variable display, etc., a first-type start-up switch 24, an accessory driving solenoid 13, a ball release solenoid 15, a stored ball detection switch 16, a ball release switch 17, and others. They are connected to the input / output device 28, respectively.
[0066]
The payout control board H is connected to a firing control board B for controlling permission and prohibition of driving of a firing motor 27 for firing a ball on the front of the game board 2. When the player is operating the operation handle 58 and the player has not pressed a stop switch (not shown), the firing control board B permits the driving of the firing motor 27 to fire the ball. Let it do.
[0067]
The display control board D includes an MPU 31, a video RAM 34, a character ROM 35, an image controller 36, an input / output port 38, an output port 37, and the like. One of the input / output ports 38 is connected to the input / output port 25 of the main control board C and the audio lamp control board L, and the other of the input / output ports 38 is connected to the MPU 31 via a bus line. . The image controller 36 is connected to the input of the output port 37, and the LCD 3 is connected to the output of the output port 37.
[0068]
The MPU 31 of the display control board D is for controlling (variable) display of the LCD 3 based on a control command transmitted from the main control board C, and includes a ROM 32 and a RAM 33. The ROM 32 stores various control programs executed by the MPU 31 and fixed value data. The RAM 33 is a memory for storing work data and flags used when the MPU 31 executes various programs. The RAM 33 is provided with an effect execution area 33a.
[0069]
The effect execution area 33a is for storing data on a fluctuation pattern and a stop symbol added to the display command when the display command transmitted from the main control board C is received. When the display control board D receives the display command, data relating to the fluctuation pattern and the stop symbol added to the display command is written in the effect execution area 33a, and the display control board D performs the fluctuation display according to the written data. Execute.
[0070]
The video RAM 34 is a memory in which display data displayed on the LCD 3 is stored, and the display contents of the LCD 3 are changed by rewriting the contents of the video RAM 34. The character ROM 35 is a memory for storing character data such as symbols displayed on the LCD 3. The image controller 36 adjusts the timing of each of the MPU 31, the video RAM 34, and the output port 37, intervenes in reading and writing data, and displays the display data stored in the video RAM 34 at a predetermined timing by referring to the character ROM 35. Is displayed.
[0071]
The audio lamp control board L performs audio control of the sound effect output from the speaker 39 and lighting control of the various lamps 40 such as the LED and the holding lamp 5. The sound lamp control board L is controlled by a command transmitted from the display control board D, and includes an LCD 3 controlled by the display control board D, a speaker 39 controlled by the sound lamp control board L, Various effects are executed in synchronization with the lamp 40.
[0072]
The first-type starting port switch 24 is a switch for detecting a ball that has won the symbol operating port (first-type starting port) 4a, and is provided near the symbol operating port 4a. When a ball is detected by the first-type start-up switch 24, five payout balls are paid out by a payout device (not shown). When a ball is detected by the first-type start-up switch 24, the value of the internal random number counter 23b and the like are obtained, and the variable display is executed according to the obtained value.
[0073]
The accessory drive solenoid 13 is a self-holding type keep solenoid, and is configured by combining a conventional open frame solenoid with a permanent magnet. The momentary drive solenoid 13 is configured such that, by instantaneous energization of a built-in coil, a part of the shaft protruding from the main body further protrudes outward to form an ON state, and at the protruded ON position, a shaft is formed by a permanent magnet. Is held by suction. On the other hand, when the accessory drive solenoid 13 is turned off, instantaneous application of reverse power is performed in a state where the shaft protrudes outward to form an off state in which the protruding amount of the shaft is reduced, and the shaft is reduced. In the off position, the shaft is attracted and held by the permanent magnet. A movable member 12 is connected to the shaft, and the movable member 12 can be selectively moved between a forward state (see FIG. 2B) and a retracted state (see FIG. 2A) according to the amount of protrusion of the shaft. It is formed. Therefore, the movable member 12 can be moved forward by temporarily energizing the accessory drive solenoid 13, so that the movable member 12 can be kept in the advanced state for a long time without taking into account damage due to heat generation or the like of the accessory drive solenoid 13. be able to.
[0074]
In addition, a switch for detecting the protruding state of the shaft for detecting the position of the movable member 12 is incorporated in the accessory driving solenoid 13, or the switch is brought into contact with a part of the movable member 12 separately from the accessory driving solenoid 13 to be movable. It is preferable to provide a switch for detecting whether or not the member 12 is in the forward state. In the case where the accessory drive solenoid 13 is a keep solenoid, the playground suffers a great disadvantage in the event of a failure in which the ON state continues, but the movable member is provided on the display control board D depending on the state of the switch. The position of the movable member 12 is detected to confirm whether or not the movable member 12 is operating correctly in accordance with the control by the display control board D. Can be announced.
[0075]
As described above, the ball discharge solenoid 15 is a solenoid for releasing the storage of the ball stored on the exit rail 10e of the center frame 10, and the stored ball detection switch 16 is configured to store the ball on the exit rail 10e. Switch that detects that the switch has been turned off. The ball release switch 17 is a push button type switch that is turned on when the operation button 56 is pressed. When the stored ball detection switch 16 is on and the ball is released in a state where the ball is stored on the exit rail 10e, the ball release switch 17 drives the ball release solenoid 15 under the control of the main control board C. You. As a result, the stored state of the ball is released, and the stored ball is released toward the symbol operating port 4a.
[0076]
Next, the effect selection table 22a in which data corresponding to the value of the variation pattern counter 23f is set will be described with reference to FIG. FIG. 5 is a diagram schematically showing a configuration of the effect selection table 22a used for selecting a variation pattern.
[0077]
The effect selection table 22a is a table used for selecting a variation pattern to be executed at the time of losing reach. In the effect selection table 22a, four types of variation patterns from "Pattern B" to "Pattern E" are set as variation patterns that cause the loss reach with the reach display.
[0078]
Here, each variation pattern set in the pachinko machine 1 will be described with reference to FIGS. FIG. 6 and FIG. 7 are diagrams illustrating display screens of the variable display performed on the LCD 3 at the time of the normal start winning. FIG. 8 is a diagram showing a display screen of the LCD 3 at the time of a winning start by a release operation of the player. In FIG. 8, the symbol operation port 4 a and the center frame 10 are shown together with the LCD 3 for easy understanding of the drawing.
[0079]
The pachinko machine 1 is set with four types of variation patterns that cause a loss-reach and another five types of variation patterns as variation patterns, and a total of nine types from “pattern A” to “pattern I” are provided. Is set.
[0080]
“Pattern A” is a pattern that displays a lost pattern without a reach display. In “Pattern A”, after changing the three symbol reels displayed in the upper display area 3a of the LCD 3 (the state of FIG. 6A), the changing of the left symbol reel is stopped after 7 seconds, After 8 seconds, the fluctuation of the right symbol reel is stopped (the state of FIG. 6B), and after 9 seconds, the fluctuation of the center symbol reel is stopped. In “Pattern A”, an animation of a character imitating a golf player is displayed in the lower display area 3 b of the LCD 3. Specifically, the swing of the golf club is gradually started from the start of the fluctuation display, and the animation in which the golf player swings at the same time as the fluctuation stop of the right symbol reel is displayed. Note that the symbol reel is a virtual reel in which symbols “0 to 9” displayed on the LCD 3 are sequentially arranged in the vertical direction.
[0081]
“Pattern B” is a pattern called green reach. In the "pattern B", after the fluctuation display is started in the upper display area 3a (the state of FIG. 6A), the fluctuation of the left symbol reel is stopped after 7 seconds, and the fluctuation of the right symbol reel is changed after 8 seconds. Is stopped and the reach display appears (the state of FIG. 6 (c)). At this time, an animation in which the golf player hits the ball and the ball flies is displayed in the lower display area 3b.
[0082]
After the fluctuation of the right symbol reel is stopped, the center symbol reel is scrolled and stopped for 4 seconds (that is, until 12 seconds elapse after the start of the fluctuation). In the lower display area 3b, an animation in which the ball falls on the green and rolls toward the green cup is displayed, and the stop symbol at the center is the same as the left and right symbols stopped earlier, indicating a jackpot. Then, an animation is displayed in which the ball enters (cups in) the hole (cup) on the green (see FIG. 6D). On the other hand, if the center stop symbol is different from the left and right symbols stopped earlier, if the player loses the game, an animation in which the ball stops at a position shifted from the cup is displayed.
[0083]
“Pattern C” is a pattern called pond loss reach, and is different from “Pattern B” only in the animation displayed in the lower display area 3b after the right symbol reel stops moving. After the symbol reel on the right side stops changing, an animation of the ball falling on the pond is displayed in the lower display area 3b (see FIG. 7A).
[0084]
“Pattern D” is a pattern called “grass loss loss reach”, and is different from “Pattern B” in the animation displayed in the lower display area 3 b after the right symbol reel stops changing. After the fluctuation of the right symbol reel is stopped, an animation of the ball falling on the grass is displayed in the lower display area 3b (see FIG. 7B).
[0085]
“Pattern E” is a pattern referred to as “crow drive reach”, and the effect is continuously performed on “Pattern D” even after the central symbol reel stops changing. After the center symbol reel stops changing (after 12 seconds have elapsed from the start of the change), an animation in which the crow picks up a grassy ball and flies to the left (see FIG. 7C) is displayed in the lower display area 3b. It is displayed for three seconds (hereinafter, this display is called a crow chance display). During the appearance of the crow chance display, the accessory drive solenoid 13 is turned on so that the movable member 12 imitating the crow moves forward diagonally upward, and the ball flows into the transfer path 10a of the center frame 10 by the movable member 12. An easy-to-operate state (hereinafter, this state is called a crow chance) is maintained (see FIG. 2B).
[0086]
When three seconds elapse after the crow chance display appears, the accessory driving solenoid 13 is turned off and the movable member 12 is retracted (see FIG. 2A). In a state in which the movable member drive solenoid 13 is turned on and the movable member 12 advances, the ball easily flows into the transfer path 10a of the center frame 10, and is stored on the exit rail 10e at the center of the stage 10c via the transfer path 10a. Easy to do. During the three-second crow chance, the player operates the operation handle 58 so that the ball flows down to the left side of the center frame 10 and causes almost all of the ball to flow into the transfer path 10a. Are stored from the exit rail 10e to the stage 10c.
[0087]
In the pachinko machine 1, of the four types of variation patterns from "pattern B" to "pattern E" accompanied by the reach display, the only variation pattern set at the time of the big hit is "pattern B". “Pattern C” to “Pattern E” are fluctuation patterns that are executed only when the display result after the fluctuation is a loss, in which the value of the internal random number counter 23b acquired at the time of the start winning wins a big hit. Selected only if not. The above-mentioned “pattern A” to “pattern E” are variation patterns selected at the time of a normal start winning.
[0088]
“Pattern F” to “Pattern I” are special fluctuation patterns selected at the time of the start winning by the release operation of the player instead of the normal start winning. When the player presses the operation button 56 to win a prize in the symbol operating port 4a at the time of a crow's chance, the ball stored on the exit rail 10e of the center frame 10 is changed from "Pattern F" to "Pattern I". Is selected as the fluctuation pattern. The “Pattern F” to the “Pattern I” are executed when the stored ball detection switch 16 is turned on and the storage of the ball on the exit rail 10e is detected in the demonstration screen waiting for the start of the fluctuation display. This is a variation pattern that is executed after the displayed special demonstration screen is displayed, and is set so that the production after the start winning is continued to the production on the special demonstration screen.
[0089]
While the special demonstration screen is displayed, the display area 3a in the upper part of the LCD 3 displays "Aim well!" And four numbers "3", "2", "1", and "0". In the display area 3b, a golf player holding the golf club with the tip side of the golf club facing the exit rail 10e is displayed as if hitting a ball stored on the exit rail 10e. The effect is performed by relating the sphere stored on 10e to the display in the lower display area 3b.
[0090]
When the ball release switch 17 is turned on by the player performing the release operation of pressing the operation button 56 while the special demonstration screen is displayed, the golf player is displayed in the lower display area 3b so as to interlock with the operation of the player. Displays the state of swinging and hitting the ball (see FIG. 8B), releases the ball on the exit rail 10e, and discharges the ball toward the symbol operating port 4a. Thereafter, when a ball wins in the symbol operation port 4a, a start winning is achieved, and a variable display of any one of "Pattern F" to "Pattern I" is started continuously on the special demonstration screen.
[0091]
“Pattern F” is a pattern that is set when a big hit occurs due to a ball release operation by the player. In this “pattern F”, the left and right symbol reels are stopped at the start of the change and the reach display appears in the upper display area 3a (see FIG. 6C). After the start of the change, the central symbol is scrolled for 3 seconds, and then the central stopped symbol is stopped at the same symbol as the left and right symbols stopped earlier, and a big hit is displayed. In the lower display area 3b, an animation in which the ball riding on the green rolls toward the cup and then enters the cup is displayed for 3 seconds.
[0092]
“Pattern G” is one of the patterns set at the time of a loss when the player performs a ball releasing operation. The “pattern G” is a pattern in which the stop symbol at the center with respect to the “pattern F” is stopped at a symbol different from the left and right symbols stopped earlier. In the lower display area 3b, an animation in which the ball riding on the green rolls toward the cup and stops in front of the cup is displayed for 3 seconds.
[0093]
“Pattern H” is one of the patterns set at the time of the loss when the player performs a ball releasing operation, similar to “pattern G”. This “pattern H” is different from the “pattern G” only in the animation displayed in the lower display area 3b. In the lower display area 3b, an animation in which the ball riding on the green rolls toward the cup and then stops on the far side of the cup is displayed for 3 seconds.
[0094]
"Pattern I" is one of the patterns set at the time of loss when the player performs a ball release operation, similar to "Pattern G" and "Pattern H". This “pattern I” is different from the “pattern G” only in the animation displayed in the lower display area 3b. After the start of the fluctuation, an animation for displaying the state (OB) of the ball falling in the forest is displayed in the lower display area 3b for 3 seconds.
[0095]
As described above, “Pattern A” to “Pattern E” are set as the fluctuation patterns selected at the time of the normal start winning, while “Pattern F” is selected as the fluctuation pattern selected at the time of the starting winning by the release operation of the player. “Pattern I” is set, and different variation patterns are selected according to the winning mode of the symbol operation port 4a. For this reason, at the time of the start winning prize by the release operation of the player and at the time of the normal start winning prize, the selected fluctuation patterns can be different fluctuation patterns having different contents, and the different fluctuation patterns can be changed by the player. Selection can be made in connection with the release operation. Therefore, the player can expect the fluctuation pattern of the fluctuation display that can be selected by performing the release operation of the player himself, and has a change in the sense of expectation given to the player, and actively performs the release operation. It is possible to promote execution and raise awareness of participation in the game.
[0096]
Further, “Pattern F” to “Pattern I”, which are the variation patterns selected at the time of the start winning by the release operation of the player, are all variation patterns displaying symbols accompanied by reach display. Since the big hit occurs after the reach display appears, when the player wins by the release operation, the big hit that occurs after the reach display displayed on the LCD 3 is changed to a variable display that does not cause the reach display to appear. Can be made more conscious than in the case of executing
[0097]
In the present embodiment, the fluctuation pattern selected at the time of the normal winning and the fluctuation pattern selected at the time of the winning by the player's release operation are set differently, but different fluctuation patterns are necessarily selected. There is no need to, for example, select the same fluctuation pattern as at least one of the fluctuation patterns selected at the time of the normal start winning at the time of the starting winning by the release operation of the player.
[0098]
Here, in the special demonstration screen, the four numbers (see FIG. 8A) displayed in the upper display area 3a are specific timings (timings) at which the value of the internal random number counter 23b generates a big hit due to the start winning. Is displayed to the player, and the numbers from "0" to "3" blink one by one in descending order at 1.2 second intervals corresponding to one cycle of the internal random number counter 23b. After the number “0” flashes, the number “3” flashes again, and the countdown display in which the numbers “3” to “0” flash sequentially is repeated. When the stored ball detection switch 16 detects that a ball is stored on the exit rail 10e while waiting for the fluctuation display, the value of the internal random number counter 23b is sent from the main control board C to the display control board D. The accompanying special demonstration display command is transmitted (see S62 in FIG. 13), and a special demonstration screen is displayed on the LCD 3 by controlling the display control board D based on the command. Note that the internal random number counter 23b is a counter that can take a total of 600 values within the range of “0 to 599”, and thus is incremented by 1 every 2 ms by a counter updating process described later. Therefore, one cycle of the internal random number counter 23b is a time obtained by multiplying 600 by 2 ms (that is, 1.2 seconds).
[0099]
The timing at which the blinking of the number displayed in the upper display area 3a is switched indicates the value “7” of the internal random number counter 23b that generates a big hit to the player, and is a certain time before the count value of “7” is reached. (0.5 seconds) ago, the blinking numbers are switched and displayed. The pachinko machine 1 is almost every time after the player performs a release operation for releasing the storage of the ball on the exit rail 10e and before the released ball is detected by the first-type starting port switch. This requires a time of 0.5 seconds, and the number which blinks before the value of the internal random number counter 23b reaches "7" is switched by this time. The count value when switching the blinking number is “357”, which is a value that reaches “7” after updating the count value 250 times. Therefore, when the player performs the release operation for releasing the storage of the ball on the exit rail 10e in accordance with the timing at which the blinking of the numbers is switched, the player enters the symbol operating port 4a after releasing the storage of the ball. Can be set to around “7”, and the player can be given an interest in the game aiming at the big hit while taking the timing of executing the release operation from “3” to “0”.
[0100]
Returning to FIG. 5, the effect selection table 22a will be described. In the effect selection table 22a, the values of the variation pattern counter 23f for the four types of variation patterns from "pattern B" to "pattern E" are classified. Specifically, the value of the fluctuation pattern counter 23f updated within the range of “0 to 99” is “0 to 39” for “Pattern B” of Green Reach, and “0 to 39” for “Pattern C” of Pond Loss Reach. Are divided into four ranges: "40-69", "70-89" for "Pattern D" of grass loss reach, and "90-99" for "Pattern E" of crow drive reach. That is, the variation patterns of “pattern B”, “pattern C”, “pattern D”, and “pattern E” are classified into a ratio of 40: 30: 20: 10. In the effect selection table 22a, the crow drive reach is set to be the least as compared to the green reach, the pond loss reach, and the grass loss reach. In the effect selection table 22a, the crow drive reach is set to be the least compared to the green reach, the pond loss reach, and the grass loss reach. Therefore, the movable member 12 moves forward for 3 seconds during the crow chance display after the crow drive reach is set, and a state (crow chance) in which the ball is likely to flow into the entrance (ball inlet 10b) of the transfer path 10a is set by the player. Can be given to the player by emphasizing the interest of the game expecting a crow chance.
[0101]
The value of the variation pattern counter 23f does not necessarily need to be divided into the ratios set in the effect selection table 22a, and the ratio of each variation pattern may be divided into another ratio. The variation patterns set in the effect selection table 22a are not necessarily limited to four types, but may be two or three types, or five or more types. The value of the variation pattern counter 23f does not necessarily need to be divided into the ratios set in the effect selection table 22a, and the ratio of each variation pattern may be divided into another ratio.
[0102]
When the variation pattern is determined based on the lottery using the effect selection table 22a for selecting the variation pattern and the variation pattern counter 23f, the data of “B to D” corresponding to each variation pattern is displayed. Are output to the display control board D as one command (fluctuation pattern command) constituting When receiving the variation pattern command, the display control board D executes an effect for a time set in accordance with the data of each variation pattern.
[0103]
Next, each process executed by the pachinko machine 1 configured as described above will be described with reference to flowcharts of FIGS. FIG. 9 is a flowchart of a main process executed in the main control board C of the pachinko machine 1. In the main processing, initialization processing (S11) such as restoration when there is backup data, initialization of each value of RAM and I / O, and setting of each interrupt such as a timer interrupt are executed. After that, the processes from S12 to S17 are repeatedly executed at predetermined time intervals (every 2 ms in this embodiment) to control the game.
[0104]
In the start winning change start process (S12), it is checked whether or not the ball has won the symbol operating port (first type start port) 4a, and the content of the change display is set. A display command to start the variable display is transmitted to the display control board D. Details of the start winning change start process (S12) will be described later with reference to FIG.
[0105]
In the fluctuation stop processing (S13), first, it is determined whether or not a big hit is occurring. Here, the big hit includes a special game displayed on the LCD 3 at the time of the big hit and a predetermined time after the end of the special game. The predetermined time after the end of the special game is set as, for example, a time required for adjusting each state of the pachinko machine 1 or the like. If it is determined that it is not a big hit, it is determined whether or not the fluctuation time in the fluctuation pattern has ended. This process is performed by determining whether a time set for each variation pattern has elapsed. If the fluctuation time has ended, a confirmation command, which is one of the control commands, is output to the display control board D for stopping and confirming the fluctuation, and this processing ends. When the determination command is input, the display control board D stops the variable display on the LCD 3.
[0106]
In the counter updating process (S14), the values of the internal random number counter 23b, the reach random number counter 23c, the big hit symbol counter 23d, and the variation pattern counter 23f are updated. In the big hit process (S15), it is determined whether or not a big hit is made, and if the big hit is made, a process of opening the specific winning opening 6 (see FIG. 1) is performed. On the other hand, if it is not a jackpot, the process is skipped and the process ends. In the opening processing of the specific winning opening 6, the specific winning opening 6 is opened for a predetermined time (for example, until 30 seconds elapse or until 10 balls are won) so that the ball can easily win. When the ball passes through the V zone 6a while the specific winning opening 6 is open, a continuation right is established, and after the closing of the specific winning opening 6, the specific winning opening 6 is again held for a predetermined time (or 10 balls). Open until you win). The opening and closing operation of the specific winning opening 6 is repeated up to 16 times (16 rounds). In other processing (S16), other processing such as transmitting a command instructing payout of award balls is executed. The accessory solenoid driving process for driving the accessory driving solenoid 13 shown in FIG. 14 is performed in the process of S16.
[0107]
In the lost symbol counter updating process (S17), the value of the lost symbol counter 23e is updated. Thereafter, the lost symbol counter updating process (S17) is repeatedly executed during the remaining time until the execution timing of the next process of S12 comes. Since each process of S12 to S16 needs to be executed periodically, in the process of S18, the elapsed time from the previous execution of the process of S12 is checked (S18). As a result of the check, if a predetermined time (2 ms) has elapsed since the last execution of the processing of S12 (S18: Yes), the processing shifts to S12. On the other hand, if the predetermined time has not elapsed (S18: No), the process proceeds to S17, and the lost symbol counter updating process (S17) is repeated. Here, the execution time of each processing of S12 to S16 changes according to the state of the game, and thus the remaining time until the execution timing of the next processing of S12 comes is not a fixed time. Therefore, the value of the lost symbol counter 23e can be updated at random by repeatedly executing the lost symbol counter updating process (S17) using the remaining time.
[0108]
FIG. 10 is a flowchart of the start winning change start processing (S12) executed in the main processing of the main control board C (see FIG. 9). This start winning fluctuation start processing (S12) is performed when the value of the reserved ball counter 23a is equal to or less than "3" and the effect execution is in a state where the data of the fluctuation display can be stored in the memories 1 to 4 23h to 23k. When the seed starting port switch 24 detects a ball and a start winning is established, the value of the internal random number counter 23b and the like at the time of the starting winning is acquired as data of the fluctuation display, and the effect execution 1 indicated by the value of the reserved ball counter 23a is performed. 4 is a process of storing the data in the memories 23h to 23k. When the value of the reserved ball counter 23a is "1" or more, the fluctuation display is not performed on the LCD 3 and the value of the reserved ball counter 23a is not displayed unless a big hit is occurring. Is subtracted by "1" and the data of the pending fluctuation display is written in the effect execution area 23g and the fluctuation display is executed. On the other hand, if the fluctuation display is performed, the execution of the pending fluctuation display is suspended (standby). This is the process to make it.
[0109]
In the start winning change start process (S12), first, it is confirmed whether or not the first type start port switch 24 has detected a ball (S21). If the first-type starting port switch 24 has detected a ball (S21: Yes), it is next checked whether or not the value of the reserved ball counter 23a is "4" or more (S22). If the value of the reserved ball counter 23a is less than "4" (S22: No), "1" is added to the value of the reserved ball counter 23a because the variable display data is not stored for the maximum number of reservations (step S22). S23). Thereafter, a command to turn on one hold lamp 5 is transmitted to the display control board D (S24), and one hold lamp 5 indicating the number of times the variable display is held is turned on. Further, each of the values of the internal random number counter 23b, the reach random number counter 23c, the big hit symbol counter 23d, and the lost symbol counter 23e is used as the data of the variable display to the effect execution 1 to 4 memories 23h to 23k indicated by the value of the reserved ball counter 23a. Write (S25), and the process proceeds to S26.
[0110]
On the other hand, in the process of S21, if the first-type starting port switch 24 has not detected a ball (S21: No), the start prize is not established, and the value of the pending ball counter 23a is set to " If "4" or more (S22: Yes), since the variable display data has been written in all of the effect execution 1-4 memories 23h to 23k provided for the variable display suspension count, the processing of S23 to S25 is performed. Skip to step S26.
[0111]
In the processing from S26, first, it is confirmed whether or not a variable display is being performed or a big hit is being performed (during a special game state in which a predetermined game value is given) (S26). If the fluctuation display is not being performed and the jackpot is not being hit (S26: No), it is confirmed whether or not the value of the reserved ball counter 23a is "1" or more (S27). If it is "1" or more (S27: Yes), "1" is subtracted from the value of the reserved ball counter 23a (S28), and the data of the variable display stored in the effect execution 1 memory 23h is output to the effect execution area 23g. (S29).
[0112]
Next, the variable display data stored in the performance execution 2 to 4 memories 23i to 23k are shifted one by one to the performance execution 1 to 3 memories 23h to 23j (S30), and whether or not the release execution flag 23m is on. Is checked (S31). If the release execution flag 23m is not on (S31: No), since the ball stored in the exit rail 10e of the center frame 10 is not a variable display that is released and executed by the player, the variation pattern is changed from “Pattern A”. A process for selecting any one of "pattern E" is performed, and a normal display command determination process for setting a fluctuation pattern and a stop symbol is performed (S32, see FIG. 11), and is determined by the normal display command determination process (S32). The displayed display command is transmitted to the display control board D (S33), and the start winning fluctuation start processing (S21) ends. On the other hand, if the release execution flag 23m is turned on in the processing of S31 (S31: Yes), the ball released by the release operation by the player is a variable display that is started by winning the symbol operating port 4a, so that the variation is performed. A process of selecting any one of "pattern F" to "pattern I" as a pattern is performed, and a special display command determination process of setting a variation pattern and a stop symbol is performed (S34, see FIG. 12), and the process proceeds to S33. I do.
[0113]
In addition, when it is confirmed in the process of S27 that the value of the pending ball counter 23a is less than "1", that is, "0" (S26: No), the fluctuation display is immediately displayed when the starting winning is established. Is waiting for a change that can start. For this reason, a fluctuation standby process (S35, see FIG. 13) is performed in which a special demonstration screen indicating the timing of operating the operation button 56 for the player is displayed on the display control board D as a demonstration screen to be displayed during the fluctuation standby. This start winning fluctuation start processing (S21) is ended. When it is confirmed in the processing of S26 that the fluctuation display or the big hit is being performed (S26: Yes), the processing from S27 to S35 is skipped and the start winning fluctuation start processing (S12) ends.
[0114]
As described above, the winning of the ball to the symbol operating port 4a first detected by the first-type starting port switch 24 after the release execution flag 23m is turned on is determined by the processing of S31 by the ball releasing solenoid by the release operation of the player. 15 operation. Since the winning of the ball to the symbol operating port 4a occurs intermittently during the game, the first-type starting port switch 24 is first turned on after the release execution flag 23m is turned on (see S66 in FIG. 13). Even if the winning of the ball to the symbol operating port 4a detected by the player is a winning based on the operation of the ball releasing solenoid 15, the player accidentally wins the ball that is not the releasing operation and the winning operation to the symbol operating port 4a depending on the releasing operation. If this is not the case, it can occur, but it can have a reasonable degree of accuracy. Therefore, it is possible to select whether or not the winning of the ball to the symbol operating port 4a based on the operation of the ball releasing solenoid 15 with a simple control with appropriate accuracy, and according to the selection result. Thus, an appropriate one of the normal display command determination processing (S32) and the special display command determination processing (S34) for selecting a variation pattern can be selected.
[0115]
FIG. 11 is a flowchart of the normal display command determination process (S32) executed in the start winning variation start process (S12) shown in FIG. The display command is transmitted from the main control board C to the display control board D, and is a stop for designating a symbol at the time of stop after the three symbol reels displayed on the LCD 3 are variably displayed downward. It is composed of a symbol command and a fluctuation pattern command for designating a fluctuation pattern of the fluctuation display. In the normal display command determination processing (S32), the display is not based on the ball released from the exit rail 10e of the center frame 10 but on the basis of the data of the variable display acquired at the time of starting winning by the firing operation of the operation handle 58 of the player. The stop symbol command and the variation pattern command that constitute the command are determined.
[0116]
In the normal display command determination processing (S32), first, it is checked whether or not the value of the internal random number counter 23b stored in the effect execution area 23g is a value that causes a big hit (S41). If the value is a value for generating a big hit (S41: Yes), a value indicating a combination of symbols corresponding to the value of the big hit symbol counter 23d stored in the effect execution area 23g is set in the stop symbol command (S42). Further, "B" for displaying the cup-in from green reach is set as the data of the variation pattern command (S43), and the normal display command determination processing (S32) is terminated.
[0117]
If the value of the internal random number counter 23b is not a value for generating a jackpot in the processing of S41 (S41: No), is the value of the reach random number counter 23c stored in the effect execution area 23g a value for generating losing reach? Confirmation (S44). If the value is a value causing the loss reach (S44: Yes), a value indicating the combination of the symbols constituting the loss reach stored in the counter buffer 231 is set to the stop symbol command (S45), and further, The data (pattern) indicated by the value of the variation pattern counter 23f is read from the effect selection table 22a and set as a variation pattern command (S47), and the display command determination process (S32) ends.
[0118]
In the process of S44, if the value of the reach random number counter 23c stored in the effect execution area 23g is not a value that causes loss reach (S44: No), the value of the loss symbol counter 23e stored in the effect execution area 23g is changed. The stop pattern command is set (S47), and since the loss variation display is not accompanied by the reach display, the data "A" indicating the variation pattern of "Pattern A" is set as the data of the variation pattern command (S48). Then, the display command determination process (S32) ends.
[0119]
FIG. 12 is a flowchart of the special display command determination processing (S34) executed in the start winning fluctuation start processing (S12) shown in FIG. In the special display command determination process (S34), a stop symbol command and a variation pattern command that constitute the display command are determined based on the data of the variation display acquired at the time of the start winning by the release operation of the player.
[0120]
In this special display command determination processing (S34), first, it is checked whether or not the value of the internal random number counter 23b stored in the effect execution area 23g is a value that causes a big hit (S51). If the value is a value for generating a big hit (S51: Yes), a value indicating a combination of symbols corresponding to the value of the big hit symbol counter 23d stored in the effect execution area 23g is set in the stop symbol command (S52). . Thereafter, "F" for displaying the cup-in after the reach display appears simultaneously with the start of the fluctuation is set as the data of the fluctuation pattern command (S53), the release execution flag 23m is turned off, and the special display command determination processing is performed. (S34) ends.
[0121]
If the value of the internal random number counter 23b is not a value that causes a big hit in the process of S51 (S51: No), the value indicating the combination of the symbols constituting the losing reach stored in the counter buffer 231 is used as the stop symbol command. It is set (S55), and it is confirmed whether the value of the internal random number counter 23b stored in the effect execution area 23g is within the range of "0 to 6" (S56). If it is within the range of "0 to 6" (S56: Yes), the ball is released by the operation buttons 56 by the player at a timing slightly earlier than the value "7" of the internal random number counter 23b for generating a big hit. I have. In this case, "G" indicating that the ball stops before the cup after the reach display appears at the same time as the start of the fluctuation is set as the data of the fluctuation pattern command (S57), and the process proceeds to S54. I do.
[0122]
If the value of the internal random number counter 23b confirmed in the process of S56 is not in the range of "0 to 6" (S56: No), it is confirmed whether the value of the internal random number counter 23b is in the range of "8 to 15". (S58). If it is within the range of "8 to 15" (S58: Yes), the ball is released by the operation button 56 by the player at a timing slightly later than the value "7" of the internal random number counter 23b for generating a big hit. ing. In this case, "H" indicating that the ball stops on the back side of the cup after the reach display appears at the same time as the start of the fluctuation is set as the data of the fluctuation pattern command (S59), and this special display command The determination processing (S34) ends. If the value of the internal random number counter 23b confirmed in the processing of S58 is not within the range of "0 to 6" (S56: No), the ball falls into the forest after the reach display appears at the same time as the start of the fluctuation and " “I” for displaying “OB” is set as the data of the variation pattern command (S60), and the process proceeds to S54.
[0123]
As described above, in the special display command determination process (S34) of FIG. 12, the stop symbol command and the fluctuation pattern command that constitute the display command are changed based on the data of the fluctuation display acquired at the time of the start winning by the release operation of the player. After the release operation is performed by the player, any of the fluctuation patterns “Pattern F” to “Pattern I”, which are continuous fluctuation patterns on the special demonstration screen, can be set.
[0124]
FIG. 13 is a flowchart of the fluctuation standby processing (S35) executed in the start winning fluctuation fluctuation start processing (S12) shown in FIG. The fluctuation standby processing (S35) is processing executed during fluctuation standby in which fluctuation display can be started immediately when a start winning is established. This fluctuation standby processing (S35) is to display a special demonstration screen indicating the timing of operating the operation button 56 on the display control board D as a demonstration screen to be displayed during the fluctuation standby, and to operate by the player. It was stored on the exit rail 10e at the timing when the release operation was performed on the button 56. This is a process for releasing the storage of the sphere.
[0125]
In the fluctuation standby process (S35), it is determined whether the stored ball detection switch 16 is on (S61). If the stored ball detection switch 16 is on (S61: Yes), the ball is stored on the exit rail 10e of the center frame 10, and the player is caused to press the operation button 56 to perform a release operation. Since it is necessary, a special demonstration display command is transmitted to the display control board D based on the value of the internal random number counter 23b (S62). When the special demonstration display command is transmitted to the display control board D, a special demonstration screen in which the numbers “3” to “0” are repeatedly blinked by the control of the display control board D is displayed (FIG. 8 ( a)).
[0126]
Thereafter, it is checked whether the ball release switch 17 has been turned on (S63). If the ball release switch 17 is turned on (S63, Yes), it is the timing when the player presses the operation button 56 as the release operation, so the ball release solenoid 15 is driven (S64) and stored on the exit rail 10e. The released ball is released toward the symbol operation port 4a, and a ball release execution command is transmitted to the display control board D (S65). When the ball release execution command is transmitted to the display control board D, the state of the golf player hitting the ball is displayed in the lower display area 3b of the LCD 3 by the control of the display control board D (FIG. 8B). reference).
[0127]
After the processing of S65, the release execution flag 23m is turned on (S66), and the fluctuation standby processing (S35) ends. By the processing of S66, the fact that the ball has been released by the player's release operation is stored in the main control board C, so that the variable display started by the next start prize is based on the player's release operation by the release operation. Can be stored in the main control board C. Therefore, for the fluctuation display to be started next time, any one of the fluctuation patterns from “Pattern F” to “Pattern I” for performing the continuous fluctuation display on the special demonstration screen is changed based on the release operation of the player. The display can be selected by using the special display command determination process (see S34 in FIG. 10).
[0128]
On the other hand, if the ball release switch 17 is turned off in the processing of S63 (S63: No), since the player has not yet operated the operation button 56, the processing of S64 to S66 is skipped, and the fluctuation standby processing ( S35) ends. If the stored ball detection switch 16 is turned off in the process of S61 (S61: No), no ball is stored on the exit rail 10e of the center frame 10, so that the title or maker name of the pachinko machine 1, or A normal demonstration display command for displaying a normal demonstration screen other than the special demonstration screen for displaying an animation or the like is transmitted to the display control board D (S67), and the variable standby processing (S35) ends.
[0129]
As described above, in the fluctuation standby processing (S35), when the ball release execution command is transmitted to the display control board D by the processing of S65, the display control board D controls the lower display area 3b of the LCD 3 under the control of the display control board D. The state in which the golf player has hit the ball is displayed. Therefore, the player has the impression that the golf player displayed in the lower display area 3b of the LCD 3 hits a ball which is a game medium used for a ball game at the timing of operating the operation button 56. It is possible to emphasize the interest of the game by the ball game.
[0130]
The release operation of the ball release solenoid 15 based on the release operation of the player is performed during the fluctuation standby in the fluctuation standby processing (S35). For this reason, the player determines whether or not a jackpot is generated according to the starting condition established by winning the symbol operation port 4a by the release operation of the player during the fluctuation standby in an earlier stage than in the case where the fluctuation standby is not performed. Can be shown. Therefore, it is possible to respond to the player's expectation that he wants to quickly confirm the result of the operation performed by himself / herself in the game, thereby increasing the interest of the game.
[0131]
If the release execution flag 23m is confirmed to be on in the start winning fluctuation start processing (see S12 in FIG. 10) (S31: Yes), the special display command determination processing (see S34 in FIG. 12) is executed. . The release execution flag 23m is turned on only when the player presses the operation button 56 in a state where the ball is stored on the exit rail 10e of the center frame 10 (S61: Yes, S63: Yes). Even if the operation button 56 is pressed by the player in a state where no ball is stored on the exit rail 10e of the center frame 10, the release execution flag 23m is not turned on, and a special display command is issued when a normal start winning prize occurs. Execution of the determination process (S34) can be prevented.
[0132]
FIG. 14 is a flowchart of the accessory solenoid driving process executed by the main control board C. The accessory solenoid driving process is a process periodically executed as one of the other processes (S16) in the main process shown in FIG. In the accessory solenoid driving process, when the crow drive reach of “pattern E” is selected by the process of selecting the variation pattern of the losing reach (the process of S46 in FIG. 11), the accessory drive solenoid 13 is driven to reduce the crow. This is a process for driving the simulated movable member 12.
[0133]
In this accessory solenoid driving process, first, it is checked whether the crow drive reach variation display of “pattern E” is being executed (S71), and if the crow drive reach variation display is being executed (S71: Yes), It is checked whether 12 seconds have elapsed after the start (S72). If 12 seconds have passed after the start of the fluctuation (S72: Yes), the accessory drive solenoid 13 is turned on (S73), the movable member 12 imitating the crow is advanced, and the accessory solenoid drive processing is completed. I do. In the process of S72, before the lapse of 12 seconds after the start of the change or after the lapse of 12 seconds or more (S72: No), it is confirmed whether 15 seconds have elapsed after the start of the change (S74). If 15 seconds have elapsed since the start of the fluctuation (S74: Yes), it is time to turn off the accessory drive solenoid 13 that has been turned on, so the accessory drive solenoid 13 is turned off (S75). The driving process ends.
[0134]
In the process of S74, if 15 seconds have elapsed after the start of the fluctuation or after 15 seconds have elapsed (S74: No), the process of S75 is skipped and the accessory solenoid driving process ends. If it is confirmed in the processing of S71 that the crow drive reach fluctuation display is not being executed (S71: No), the processing from S72 to S75 is skipped because there is no need to drive the accessory driving solenoid 13. The accessory solenoid driving process ends.
[0135]
As described above, in the accessory solenoid driving process, the accessory driving solenoid 13 is driven when the crow drive reach of “pattern E” is selected by the process of selecting the variation pattern of the loss reach (the process of S46 in FIG. 11). As a result, the movable member 12 simulating a crow can be driven for a certain period of time after the start of the change, and the switching operation of the movable member 12 between forward and backward can be controlled in association with the change display.
[0136]
As described above, according to the start winning variation process (S12) shown in FIG. 10, the winning of the ball to the symbol operating port 4a is based on the operation of the ball releasing solenoid 15, and the operation based on the operation of the ball releasing solenoid 15. A change pattern of the change display is selected based on different change pattern selection conditions depending on whether or not a winning is made. Therefore, the variation pattern of the variable display selected by winning the ball into the symbol operating port 4a can be changed in association with the operation of the ball release solenoid 15, and the player can respond to the selected variable display variation pattern. By changing the sense of expectation to embrace, it is possible to enhance the interest of the game.
[0137]
Further, among the balls hit into the game area, the balls stored on the transfer path 10a of the center frame 10 are released by the operation of the ball discharge solenoid 15 in response to the operation of the player. For this reason, the player can operate the ball release solenoid 15 by his / her own operation to aim for a prize in the symbol operating port 4a, and change the fluctuation pattern of the fluctuation display selected in association with the operation of the ball release solenoid 15. Can be different. Therefore, when the ball release solenoid 15 is operated by the player's own operation and the ball wins the symbol operation port 4a, and when the ball wins the symbol operation port 4a without the operation of the ball release solenoid 15 is determined. , The variation pattern of the selected variable display can be made different, and by changing the variation pattern of the variable display in accordance with the operation of the player, the player's sense of expectation can be changed to enhance the interest of the game. Can be.
[0138]
Note that the selection means described in claim 1 corresponds to the start winning variation start processing (S12) shown in FIG. 10 which is a part of the control program stored in the ROM 22 of the main control board C in the above embodiment. The first variation type selection means described in claim 1 corresponds to the effect selection table 22a stored in the ROM 22 of the main control board C and the normal display command determination processing (the processing of S32 in FIG. 10). The second variation type selection means described above corresponds to a special display command determination process (the process of S34 in FIG. 10).
[0139]
As described above, the present invention has been described based on the embodiments. However, the present invention is not limited to the above-described embodiments, and various modifications and improvements can be easily made without departing from the spirit of the present invention. It can be inferred.
[0140]
For example, in the above embodiment, the main control board C drives the accessory drive solenoid 13 to control the forward and backward movement of the movable member 12, but the control of the main control board C does not necessarily drive the accessory drive solenoid 13. It is not necessary to control, and a command for operating the movable member 12 may be transmitted from the main control board C to another board such as the display control board D, and the driving of the accessory driving solenoid 13 may be controlled by the board. .
[0141]
In the above embodiment, the ball that has flowed into the center frame 10 from the ball inflow port 10b of the center frame 10 is configured to almost certainly enter the symbol operating port 4a. There is no need to configure to win. It is sufficient that the movable member 12 is configured so as to easily flow into the transfer path 10a that guides the sphere to the symbol operation port 4a when the movable member 12 advances toward the center frame 10 side. The configuration may be such that when one ball flows in, one symbol is won in the symbol operating port 4a. In this case, the width of the part divided at the center of the guide plate 10d of the center frame 10 is made wider (for example, about three times) than the outer shape of the sphere in a front view, and the width of the exit rail 10e is made larger. When the ball released from the center frame 10 is displaced to the right or left from the center position of the symbol operation port 4a, the ball is flipped outward by a nail provided on the symbol operation port 4a and downward. You may make it flow down.
[0142]
Further, in the above-described embodiment, the movable member 12 is configured to slide along the game board 2 obliquely upward, but the direction in which the movable member 12 slides is not limited to the above-described embodiment. A configuration in which a movable member disposed buried behind the front surface of the game board 2 and protruding from the front surface of the game board 2 to guide the ball to the transfer path 10a (ball inlet 10b) of the center frame 10 may be employed. Alternatively, the ball may be guided to the transfer path 10a by sliding the movable member in the vertical and horizontal directions, or by rotating the movable member. The application of the driving force to the movable member 12 is not limited to the solenoid driven by energization, and another driving device such as a motor may be used.
[0143]
Further, as shown in the above-described embodiment, when a ball wins (enters) into the winning openings 4a, 7 including the symbol operation opening 4a, a certain number of balls are necessarily paid out as prize balls, thereby benefiting the player. It is not necessary to provide the player with a profit by writing data corresponding to the winning of the ball into the winning openings 4a, 7 on the magnetic card. In addition, a gate is formed at a predetermined position on the front of the game board 2 to form a passage through which a ball can pass, and when the ball passes through the passage, payout of a prize ball or writing of data to a magnetic card is performed. A profit may be given to the player.
[0144]
Further, as shown in the above embodiment, the variable display, which is a kind of dynamic display, is not limited to scrolling the design as identification information on the LCD 3 in a vertical direction, but may be performed in a predetermined path such as a horizontal or L-shaped pattern. May be performed by moving and displaying the symbols along. Further, the dynamic display of the identification information is not limited to the variable display of the pattern. For example, one or a plurality of characters may be operated or changed and displayed in a variety of ways together with the pattern or separately from the pattern. It also includes the effect display. In this case, one or a plurality of characters are used as identification information together with the symbol or separately from the symbol.
[0145]
Further, as shown in the above embodiment, the operation button 56 is provided on the left end of the upper plate 55. However, the position of the operation button 56 is not limited to this. The button 56 may be arranged. Since the player who operates the pachinko machine 1 always holds the operation handle 58, the player can easily operate the operation button 56 with the hand holding the operation handle 58.
[0146]
The present invention may be implemented in a pachinko machine or the like of a type different from the above embodiment. For example, once a jackpot has been hit, a pachinko machine (commonly known as a twice-rights item or a three-times right item) can increase the jackpot expectation value until a jackpot state occurs a plurality of times (for example, two or three times). ). Further, the pachinko machine may be implemented as a special game state in which a special game state is required after a big hit symbol is displayed and a ball is awarded in a predetermined area. Further, other than the pachinko machine, the present invention may be implemented by another ball-type game machine such as an arepachi or a sparrow ball.
[0147]
Hereinafter, modified examples will be described. 2. The gaming machine according to claim 1, wherein the second variation type selection unit selects the variation type of the dynamic display from variation types other than the variation type selected by the first variation type selection unit. 3. Gaming machine 1 characterized by the following.
[0148]
According to the gaming machine 1, the second change type selection means selects the change type of the dynamic display from the change types other than the change type selected by the first change type selection means. A variation type not selected by the means can be selected by the second variation type selecting means. For this reason, when the game release ball is operated by the operation of the player and the game ball enters the operation area, and when the game ball enters the operation area without the operation of the storage cancellation means, the selection is made. Can be different variation types having different contents, and the different variation types can be selected in association with the release operation of the storage release means. Therefore, the player can be expected to change the type of dynamic display that can be selected by operating the player himself. It is possible to promote the execution of the operation and increase the awareness of participation in the game.
[0149]
2. The gaming machine or the gaming machine 1 according to claim 1, wherein the second variation type selecting unit only appears in the middle of the dynamic display and causes only the variation type accompanied by an entertaining effect to expect the player to give a predetermined game value. A gaming machine 2 characterized by selecting a game machine.
[0150]
According to the gaming machine 2, since the variation type selected by the second variation type selecting means is only the variation type accompanied by an entertaining effect, the storage release means is operated by the operation of the player, and the game ball is moved to the operation area. When a ball is entered, a variation type accompanied by an entertaining effect is selected as a variation type of dynamic display. Therefore, it is possible to make the player more conscious of the game state which transits after the dynamic display, and it is possible to change the sense of expectation given to the player.
[0151]
Note that the entertaining effect is one that appears in the middle of the dynamic display through the player's visual, auditory, or tactile sensation, etc., and makes the player expect a given game value. As an entertaining effect, for example, a part of the dynamic display is stopped, and a part of the stopped dynamic display constitutes a part of the predetermined display result to provide a predetermined game value to the player. Is displayed.
[0152]
2. The gaming machine or gaming machine 1 or 2 according to claim 1, wherein operation storage means for storing information relating to a release operation of said storage release means, and release of said storage release means in a state where gaming balls are stored in said storage means. Updating means for updating information stored in the operation storage means to release information indicating release of storage by the storage release means based on execution of the operation, wherein the selection means is stored in the operation storage means After the information is updated to the release information by the update means, the first entry of the game ball into the operation area detected by the detection means is determined as the entry ball based on the release operation of the storage release means. A gaming machine 3 characterized by the following.
[0153]
According to the gaming machine 3, when the storage of the game balls by the storage means is released based on the release operation of the storage release means, the information stored in the operation storage means is release information indicating release of storage by the storage release means. Will be updated to The selecting means sets the entry of the game ball into the operation area first detected by the detecting means after the information stored in the operation storing means is updated to the release information by the updating means based on the releasing operation of the storage releasing means. Enter the ball. Since the entering of the game ball into the operation area is generated intermittently in the game, the game ball is firstly detected by the detection means after being updated to the release information by the update means. It is possible to provide appropriate accuracy even when entering the ball based on the release operation of the storage release means. Therefore, it is possible to select whether or not to enter the game ball into the operation area based on the release operation of the storage release means with a simple control with appropriate accuracy, and to select the result. Therefore, one appropriate selection means can be selected from the first fluctuation type selection means and the second fluctuation type selection means.
[0154]
Note that the updating means is exemplified by S66 in FIG. 13 in the above embodiment, and the operation storage means is exemplified by the release execution flag 23m in the above embodiment.
[0155]
The gaming machine 3 includes a ball storage detecting unit that detects whether or not game balls are stored by the storing unit, and the updating unit detects the storage of the game ball by the storing unit by the ball storage detecting unit. The gaming machine 4, wherein the information stored in the operation storage means is updated to the release information based on the execution of the release operation of the storage release means in the case where the game is released.
[0156]
According to the gaming machine 4, it is possible to detect whether or not the game ball is stored in the storage means by the ball storage detection means, and when the storage of the game ball is detected by the storage means by the ball storage detection means The information stored in the operation storage unit is updated to the release information based on the execution of the release operation of the storage release unit. For this reason, when the release operation of the storage release means is performed in a state where the game balls are not stored by the storage means, the information is not updated to the release information by the update means, and the release of the storage by the storage release means is not performed. It is possible to prevent the user from erroneously determining that there is an error. Therefore, it is possible to improve the accuracy of selecting whether or not the entering of the game ball into the operation area is to be performed based on the releasing operation of the storage releasing means, and the first variation type selecting means is selected according to the selection result. An appropriate one selecting means can be selected more accurately from the second variation type selecting means.
[0157]
The stored ball detection switch 16 in the above embodiment is exemplified as the stored ball detection means, and the process of S61 in FIG. 13 in the above embodiment is exemplified as the stored ball determination means.
[0158]
2. A gaming machine or any one of the gaming machines 1 to 4 according to claim 1, further comprising an operation unit for inputting operation information of a player, wherein the storage release unit is configured to input a game ball into the operation area by the detection unit. When the ball is detected, the dynamic display can be started. In response to the operation information input by the operation unit during the fluctuation standby, the storage of the game balls stored by the storage unit is released. A gaming machine 5 characterized by the following. When a game ball enters the operation area during the fluctuation standby and the start condition is satisfied, the dynamic display in which the start condition is satisfied is immediately started to be executed.
[0159]
According to the gaming machine 5, the storage of the game balls stored by the storage means is released by the storage release means in accordance with the player's operation information input by the operation means during the fluctuation standby. For this reason, a lottery result of whether or not to give a predetermined game value to the starting condition established by operating the storage release means during the fluctuation standby is given to the player at an earlier stage than in the case where the fluctuation standby is not performed. Can be shown. Therefore, it is possible to respond to the player's expectation that he wants to quickly confirm the result of the operation performed by himself / herself in the game, thereby increasing the interest of the game. Here, as the operation means, the operation button 56 and the ball release switch 17 in the above embodiment are exemplified.
[0160]
In addition, the term “variable standby” indicates a period during which dynamic display can be started when the detection means detects a ball entering the operation area. The variable waiting period is a period excluding the execution of the dynamic display or the specific game state such as the special game state, and the start condition is satisfied in order to wait for the execution of one or more dynamic displays. In a gaming machine provided with a storage unit for storing dynamic display information, an example is shown in which the storage unit does not store standby dynamic display information satisfying a start condition. Further, the control means includes a judgment means for judging whether or not it is in a fluctuation standby state. The storage of the played game balls may be released. As the determination means, for example, the processing of S26 and the processing of S27 in FIG. 10 in the above embodiment are exemplified.
[0161]
A storage assisting means for switching between a first state and a second state in which gaming balls are more easily stored in the storage means than the first state in the gaming machine or any of the gaming machines 1 to 5 according to claim 1, and A game control device for controlling the switching operation of the storage assisting means based on the establishment of a predetermined game condition.
[0162]
According to the gaming machine 6, when the storage release means is switched from the first state to the second state under the control of the operation control means, the storage means is in a state where the game balls are easily stored, and the storage release means is operated to operate the storage release means. The player is given a lot of opportunities to acquire the game value of the game. Since the switching operation of the storage release means is controlled based on the establishment of the predetermined game condition, it is possible to temporarily increase the opportunity of the operation of releasing the storage of the game ball triggered by the establishment of the predetermined game condition, By operating the storage canceling means, it is possible to enhance the interest and interest in the gaming ability aiming at obtaining a predetermined gaming value.
[0163]
Note that the second state in which the game balls are more easily stored in the storage means than the first state formed by the storage assisting means is the second state in which more game balls are more easily stored in the storage means than the first state. Alternatively, the second state may be higher than the first state in which the probability of storing game balls in the storage means is increased. For example, as the second state that increases the probability of storing game balls in the storage means from the first state formed by the storage assisting means, the amount of protrusion of the protrusion that protrudes on a specific path in which the game balls are stored by the storage means Is adjustable, and the protruding amount of the protrusion is increased to increase the probability of storing game balls in a specific route. The storage assisting means in the gaming machine 6 is formed by switching between the forward state and the backward state in the above embodiment, and flows into the ball flow inlet 10b of the transfer path 10a of the center frame 10 provided with the projection 10f for storing the game ball. The movable member 12 that changes the number of game balls to be played is illustrated, and the main control board C that controls the driving of the accessory driving solenoid 13 that operates the movable member 12 is exemplified as the operation control unit.
[0164]
The gaming machine 6 includes a guiding means for forming a guiding path for guiding a game ball to the operating area, and the storing means causes the game sphere flowing from an entrance of the guiding path formed by the guiding means to be placed on the guiding path. The storage assisting means is formed by switching between a first state and a second state in which a game ball is more likely to flow into an entrance of a guiding path formed by the guiding means from the first state. A gaming machine 7 characterized by the following.
[0165]
According to the gaming machine 7, the game balls guided to the guide route are stored on the guide route by the storage means, and the storage of the game balls is released by the storage release means in response to the operation of the player. Since the number of game balls flowing into the guidance route changes according to the state of the storage assisting means in which the switching operation is performed when the predetermined game condition is satisfied, the storage assisting means changes the second state to the player. When formed, more game balls can be provided with a game property of being guided to the guidance route. In addition, as the guidance means in the gaming machine 7, for example, the center frame 10 in the above embodiment is exemplified, and as the guidance means, the transfer path 10a, the stage 10c, and the exit rail are exemplified.
[0166]
In the gaming machine 6 or 7, the operation control means changes the storage assisting means from the first state to the second state for a certain period when a special display indicating the operation of the storage assisting means is displayed on the display device. A gaming machine 8 for performing switching control.
[0167]
According to the gaming machine 8, when the storage control means is switched from the first state to the second state by the operation control means, what is displayed on the dynamic display is a special display indicating the operation of the storage support means. Therefore, the player can easily recognize that the switching operation of the storage assisting means has been performed by the special display. Further, the operation control means causes the storage assisting means to perform an operation of switching the storage assisting means to the second state for a certain period of time when the special display is displayed. It is possible to emphasize to the player the interest of the game expected to be switched to the player.
[0168]
The special display is a display related to the storage auxiliary means, a display indicating the same object as the appearance of the storage auxiliary means or an object related to the storage auxiliary means, and a display indicating the position of the storage auxiliary means. Etc. are exemplified. As the special display in the above embodiment, a crow drive reach display for displaying a crow character, which is the same target as the movable member 12 imitating a crow, is applicable. Further, as the second state in the above embodiment, a state in which the path between the center frame 10 and the movable member 12 is closed and the game ball flowing down between the two members is guided to the entrance of the transfer path 10a is exemplified. Is done.
[0169]
2. The gaming machine 9 according to claim 1, wherein said gaming machine is a pachinko machine. Above all, as a basic configuration of a pachinko machine, an operation handle as an operation unit is provided, and a game ball is fired to a predetermined game area according to the operation of the operation handle, and the game ball is arranged at a predetermined position in the game area. As a necessary condition for the ball to enter the operated area (winning the operating port or passing through the operating gate), there is a case where the identification information dynamically displayed on the display device is fixedly stopped after a predetermined time. In addition, when a special game state occurs as a provision of a predetermined game value, a variable winning device (specific winning opening) arranged at a predetermined position in the game area is opened in a predetermined mode to be able to win game balls. In this case, a valuable value (including not only a prize ball but also data written on a magnetic card, etc.) according to the winning number is given.
[Brief description of the drawings]
FIG. 1 is a front view of a pachinko machine according to an embodiment of the present invention.
FIGS. 2A and 2B are front views of the game board, wherein FIG. 2A shows a state in which a movable member has retreated, and FIG. 2B shows a state in which the movable member has moved forward.
3A is a diagram showing a center frame as viewed from the direction of arrow IIIa in FIG. 1, and FIG. 3B is a cross-sectional view of the center frame taken along line IIIb-IIIb in FIG. FIG.
FIG. 4 is a block diagram showing an electrical configuration of the pachinko machine.
FIG. 5 is a diagram showing a configuration of an effect selection table used for selecting a variation pattern at the time of losing reach.
FIG. 6 is a diagram exemplifying a display screen of a variable display performed on the LCD at the time of a normal start winning.
FIG. 7 is a diagram exemplifying a display screen of a variable display performed on the LCD at the time of a normal start winning.
FIG. 8 is a diagram exemplifying a display screen of a variable display performed on an LCD at the time of a winning start by a player's release operation.
FIG. 9 is a flowchart of a main process executed by the main control board.
FIG. 10 is a flowchart of a start winning variation start process executed in the main process of the main control board.
11 is a flowchart of a normal display command determination process executed in the start winning variation start process of FIG.
FIG. 12 is a flowchart of a special display command determination process executed in the start winning variation start process of FIG. 10;
FIG. 13 is a flowchart of a change waiting process executed in the start winning change start process of FIG. 10;
FIG. 14 is a flowchart of the accessory solenoid driving process executed by the main control board.
[Explanation of symbols]
1 Pachinko machines (game machines)
2 game board
2c Gaming area
3 LCD (display device)
4a Symbol operation port (operation area)
10f protrusion (storage means)
15 Ball release solenoid (storage release means)
24 Type 1 starter switch (detection means)
C Main control board (part of control means)
D Control board for display (part of control means)

Claims (1)

A display device for displaying identification information, a detecting means for detecting the entry of a game ball into an operation area provided in a game area into which the game ball is inserted, and the entry of the game ball into the operation area by the detection means And a control means for randomly selecting whether or not to give a predetermined game value to the player and for causing the display device to dynamically display the identification information. When the lottery result that gives the game value of is derived, in the gaming machine that gives the display device a predetermined display result and gives the predetermined game value,
Storage means for storing game balls on the downstream side in the downstream direction of the game balls with respect to the operation area in the game area,
Storage release means for releasing the storage of the game balls stored by the storage means in accordance with the operation of the player,
Selection means for selecting whether or not to enter the game ball into the operation area based on the release operation of the storage release means when the entry of the game ball to the operation area is detected by the detection means,
First variation type selection means for selecting the variation type of the dynamic display when the entry of game balls into the operation area by the selection means is not made to enter based on the release operation of the storage release means,
When entering the game ball into the operation area by the selection unit as an entry ball based on the release operation of the storage release unit, the first variation type selection unit and the first variation type selection unit, A gaming machine comprising: a second variation type selection unit for selecting a variation type of dynamic display.

Images