JP2004113452A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine capable of enhancing the pleasure felt by a player by changing a profit obtained by the player according to the execution of the pleasure presentation. <P>SOLUTION: The switching operation of a movable member 12 from the advancing state to the retreating state is controlled by a display control circuit board for controlling an LCD 3 via a solenoid 13. When a mammoth ready-to-win state, one of the pleasure presentations, is executed, the solenoid 13 is on and the movable member 12 is advanced. A ball flowing down on the left side of a center frame 10 when the movable member 12 is advanced is guided to a ball inlet 10b by a guide part 12a of the movable member 12, and the ball passing inside the center frame 10 will almost certainly enter a pattern operation hole 4. Accordingly, the player can obtain a profit by the execution of the pleasure presentation, and the pleasure felt by the player can be enhanced. <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]
In the variable display game, for example, three symbols are displayed horizontally or vertically in a valid display area, or nine symbols are displayed in a 3 × 3 square, and the displayed symbols are scrolled based on predetermined game conditions. Is displayed in a variable manner. Then, when scrolling of symbols and the like is stopped (at a predetermined stop position), a case where the stopped symbols and the like are in a predetermined combination is a big hit.
[0004]
Also, during the scrolling of the symbol, an amusement effect (for example, an effect by a reach display, etc.) that suggests a transition to the jackpot with a higher probability than the normal time in advance and expects the player to generate the jackpot is performed. In addition, some efforts have been made to give players a sense of expectation for the jackpot. The player expects the entertainment to be performed in the middle of the variable display as well as the occurrence of the jackpot, and recognizes that the variable display is easily changed to the jackpot by executing the entertainment. The entertainment effect is performed on a liquid crystal display device or using a real movable body. At the time of performing this entertainment production, the player watches the change display with a sense of tension that is one step closer to the jackpot and a sense of expectation according to the content of the production, so that the subsequent jackpot is in a heightened expectation And the player gets a great interest.
[0005]
[Patent Document 1]
JP 2001-137461 A
[0006]
However, in the conventional gaming machine, even if an entertaining effect is performed, no profit remains for the player unless the display result of the variable display is a big hit. The entertaining presentation is a process of displaying a lottery result performed internally for the jackpot, and is not directly related to the interests of the player. For this reason, there has been a problem that the consciousness of the player who enjoys the interest during the execution of the entertainment effect and the profit actually given are largely different from each other.
[0007]
The present invention has been made in order to solve the above-described problems, and provides a gaming machine that can change a profit obtained by a player by performing an entertaining effect, and can improve an entertaining feeling felt by the player. It is aimed at.
[0008]
According to a first aspect of the present invention, there is provided a gaming machine, comprising: a display device for displaying identification information; and a predetermined game value provided to a player when a starting condition is satisfied. Control means for performing a lottery to determine whether or not to give and dynamically displaying the identification information on the display device, and when the lottery result for giving the predetermined game value is derived by the control means, The present invention provides a predetermined display value to the dynamic display of identification information and gives a predetermined game value to the player, and provides a predetermined profit to the player when a game ball enters. A ball entry member forming an area, and a first state and a second state affecting the flow path of the game ball so that the game ball can easily enter the ball entry area formed by the ball entry member from the first state. And a gain operation member formed by switching The switching operation of the gain operation member, and an operation control means for controlling in association with the amusement effect to be expected to the player the application of predetermined game value.
[0009]
According to the gaming machine of the first aspect, during the execution of the entertainment effect associated with the switching of the state of the gain operation member in the entertainment effect, the operation control means changes the gain operation member from the first state to the second state. By switching, the flow path of the game ball is influenced by the gain operation member so that the game ball can easily enter the ball entry region, and the game ball is indirectly entered into the ball entry region by the gain operation member. It is guided to be easy. For this reason, at the time of performing an entertaining effect, an advantageous game state in which the probability (ball entry rate) of a game ball entering a ball entry area that provides a predetermined profit to a player is increased.
[0010]
According to the gaming machine of the present invention, when an entertaining effect corresponding to the switching of the state of the gain operation member is executed in the entertaining effect, the flow path of the game ball is reduced by the gain operating member. The game is affected so that the ball easily enters the ball entry area, so that the player has an advantageous game state in which the ball entry rate of game balls is increased. Therefore, there is an effect that the profit obtained by the player is changed by the execution of the entertainment effect, and the interest felt by the player can be improved.
[0011]
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.
[0012]
FIG. 1 is a front view of a game board 2 of a pachinko machine 1 according to an embodiment of the present invention. 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 three in the horizontal direction, and in each of the three divided display areas, a symbol is displayed while being scrolled vertically from top to bottom.
[0013]
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) the symbol operating port 4a, five balls are paid out as prize balls, and a starting condition is satisfied, 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.
[0014]
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.
[0015]
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.
[0016]
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 both sides of the LCD 3, two ordinary symbol operation ports 8 are provided, and when the ball passes through the ordinary symbol operation port 8, the variable display of the ordinary symbol display device 9 is started.
[0017]
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).
[0018]
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 in a substantially hollow body, and has a plurality of built-in lamps, whereby the periphery of the LCD 3 is decorated.
[0019]
On the left side of the center frame 10, there is provided 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.
[0020]
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 is formed wider than the outer shape of the sphere so that the sphere rolls in the left-right direction. 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.
[0021]
An exit rail 10e having an exit on the front surface of the game board 2 and directly above the symbol operation port 4a is provided at a center portion where the guide plate 10d is separated from the center of the stage 10c. The ball guided to the stage 10c through the transfer path 10a reciprocates left and right on the stage 10c two or three times, and is then discharged to the front of the game board 2 via the central exit rail 10e. The released ball falls toward the symbol operation port 4a located almost directly below the exit of the exit rail 10e, and almost all of the symbols are awarded to the symbol operation 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.
[0022]
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 at the center of the movable member 12 to imitate a mammoth character, a solenoid 13 for applying a driving force to the movable member 12, and a cover member disposed around the movable member 12. 14 is provided.
[0023]
The movable member 12 is formed by molding a synthetic resin into an outer shape imitating a mammoth in a front view. The movable member 12 is provided with a guide portion 12a that forms an inclined surface that descends toward the center frame 10 to imitate the nose of a mammoth. The movable member 12 is formed to have a thickness substantially the same as the gap between the glass covering the game board surface and the game board 2, and when a ball flows down on the guide portion 12 a 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.
[0024]
Next, the operation of the movable member 12 by the solenoid 13 will be described with reference to FIG. FIG. 2 is a front view showing a part of the game board 2, FIG. 2 (a) shows a state where the movable member 12 is retracted, and FIG. 2 (b) shows a state where the movable member 12 is advanced. ing. 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.
[0025]
The solenoid 13 applies a driving force to the movable member 12 to slide the movable member 12 in the left-right direction. The state in which the 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 is retracted, the ball hardly flows into the ball inflow port 10b (for example, only one or less balls flow into about 100 balls passing in front of the ball inflow port 10b). State). Specifically, the ball inlet 10b is open to the side (left side), while no nail is disposed between the center frame 10 and the movable member 12, and the ball inlet 10b is open. The sphere flowing down from above the 10b passes in front of the sphere inflow port 10b and flows down almost straight. A ball flowing between the center frame 10 and the movable member 12 flows down the left side of the center frame 10 and is guided in various directions by a nail (not shown), and a probability of approximately 1 ball out of 10 balls to 20 balls (winning rate) ), One of the winning ports 4a and 7 including the symbol operating port 4a is won.
[0026]
In a state where the movable member 12 is retracted, it is not always necessary to make the ball hardly flow into the ball inlet 10b. A state in which no sphere enters the sphere inflow port 10b, or a state in which spheres occasionally flow into the sphere inflow port 10b (for example, one or less for about 20 spheres passing in front of the sphere inflow port 10b) (A state of flowing in at a rate of 2). The ratio at which the spheres flow into the sphere inflow port 10b is such that the direction of the sphere inflow port 10b of the center frame 10 is formed obliquely upward (or diagonally downward) from the side, and the sphere inflow rate increases (or decreases). Alternatively, a nail or a windmill for guiding the ball may be arranged at the ball inlet 10b, and the ratio of the ball inflow may be adjusted by the arrangement of the nail or the windmill.
[0027]
On the other hand, the state in which the solenoid 13 is turned on is a game state that is advantageous for the player. As shown in FIG. 2B, the movable member 12 advances toward the center frame 10 and the movable member 12 The path to the 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. In other words, while the solenoid 13 is on, the ball is guided so that the movable member 12 can easily win the symbol operating port 4a, so that a game state advantageous to the player is achieved.
[0028]
Here, the advance of the movable member 12 is performed during the execution of the mammoth reach, which is one of the entertainment effects, in the middle of the variable display performed on the LCD 3. The mammoth reach indicates a fluctuation pattern in which an effect in which a mammoth follows a rolling stone is performed after a reach display appears on the LCD 3. The rolling stone is displayed on the LCD 3, while the mammoth simulated by the movable member 12 advances by turning on the solenoid 13, so that the effect of the mammoth chasing the stone is performed. During execution of the mammoth reach, the solenoid 13 is turned on by the control of the display control board D, which will be described later, and the movable member 12 is in a forward state, and the movable member 12 guides the ball to the symbol operating port 4a so as to easily win. . Therefore, the player is provided with an advantageous gaming state in which the winning rate of the symbol operating port 4a is increased when the mammoth reach is executed.
[0029]
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 that suggests to the player that the game will be played, and makes the player expect a combination of jackpot symbols. The entertainment effect is an effect such as displaying a predetermined symbol on the display screen of the LCD 3 during the variable display, outputting a specific sound effect from the speaker 44, or vibrating an operation handle (not shown). This is an effect that makes the player expect that the display result after the change will be a big hit. This entertaining 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.
[0030]
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-shaped synthetic resin projecting to a position close to the glass covering the game board surface, and has an upper surface inclined downward toward the right side. The ball driven into the game board 2 flows down along the downward direction from above to below, and the ball flowing down toward the movable member 12 first comes into contact with the upper surface of the cover member 14. The ball abutting on the upper surface of the cover member 14 is guided to the right along the slope of the upper surface, and is a path that does not abut the movable member 12 when the movable member 12 retreats. Flow down between 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.
[0031]
In addition, the movable member 12 protrudes on the downflow path of the sphere only when it is in the forward state during execution of the mammoth reach and changes the path of the sphere, while it is movable in the normal state where the mammoth reach is not performed. Since the member 12 retreats and is located at a position where it deviates from the downflow path and does not contact the sphere, it does not affect the downflow path of the sphere. Therefore, in a state other than the time of execution of the mammoth reach, the movable member does not affect the flow path of the ball, and the playability of the ball flowing smoothly can be ensured.
[0032]
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.
[0033]
FIG. 3 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 first table 22a and the second table 22b shown in FIG. 4 are 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. 5 to 9 are stored in the ROM 22 as a part of the control program.
[0034]
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 includes memories 23h to 23k, a counter buffer 231, a probable change state flag 23m, and a special state flag 23n.
[0035]
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. 6), and the countdown starts the change display. (S28 in FIG. 6).
[0036]
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 hold ball counter 23a provided in the RAM 23 (the number of times the variable display is held) is maintained even during a power outage, and after the power outage is resolved, the remaining number of hold times can be displayed. 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.
[0037]
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 within a range of “0 to 599” by a counter updating process (see S14 in FIG. 5) 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. In addition, in the probability fluctuation state in which the jackpot occurrence probability is set to be higher than the normal time, ten pieces, which are set at substantially equal intervals within the range of “0 to 599” including “7” and “307” A jackpot occurs when the value of the internal random number counter 23b matches the value. That is, the number of hits in the probability fluctuation state is increased from two to ten, so that the probability of a big hit is five times that in the normal state in the probability fluctuation state.
[0038]
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. In addition, the lottery of whether or not to give a predetermined game value (special game state) to the player is performed in S41 of a display command determination process described later based on the value of the internal random number counter 23b. 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).
[0039]
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 updated by adding one by one in the range of “0 to 11” in order by a counter updating process (see S14 in FIG. 5) described later, and after reaching the maximum value (that is, 11). It is returned to "0" again.
[0040]
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 symbols constituting the losing reach) stored in the counter buffer 231 described later is set as a stop symbol command (see S46 in FIG. 7), and the losing reach symbol is displayed. Appears as the display result after the change. In addition, the value of the reach random number counter 23c acquired at the time of starting winning is written and stored in the effect execution 1 to 4 memories 23h to 23k indicated by the value of the reserved ball counter 23a together with the value of the internal random number counter 23b. (See FIG. 6, S25).
[0041]
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 jackpot symbol counter 23d is updated by adding one by one in the range of "0 to 9" corresponding to the ten types of symbols that cause the jackpot, by a counter updating process (see FIG. 5, S14) described later. , After reaching the maximum value (ie, 9).
[0042]
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 obtained by arranging and combining three numbers the same as the value of the big hit symbol counter 23d is set as a stop symbol command (see S42 in FIG. 7). Note that the value of the jackpot symbol counter 23d obtained at the time of the start winning is written in the effect execution 1 to 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 S25 in FIG. 6).
[0043]
Here, in the pachinko machine 1 of the present embodiment, two types of jackpots having different game states to which transition is made are defined, and one of the jackpots is selected based on the symbol stopped and displayed at the time of the jackpot. Specifically, when the symbol stopped and displayed at the time of the big hit is “0” or an even number (normal symbol), it becomes a normal big hit and transits to the normal state after the end of the special game state. On the other hand, when the symbol stopped and displayed at the time of the jackpot is an odd symbol (probably variable symbol), a probability variation jackpot is obtained, and after the special game state ends, the probability of occurrence of the jackpot until the next jackpot is 5 in the normal state. The state transits to the doubled probability fluctuation state.
[0044]
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 S16 in FIG. 5) 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 for generating a jackpot and the value of the reach random number counter 23c is not a value for generating 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 S49 in FIG. 7).
[0045]
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 variation pattern counter 23f may be referred to in the display command determination process (see FIG. 6, S31) executed at the start of the variation display. In this case, the value of the referenced variation pattern counter 23f is used. Is read from one of the first and second tables 22a and 22b shown in FIG. 4 and set as a variation pattern command transmitted to the display control board D (FIG. 7, S43). And S47).
[0046]
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. 6).
[0047]
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.
[0048]
Further, the writing of the data of the fluctuation display to the effect execution 1 to 4 memories 23h to 23k is performed to the effect execution 1 to 4 memories 23h to 23k indicated by the value of the pending ball counter 23a. That is, when the value of the reserved ball counter 23a is "1", the effect is to the effect execution 1 memory 23h, and when the value of the retained ball counter 23a is "2", to the effect execution 2 memory 23i,. When the value of the counter 23a is "4", the data of the fluctuation display is written to the effect execution 4 memory 23k (see S25 in FIG. 6).
[0049]
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. . When the value of the losing symbol counter 23e is updated by a losing symbol counter updating process (see S16 in FIG. 5) described later, when the value (count value) indicates 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.
[0050]
The probability change state flag 23m is a flag for recognizing whether or not the state is in the probability change state at the time of the jackpot lottery. The probability change state flag 23m is updated when occurrence of a big hit is confirmed based on the value of the internal random number counter 23b. Specifically, it is turned off when the value of the jackpot symbol counter 23d acquired at the same time as the internal random number counter 23b is a normal symbol (even number symbol), and is turned on if the value is a positive variable symbol (odd symbol). Updating of the state of the probable change state flag 23m is performed by a hit state setting process for the main control board C (see FIG. 8). The jackpot lottery condition is changed based on the state of the probability change state flag 23m, and the value of the internal random number counter 23b for generating the jackpot is switched to either 2 (in a normal state) or 10 (in a probability fluctuation state). Can be The effect selected based on the value of the fluctuation pattern counter 23f is also selected from the tables 22a and 22b based on different selection conditions according to the value of the probability change state flag 23m.
[0051]
The special state flag 23n is a flag for indicating whether or not a mammoth reach to which a gaming state advantageous to the player is given is in a special state (mammoth chance) in which a high probability is selected. In the mammoth reach, the movable member 12 moves forward to increase the winning rate to the symbol operating port 4a. The selection condition of the mammoth reach is changed according to the state of the special state flag 23n. For the variation display performed when the special state flag 23n is off, a variation pattern is selected using a table of which the mammoth reach is difficult to select from among the first and second tables 22a and 22b. The change display performed when the special state flag 23n is on is during a mammoth chance, which is a period advantageous to the player, and the mammoth reach is selected with high probability from the first and second tables 22a and 22b. This table is used for selecting a variation pattern. The mammoth chance is set by a lottery at the start of the variable display, and the lottery conditions will be described later with reference to FIGS. The details of the table used for mammoth reach selection will be described later with reference to FIG.
[0052]
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 It is connected to a display control board D for controlling a variable display and the like, a first-type start-up switch 24, and other input / output devices 28, respectively.
[0053]
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 operates the steering wheel and the player does not press a stop switch (not shown), the firing control board B permits the driving of the firing motor 27 to fire the ball. . The firing motor 27 is configured by a stepping motor, and the rotor of the firing motor 27 rotates according to a pulse signal output from the firing control board B. The rotation torque of the rotor is transmitted to a hitting hammer (not shown) for hitting the ball via a cam, and the ball is fired.
[0054]
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 39, an output port 37, and the like. One of the input / output ports 39 is connected to the input / output port 25 of the main control board C, the solenoid 13 provided in the accessory device 11 (see FIG. 1), and the sound lamp control board L. The other is connected to an 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.
[0055]
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 program of the flowchart shown in FIG. 10 is stored in the ROM 32 as a part of the control program.
[0056]
The RAM 33 is a memory that stores work data and flags used when the MPU 31 executes various programs, and includes an effect execution area 33a, a special effect flag 33b, and a timer counter 33c.
[0057]
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 variation pattern and the stop symbol added to the display command is written in the effect execution area 33a (see S72 in FIG. 10), and the variation display is performed according to the written data. Is performed.
[0058]
The special effect flag 33b is a flag provided for recognizing that the variable display in which mammoth reach is selected as the variable pattern is being performed. The special effect flag 33b is turned on when a display command is transmitted from the main control board C and when the variation pattern indicated by the display command is mammoth reach (see S74 in FIG. 10). While the special effect flag 33b is ON, a process of controlling the solenoid 13 to drive the movable member 12 is performed, and the movable member 12 is advanced for a predetermined time of 5 seconds or 180 seconds ( (See FIG. 10, S85). When the moving state of the movable member 12 continues for a certain period of time and the solenoid 13 is turned off and the movable member retreats, the special effect flag 33b is turned off (see S92 in FIG. 10).
[0059]
The timer counter 33c is a counter for counting the remaining time when the movable member 12 is advanced by turning on the solenoid 13. The value of the timer counter 33c is normally "0", and either "2500" or "90000" is written at the timing when the solenoid 13 is turned on in order to advance the movable member 12 during the variable display. (See FIG. 10, S87 and S88). When the value of the timer counter 33c is equal to or greater than "1", the value of the timer counter 33c is decremented by "1" each time the effect setting execution processing shown in FIG. 10 is performed (see S89 in FIG. 10). When the value of the timer counter 33c reaches "0", the solenoid 13 is turned off and the movable member 12 moves backward (see S91 in FIG. 10).
[0060]
Here, the effect setting execution processing is executed as a part of the timer interruption processing performed every 2 ms in the main processing of the display control board D, and is repeatedly performed every 2 ms. Therefore, five seconds (a time obtained by multiplying 2 ms by 2500) elapse before the value of the timer counter 33c in which “2500” is written reaches “0”. Similarly, it takes 180 seconds (time obtained by multiplying 2 ms by 90000), that is, 3 minutes, until the value of the timer counter 33c in which “90000” is written reaches “0”. In the pachinko machine 1 of the present embodiment, the solenoid 13 is turned on for 5 seconds or 3 minutes in accordance with the fluctuation pattern selected by the main control board C, thereby giving a gaming state advantageous to the player. The time for which the solenoid 13 is kept on can be accurately measured by the timer counter 33c of the display control board D. The timer counter 33c is not limited to the one that counts the remaining time by subtraction, and may be one that counts the ON time of the solenoid 13 by adding the value of the timer counter 33c according to the elapsed time. .
[0061]
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.
[0062]
The solenoid 13 is a self-holding type keep solenoid, and is configured by combining a conventional open frame solenoid with a permanent magnet. The instantaneous energization of the built-in coil causes the solenoid 13 to partially project from the main body, project further outward to form an ON state, and the permanent magnet attracts the shaft at the projected ON position. Will be retained. On the other hand, when the 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 amount of protrusion of the shaft is reduced. 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, since the movable member 12 can be moved forward by temporarily energizing the solenoid 13, the forward movement state of the movable member 12 can be maintained long without considering damage due to heat generation of the solenoid 13 or the like.
[0063]
A switch for detecting the protruding state of the shaft for detecting the position of the movable member 12 may be incorporated in the solenoid 13 or may be in contact with a part of the movable member 12 separately from the solenoid 13 to determine whether the movable member 12 is in the forward state. It is preferable to provide a switch for detecting whether or not there is no error. In the case where the solenoid 13 is a keep solenoid, the amusement arcade suffers a great disadvantage in the event of a failure in which the solenoid 13 is kept on. By detecting the position of the movable member 12, it is confirmed whether or not the movable member 12 is operating correctly in accordance with the control by the display control board D. Can be announced.
[0064]
The sound lamp control board L controls sound of sound effect output from the speaker 44 and lighting control of various lamps 45 such as an LED and a 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 44 controlled by the sound lamp control board L, The fluctuation display and various effects are executed in synchronization with the lamp 45.
[0065]
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.
[0066]
Next, the first and second tables 22a and 22b in which data corresponding to the value of the variation pattern counter 23f are set will be described with reference to FIG. FIG. 4 is a diagram schematically showing a configuration of the first and second tables 22a and 22b used for selecting a variation pattern.
[0067]
In each of the tables 22a and 22b, four types of variation patterns from "pattern B" to "pattern E" are set as variation patterns as an entertaining effect. In addition to the four types of variation patterns, “pattern A” is set as the variation pattern for the loss variation display without the reach display, and a total of five types of variation patterns are set for the pachinko machine 1.
[0068]
To describe each pattern in order, “Pattern A” is a pattern for displaying a lost symbol without a reach display, and after 7 seconds from the start of the variable display, stops changing the left symbol reel and 8 seconds after the right symbol Of the symbol reel is stopped, and after 9 seconds, the fluctuation of the center symbol reel is stopped. 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.
[0069]
"Pattern B" is a so-called normal reach pattern. After 7 seconds from the start of the fluctuation display, the fluctuation of the left symbol reel is stopped, and after 8 seconds, the fluctuation of the right symbol reel is stopped, and the reach display appears. Then, the center symbol reel is scrolled at a low speed for 7 seconds (that is, until 15 seconds elapse after the start of the fluctuation) and stopped without any special change.
[0070]
"Pattern C" is a pattern called lion reach, and at the timing of stopping the central symbol reel in pattern B, the symbol reel is not stopped at high speed for another 5 seconds (that is, 20 seconds after the start of fluctuation). Until the change is displayed, the pattern is set to stop the change. While the center symbol reel fluctuates at a high speed, an animation by a lion-like character is displayed on the display screen of the LCD 3, and the central symbol reel stops in conjunction with the animation.
[0071]
"Pattern D" is a pattern called mammoth super reach, which is one pattern of mammoth reach to which a gaming state advantageous to the player is given. In the "pattern D", the left and right symbol reels are stopped in the same manner as the pattern B, and then the display screen of the LCD 3 is switched from the display of only the symbols to the display with the animation, for 7 seconds (that is, until 15 seconds after the start of the change) The fluctuation is stopped after the animation of ()) and the scrolling of the symbol are performed. In this case, the display screen is divided into upper and lower parts, the scroll display of the symbol reel similar to the pattern B is performed on the lower side of the display screen, and the same numeral as the numeral of the symbol constituting the reach display is displayed on the upper side of the display screen. An animation is displayed in which the stone character with the symbol is rolled rightward (hereinafter, this display is referred to as a mammoth reach display). Simultaneously with the appearance of the mammoth reach display, the solenoid 13 is turned on so that the movable member 12 of the accessory device 11 moves forward (see FIG. 2B), and a state of mammoth reach is established.
[0072]
When five seconds have passed since the appearance of the mammoth reach display, the solenoid 13 is turned off, and the movable member 12 is retracted (see FIG. 2A). For the player, the effect is as if the movable member 12 imitating a mammoth is chasing a stone displayed on the display screen. When the movable member 12 moves forward, it becomes easier for the ball to enter the symbol operating port 4a, and the player makes the symbol operating port 4a almost completely receive about 8,9 balls hit in 5 seconds when the movable member 12 advances. 40 or 45 prize balls can be obtained.
[0073]
“Pattern E” is a pattern called a mammoth special reach that is most advantageous to the player, and is one pattern of the mammoth reach. This is a pattern in which the mammoth reach display is continued for 3 minutes without stopping the symbol reel at the timing of stopping the center symbol reel in the pattern D, and then the fluctuation of the symbol reel is stopped. When the “pattern E” is executed, the movable member 12 advances simultaneously with the appearance of the mammoth reach display as in the case of the pattern D, and the solenoid 13 is turned off 180 seconds after the appearance of the mammoth reach display, that is, three minutes have elapsed. Then, the movable member 12 retreats. For the player, since the advantageous game state continues longer than the pattern D, the gaming ability is provided in which a larger amount of balls than the pattern D win the symbol operation port 4a. The player can win approximately 1500 prize balls at the maximum by making almost all of the approximately 300 balls hit in 180 seconds during which the movable member 12 moves forward into the symbol operation port 4a.
[0074]
Here, conventionally, it has been suggested that when an entertaining effect accompanied by a reach display or the like is executed, it is easy to transition to a jackpot, and the player plays the game with expectation of executing the entertaining effect in the same manner as the occurrence of the jackpot. Was something. However, even if the entertainment presentation was executed during the variation display, no profit was left for the player unless the display result of the variation display was a big hit. The profits actually given were far apart.
[0075]
On the other hand, according to the pachinko machine 1 of the present invention, when mammoth reach (mammoth super reach or mammoth special reach), which is one of the entertaining effects, is selected as the change pattern of the change display, the movable member 12 causes the change. Since the ball is guided to the symbol operation port 4a so as to be easily won, the player has an advantageous gaming state in which the winning rate of the ball is increased. During this mammoth reach, the ball can be won by winning the symbol to the symbol operating port 4a, so that even if the display result of the variable display is lost after the execution of the mammoth reach, the player remains profitable and enjoys interest. It is possible to improve the enjoyment felt by performing the effect.
[0076]
In addition, the mammoth super reach and the mammoth special reach are set so that the time during which the movable member 12 moves forward is different. Therefore, the profit given to the player can be made different depending on the content of the selected entertainment, and the player can obtain not only the display result of the variable display but also the content of the entertainment associated with the gain to be obtained. Can increase the interest in the game by directing.
[0077]
Furthermore, since the variation patterns of the mammoth super reach and the mammoth special reach, which are the mammoth reach, progress with the same content even after the mammoth reach display is performed, the player has five minutes to move the movable member 12 forward. It is possible to provide a gaming ability that allows the player to have a sense of tension and watch over whether the operation is a mammoth super reach for 2 seconds or a mammoth special reach for 180 seconds when the movable member 12 advances.
[0078]
In addition, when the variation pattern of “Pattern B” or “Pattern C” is selected from the four variation patterns from “Pattern B” to “Pattern E”, switching of the movable member 12 is not performed. For this reason, it is possible to give the player the ability to play the game by selecting whether or not to fire the ball during the execution of the effect. In general, a player who wants to actively increase the number of balls stops firing the balls when the variable display is held for the maximum number of holdings of four. The more accurately the player who stops the launch of this ball, the higher the rate of profit gained in playing for a long period of time, and even if the degree of technical intervention is small, the rate of profit gain is different depending on the experience. Can be made. The difference between the profits is so large that the firing of the ball is stopped when the fluctuation pattern with the reach display having a long effect time is generally executed.
[0079]
However, if a favorable playing state by the mammoth reach is given each time a variation pattern with a reach display is selected and the player continuously hits the ball, there is a benefit since all players fire the ball. It is difficult to obtain a difference in the acquisition rate of the game machines, and the gaming machine has a low degree of technical intervention. On the other hand, according to the pachinko machine 1 of the present invention, since the fluctuation pattern in which the switching of the movable member 12 is not performed is also set, the pachinko machine 1 is provided with a gaming ability in which a profit acquisition rate is different due to a difference in technology. A gaming machine that is easily accessible to a player loaded with.
[0080]
Returning to FIG. 4, the first and second tables 22a and 22b will be described. FIG. 4A is a diagram schematically illustrating a configuration of the first table 22a used for selecting a fluctuation pattern of the fluctuation display that generates a big hit. The first table 22a is provided with three tables corresponding to the three states. Which of the three tables is used is switched according to the state of the above-described probable state flag 23m and the special state flag 23n. Can be Specifically, during the special state (mammoth chance) in which the special state flag 23n is ON, the table referred to in the special state is selected regardless of the state of the probable change state flag 23m. When the special state flag 23n is off, the state of the probable change state flag 23m is confirmed, and a table referred to in the normal state or the probability change state is selected based on the state. The selection of this table is the same as in the case of referring to the second table 22b at the time of selecting the variation pattern for the loss variation display, and a description thereof will be omitted.
[0081]
As shown in FIG. 4 (a), the first table 22a stores, in three states, a normal state, a probability fluctuation state, and a special state, the fluctuation pattern counters 23f for the above four kinds of fluctuation patterns. The values are separated. Specifically, the value of the fluctuation pattern counter 23f updated in the range of “0 to 99” is “0 to 9” for “Pattern B” of normal reach and “Lion reach” in the table corresponding to the normal state. "10-49" for "pattern C", "50-89" for mammoth super reach "pattern D", and "90-99" for mammoth special reach "pattern E". It is divided into ranges. That is, the variation patterns of “pattern B”, “pattern C”, “pattern D”, and “pattern E” are divided into a ratio of 10: 40: 40: 10.
[0082]
In the table corresponding to the probability fluctuation state in the first table 22a, the fluctuation patterns of “Pattern B”, “Pattern C”, “Pattern D”, and “Pattern E” are classified in a ratio of 20: 50: 20: 10. ing. In the table corresponding to the special state, the fluctuation patterns of “Pattern B”, “Pattern C”, “Pattern D”, and “Pattern E” are classified in a ratio of 0: 40: 20: 40. Is set so that normal reach is not selected.
[0083]
FIG. 4B is a diagram schematically illustrating a configuration of the second table 22b used for setting a fluctuation pattern of the fluctuation display that causes the loss reach. In the second table 22b, the values of the fluctuation pattern counters 23f for the above-described four types of fluctuation patterns are classified into three states: a normal state, a probability fluctuation state, and a special state. Specifically, in the table corresponding to the normal state, the value of the fluctuation pattern counter 23f updated within the range of “0 to 99” is “0 to 49” for “Pattern B” of the normal reach and “Lion reach”. "50-69" for "pattern C", "70-89" for "pattern D" of mammoth super reach, and "90-99" for "pattern E" of mammoth special reach. It is divided into ranges. That is, the variation patterns of “Pattern B”, “Pattern C”, “Pattern D”, and “Pattern E” are divided at a ratio of 50: 20: 20: 10.
[0084]
In the table corresponding to the probability fluctuation state in the second table 22b, the fluctuation patterns of “Pattern B”, “Pattern C”, “Pattern D”, and “Pattern E” are classified in a ratio of 0: 70: 20: 10. , Normal reach is not selected. In the table corresponding to the special state, the fluctuation patterns of “Pattern B”, “Pattern C”, “Pattern D”, and “Pattern E” are classified in a ratio of 0: 10: 40: 50. Is also set so that normal reach is not selected.
[0085]
When the variation pattern is determined based on the first and second tables 22a and 22b for selecting the variation pattern, the data of "B to E" corresponding to each variation pattern constitute one display command. The command is output to the display control board D as a command (variation pattern command). 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.
[0086]
Here, the set ratio of the effect in each state is compared. In the table referred to in the normal state, the normal reach and the lion reach are large, and the mammoth reach (mammoth super reach and mammoth special reach) is small. In the probability fluctuating state, the setting of the normal reach is smaller than that in the normal state, and the setting of the lion reach is conversely larger, but the setting of the mammoth reach is smaller as in the normal state. In the special state, while mammoth reach is easily set, normal and lion reach are hard to be set.
[0087]
Further, in the normal state, the first table 22a used for setting the fluctuation pattern at the time of the big hit is set to the normal table "pattern B" with respect to the second table 22b used for setting the fluctuation pattern at the time of the loss reach. On the other hand, "Pattern C" of lion reach and "Pattern D" of mammoth super reach are easily set. For this reason, in the case of lion reach or mammoth super reach, it is often set to a big hit, and in the case of normal reach, it is often set to lose.
[0088]
The value of the fluctuation pattern counter 23f does not necessarily need to be divided into the ratios set in the first and second tables 22a and 22b, and the ratio of the fluctuation pattern selected for each state is classified into another ratio. May be. Further, the variation patterns are not necessarily limited to four types, and more variation patterns may be provided to increase the types of effects.
[0089]
Next, each process executed by the pachinko machine 1 configured as described above will be described with reference to flowcharts of FIGS. FIG. 5 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 (for example, every 2 ms) to control the game.
[0090]
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. The details of the start winning change start process (S12) will be described later with reference to FIG.
[0091]
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 determination 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 (changes) the variable display on the LCD 3 (see S94 in FIG. 10).
[0092]
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).
[0093]
In the lost symbol counter update process (S16), the value of the lost symbol counter 23e is updated. Thereafter, the lost symbol counter updating process (S16) is repeatedly executed during the remaining time until the execution timing of the next process of S12 comes. Since each process of S12 to S15 needs to be executed periodically, in the process of S17, the elapsed time from the previous execution of the process of S12 is checked (S17). As a result of the check, if a predetermined time (for example, 2 ms) has elapsed from the previous execution of the process of S12 (S17: Yes), the process proceeds to S12. On the other hand, if the predetermined time has not elapsed (S17: No), the process proceeds to S16, and the lost symbol counter updating process (S16) is repeated. Here, the execution time of each processing of S12 to S15 changes according to the state of the game, so 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 (S16) using the remaining time.
[0094]
FIG. 6 is a flowchart of the start winning fluctuation start processing (S12) executed in the main processing of the main control board C (see FIG. 5). 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.
[0095]
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.
[0096]
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.
[0097]
In the processing from S26, first, it is confirmed whether or not the value of the reserved ball counter 23a is equal to or more than "1" (S26). If it is equal to or more than "1" (S26: Yes), it is confirmed whether or not the display is fluctuating or a big hit (in a special game state in which a predetermined game value is given) (S27). As a result of the confirmation, if the fluctuation display is not being performed and the jackpot is not being hit (S27: No), “1” is subtracted from the value of the reserved ball counter 23a (S28), and the fluctuation stored in the effect execution 1 memory 23h. The display data is written in the effect execution area 23g (S29).
[0098]
Next, the fluctuation 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 a fluctuation pattern and a stop symbol are set. (S31, see FIG. 7), the display command determined by the display command determination process (S31) is transmitted to the display control board D (S32), and the start winning fluctuation start process (S32). S21) ends. On the other hand, when it is confirmed that the value of the reserved ball counter 23a is less than “1”, that is, “0” in the processing of S26 (S26: No), and during the fluctuation display or the big hit in the processing of S27. If it is confirmed that the answer is (S27: Yes), the processing from S28 to S32 is skipped and the start winning fluctuation start processing (S12) is ended.
[0099]
FIG. 7 is a flowchart of the display command determining process (S31) executed in the start winning change 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 display command determination processing (S31), a stop symbol command and a variation pattern command that constitute the display command are determined based on the variation display data acquired at the time of the start winning.
[0100]
In this display command determination processing (S31), 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, the data (pattern) indicated by the value of the variation pattern counter 23f is read from the table corresponding to the status indicated by the status flags (probable status flag 23m and special status flag 23n) in the first table 22a, and is set in the variation pattern command. (S43). Thereafter, a hit state setting process for updating the settings of the status flags 23m and 23n after the jackpot is executed (S44), and the display command determination process (S31) is ended. Details of the hit state setting processing in S44 will be described later with reference to FIG.
[0101]
If the value of the internal random number counter 23b is not a value for generating a jackpot in the process 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 (S45). If the value is a value causing the loss reach (S45: Yes), a value indicating the combination of the symbols constituting the loss reach stored in the counter buffer 231 is set in the stop symbol command (S46), and further, The data (pattern) indicated by the value of the variation pattern counter 23f is read from the table corresponding to the status indicated by the status flags 23m and 23n in the second table 22b and set as the variation pattern command (S47). Thereafter, a loss state setting process for updating the settings of the state flags 23m and 23n at the time of loss is executed (S48), and the display command determination process (S31) is terminated.
[0102]
If the value of the reach random number counter 23c stored in the effect execution area 23g in the process of S45 is not a value that causes loss reach (S45: No), the value of the loss symbol counter 23e stored in the effect execution area 23g is changed to A stop symbol command is set (S49), and "A" data indicating a fluctuation pattern of "pattern A", which is a loss fluctuation display without a reach display, is set as fluctuation pattern command data (S50). This display command determination processing (S31) ends.
[0103]
As described above, in the display command determination process shown in FIG. 7, since the tables corresponding to the statuses indicated by the status flags 23m and 23n are used as the data of the variation pattern command in the processes of S43 and S47, the status flags 23m and 23n are used. The selection condition of the variation pattern is changed in accordance with the state of, for example, mammoth reach is frequently set during the special state in which the special state flag 23n is on. Therefore, for the player, the mammoth reach that is hardly set in a state other than the special state is set more, and the playability in the special state in which a large amount of balls are paid out, and the mammoth reach in the state other than the special state is difficult to be set. It is possible to provide a plurality of types of gaming properties, that is, state gaming properties, and to provide a gaming ability that is hard to get tired of. In addition, since the period in which a large number of balls are paid out is limited to a special state, the player has a great expectation of obtaining high profits in a short period of time without incurring a great loss in the game hall. be able to.
[0104]
FIG. 8 is a flowchart of the hit state setting processing (S44) executed in the display command determination processing of the main control board C (S31). In the hit state setting process (S44), after the occurrence of the big hit, the setting of the two state flags 23m and 23n used for selecting the first table 22a used for reading the data of the variation pattern is updated. .
[0105]
In the hit state setting process (S44), first, it is checked whether the value of the big hit symbol counter 23d stored in the effect execution area 23g is a normal symbol (even number symbol) (S51). If the value is a normal symbol (S51: Yes), the probability change flag 23m is turned off (S52) because a normal jackpot has occurred, and the data set as the fluctuation pattern command is "E" and the mammoth special reach is performed. Is determined (S53). If the data set as the fluctuation pattern command is “E” (S53: Yes), the special state flag 23n is turned on (S54), and the next and subsequent fluctuation displays are set to those in the special state. The state setting process (S44) ends.
[0106]
If the value of the big hit symbol counter 23d stored in the effect execution area 23g in the processing of S51 is not a normal symbol (S51: No), a probability variation big hit occurs, so the probability state flag 23m is turned on (S55). The probability state flag 23m stores that the fluctuation display after the next time is during the probability fluctuation. Thereafter, it is confirmed whether the data set as the variation pattern command is “C” (S56). If the data is “C” (S56: Yes), the process proceeds to S54 to set the special state flag 23n. On (S54), the hit state setting process (S44) ends.
[0107]
When the data set as the variation pattern command in the process of S53 is not “E” (S53: No), and when the data set as the variation pattern command in the process of S56 is not “C” (S56: No), Turns off the special state flag 23n (S57), assumes that the next and subsequent variable displays are not in the special state, and terminates the hit state setting processing (S44).
[0108]
As described above, in the hit state setting process (S44) performed when a big hit occurs, the special state flag 23n is turned on and off, so that the player is given a sense of satisfaction given by the big hit occurrence. At the same time, the interest in the game can be increased by giving an expectation as to whether or not the special state is set after the big hit. Whether or not the special state after the jackpot is set is set by different lottery conditions based on whether or not it is a normal jackpot or a probability variation jackpot by the processing of S53 and S56. Therefore, it is possible for the player to have different expectations for the special state set after the big hit depending on the type of the big hit, and it is possible to further expand the playability and make it hard to get tired.
[0109]
FIG. 9 is a flowchart of the loss state setting process (S48) executed in the display command determination process (S31) of the main control board C. In the losing state setting process (S48), the state of the special state flag 23n that greatly affects the profit of the player is switched based on the establishment of certain conditions during a normal game that is not a big hit.
[0110]
In the losing state setting process (S48), first, it is checked whether the data set as the fluctuation pattern command of the fluctuation display in which the fluctuation starts is "D" (S61). If the data is "D" (S61: Yes), it is checked whether the end of the value of the internal random number counter 23b stored in the effect execution area 23g is "7" (S62). If the end of the value is “7” (S62: Yes), it is determined that the lottery for switching the state of the special state flag 23n has been won, and it is confirmed whether the special state flag 23n is on (S63). If it is on (S63: Yes), the special state flag 23n is turned off (S64), and the loss state setting process (S48) ends. If the special state flag is off in the processing of S63 (S63: No), the special state flag 23n is turned on (S65), and the loss state setting processing (S48) ends.
[0111]
If the data set as the variation pattern command in the processing of S61 is not “D” (S61: No), and the end of the value of the internal random number counter 23b stored in the effect execution area 23d in the processing of S62 is “7”. If not (S62: No), it is determined that the lottery for switching the state of the special state flag 23n is lost, and the processing from S63 to S65 for switching the special state flag 23n is skipped, and this loss state setting processing is performed. (S48) ends.
[0112]
As described above, the switching of the special state flag 23n between ON and OFF is performed not only at the time of occurrence of a big hit but also at the start of the variable display other than the big hit. Even so, it can be expected whether or not the special state is set, and the interest of the player in the game can be increased.
[0113]
In addition, since the switching of the special state flag 23n between on and off is performed based on the same lottery conditions of S61 and S62, the process of determining whether or not the lottery condition is won is simplified and simplified. The control program can be used, and the development cost can be reduced.
[0114]
In the losing state setting process (S48), the on / off switching of the special state flag 23n is performed based on the same lottery condition. However, it is not always necessary to set the same lottery condition. Switching may be performed under different conditions from on to off and off to on. In addition, the on / off switching of the special state flag 23n is performed both at the time of the occurrence of the big hit and at the time of the loss, but it may be performed at any one of the times. Further, the condition for switching on / off of the special state flag 23n is not limited to the above condition, and may be a condition for switching on / off of the special state flag 23n using data of another variation pattern, a counter value, or the like.
[0115]
FIG. 10 is a flowchart of the effect setting execution process executed by the display control board D. This effect setting execution process is a process that is repeatedly executed on the display control board D every predetermined time (for example, every 2 ms). The effect setting execution processing is to cause the LCD 3 to perform a fluctuation display based on the data of the fluctuation pattern transmitted from the main control board C, and to drive the solenoid 13 to move the movable member 12 provided in the accessory device 11 in the forward state. This is a process for controlling the operation of switching between the retreat state and the retreat state.
[0116]
In this effect setting execution processing, first, it is checked whether or not the timing has received the display command from the main control board C (S71). If it is the timing at which the display command has been received (S71: Yes), the fluctuation pattern added to the display command is checked. Then, data relating to the stopped symbol is written in the effect execution area 33a, and the variable display of the symbol is started (S72). After that, it is checked whether the data of the variation pattern stored in the effect execution area 33a is “D” indicating mammoth super reach or “E” indicating mammoth special reach (S73), and the data of the variation pattern is “ If it is "D" or "E" (S73: Yes), the special display flag 33b is turned on (S74) because the start of the variable display for giving the player an advantageous gaming state by the mammoth reach is started (S74). The process moves to S81. On the other hand, if the data of the variation pattern is not “D” or “E” in the process of S73 (S73: No), the process proceeds to S81 without turning on the special effect flag 33b.
[0117]
If it is not the timing at which the display command is received from the main control board C in the processing of S71 (S71: No), the processing skips the processing of S72 to S74 and shifts the processing to S81. The case where it is not the timing when the display command is received is during the execution of the variable display, the state of waiting for the start of the variable display, or the time of receiving a command other than the display command, such as a fixed command or a command to turn on the hold lamp 5. .
[0118]
In the processing of S81, it is confirmed whether or not the variable display is being performed (S81). If the variable display is not being performed (S81: No), other processing such as displaying a demonstration screen such as a model name or a character in the display area of the LCD 3 is performed. Is performed (S95), and the effect setting execution process ends. On the other hand, when it is confirmed in the process of S81 that the variable display is being performed (S81: Yes), it is confirmed whether the special effect flag 33b is on (S82). If the special effect flag 33b is not on (S82: No), the display is not a variable display for executing the mammoth reach, so the processing from S83 to S92 relating to the driving of the movable member 12 is skipped, and the processing shifts to S93. If the special effect flag 33b is ON in the processing of S82 (S82: Yes), it is a variable display for executing the mammoth reach, so it is confirmed whether the value of the timer counter 33c is "1" or more (S83).
[0119]
If the value of the timer counter 33c is not equal to or more than "1" (S83: No), it is a stage before the movable member 12 imitating the mammoth is advanced, so it is confirmed whether the mammoth reach display appears on the variable display (S84). ). If the mammoth reach display does not appear (S84: No), the special effect flag 33b is on and the variable display for executing the mammoth reach for moving the movable member 12 forward is being performed, but before the mammoth reach display appears. This is not the timing for moving the mammoth (movable member 12) forward. For this reason, the processes from S85 to S88 such as driving the solenoid 13 are skipped, and the process proceeds to S93. Here, the mammoth reach display is displayed on the LCD 3 when 8 seconds have elapsed after the start of the variable display, and the display is performed as one of the other processes of S95 in the display control board D. Therefore, the display control board D can easily confirm whether or not the mammoth reach display has appeared without receiving a command from another board.
[0120]
On the other hand, when the mammoth reach display appears in the variable display in the process of S84 (when 8 seconds have elapsed after the start of the variable display) (S84: Yes), the movable member 12 (mammoth) is interlocked with the display of the LCD3. Then, the solenoid 13 is driven to move the movable member 12 forward (S85, see FIG. 2B), and the execution of mammoth reach is started. Thereafter, it is checked whether the data of the variation pattern stored in the effect execution area 33a is "D" (S86). If the data is "D" (S86: Yes), it is time to execute the mammoth super reach. Since it is necessary to advance the movable member 12 for 5 seconds, "2500" is written in the value of the timer counter 33c which is decremented every 2 ms (S87), and the process proceeds to S93. If the data of the variation pattern stored in the effect execution area 33a is not “D” in the process of S86 (S86: No), the data of the variation pattern stored in the effect execution area 33a is “E” and the mammoth special Since the reach is to be performed and the movable member 12 needs to be advanced for 3 minutes, "90000" is written in the value of the timer counter 33c (S88), and the process proceeds to S93.
[0121]
If it is confirmed in the processing of S83 that the value of the timer counter 33c is equal to or more than "1" (S83: Yes), the mammoth reach display appears on the fluctuation display and the movable member 12 moves forward (FIG. 2). (Refer to (b)), the value of the timer counter 33c indicating the remaining time for moving the movable member 12 forward is decremented by "1" (S89), and it is checked again whether the value of the timer counter 33c is "1" or more. (S90). If the value of the timer counter 33c is equal to or greater than "1" (S90: Yes), since the mammoth reach is continuing, the process proceeds to S93 without moving the movable member 12 backward. On the other hand, when the value of the timer counter 33c is “0” in the process of S90 (S90: No), the solenoid 13 is driven to move the movable member 12 (mammoth) backward (S91), and further special effects are performed. The flag 33b is turned off (S92), and the process proceeds to S93.
[0122]
In the process of S93, it is confirmed whether a confirmation command has been received from the main control board C (S93). If the determination command has been received (S93: Yes), it is the timing to stop the variable display, so the variable display is stopped (determined) (S94), and the process proceeds to S95. If the determination command has not been received in the processing of S93 (S93: No), the fluctuation needs to be continued, so that the processing shifts to S95 without stopping the fluctuation display.
[0123]
As described above, according to the pachinko machine 1 of the present invention, when the mammoth reach, which is one of the entertaining effects, is executed during the variable display performed on the LCD 3, the control of the display control board D is performed. As a result, the solenoid 13 is turned on. When the solenoid 13 is turned on, the movable member 12 is moved forward (the state shown in FIG. 2B), and the movable member 12 guides the ball to the symbol operation port 4a so as to easily win. For this reason, the player can enjoy the game in the advantageous game state in which the winning rate to the symbol operation port 4a is increased during the execution of the mammoth reach, and can obtain a profit even if the big hit does not occur after the change. Yes, the satisfaction can be felt continuously after the fluctuation.
[0124]
Further, in the effect setting execution process of FIG. 10 performed by the display control board D, the display control board D moves the movable member in accordance with the setting for lengthening or shortening the time in association with the mammoth super reach and the mammoth special reach which are the entertaining effects. The switching operation between the forward state and the backward state is controlled. Therefore, the profit given to the player can be made different depending on the content of the entertainment effect, and the player can be conscious not only of the display result of the variable display, but also of the content of the entertainment effect associated with the profit to be obtained. It is possible to improve the interest of the game by directing.
[0125]
Further, the variation patterns of the mammoth super reach and the mammoth special reach, which are the mammoth reach, are made to progress with the same contents even after the mammoth reach display appears and the movable member 12 advances. Therefore, it is difficult for the player to determine whether the advance time of the movable member 12 is a mammoth super reach of 5 seconds or the advance time of the movable member 12 is a mammoth special reach of 180 seconds. By giving pleasure to a mammoth special reach that is advantageous to the player while giving a sense of tension, it is possible to enhance the interest of the game by giving a game ability to watch the production.
[0126]
In addition, when the variation pattern of the normal reach of “pattern B” and the variation pattern of the lion reach of “pattern C” are selected from the four variation patterns set in the pachinko machine 1, the switching operation of the movable member 12 is performed. Absent. For this reason, when the variable display is suspended for the maximum number of suspensions of four, the player who intends to increase the number of balls actively stops the launch of the ball (stops the ball) during the game. It is possible to reduce the waste of the ball to be fired and increase the profit acquisition rate. The difference between the profits is so large that the firing of the ball is stopped during the execution of the fluctuation pattern with the reach display having a long rendering time. Therefore, by setting a fluctuation pattern in which the switching of the movable member 12 is not performed, a gaming machine which is easy to be familiar to a player who has gained experience and has a gaming ability to vary a profit acquisition rate due to a difference in technology. can do.
[0127]
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.
[0128]
For example, in the above embodiment, the display control board D drives the solenoid 13 to control the forward and backward movements of the movable member 12, but it is not necessary to control the display control board D to control the drive of the solenoid 13. Alternatively, the solenoid 13 may be controlled by the main control board C. The control of the game can be more centrally managed by the main control board C. Further, a dedicated board may be provided separately from the main control board C and the display control board D, and the solenoid 13 may be controlled based on an instruction from the main control board C and the display control board D.
[0129]
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 only necessary that the movable member 12 be configured so as to be advantageous for the player when the movable member 12 advances toward the center frame 10, that is, that many balls are paid out as prize balls. May be configured to win a prize in the symbol operating port 4a at a rate of one ball when the ball of the number of balls flows in. 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.
[0130]
Further, in the above embodiment, the movable member 12 is configured to slide along the left-right direction of the game board 2 when viewed from the front, but it is not always necessary to configure the movable member 12 to slide in the left-right direction of the game board 2. Absent. When the ball is driven by the solenoid 13, any state can be switched between a state in which the ball can easily win and a state in which it is difficult to win the ball. The movable member provided may be protruded from the front of the game board 2 to guide the ball to the winning opening so as to easily win, or the movable member may be slid vertically or diagonally, or The ball may be guided to the winning opening by rotating the movable member. The winning opening guided by the movable member so that the ball can easily win is not necessarily the symbol operating opening 4a, but may be another winning opening 7. In addition, the movable member 12 does not necessarily need to indirectly guide the ball to a winning opening such as the symbol operating port 4a via another part such as the center frame 10, but a winning opening such as the symbol operating port 4a. A movable member may be disposed on one side, both sides, or above, and a ball flowing down a path deviated from the winning opening may be guided to the winning opening side by the movable member. Further, the driving force applied to the movable member is not limited to the solenoid, and another driving device such as a motor may be used.
[0131]
Further, in the above-described embodiment, the advantage given to the player is made different by making the moving time of the movable member 12 different depending on the two variation patterns of the mammoth super reach and the mammoth special reach. The moving time of the movable member 12 does not necessarily need to be different, and the profit given to the player may be made different by making the winning rate to the winning opening different according to the selected variation pattern. For example, the amount by which the movable member 12 advances is set in two stages, and only when the movable member 12 advances greatly, is configured such that all the spheres flow into the ball inlet 10b of the center frame 10. When the ball advances a little, the ball in contact with the guide portion 12a of the movable member 12 bounces, so that the ball flows into the ball inlet 10b at a ratio of one ball to two or three, and the ball flows into the ball inlet 10b. It may be configured such that a ball that falls downward without flowing in can also be generated. In addition, a plurality of movable members 12 may be provided, and the number of movable members 12 operated according to the selected variation pattern may be increased or decreased, so that the winning rate to the winning opening may be set to be different.
[0132]
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.
[0133]
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.
[0134]
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.
[0135]
Hereinafter, modified examples will be described. 2. The gaming machine according to claim 1, wherein the gain operation member is disposed off the flow path of the game ball when the first state is formed, while at least a portion of the gain operation member flows down when the second state is formed. A switching operation between the first state and the second state is performed by affecting a flow path of the game ball so as to protrude on the path and allow the game ball to easily enter the ball entry area. Gaming machine 1 characterized by the following. When the gain operation member forming the first state is configured to prevent the game ball from approaching the ball entry area, the player feels that the installation of the gain operation member makes it difficult for the game ball to enter the ball. It gives the player a bad impression.
[0136]
According to the gaming machine 1, since the gain operation member is disposed off the flow path of the gaming ball when the first state is formed, the gaming ball is provided in a normal state in which no entertainment effect is performed. The gain operation member does not affect the flow-down path. Only at the time of formation of the second state, the at least one portion protrudes on the flow path of the game ball and influences the flow path of the game ball so that the game ball easily enters the ball entry area. Therefore, in the normal state, while maintaining the playability of the game balls flowing down, the ball entry rate of the game balls can be increased when the gain operation member forms the second state, and the game operation balls can be provided by installing the gain operation members. Can easily give the player a good impression.
[0137]
Influencing the flow path of the game ball means that the rate at which the game ball flowing down the path formed by branching into a plurality of paths flows into each path is changed, and the first state and the second state. A case where the ratio of the game balls flowing into the specific path is increased or decreased by changing the opening amount of the specific path when the state of the gain operation member is switched at any time.
[0138]
The gaming machine or the gaming machine 1 according to claim 1, wherein the game ball is formed to branch off from a flow path of the game ball and has a higher probability than the case where the game ball flows down another path. A guiding member for forming a guiding path for entering the ball, wherein the gain operation member is configured to form, as the second state, a state in which the game ball easily flows into the guiding path of the guiding member from the first state. A gaming machine 2 characterized by the following. According to the gaming machine 2, the gain operation member forms, as the second state, a state in which the game ball easily flows into the guide path of the guide member from the first state. Therefore, when the gain operation member forms the second state, the player allows a larger amount of game balls to flow into the guidance path formed by branching off from the flow-down path of the game balls, compared to when the first state is formed. A game ball can be made to enter the entering area with probability. Therefore, the second state can be set as an advantageous game state in which the ball entry rate of the game ball is increased for the player.
[0139]
Note that the guide path of the guide member may be a path through which the game ball hardly flows when the gain operation member forms the first state. As a route to which almost no game balls flow, it is preferable that only one or less of the approximately 20 game balls flow in front of the entrance of the route, and further, that approximately 100 game balls be flown. It is preferred that only one or less flow into the sphere. By setting the guide path of the guide member to a path through which the game ball hardly flows when the gain operation member forms the first state, the superiority of the game when the second state is formed is more emphasized for the player. It is possible to emphasize the interest given to the player when the second state is formed. Here, as the guide member, for example, the center frame 10 in the above embodiment is exemplified, and as the guide path, a transfer path 10a formed by the center frame 10 is exemplified.
[0140]
The gaming machine according to claim 1, wherein the gaming ball is provided on a downstream side of the gaming ball with respect to the gain operating member and in a direction avoiding the gain operating member that forms the first state. A game machine 3 comprising a guide member for guiding the game machine. When the gain operation member forms the second state, it is necessary that the gain operation member guide the game ball so as to easily enter the ball entry area, and the guidance is performed substantially continuously over a long period of use. Is desirable. However, if the game ball repeatedly touches the gain operation member during the game, play is likely to occur in the movable portion of the gain operation member, or the portion for guiding the game ball is likely to be deformed, and the ball enters the ball entry area. The rate is likely to change to something different from the time of manufacture.
[0141]
According to the gaming machine 3, when the gain operation member is in the first state, the game ball is guided by the guide member to the path avoiding the gain operation member, and the contact of the game ball with the gain operation member is suppressed. can do. Therefore, by reducing the number of game balls in contact with the gain operation member, deformation and breakage of the gain operation member due to contact of the game ball can be prevented, and the game ball can be inserted into the gain operation member for a longer period of time. It is possible to provide a function of guiding the sphere region substantially uniformly. In addition, as the guide member, for example, a cover member 14 disposed so as to surround the movable member 12 in the above embodiment is exemplified.
[0142]
2. The gaming machine according to claim 1, wherein the operation control means controls a switching operation of the gain operation member in accordance with a plurality of different settings respectively associated with a plurality of types of the entertainment effects. A gaming machine 4 characterized by the following. According to the gaming machine 4, the switching operation of the gain operation member is controlled by the operation control means in accordance with a plurality of different settings respectively corresponding to a plurality of types of entertainment effects. The profit to be made can be made different depending on the entertainment effect to be performed. Therefore, it is possible to make the player play the game while making the player more conscious of the entertainment effect, and it is possible to further improve the interest felt by the player when the entertainment effect is executed.
[0143]
In the gaming machine 4, the operation control means controls a switching operation of the gain operation member according to a setting that lengthens or shortens at least a time in which the gain operation member forms the second state in association with the plurality of types of entertainment effects. A gaming machine 5 characterized in that it is a game machine. According to the gaming machine 5, the time during which the gain operation member forms the second state is set to be longer or shorter according to the entertainment effect. For this reason, the state where the game ball easily enters the ball entry area is maintained longer as the entertainment effect is executed, the longer the gain operation member takes to form the second state, and the player can obtain a higher profit. . Therefore, the interest of the game given to the player by a plurality of types of interest effects can be further improved in association with the profit to be obtained. In addition, to shorten or lengthen the time in which the gain operation member forms the second state may be to shorten or lengthen the time in which the gain operation member forms the second state each time. The time for forming the second state may be lengthened by increasing or decreasing the number of times of formation.
[0144]
In the gaming machine 4 or 5, the operation control means may determine a ball entry rate of the game balls into the ball entry area when at least the gain operation member forms the second state in association with the plurality of types of entertainment effects. The gaming machine 6 controls the switching operation of the gain operation member according to different settings. According to the gaming machine 6, the ball entry rate of the game balls in the ball entry area when the gain operation member forms the second state is set differently in association with the entertainment effect. For this reason, the higher the ball entry rate of the game balls into the ball entry area when the gain operation member is in the second state, the more easily the entertaining effect is executed, the easier the game balls are to enter the ball entry area. Can get high profits. Therefore, the player can enjoy the interest by performing the entertainment production and obtain different profits corresponding to the entertainment production. Can be given.
[0145]
The gaming machine according to claim 1, wherein the attraction effect is a first attraction effect in which a switching operation of the gain operation member is performed by the operation control means at the time of execution. A gaming machine 7 comprising: an entertainment effect having contents different from the entertainment effect, wherein the operation control means does not perform the switching operation of the gain operation member at the time of execution. According to the gaming machine 7, in addition to the first entertainment effect in which the switching operation of the gain operation member is performed, a second entertainment effect in which the switching operation of the gain operation member is not performed is provided. Among them, the game can be performed in expectation of the first entertainment effect in which the switching operation of the gain operation member is performed, and a new interest can be provided.
[0146]
Further, in a gaming machine set such that the gain operation member always forms the second state when performing the entertainment effect, and the game balls are set to gradually increase by continuously firing the game balls when the second state is formed, All the players who want to acquire more game balls continue firing the game balls during the entertainment presentation. For this reason, when the start condition of the dynamic display is not satisfied during the entertainment effect (for example, when the execution of the dynamic display for the maximum number of holdings is suspended), it is necessary to appropriately stop the launch of the game ball. , It is difficult to make a difference in profit between players. On the other hand, by providing the second entertainment effect in which the switching operation of the gain operation member is not performed, the player who actively stops firing of the game ball at the time of executing the second entertainment effect can benefit from the difference in technology. Can be given more, and the gaming machine can be easily accessed by experienced players.
[0147]
2. In the gaming machine or any of the gaming machines 1 to 7, the specific entertainment effect associated with the switching operation of the gain operation member by the operation control means is an effect performed by the display device. A gaming machine 8 characterized in that: The consciousness of a player who plays a game is focused on a display device that presents a predetermined display result when a predetermined game value is given. According to the gaming machine 8, since a specific entertainment effect is performed by the display device that presents a predetermined display result, the player can perform the switching operation of the gain operation member by executing the specific entertainment effect. Can be easily understood.
[0148]
2. The gaming machine according to claim 1, wherein a driving force is applied to the gain operation member under the control of the operation control means to perform the switching operation between the first state and the second state. And a holding means for holding the gain operation member formed in the first state or the second state in each state after a driving force is applied by the driving means. Gaming machine 9. A general solenoid for driving a variable winning device or the like is energized in one direction by a built-in spring or the like when not energized, and in another direction by an electromagnetic force opposing the energizing force of the spring when energized. This is to provide a driving force. When this general solenoid is used as the driving means, the energized state is continued when the driving means is driven, so that damage due to heat or the like is likely to occur.
[0149]
According to the gaming machine 9, since the holding means for holding the gain operation member formed in the first state or the second state in each state after the driving force is applied by the driving means is provided, the driving means temporarily What is necessary is just to apply a suitable driving force to the gain operation member. Therefore, the gain operation member can be maintained in the second state without generating heat or the like for a long period of time, and the player can be provided with a gaming property in which an advantageous gaming state provided by an entertainment effect is maintained for a longer period of time. Can be provided. In addition, as a holding | maintenance means, the permanent magnet which hold | maintains the movable member 12 in several places in a self-holding type keep solenoid is illustrated, for example.
[0150]
2. The lottery means according to claim 1, wherein the lottery means determines whether or not to execute a specific entertainment effect associated with the switching operation of the gain operation member by the operation control means. And a changing means for changing a lottery condition of the specific entertainment effect selected by the lottery means based on establishment of a predetermined condition. According to the gaming machine 10, since the lottery conditions of the specific entertainment effect selected by the lottery means are changed by the changing means, the advantageous state in which the switching operation of the gain operation member is easily performed and the disadvantageous state in which the switching operation of the gain operation member is difficult to be performed are performed. Can be switched based on the satisfaction of a predetermined condition. Therefore, the selection of a particular entertainment effect is not fixed for the player, and it is possible to provide the player with a playability that is hard to get tired of.
[0151]
The lottery means executes, for example, a mammoth reach for moving the movable member 12 forward based on the first and second tables 22a and 22b, the fluctuation pattern counter 23f, and the tables 22a and 22b and the fluctuation pattern counter 23f. The process of S43 and S47 of FIG. The change means includes, for example, a hit state setting process (S44) of FIG. 7 for changing the state of the state flags 23m and 23n confirmed when reading data from the first and second tables 22a and 22b, and a loss state. The setting process (S48) is exemplified.
[0152]
In the gaming machine 10, the gaming machine 11 is characterized in that the changing means changes the lottery condition of the entertaining effect based on establishment of a game condition established by a player playing a game. According to the gaming machine 11, since the lottery condition of a specific entertainment effect is changed by the changing means based on the establishment of the game condition established by the player playing the game, the player himself plays the game. This makes it possible to acquire an advantageous state in which the lottery conditions for a particular entertainment effect have been changed, and to allow the player to actively play a game, thereby improving the operating rate of the game hall. The game conditions include, for example, the count value of a specific counter when the start condition is satisfied, the entry of a game ball into a specific ball entry area, or a display result displayed on a display device, or a display result thereof. Any combination, such as a combination, may be used based on at least one of the conditions that are satisfied by the player playing the game.
[0153]
The gaming machine (12) according to any one of claims 1 to 11, wherein the gaming machine is a pachinko machine. Above all, as a basic configuration of the pachinko machine, a handle as an operation unit is provided, and a game ball is fired to a predetermined game area in accordance with the operation of the handle, and the game ball is disposed at a predetermined position in the game area. As a necessary condition for winning a prize (or passing through the operation gate) to the operation port, there is a case where 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) disposed 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.) is given according to the winning number.
[Brief description of the drawings]
FIG. 1 is a front view of a game board 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.
FIG. 3 is a block diagram showing an electrical configuration of the pachinko machine.
FIG. 4A is a diagram showing a configuration of a first table used for setting a fluctuation pattern at the time of a big hit, and FIG. 4B is a diagram showing a second table used for setting a fluctuation pattern at the time of losing reach; FIG.
FIG. 5 is a flowchart of a main process executed by a main control board.
FIG. 6 is a flowchart of a start winning variation start process executed in the main process of the main control board.
FIG. 7 is a flowchart of a display command determination process executed in the start winning variation start process of FIG. 6;
FIG. 8 is a flowchart of a hit state setting process executed in the display command determination process of FIG. 7;
FIG. 9 is a flowchart of a loss state setting process executed in the display command determination process of FIG. 7;
FIG. 10 is a flowchart of an effect setting execution process executed by the display control board.
[Explanation of symbols]
1 Pachinko machines (game machines)
3 LCD (display device)
4a Symbol opening (ball entry area)
4 Variable winning device (ball entry member)
12 Movable member (gain operation member)
C Main control board (part of control means)
D display control board (part of control means, operation control means)

Claims (1)

A display device for displaying identification information, and a control means for, when a starting condition is satisfied, randomly selecting whether or not to give a predetermined game value to a player and causing the display device to dynamically display the identification information. When a lottery result for giving the predetermined game value is derived by the control means, a predetermined display result appears on the dynamic display and a game machine for giving the predetermined game value is provided. ,
A ball entry member that forms a ball entry area that gives a predetermined benefit to a player when a game ball enters,
A gain operation member that is formed by switching between a first state and a second state that affects the flow path of the game ball so that the game ball can easily enter the ball entry area formed by the ball entry member from the first state. When,
A game machine comprising: an operation control means for controlling a switching operation of the gain operation member in association with an entertaining effect that expects a player to give a predetermined game value.

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