JP3923416B2 - Bullet ball machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ball game machine such as a pachinko game machine.
[0002]
[Prior art]
Conventionally, among the ball game machines, there is a so-called second-type pachinko game machine.
This second type of pachinko gaming machine includes a game board that forms a game area into which game balls are to be thrown, a variable prize device provided in the game board, and a special prize opening provided inside the variable prize device ( A game (based on a V zone), a sensor (special prize port sensor) for detecting a prize for a game ball (referred to as an initial V prize) to the special prize slot, and a game based on the detection of the game ball by the sensor And a game control device (game control means) that performs control to generate a special game state (referred to as a big hit) that is advantageous to the player.
[0003]
The variable prize apparatus includes a movable member that can be opened and closed. When the movable member is in a closed state, a game ball cannot flow into the variable prize apparatus, and when the movable member is in an open state, Game balls can flow into.
Furthermore, the variable winning device includes a general winning port for a game ball that does not win a special winning port even though it has flowed into the variable winning device.
In addition, the game board is provided with a number of winning holes in places other than the variable winning device, and a game ball is placed in one of the winning holes (a special winning hole, a general winning hole, or any other winning hole). When a prize is won, the prize is detected by a sensor provided in each prize opening, and a predetermined number of game balls are paid out based on this detection.
[0004]
In the special game state of the second type of pachinko gaming machine, a special prize opening sensor is used during a round game (also called a round game) performed while opening and closing a movable member in accordance with a predetermined rule. The game is continued while the round is continued on the condition that a game ball is detected again, and if the round reaches a predetermined final round (for example, 15 rounds), the final round is continued. Even if a winning occurs, it is a gaming state that ends with the final round (when an end condition is satisfied).
A game in the second type of pachinko machine is performed by launching (striking) a game ball into the game area. Particularly, when the special game state occurs, the game is performed to the general winning opening and the special winning opening. It becomes easy to generate a large number of winnings, and the player has an opportunity to acquire a large amount of game balls.
[0005]
By the way, a so-called goto action that receives a ball payout by performing an illegal act on a pachinko machine or the like has been a problem.
For example, there are various types of goto acts as described below.
[0006]
First, as a game ball detection sensor, an electromagnetically sensitive sensor that senses a ball without touching a steel ball is generally used.
When such an electromagnetically sensitive sphere detection sensor is provided, when a device such as a transceiver that generates electromagnetic waves is used in the vicinity of the sensor, the sphere detection sensor may be sensitive to the electromagnetic waves and malfunction.
A goto action that intentionally malfunctions the sphere detection sensor and takes out the sphere by using the drawbacks of the sphere detection sensor is called radio wave goto.
[0007]
As another goto action, a plastic plate member (cell) that is easily bent from an upper plate or the like is inserted to reach the winning ball detection sensor or the like, and the winning ball is discharged even though no winning has occurred. There are so-called sergoto and so-called glass frame opening goto that opens a glass frame with a key and opens a door by hand to place a ball in a variable winning device to discharge a prize ball.
[0008]
Such a fraudulent act is not only disadvantageous for a game store, but also disadvantageous for a player who does not conduct fraud. For this reason, a gaming machine having various functions related to prevention of fraud has been considered (see, for example, Patent Document 1).
[0009]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 08-266736
[0010]
[Problems to be solved by the invention]
However, in conventional ball game machines, countermeasures against fraudulent acts are not always sufficient, and there is a possibility that the fraudulent acts cause disadvantages to game shops and players.
[0011]
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a ball game machine that prevents fraud and does not cause a disadvantage to a game store or a player.
[0012]
[Means for Solving the Problems]
In order to solve the problem,
The invention described in claim 1
A mounting board for mounting on the game board; a concave chamber formed at a substantially central portion of the mounting board; projecting toward the rear of the mounting board and having an open front surface; a movable member provided on the mounting board; A general winning port and a special winning port which are provided at a required portion of the concave chamber and can receive a game ball received by the movable member, and an electric drive source for the movable member which drives the movable member to be openable and closable. A variable prize device,
A start opening where game balls can win,
In the game board,
As an auxiliary game generation condition that a game ball wins the starting opening, an auxiliary game is generated in which the movable member of the variable winning device performs an opening / closing operation a predetermined number of times,
As a special game occurrence condition that a game ball received by the variable prize apparatus during the auxiliary game wins a special game opening, the number of times the movable member opens and closes is larger than the number of times of opening and closing in the auxiliary game. Cycle games that perform opening and closing operations Be In a ball game machine equipped with a control means capable of generating and controlling a special game state,
The variable winning device is:
Provided with a winning ball detection sensor capable of detecting a game ball received by the movable member upstream of a general winning port and a special winning port arranged on the downstream side,
The control means includes
Based on the detection of the game ball by the winning ball detection sensor, That detection Game control means for outputting prize ball number data corresponding to
A discharge control means for discharging a prize ball based on the prize ball number data based on the reception of the prize ball number data output from the game control means;
With
The game control means includes
When a game ball is detected by the winning ball detection sensor in a state other than the special game state, the detection of the game ball is invalidated. And no prize ball number data corresponding to the detection of the game ball is output. Sphere detection invalidating means,
The detection of the game ball by the winning ball detection sensor is valid for a predetermined time only when the auxiliary game occurs despite being in a state other than the special game state. If a winning ball is detected by the winning ball detection sensor during the predetermined time, the winning ball number data corresponding to the detection of the gaming ball is output. Sphere detection validation means to
It is characterized by having.
[0013]
Here, the “ball game machine” includes a pachinko game machine, an arrange ball game machine, a sparrow ball game machine, and the like.
[0014]
According to the first aspect of the present invention, the winning ball detection sensor in the variable winning device is effective only in a certain period after the game ball is won at the starting port except in the special gaming state. Forcibly during the other periods, no prize balls will be paid out even if game balls are placed in the variable prize device. Therefore, cheating is not performed, and a ball game machine can be obtained in which the game store is not damaged.
[0015]
The invention described in claim 2
In the ball game machine according to claim 1,
Said Game The control means
Due to the occurrence of the auxiliary game A winning ball counting means for counting the number of balls detected by the winning ball detection sensor during a time when the detection of the game ball by the winning ball detection sensor is effective;
The sphere detection enabling means includes
A function for invalidating the detection of the game ball by the winning ball detection sensor even during the time when the detection of the game ball by the winning ball detection sensor is valid when the counting result of the winning ball counting means reaches a predetermined number It is characterized by having.
[0016]
According to the invention of claim 2, if only the effective time for detecting the game ball by the winning ball detection sensor is set, it is not possible to prevent cheating such as pouring the game ball at the time of starting winning. With the award ball discharge effective number setting, there is little effect even if the fraud is performed as described above. Therefore, cheating is not performed, and a ball game machine can be obtained in which the game store is not damaged.
[0017]
The invention described in claim 3
In the bullet ball game machine according to claim 1 or 2,
The game control means includes
Due to the occurrence of the auxiliary game Before sending the winning ball number data generated based on the detection of the gaming ball by the winning ball detection sensor to the discharge control means during the time when the detection of the gaming ball by the winning ball detection sensor is effective, A prize ball number data addition storing means for adding and storing a numerical value indicated by the ball number data;
The sphere detection enabling means includes
When the addition storage result of the winning ball number data adding storage means reaches the upper limit number, the gaming ball is detected by the winning ball detection sensor even during the time when the detection of the gaming ball by the winning ball detection sensor is effective. It is characterized by having a function to disable.
[0018]
According to the third aspect of the present invention, since the upper limit of the number of prize balls to be paid out is determined, it is easy to accurately predict in advance the damage caused when an illegal act is performed.
[0027]
DETAILED DESCRIPTION OF THE INVENTION
[First Embodiment]
Hereinafter, a first embodiment according to the present invention will be described with reference to the drawings.
In the present embodiment, a pachinko game as a suitable example of the gaming machine according to the present invention, particularly a pachinko gaming machine of the type belonging to the so-called “second type” will be described.
[0028]
The pachinko gaming machine 100 shown in FIG. 1 launches a game ball in an internal game area 1a and plays a game. The front half of the front half of the front frame 111 has a glass plate (not shown) on the back side. A game board 1 constituting the game area 1a is installed.
[0029]
A pair of once-open winning devices (first start ports) 4 and 4 are provided at the lower part of the game area 1a surrounded by the guide rails 2 of the game board 1 so as to be separated from each other in the left and right directions so that game balls can be won. A two-time open winning device (second start port) 5 is provided at the center of the first start ports 4 and 4.
In addition, a special variable winning device (variable winning device) 3 is provided in the center of the game area 1a.
[0030]
As shown in FIG. 2, the special variable winning device 3 is formed on a mounting substrate 3a for attaching the variable winning device 3 to the game board 1, and a substantially central portion of the mounting substrate 3a. A concave chamber 3b that protrudes rearward and has an open front surface is provided, and one or a plurality (here, a pair of left and right) opening / closing members (movable members) 8 and 8 are provided on the mounting substrate 3a. When the movable members 8 and 8 are in the closed state (a disadvantageous state for the player), the game ball cannot flow into the special variable winning device 3 and the movable members 8 and 8 are in the open state (upside down “C”. (A state that is advantageous for the player), the game ball can flow into the special variable winning device 3.
[0031]
These movable members 8 and 8 are based on the winning of the game ball to the first start port 4 or the second start port 5 (the assisting game for the game ball to win the first start port 4 or the second start port 5). As an occurrence condition), the movable member is opened and closed by driving by a movable member opening solenoid (electric drive source for movable member) 8a, 8a (FIG. 7) (this is referred to as an auxiliary game). That is, in the first start port 4, a once-open prize sensor (first start-port sensor) 4a (FIG. 7) and in the second start port 5, a two-time open prize sensor (second start-up sensor). Mouth sensors) 5a (FIG. 7) are provided. Then, based on the fact that the game ball won in the first starting port 4 is detected by the first starting port sensor 4a, an opening / closing operation is performed in which the movable members 8 and 8 are closed again after a predetermined time after the opening operation. An auxiliary game to be performed once is generated. Similarly, an auxiliary game for performing the opening / closing operation twice is generated based on the fact that a game ball won in the second starting port 5 is detected by the second starting port sensor 5a.
[0032]
Moreover, as shown in FIG. 3 etc., the special prize opening 11 is provided in the required site | part of the concave chamber 3b of the special variable prize-winning apparatus 3, for example, the front side center part.
Further, a special winning opening sensor 11 a (FIG. 7) for detecting a game ball won in the inside is provided inside the special winning opening 11.
On both the left and right sides of the special winning opening 11, there are provided general winning openings 12, 12 through which game balls that have not flowed into the special winning opening 11 even though they flowed into the special variable winning apparatus 3 will win. .
In addition, the movable members 8, 12, 12, 12, and the special winning ports 11 are located upstream of the movable winning devices 3, which are provided on the upstream side of the variable winning device 3. 8 includes winning ball detection sensors 17a and 17a (provided in each of the pair of left and right passage holes 17 and 17).
[0033]
Based on the fact that the game ball that has flowed into the special variable winning device 3 during the auxiliary game (accepted by the movable member) wins the special winning port 11 (this is a special game occurrence condition), it is called a big hit. The special game state is generated, and details of the special game state will be described later.
Here, “the game ball that has flowed into the special variable winning device 3 during the auxiliary game” means that the game ball that has flowed in during the process of converting the movable members 8 and 8 into the open state and the movable members 8 and 8 The game balls that flowed in when converted into the open state and the game balls that flowed in the process of returning to the closed state after the movable members 8 and 8 are converted into the open state are included.
[0034]
Furthermore, inside the special variable winning device 3, it is possible to change the easiness of winning a game ball that has flowed into the special variable winning device 3 into the special winning port 11 by changing the mechanism state. A pair of rotating bodies 14 and 140 are provided. The rotators 14 and 140 are driven by an internal mechanism conversion motor (an accessory rotation motor) 14m (FIGS. 7 and 9).
[0035]
Also, inside the special variable winning device 3, together with the rotating bodies 14 and 140, the ease of winning the game balls that flowed into the special winning device 3 into the special winning port 11 by changing the mechanism state. The storage members 15 and 15 which can be changed are provided. The storage members 15 and 15 are configured to be opened and closed by driving storage state conversion solenoids (ball storage solenoids) 15s and 15s (FIG. 7), thereby enabling the storage and release of the game balls. It has become.
Then, the state change mechanism is constituted by the above-described rotating bodies 14 and 140, the internal mechanism conversion motor (servo rotating motor) 14m (FIG. 7), the storage members 15 and 15 and the storage state conversion solenoids (ball storage solenoids) 15s and 15s. Is configured.
The details of the configuration and operation of the rotating bodies 14 and 140 and the storage members 15 and 15 will be described later.
[0036]
In addition, for example, a display device 40 is provided on the upper portion of the front side of the special variable winning device 3. The display device 40 is for displaying the number of rounds of the cycle game in the special game state. As the display device 40, for example, a dot display device (a device that performs display by switching lighting states of a large number of lighting members) or the like is used.
[0037]
In addition, the game area 1 a is provided with a hitting direction changing member 7 called a windmill,..., A number of obstacle nails (not shown), a winning opening 6. Further, an out hole 13 for collecting the out ball is provided at the center of the lowermost end of the game area 1a.
.. (FIG. 7) are arranged inside each of the winning openings 6,... For detecting game balls that have entered the winning openings 6,.
Further, although not shown, the front side of the game board 1 is covered with a glass plate, and a front cover member holding the glass is provided on the front side of the game board 1.
[0038]
Although not particularly limited, a card unit 500 having a card insertion slot 501 into which a prepaid card for renting a game ball (not shown) is inserted is provided next to the pachinko gaming machine 100.
Further, an upper plate unit 101 is provided at the lower front portion of the pachinko gaming machine 100, and the upper plate unit 101 is provided with an upper plate 102 for storing discharged game balls (prize balls, rental balls). . The upper plate 102 is inserted into the card insertion port 501 and a ball lending switch 106b that requests a lending operation for lending a ball to the upper plate 102 by a pressing operation with a prepaid card inserted into the card insertion port 501. A card return switch 106c for requesting a return operation of the prepaid card, a display unit 106a for displaying the information related to the prepaid card inserted into the card insertion slot 501, and a game ball on the upper plate 102 are extracted to the lower plate 103. A ball removal operation lever (not shown) for flowing down is provided.
[0039]
Furthermore, a launch operation is performed on the lower side of the upper plate unit 101 in a lower plate 103 that accommodates game balls that cannot be accommodated in the upper plate 102, and a launching device (not shown) that launches game balls toward the game area 1a. An operation handle 104, an ashtray 105, and the like are installed.
[0040]
In addition, on the back side of the pachinko gaming machine 100, a predetermined condition is established (for example, a ball has been won in the special winning port 11, the general winning port 12, the first starting port 4, the second starting port 5, and the winning port 6). Or a discharge unit (not shown) that discharges a required number of game balls based on the fact that the ball switch 106b is pressed), and the flow path of the balls discharged from the discharge unit A flow path switching unit (not shown) that can be switched to one of the flow paths for the sphere, a guide rod (not shown) that guides the sphere sent from the flow path switching unit down to the upper plate or the lower plate, etc. , A game control device (game control means) 20 that performs overall control related to the game, and a ball discharge control based on a command signal from the game control device (game control means) 20 Control including a discharge control device (discharge control means) 30 Means, power supply (not shown), such as a game board for external output terminal board 28 having an external output terminal is provided.
[0041]
Among these, the discharge unit is provided with a flow restriction member for restricting the flow of the sphere, a ball discharge motor for driving the flow restriction member, a stopper solenoid for restricting the rotation of the flow restriction member, and the like. Yes.
The flow path switching unit is configured to drive a flow path switching valve capable of switching the path of a sphere sent from the discharge unit to either a lending flow path or a prize ball flow path, and the flow path switching valve. A flow path switching solenoid, a prize ball detection sensor for detecting a prize ball flowing through the prize ball flow path, a ball rental detection sensor for detecting a ball rental flowing through the ball rental channel, and the like. Yes.
The guide rod is provided with an overflow channel for guiding a ball that has not been fully contained in the upper plate and overflowed to the lower plate, and the overflow channel detects a staying state of the ball in the overflow channel. An overflow switch is provided.
[0042]
The power supply device has a power supply circuit and supplies predetermined power to each electrically driven component such as the game control device 20, the discharge control device 30, and the effect control device 50. .
The power supply device includes a logic power supply circuit. The logic power supply circuit is a circuit that generates DC5V based on DC12V. The logic power supply circuit is connected in parallel with a RAM 21b of the game control device 20, a RAM 31b of the discharge control device 30, and a capacitor via a diode. Therefore, this capacitor functions as a backup power source for the RAMs 21b and 31b. For example, even if the power supply to the RAMs 21b and 31b is cut off during a power failure, the stored contents of the RAMs 21b and 31b are retained for a predetermined time. ing.
[0043]
Further, as shown in FIG. 7, the game control device (game control means) 20 includes a CPU (Central Processing Unit) 21a, a RAM (Random Access Memory) 21b, and a ROM (Read Only Memory) 21c. 21, an interface 23, a clock 22, and the like.
Among these, CPU21a is provided with a control part and a calculating part, and performs arithmetic control.
The RAM 21b includes a storage area for storing an ON signal of the first start opening sensor and the second start opening sensor, a storage area for temporarily storing various data, and a work area for the CPU 21a.
In the ROM 21c, a game control program and control data are written, and various determination values are written.
[0044]
The interface 23 of the game control device 20 includes various detection means (first start port sensors 4a and 4a, second start port sensor 5a, special winning port sensor 11a, winning ball detection sensors 17a and 17a, winning port sensor 6a,... ) Are connected via a low-pass filter and a buffer gate (not shown), and various signals output from these are output to the CPU 21a.
[0045]
The interface 23 receives a control signal output from the CPU 21a, and is movable to open and close the game board external output terminal board 28, the effect control device 50, and the movable member via an output port and a driver (not shown). It outputs to the member release solenoids 8a and 8a, the accessory rotating motor 14m, the ball storage solenoids 15s and 15s, and the like.
[0046]
Further, the CPU 21a of the game control device 20 monitors whether or not a game ball has won a prize opening provided in the game board, and sensors (first start opening sensors 4a and 4a, second start opening sensors in the winning opening). 5 a, enter When a winning ball detection signal is input from the winning ball detection sensors 17a, 17a, the winning hole sensor 6a,...), It is determined whether the winning is valid, and when the winning is valid, based on the detection signals. Then, a command signal (prize ball control command) is sent to the discharge control device 30 (the prize ball number data corresponding to the winning prize is output), and the required number of prize balls is discharged from the discharge device 80.
[0047]
In addition, during the game, when a game ball wins the first start opening 4, 4 or the second start opening 5, detection signals from the first start opening sensors 4 a, 4 a or the second start opening sensor 5 a are respectively sent to the game control device 20. To the CPU 21a. Then, the CPU 21a determines whether or not the winning is valid. If the winning is valid, the CPU 21a generates auxiliary games that open and close the movable members 8 and 8 by a predetermined number, assuming that the auxiliary game generation condition is satisfied.
In association with this opening / closing operation, when a game ball flows into the special variation winning device 3, it passes through the winning ball detection sensor 17a. Here, when the detection of the game ball is valid in the winning ball detection sensor 17a, the winning ball number data corresponding to the winning is output to the discharge control device (discharge control means) 30.
When the inflowing game ball wins the special winning opening 11, a detection signal from the special winning opening sensor 11a is input to the CPU 21a. Based on this input, the CPU 21a determines whether or not the detection of the game ball is valid in the special prize opening sensor 11a, and when the detection of the game ball is valid in the special prize opening sensor 11a, It is determined that the special game generation condition is satisfied, and a special game state called a big hit is generated.
[0048]
When the special game state is generated in this way, the CPU 21a sends a command signal to the effect control device 50, and receives the command signal so that the effect control device 50 causes the display device 40 to perform various displays. It controls the sound effect and sound output from the speaker 60, and controls the lighting / flashing state of various decorative lamps / LEDs 70 (for example, side lamps 19, 19).
[0049]
During the special game state, a cycle game that is performed while the movable members 8 and 8 are opened and closed intermittently is performed up to a predetermined number of rounds. This cycle game is a game in which the movable members 8 and 8 perform an opening / closing operation in which the maximum number of opening / closing times is larger than the number of opening / closing times in the auxiliary game.
In addition, in this cycle game, a new cycle game is continued under the condition (continuation condition) that a continuous winning in which a game ball received by the variable winning device is awarded to the special winning opening 11 occurs during each cycle game. (This is referred to as round continuation), and if the result of the round continuation reaches a predetermined final round (for example, 15 rounds in the case of the present embodiment), even if a continuous winning occurs in this final round With the final round, the end condition is satisfied and the process ends.
During such a special game state, it becomes easy to generate a large number of winnings in the general winning opening 12 and the special winning opening 11, and the player has an opportunity to acquire a large number of game balls.
[0050]
When a detection signal of a winning ball is sent from the sensor at each winning opening to the game control device 20 (particularly, the CPU 21a), as described above, it is determined whether or not the winning is valid. However, in this embodiment, each sensor has different criteria for determining whether the winning is valid or invalid.
For example, in the first start port sensor 4a and the second start port sensor 5a, when the game state is in the auxiliary game or the special game state, the winning (detection) of the game ball is invalidated, and in other game states The game ball winning (detection) is made effective.
[0051]
In addition, in the winning ball detection sensor 17a, in principle, when a special game state is generated, the winning (detection) of the game ball is made valid, and in other cases, the winning (detection) of the game ball is made. Invalid (by the ball detection invalid means in the game control means 20). However, in this embodiment, the game control means 20 is further provided with a ball detection enabling means, and only when an auxiliary game occurs in spite of being in a state other than the special game state. The detection of the game ball by the winning ball detection sensor 17a is made valid for a predetermined time. Here, in the case where an auxiliary game is generated because the game ball has won the first starting port sensor 4a, the winning ball detecting sensor 17a is enabled for only 2 seconds, and the game ball has won the second starting port sensor 5a. Thus, when an auxiliary game occurs, the winning ball detection sensor 17a is validated for 3 seconds.
[0052]
Further, in the special winning opening sensor 11a, in principle, when a special gaming state is generated, the winning (detection) of the game ball is made valid, and when it is not in the special gaming state, the winning (detection) of the game ball is made. It is invalidated (by the special winning ball detection invalid means in the game control means 20). However, in this embodiment, the game control means 20 is further provided with a special winning opening ball detection enabling means, and when an auxiliary game is generated in spite of other than the special game state. As long as the detection of the game ball by the special prize opening sensor 11a is valid for a predetermined time. Here, in the case where an auxiliary game occurs due to the game ball winning the first start opening sensor 4a, the special winning opening sensor 11a is validated for 3 seconds, and the game ball wins the second start opening sensor 5a. Thus, when an auxiliary game occurs, the special prize opening sensor 11a is made valid for 4.2 seconds.
In this embodiment, the other winning opening sensor 6a always makes the winning of the game ball valid regardless of the gaming state.
[0053]
As shown in FIG. 7, the discharge control device 30 includes a CPU 31a, a ROM 31c, a RAM 31b, an interface 32, and the like.
Connected to the interface 32 are a ball rental detection sensor and a prize ball detection sensor of the flow path switching unit, an overflow sensor, a card unit 500, a game control device 20, and the like, and outputs various signals output from these to the CPU 31a. ing.
Further, the interface 32 inputs a control signal output from the CPU 31a and outputs it to the ball discharge motor and stopper solenoid of the discharge device 80, the card unit 500, the flow path switching solenoid of the flow path switching unit, and the like.
That is, the CPU 31a of the discharge control device 30 receives a prize ball control command (reception of the number of prize balls output from the game control means) input from the game control device 20 or a ball rental control command input from the card unit 500. Based on this, a control signal is sent to the flow path switching of the flow path switching unit, and the ball discharge flow path from the discharge device 80 is switched to either the prize ball flow path or the ball rental flow path. A control signal is sent to the ball discharge motor and the stopper solenoid to perform a control for discharging a required number of balls from the discharge device 80 (performing a prize ball discharge based on the prize ball number data).
[0054]
As shown in FIG. 7, the effect control device 50 includes a CPU 51a, a RAM 51b, a ROM 51c, an interface 52, and the like. Among them, the CPU 51 a includes a control unit, a calculation unit, various counters, various registers, and the like, and is connected to the game control device 20 via an interface 52. In the ROM 51c, a display control program, a decoration control program, a sound control program, display control data, decoration control data, sound control data, and the like are written. The RAM 51b includes a storage area for temporarily storing various data, a work area for the CPU 51a, and the like.
[0055]
The effect control device 50 performs display control for causing the display device 40 to perform various effect displays and other various information displays based on display control information in the effect control data output from the game control device 20. .
[0056]
Further, the effect control device 50 is connected to the decoration LED 70 (for example, the side lamp 19), the display device 40, the speaker 60, and the like via the interface 52.
Then, the effect control device 50 controls the lighting state of the decoration LED 70 and the like based on the decoration control command in the effect control data output from the game control device 20, or the effect control data output from the game control device 20 The output sound of the speaker 60 is controlled on the basis of the sound control command.
The pachinko gaming machine 100 is generally configured as described above.
[0057]
Next, the internal configuration and operation of the special variable winning device 3 will be described in detail.
[0058]
First, as described above, the special variation winning apparatus 3 includes a pair of movable members 8 and 8. For example, as shown in FIG. It becomes possible to flow into the variable winning device 3.
A guide member 16 (for example, a plate-like member) that guides the inflowing game ball to the back of the inner region of the special variable prize winning device 3 is provided substantially horizontally at the upper part inside the special variable prize winning device 3. . In the back portion of the guide member 16, there are provided passage holes 17 and 17 (for example, a pair of left and right) through which a game ball can pass to the lower side of the guide member 16. In these passage holes 17, 17, game ball detection sensors (winning ball detection sensors) 17 a, 17 a for detecting game balls passing through the passage holes 17, 17 are provided.
[0059]
Under the guide member 16, an obstacle member 18 is provided that serves as an obstacle for the game ball flowing down to the lower side of the guide member 16 through the passage holes 17, 17.
An upper surface of the obstacle member 18 is a gable roof-like roof portion 18a.
The roof portion 18a is connected to the top portion 18b, which is formed so as to be relatively gently and horizontally inclined downwardly, and is connected to the top portion 18b, and is inclined downwardly and symmetrically with a steeper inclination than the top portion 18b. Arc-shaped portions 18c and 18c each recessed in an arc shape are provided. The top portion 18b is set to have a lateral width that is at least larger than that of one game ball.
Further, the obstacle member 18 is formed with a through-hole portion 18d (FIG. 4 and the like) penetrating from the rear of the obstacle member 18 to the front side. The through-hole portion 18d is set to have an inner diameter that can pass through one game ball.
[0060]
The game ball dropped on the obstacle member 18 is usually guided to flow down so as to be distributed left and right by the roof portion 18a. However, as will be described later, when the standing wall portions 14b of the rotating bodies 14 and 140 are positioned on both the left and right sides of the top portion 18b, the game balls are guided rearward on the top portion 18b of the roof portion 18a by the standing wall portions 14b. Then, it falls and enters the through hole 18d of the obstacle member 18 formed behind the top 18b. The dropped game ball moves through the through hole 18d, is guided to the near side, and is discharged to the front of the through hole 18d. The vertical position of the outlet of the through-hole portion 18d is higher than the bottom surface T of the internal region of the special variable winning device 3 (for winning balls) so that the gaming balls can smoothly move to the winning ball passage T1 described later. The same position as the passage T1 or a position higher than the winning ball passage T1).
[0061]
The rotating bodies 14 and 140 are arranged symmetrically so as to be rotatable in the vertical direction along the arcuate portions 18c and 18c of the obstruction member 18 in a state of facing the front.
Here, as shown in FIG. 8, the rotating body 140 includes a disc-shaped main body 140a and an upright wall 14b that rises rearward from a predetermined portion of the peripheral edge of the back surface of the main body 140a (FIG. 3). Etc.). Specifically, the rotating body 140 is provided with, for example, two arc-shaped standing wall portions 14b and 14b having a central angle of about 45 degrees at positions spaced by a central angle of about 120 degrees. Furthermore, on the front side of the main body 140a, a pattern imitating, for example, “Janken” “cork” is attached corresponding to the position of the upright walls 14b, 14b. In addition to this “choki”, a pattern imitating “goo” is attached. As a result, the symbols “Choki”, “Choki”, and “Goo” are arranged at equal intervals (at intervals of about 120 degrees).
On the other hand, the rotating body 14 includes, for example, only one standing wall portion 14b similar to the rotating body 140 on the back surface side of the main body portion 14a having the same shape as the main body portion 140a of the rotating body 140. And, on the front side of the main body part 14a, a pattern imitating a “choke” is attached corresponding to the position of the standing wall part 14b, and clockwise from the “choki” pattern, “goo”, The symbols “Goo” are added at regular intervals (approximately 120 ° intervals).
[0062]
Further, the rotating bodies 14 and 140 are driven by an internal mechanism conversion motor (a combination rotating motor) 14m (FIGS. 7 and 9) in a state of being synchronized with each other. That is, for example, the rotating body 140 rotates clockwise and the rotating body 14 rotates counterclockwise at the same speed. Further, as shown in FIG. 8 and the like, the “choki” design of the rotator 14 and one of the “choki” designs of the rotator 140 are synchronized, and the “goo” design of the rotator 140 and the rotator 14 are synchronized. One of the “Goo” symbols is synchronized with the left and right to rotate in a symmetrical manner.
Thus, the two rotating bodies 14 and 140 rotate in synchronization with each other.
Therefore, the operation in which the standing wall portion 14b of the rotating body 14 and the one standing wall portion 14b of the rotating body 140 approach each other and face each other or move away is repeated.
[0063]
The two rotating bodies 14 and 140 are synchronized with each other even when stopped. Specifically, as shown in FIG. 9, the shaft for transmitting the power of the accessory rotating motor 14m to the back side of the main body 14a of the rotating body 14 is provided with a rotating body position detecting protrusion that rotates together with the shaft. (Here, three rotating body position detecting protrusions 14c, 14d, and 14e are provided in accordance with the symbol position on the front side of the main body portion 14a). Further, rotary body position detection sensors 14f, 14g, and 14h corresponding to the rotary body position detection protrusions 14c, 14d, and 14e are provided. Here, a sensor having a U-shaped concave portion is used, and an electromagnetic sensitive sensor that detects a position when the protruding portion enters the concave portion is used.
[0064]
When the rotating body position detecting protrusion 14c reaches the position of the rotating body position detecting sensor 14f, 4 As shown in FIG. 5, when the rotating bodies 14 and 140 come close to each other and the rotating body position detecting projection 14d reaches the position of the rotating body position detection sensor 14g, the rotating body 14 is rotated as shown in FIG. When the “goo” of the rotating body 140 approaches the “shrink” of the rotating body 140 and the rotating body position detecting protrusion 14e reaches the position of the rotating body position detecting sensor 14h, 3 As shown in FIG. 4, the “goos” of the rotating bodies 14 and 140 are brought close to each other.
[0065]
As shown in FIG. 3 and the like, the storage members 15 and 15 are provided, for example, on the front side of the main body portions 15a and 15a and the main body portions 15a and 15a, and when both the storage members 15 and 15 are closed to the front side. And storage portions 15b and 15b for storing game balls.
The storage members 15 and 15 can be rotated to the front side with the shaft portions 15j and 15j as axes while maintaining the plate surface directions of the main body portions 15a and 15a in the vertical direction. The storage members 15 and 15 are opened / closed by rotating symmetrically with each other by driving the storage state conversion solenoids 15s and 15s (FIG. 7).
In addition, the storage members 15 and 15 are arranged symmetrically at intervals such that one game ball can pass through each other in the opened state (FIG. 4 and the like).
Further, the lower portions of the outer portions of the main body portions 15a and 15a of the storage members 15 and 15 are located below the main body portions 15a and 15a when the storage members 15 and 15 are opened (for example, in the state shown in FIG. 3). Are notched portions 15c and 15c that are notched so that a game ball can pass through.
In addition, the opening / closing operation | movement of the storage members 15 and 15 is not restricted to left-right symmetry, For example, one side can also be made into an open state and the other can also be made into a closed state.
[0066]
In the central portion of the bottom surface T of the inner region of the special variation winning device 3, a winning ball passage T1 is formed from the lower portion of the space between the storage members 15 and 15 to the special winning opening 11. The winning ball passage T1 is a step portion that is slightly higher than other portions of the bottom surface T.
The bottom surface T (including the winning ball passage T1) has a slight downward slope toward the front side. Therefore, the game ball that has flowed down to the bottom surface T is guided to the general winning port 12 or the special winning port 11 on the near side along the downward slope.
[0067]
Here, when the pachinko gaming machine 100 is viewed from the front, the outlet of the through-hole portion 18d of the obstacle member 18, the interval between the storage members 15 and 15, and the horizontal center position of the winning ball passage T1 are special. It coincides with the horizontal center position of the winning opening 11.
Therefore, it flows down below the guide member 16 through the passage holes 17 and 17, is guided rearward on the roof portion 18a along the standing wall portion 14b, enters the through-hole portion 18d, and is discharged to the front side. The game balls to be played are easy to pass through the space between the storage members 15 and 15 and roll on the winning ball passage T1 toward the front side to easily enter the special winning opening 11 (see FIG. 4). .
On the other hand, the game balls that have flowed below the guide member 16 through the passage holes 17 and 17 but are not guided by the standing wall portions 14b and 14b and are distributed to the left and right by the arc-shaped portion 18c of the roof portion 18a are: Since it is easy to reach the near side after going around the right and left of the storage members 15, 15, it is difficult to win in the special winning opening 11, and it is easy to win the general winning opening 12 (FIG. 3 etc.).
[0068]
For example, as shown in FIG. 4, a part of each of the standing wall portions 14 b and 14 b of the rotating bodies 14 and 140 face each other in a state of protruding above the top portion 18 b of the roof portion 18 a of the obstacle member 18. When the standing wall portions 14b and 14b are positioned on both the left and right sides of the top portion 18b, the game ball that has flowed down to the lower side of the guide member 16 through the passage holes 17 and 17 stands on the top portion 18b of the roof portion 18a. The game balls guided in this way are easily guided rearward by the wall portions 14b, 14b, and fall into the through-hole portion 18d of the obstacle member 18 formed behind the top portion 18b. The dropped game ball moves through the through-hole portion 18d and is guided to the near side, and then discharged. Further, the discharged game ball easily rolls forward on the winning ball passage T1 through the space between the storage members 15 and 15. The game ball guided in this way is very easy to win a special winning opening 11.
[0069]
On the other hand, as shown in FIG. 6, the rotators 14 and 140 are in the same state as in FIG. 4, but when the storage members 15 and 15 are in the closed state, they are located below the guide member 16 through the passage holes 17 and 17. The game ball that has flowed down is easily guided rearward on the top portion 18b of the roof portion 18a by the standing wall portions 14b and 14b, and the game ball thus guided penetrates through the obstacle member 18 formed behind the top portion 18b. It falls and enters the hole 18d. The dropped game ball moves through the through-hole portion 18d and is guided to the near side, and then discharged. Furthermore, the discharged game balls are easily stored in the storage portions 15b and 15b of the closed storage members 15 and 15 (however, only one game ball is stored).
Then, the stored game balls are likely to roll forward on the winning ball passage T1 when the storage members 15 and 15 are opened, and the game balls guided in this way are placed in the special winning opening 11. Very easy to win.
The state of the rotating bodies 14 and 140 as shown in FIGS. 4 and 6 is referred to as a “rotating body first state”.
[0070]
For example, as shown in FIG. 5, when the upright wall portion 14b is located only on one side (for example, the left side) of the top portion 18b, the opposite side (for example, the right side) is formed by the roof portion 18a compared to the first rotating body state. ) And is difficult to guide backward. Therefore, in this case, it is difficult to win the special prize opening 11 as compared with the first rotating body.
However, since the upright wall portion 14b is located on one side of the top portion 18b, when it falls through the passage hole 17 on the side where the upright wall portion 14b is located, the top portion 18b of the roof portion 18a is at a certain rate. Is guided rearward by one of the standing wall portions 14b, there is a possibility that a special winning opening 11 will be awarded at a certain rate.
[0071]
For example, as shown in FIG. 3, when the upright wall portions 14 b of the rotating bodies 14 and 140 are not positioned on both the left and right sides of the top portion 18 b, the guide members 16 are disposed below the guide members 16 through the passage holes 17 and 17. The game balls that have flowed down are easily distributed to the left and right sides by the roof portion 18a, and are hardly guided to the rear. Therefore, it is easy to roll forward through the left or right side of the storage members 15, 15. Thus, in the state shown in FIG. 3, it is difficult for the game ball to win the special winning opening 11.
[0072]
Although not shown, when it is not desired to win the game ball in the special winning opening 11, only one of the storage members 15 (one of the left and right) is rotated in the closed state as shown in FIG. Further, it is possible to make it difficult for the game ball to win the special winning opening 11. That is, even when the game ball enters the through hole 18d formed at the rear, is guided to the near side, and is discharged to the front of the through hole 18d at the top 18b of the roof 18a of the obstacle member 18. When only one of the storage members 15 is in a closed state, the storage member 15 in the closed state becomes an obstacle, and it is easy to win a game ball discharged from the through-hole portion 18d in the special winning opening 11. It can be removed from the ball passage T1. As a result, the game ball is extremely difficult to win the special winning opening 11.
[0073]
Next, the details of the game control in the control means (mainly the game control device 20 as the game control means) of the pachinko gaming machine 100 according to the present invention will be described.
[0074]
First, as shown in FIG. 10, the game control device 20 performs an initialization process (step S1). This initialization process is a process that is performed only once when the power is turned on or after resetting. It is determined whether or not the RAM 21b includes an error. If the error is included, the RAM 21b is initialized, Various flags are initialized. Further, a process of setting a timer interruption time (for example, 4 ms) that defines the timing for executing the interruption process in the CPU 21a is performed. In addition, various timers are set, and processing for outputting an initialization command to the effect control device 50 is performed.
[0075]
Next, in the game control device (game control means) 20 including the above-described ball detection invalidating means, ball detection validating means, special prize opening ball detection invalidating means, and special prize opening ball detection validating means, the start opening sensor determination processing (Step S2) is performed, and a start winning opening / closing process (Step S3) is performed.
[0076]
In the start port sensor determination process, as shown in FIG. 12, first, it is determined whether or not the second start port sensor 5a is on (step S21). Here, when the second start port sensor 5a is on, the number of operations of the movable members 8, 8 is set to 2 (step S22), and the opening time of the movable members 8, 8 is set to 0.5 seconds. It is set (step S23), the closing time of the movable members 8, 8 is set to 0.6 seconds (step S24), the effective time of the special prize opening sensor 11a is set to 4.2 seconds (step S25), and the prize is won. The effective time of the sphere detection sensors 17a and 17a is set to 3 seconds (step S26). Thereafter, the start port sensor invalidation flag is set (step S33), and an auxiliary game is generated.
[0077]
On the other hand, if the second start port sensor 5a is not on in step S21, it is next determined whether or not the first start port sensors 4a, 4a are on (step S27). If the first start port sensors 4a and 4a are not turned on, the process returns to S21, and the determinations of S21 and S22 are repeated until the second start port sensor 5a or the first start port sensors 4a and 4a are turned on. . When the first start port sensors 4a, 4a are on, the number of operations of the movable members 8, 8 is set to 1 (step S28), and the opening time of the movable members 8, 8 is set to 0.4 seconds. (Step S29), the closing time of the movable members 8, 8 is set to 0 seconds (a dummy is set because it is necessary to set the closing time in the program) (Step S30), and the special winning opening sensor 11a is activated. The time is set to 3 seconds (Step S31), and the effective time of the winning ball detection sensors 17a and 17a is set to 2 seconds (Step S32). Thereafter, the start port sensor invalidation flag is set (step S33), and an auxiliary game is generated.
[0078]
In the start winning opening / closing process, as shown in FIGS. 13 and 14, first, it is determined whether or not the variable winning device solenoids (movable member release solenoids) 8a, 8a are in the on state (the movable members 8, 8 are in the open state). This is performed (step S41). Here, when the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the on state, the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the off state (movable members 8, 8 are closed). (Step S42), a closing time is set in the control timer (step S43), and the number of operations is updated by -1 (step S44).
[0079]
Then, it is determined whether or not the number of operations has become 0 (step S45). If the number of operations is 0, the start sensor invalidation flag is cleared (step S46), and the control timer is cleared (step S47). ). Then, it is determined whether or not the valid time of the winning ball detection sensors 17a and 17a has expired (step S57). If the time has not yet expired, whether or not the winning ball detection sensors 17a and 17a are on. It is determined whether or not (step S58).
[0080]
Here, when the winning ball detection sensors 17a and 17a are in the ON state, 15 winning ball number data is transmitted to the discharge control device (step S59). Thereafter, it is determined whether or not the effective time of the special prize opening sensor 11a has expired (step S60), and if the time has expired, the process ends as it is, and if the time has not expired, It is determined whether or not the special prize opening sensor 11a is in an on state (step S61). When the special prize opening sensor 11a is in an on state, a big hit flag is set (step S62), and the process is terminated. When the special prize opening sensor 11a is in the off state, the process returns to S57 and the processing from here is repeated. Note that if the valid time of the winning ball detection sensors 17a and 17a has expired in S57 and if the winning ball detection sensors 17a and 17a are in the off state in S58, the determination jumps directly to S60. .
[0081]
If the number of actuations is not zero in S45, it is determined whether or not the special prize opening sensor 11a is on (step S50). If it is on, the variable prize winning device solenoids (movable member opening solenoids) 8a, 8a are determined. Is turned off (step S51), the control timer is cleared (step S52), and the number of operations is cleared (step S53). Thereafter, the big hit flag is set (step S62), and the process is terminated.
[0082]
When the special prize opening sensor 11a is off in S50, it is next determined whether or not the winning ball detection sensors 17a and 17a are on (step S54). Is transmitted to the discharge control device 30 (step S55), and it is determined whether or not the control timer is up (step S56). If the time is up, the process returns to S41. If the time is not up, the process returns to S50. When the winning ball detection sensors 17a and 17a are in the off state in S54, S55 is skipped and the determination of S56 is performed.
[0083]
When the variable winning device solenoid (movable member opening solenoid) 8a, 8a is off (movable members 8, 8 are closed) in S41, the variable winning device solenoid (movable member opening solenoid) 8a, 8a is turned on (movable). The members 8 and 8 are opened (step S48), and an opening time is set in the control timer (step S49). Thereafter, in S50, it is determined whether or not the special prize opening sensor 11a is in an on state, and thereafter, the process proceeds in the same manner as described above.
[0084]
As a result of the processing, as shown in FIG. 15, when a winning ball is won at the first start ports 4 and 4 and the first start port sensors 4a and 4a are turned on, the first start port sensor is turned on. When 4a and 4a are turned on, the movable member release solenoids 8a and 8a are turned on for 0.4 seconds from t1 to t2, and the movable member is opened, and the start port sensor (first start port sensor 4a, 4a and the second starter sensor 5a) are disabled. The winning ball detection sensors 17a and 17a are also valid for 2 seconds from when the movable members 8 and 8 are closed to t4, and are valid for a total of 2.4 seconds. Furthermore, the special prize opening sensor 11a is effective for 3 seconds from the time when the movable members 8, 8 are closed to t3, and is effective for a total of 3.4 seconds.
[0085]
As a result of the processing, as shown in FIG. 16, when a winning ball is won in the second starting port 5 and the second starting port sensor 5a is turned on, the second starting port sensor 5a is turned on. Then, the movable member release solenoids 8a and 8a are turned on for 0.5 seconds from t11 to t12 to open the movable members, and the movable member release solenoids 8a and 8a are turned off for 0.6 seconds from t12 to t13. With the state (the closed state of the movable member) interposed therebetween, the movable member release solenoids 8a and 8a are turned on again for 0.5 seconds from t13 to t14 to open the movable member. During this period (a total of 1.6 seconds from t11 to t14), the start port sensors (the first start port sensors 4a and 4a and the second start port sensor 5a) are invalidated. The winning ball detection sensors 17a and 17a are also valid for 3 seconds from t14 to t16 when the movable members 8 and 8 are closed for the second time, and are valid for a total of 4.6 seconds. Further, the special prize opening sensor 11a is valid for 4.2 seconds from t14 to t15 when the movable members 8, 8 are closed for the second time, and is valid for a total of 5.8 seconds.
[0086]
After that, returning to the game control process of FIG. 10, it is determined whether or not the big hit flag is set (step S4), and if the big hit flag is set, the big hit process (step S5) is performed and as described above. When a special game state is generated and the big hit flag is not set, the process returns to the start port sensor determination process S2.
[0087]
In this embodiment, timer interrupt processing is performed every predetermined time. Here, as shown in FIG. 11, various sensor monitoring processes (step S11), various data transmission processes (step S12), and various timer update processes (step S13) are performed every predetermined time (for example, every 4 ms). It has become.
Specifically, the various sensor monitoring processes S11 are processes for monitoring the winning opening sensor 6a for detecting whether or not a game ball has won a winning opening other than in the variable winning apparatus 3.
Also, in the various data transmission processing, the winning ball number data corresponding to the winning of the game ball to the winning port other than the variable winning device 3 is transmitted to the discharge control device 30, or the display effect data is produced based on the starting port winning. Or transmitted to the control device 50.
Further, the various timer update processes are processes for updating the control timer in this embodiment and the timer for counting the valid times of the special prize opening sensor 11a and the winning ball detection sensors 17a and 17a.
[0088]
[Second Embodiment]
In the first embodiment, the on / off state of the sensor is controlled only by time. However, in this second embodiment, in addition to time, the winning ball detection sensor 17a detects a winning ball exceeding the normal number. In this case, the sensor can be turned off. Further, in the second embodiment, when the winning ball detection sensor 17a detects a winning ball exceeding the normal number, a state change mechanism constituted by the rotating bodies 14, 140, the storage members 15, 15 and the like. By changing the mechanism state of the game ball, the ease of winning the game ball to the special prize opening is also changed.
[0089]
For this reason, in the second embodiment, the control means (game control means 20 here) detects the number of balls detected by the winning ball detection sensor 17a during the time when the detection of the gaming ball by the winning ball detection sensor 17a is effective. The ball detection enabling means in the game control means 20 is configured to count the winning ball counting means when the counting result of the winning ball counting means reaches a predetermined number (here, 9). A function of invalidating the detection of the game ball by the winning ball detection sensor 17a is provided even during the time when the detection of the game ball by the winning ball detection sensor 17a is valid.
In addition, the game control means 20 invalidates the first special prize that invalidates the prize even if the special prize slot 11 is won after the counting result of the winning ball counting means reaches a predetermined number. Means.
[0090]
Furthermore, the game control means 20 includes a winning difficulty level changing means for changing the ease of winning the game ball received by the movable members 8 and 8 to the special winning opening 11, and the winning difficulty level changing means includes: When the counting result of the winning ball counting means reaches a predetermined number, first special winning / difficulty state control means is provided for controlling the game ball to change into a state where it is difficult to win the special winning opening 11. Here, the control state of the first special prize-winning state control means changes the mechanical states of the rotating bodies 14 and 140 and the storage members 15 and 15 constituting the state change mechanism, so that the game ball wins the special prize opening 11. It is supposed to be difficult.
Regarding the game control process, in the second embodiment, the start winning opening / closing process is different from that of the first embodiment, so the process will be described, and the description of other processes and configurations will be omitted. To do.
[0091]
In the start winning opening / closing process of this embodiment, as shown in FIGS. 17 and 18, first, a winning ball detection counter (winning ball counting means) is cleared (step S71). Next, it is determined whether or not the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in an on state (the movable members 8, 8 are in an open state) (step S72). Here, when the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the on state, the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the off state (movable members 8, 8 are closed). (Step S73), a closing time is set in the control timer (step S74), and the number of operations is updated by -1 (step S75).
[0092]
Then, it is determined whether or not the number of operations has become 0 (step S76). If the number of operations is 0, the start sensor invalidation flag is cleared (step S77), and the control timer is cleared (step S78). ). Then, it is determined whether or not the valid time of the winning ball detection sensors 17a and 17a has expired (step S88). If the time has not yet expired, whether or not the winning ball detection sensors 17a and 17a are on. It is determined whether or not (step S89).
[0093]
Here, when the winning ball detection sensors 17a and 17a are in the ON state, the winning ball detection sensor processing 2 shown in FIG. 20 is performed (step S90).
In the winning ball detection sensor process 2, first, the winning ball detection counter is incremented by 1 (step S111), and the 15 winning ball number data is transmitted to the discharge control device 30 (step S112). Then, it is determined whether or not the winning ball detection counter has reached 9 (step S113). If 9 has been reached, the effective time of the special winning hole sensor 11a is forcibly increased (step S114). Here, state change processing is performed (step S115). By this state change processing, the rotating bodies 14 and 140 are made in a state where it is difficult for the game ball to win the special prize opening 11 (for example, the state shown in FIG. 3), and one of the storage members 15 and 15 is closed. As a result, the game ball is more difficult to win the special winning opening 11. Then, the process ends.
If the winning ball detection counter is not 9 in S113, the processing is terminated as it is.
[0094]
Thereafter, it is determined whether or not the effective time of the special prize opening sensor 11a has expired (step S91). If the time has expired, the start prize opening / closing process is terminated as it is, and the time has not expired. Determines whether or not the special prize opening sensor 11a is on (step S92), and when the special prize opening sensor 11a is on, sets a big hit flag (step S93) and ends the processing. When the special prize opening sensor 11a is in the off state, the process returns to S88 and the processing from here is repeated. Note that if the valid time of the winning ball detection sensors 17a and 17a has expired in S88 and if the winning ball detection sensors 17a and 17a are in the OFF state in S89, the determination jumps to S91 as it is. .
[0095]
If the number of actuations is not 0 in S76, it is determined whether or not the special prize opening sensor 11a is in an on state (step S81). If it is in an on state, the variable prize device solenoids (movable member opening solenoids) 8a and 8a are determined. Is turned off (step S82), the control timer is cleared (step S83), and the number of operations is cleared (step S84). Thereafter, the big hit flag is set (step S93), and the process is terminated.
[0096]
When the special prize opening sensor 11a is off in S81, it is next determined whether or not the winning ball detection sensors 17a and 17a are on (step S85). Detection sensor processing 1 is performed (step S86).
In the winning ball detection sensor process 1, first, the winning ball detection counter is incremented by 1 (step S101), and 15 winning ball number data is transmitted to the discharge control device 30 (step S102). Then, it is determined whether or not the winning ball detection counter has reached 9 (step S103). If 9 has been reached, the control timer is forcibly increased (step S104) and the number of operations is set to 1 ( In step S105, the valid time of the winning ball detection sensors 17a and 17a is forcibly increased (step S106), and the effective time of the special prize opening sensor 11a is forcibly increased (step S107). Here, state change processing is performed (step S108). By this state change processing, the rotating bodies 14 and 140 are made in a state where it is difficult for the game ball to win the special prize opening 11 (for example, the state shown in FIG. 3), and one of the storage members 15 and 15 is closed. As a result, the game ball is more difficult to win the special winning opening 11. Then, the process ends.
If the winning ball detection counter is not 9 in S103, the process is terminated as it is.
[0097]
After the winning ball detection sensor process 1 is completed, it is determined whether or not the control timer is up (step S87). If the time is up, the process returns to S72. If the time is not up, the process returns to S81. When the winning ball detection sensors 17a and 17a are in the OFF state in S85, S86 is skipped and the determination in S87 is performed.
[0098]
When the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the off state (movable members 8, 8 are closed) in S72, the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the on state (movable). The members 8 and 8 are opened (step S79), and an opening time is set in the control timer (step S80). Thereafter, in S81, it is determined whether or not the special prize opening sensor 11a is in an on state, and thereafter the processing proceeds in the same manner as described above.
[0099]
[Third Embodiment]
In the second embodiment, in addition to controlling on / off of the sensor according to time, the sensor-off state can be set when the winning ball detecting sensor 17a detects a winning ball exceeding the normal number. In the third embodiment, in addition to time, the sensor-off state can be set when the addition data of prize balls generated based on the detection of the game balls by the winning ball detection sensor 17a exceeds a normal number. Further, in the third embodiment, when the addition data of the winning balls generated based on the detection of the game balls by the winning ball detection sensor 17a exceeds the normal number, the rotating bodies 14 and 140 and the storage member 15 are stored. , 15 and so on, the ease of winning the game ball into the special winning opening is also changed.
[0100]
For this reason, in the third embodiment, the control means (game control means 20 in this case) is configured such that the winning ball detection sensor 17a detects the gaming ball during the time when the detection of the gaming ball by the winning ball detection sensor 17a is effective. Before sending the prize ball number data generated based on the detection to the discharge control means 30, the prize ball number data addition storing means for adding and storing the numerical value indicated by the prize ball number data is provided, and the game The ball detection enabling means in the control means 20 detects the game ball by the winning ball detection sensor 17a when the addition storage result of the prize ball number data addition storage means reaches the upper limit number (here 125). Has a function of invalidating the detection of the game ball by the winning ball detection sensor 17a even during the time when is valid.
In addition, the game control means 20 invalidates the winning even if there is a winning at the special winning opening 11 after the addition storage result of the winning ball number data adding storage means reaches the upper limit. Special prize invalidation means is provided.
In this embodiment, when the addition storage result reaches the upper limit number, the prize ball number data addition storage means stores a numerical value obtained by subtracting the upper limit number from the addition storage result as the remainder numerical value data, and the upper limit number The final prize ball number data transmitting means for transmitting the numeric data obtained by subtracting the numeric value indicated by the remainder numeric data from the numeric value indicated by the prize ball number data when the value reaches the final value as prize ball number data.
[0101]
Furthermore, the game control means 20 includes a winning difficulty level changing means for changing the ease of winning the game ball received by the movable members 8 and 8 to the special winning opening 11, and the winning difficulty level changing means includes: And second special prize-winning state control means for controlling the game ball to change into a state where it is difficult to win the special prize opening 11 when the addition storage result of the prize ball number data addition storage means reaches the upper limit number. Yes. Here, the control state of the second special prize-winning state control means changes the mechanism states of the rotating bodies 14 and 140 and the storage members 15 and 15 constituting the state change mechanism, so that the game ball wins the special prize opening 11. It is supposed to be difficult.
Regarding the game control process, in this third embodiment, since the start winning opening / closing process is different from that of the first embodiment and the second embodiment, the process will be described and other processes will be described. Description of the configuration is omitted.
[0102]
In the start winning opening / closing process of this embodiment, as shown in FIGS. 21 and 22, first, the winning ball detection sensor winning ball number addition counter (principal ball number data addition storage means) is cleared (step S121). Next, it is determined whether or not the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in an on state (the movable members 8, 8 are in an open state) (step S122). Here, when the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the on state, the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the off state (movable members 8, 8 are closed). (Step S123), a closing time is set in the control timer (step S124), and the number of operations is updated by -1 (step S125).
[0103]
Then, it is determined whether or not the number of operations has become 0 (step S126). If the number of operations is 0, the start sensor invalidation flag is cleared (step S127), and the control timer is cleared (step S128). ). Then, it is determined whether or not the valid time of the winning ball detection sensors 17a and 17a has expired (step S138). If the time has not yet expired, whether or not the winning ball detection sensors 17a and 17a are on. It is determined whether or not (step S139).
[0104]
Here, when the winning ball detection sensors 17a and 17a are in the ON state, the winning ball detection sensor winning ball number data transmission process 2 shown in FIG. 24 is performed (step S140).
In the winning ball detection sensor prize ball number data transmission process 2, first, 15 is added to the winning ball number addition counter t for the winning ball detection sensor (step S171). Next, it is determined whether or not 125 ≦ t (step S172). If 125 ≦ t (when the addition storage result reaches the upper limit number), the above-described final prize ball number data transmission means performs t -125 = s is calculated (a numerical value obtained by subtracting the upper limit number from the addition storage result is stored as remainder numerical data s) (step S173), and 15-s data is transmitted to the discharge control device 30 as prize ball number data. (Numerical data obtained by subtracting the numerical value indicated by the remainder numerical data s from the numerical value indicated by the winning ball number data when the upper limit is reached (here 15) is transmitted as winning ball number data) (step S174), and thereafter Then, the effective time of the special prize opening sensor 11a is forcibly increased (step S175). Here, state change processing is performed (step S176). By this state change processing, the rotating bodies 14 and 140 are made in a state where it is difficult for the game ball to win the special prize opening 11 (for example, the state shown in FIG. 3), and one of the storage members 15 and 15 is closed. As a result, the game ball is more difficult to win the special winning opening 11. Then, the process ends.
If 125> t in S172, 15 winning ball number data is transmitted to the discharge control device 30 (step S177), and the winning ball detection sensor award ball number data transmission process 2 is terminated.
[0105]
After that, it is determined whether or not the effective time of the special prize opening sensor 11a has expired (step S141). If the time has expired, the start prize opening / closing process is terminated as it is, and the time has not expired. Determines whether or not the special prize opening sensor 11a is on (step S142). When the special prize opening sensor 11a is on, the big hit flag is set (step S143), and the process ends. When the special prize opening sensor 11a is in the off state, the process returns to S138 and the processing from here is repeated. Note that if the valid time of the winning ball detection sensors 17a and 17a has expired in S138 and the winning ball detection sensors 17a and 17a are in the OFF state in S139, the determination jumps to S141 as it is. .
[0106]
If the number of actuations is not 0 in S126, it is determined whether or not the special prize opening sensor 11a is in an on state (step S131). If it is in an on state, the variable prize device solenoids (movable member opening solenoids) 8a and 8a are determined. Is turned off (step S132), the control timer is cleared (step S133), and the number of operations is cleared (step S134). Thereafter, the big hit flag is set (step S143), and the process is terminated.
[0107]
When the special prize opening sensor 11a is off in S131, it is next determined whether or not the winning ball detection sensors 17a and 17a are on (step S135). Detection sensor prize ball number data transmission processing 1 is performed (step S136).
In the winning ball detection sensor winning ball number data transmission process 1, first, 15 is added to the winning ball detection sensor winning ball number addition counter t (step S151). Next, it is determined whether or not 125 ≦ t (step S152). If 125 ≦ t (when the addition storage result has reached the upper limit number), the above-described final prize ball number data transmission means performs t -125 = s is calculated (a numerical value obtained by subtracting the upper limit number from the addition storage result is stored as a remainder numerical data s) (step S153), and 15-s pieces of data are transmitted to the discharge control device 30 as prize ball number data. (Numerical data obtained by subtracting the numerical value indicated by the remainder numerical data s from the numerical value indicated by the winning ball number data when the upper limit is reached (here 15) is transmitted as winning ball number data) (step S154), and thereafter The control timer is forcibly increased (step S155), the number of operations is set to 1 (step S156), and the valid times of the winning ball detection sensors 17a and 17a are forcibly tied. It is up (step S157), forcibly time-up an effective time special winning hole sensor 11a (step S158). Here, state change processing is performed (step S159). By this state change processing, the rotating bodies 14 and 140 are made in a state where it is difficult for the game ball to win the special prize opening 11 (for example, the state shown in FIG. 3), and one of the storage members 15 and 15 is closed. As a result, the game ball is more difficult to win the special winning opening 11. Then, the process ends.
If 125> t in S152, 15 winning ball number data is transmitted to the discharge control device 30 (step S160), and the winning ball detection sensor award ball number data transmission process 1 is terminated.
[0108]
After the winning ball detection sensor winning ball number data transmission process 1 is completed, it is determined whether or not the control timer is up (step S137). If the time is up, the process returns to S122. If the time is not up, the process returns to S131. When the winning ball detection sensors 17a and 17a are in the off state in S135, S136 is skipped and the determination in S137 is performed.
[0109]
When the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the off state (movable members 8, 8 are closed) in S122, the variable winning device solenoid (movable member opening solenoid) 8a, 8a is in the on state (movable). The members 8 and 8 are opened (step S129), and the opening time is set in the control timer (step S130). Thereafter, in S131, it is determined whether or not the special prize opening sensor 11a is in an on state, and thereafter the processing proceeds in the same manner as described above.
[0110]
As described above, according to the gaming machine in the first embodiment, the winning ball detection sensor in the variable winning device is valid in a state other than the special gaming state after the gaming ball wins at the start opening. Since it is only the period, no prize balls will be paid out even if the game balls are forcibly inserted in the variable prize apparatus during other periods. Therefore, cheating is not performed, and a ball game machine can be obtained in which the game store is not damaged.
[0111]
Further, in the second embodiment, if only the effective time for detecting the game ball by the winning ball detection sensor is set, it is not possible to prevent cheating such as pouring the game ball at the time of starting winning a prize. With the effective discharge number setting, there is little effect even if fraud is performed as described above. Therefore, cheating is not performed, and a ball game machine can be obtained in which the game store is not damaged.
[0112]
Furthermore, in the second embodiment, when the number of balls detected by the winning ball detection sensor reaches a predetermined number that can be said to be in an abnormal state during the time when the detection of the game ball is effective, that is, a large amount of games due to cheating When the ball is placed in the variable winning device, it is possible to make it difficult for the gaming ball put in by the illegal act to win the special winning opening. Therefore, it is possible to prevent a disadvantage for the game store that a special game state is generated by winning a game ball in the special prize opening by an illegal act.
[0113]
Furthermore, in the second embodiment, when the number of balls detected by the winning ball detection sensor reaches a predetermined number that can be said to be abnormal during the time when the detection of the game ball is effective, that is, a large amount due to cheating. When a game ball is placed in the variable winning device, even if there is a winning in a special winning opening thereafter, the winning can be invalidated. Therefore, it is possible to surely prevent a disadvantage for the game store that a special game state is generated by winning a game ball in a special winning opening by an illegal act.
[0114]
In the third embodiment, since the upper limit of the number of prize balls to be paid out is determined, it is easy to accurately predict in advance the damage caused by an illegal act.
[0115]
Furthermore, in the third embodiment, during the time when the detection of the game ball is valid, the upper limit that can be said that the addition storage result of the winning ball number data generated based on the detection of the game ball by the winning ball detection sensor is an abnormal state. In other words, if a large number of game balls are placed in the variable prize device due to cheating and an instruction to pay out the prize balls is given, the game balls placed by the cheating act will be placed in the special prize opening. It is possible to make it difficult to win a prize. Therefore, it is possible to prevent a disadvantage for the game store that a special game state is generated by winning a game ball in the special prize opening by an illegal act.
[0116]
Furthermore, in the third embodiment, it can be said that the result of adding and storing the winning ball number data generated based on the detection of the gaming ball by the winning ball detection sensor during the time when the detection of the gaming ball is effective is an abnormal state. If the maximum number is reached, that is, if a large number of game balls are placed in the variable prize device due to cheating and an instruction to pay out the prize balls is given, even if there is a prize in the special prize opening after that , That winning can be invalidated. Therefore, it is possible to surely prevent a disadvantage for the game store that a special game state is generated by winning a game ball in a special winning opening by an illegal act.
[0117]
In these embodiments,
The game control means includes
When the game ball is detected by the special prize port sensor other than the special game state, the special prize mouth ball detection invalidating means for invalidating the detection of the game ball,
Special win mouth ball detection enabling means for making the detection of the game ball by the special win port sensor valid for a predetermined time only when the auxiliary game occurs despite being in a state other than the special game state,
With
The special winning mouthpiece detection enabling means is:
The time from the generation of an auxiliary game until the detection of the game ball by the special prize opening sensor becomes invalid is longer than the time from the generation of the auxiliary game until the detection of the game ball by the winning ball detection sensor becomes invalid. It has become.
That is, the time from the generation of the auxiliary game to the invalidation of the detection of the game ball by the winning ball detection sensor is made shorter than the time from the generation of the auxiliary game until the detection of the game ball by the special prize opening sensor becomes invalid. It is like that.
[0118]
As a result, the game ball that has won the winning ball passes through the effective time of the winning ball detection sensor, and the V winning can be made effective even if the V winning (the special winning opening is won) is generated, and a special gaming state is generated. Therefore, it is possible to provide a bullet ball game machine that does not give the player distrust to the game machine.
[0119]
In addition, it can also carry out as follows with respect to the said structure.
That is,
The game control means includes
When the game ball is detected by the special prize port sensor other than the special game state, the special prize mouth ball detection invalidating means for invalidating the detection of the game ball,
Special win mouth ball detection enabling means for making the detection of the game ball by the special win port sensor valid for a predetermined time only when the auxiliary game occurs despite being in a state other than the special game state,
With
The special winning mouthpiece detection enabling means is:
The time from the occurrence of the auxiliary game until the detection of the game ball by the winning ball detection sensor becomes invalid and the time from the generation of the auxiliary game until the detection of the game ball by the special prize opening sensor becomes invalid It has become,
This is the configuration.
[0120]
Thus, by making the effective time of the winning ball detection sensor the same as the effective time of the special prize opening sensor, both can be timed using the same timer in the program, and the program capacity can be reduced.
[0121]
Further, the present invention is not limited to the pachinko gaming machines of the above-described embodiments, and can be applied to, for example, other pachinko gaming machines, arrange ball gaming machines, bullet ball gaming machines such as sparrow ball gaming machines, and the like. is there.
Furthermore, when the movable member is closed, the game ball cannot flow into the special variation winning device. However, the present invention is not limited to this. When the movable member is closed, the game ball flows into the special variation winning device. For example, even when closed, it may be opened by an interval that allows one game ball to pass.
Furthermore, it should be thought that embodiment disclosed this time is an illustration and restrictive at no points. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0122]
【The invention's effect】
According to the gaming machine according to the present invention, the winning ball detection sensor in the variable winning device is effective only in a certain period after the game ball wins at the starting port except in the special gaming state. Forcibly during the period, no prize balls will be paid out even if a game ball is placed in the variable prize device. Therefore, cheating is not performed, and a ball game machine can be obtained in which the game store is not damaged.
[Brief description of the drawings]
FIG. 1 is a front view showing a pachinko gaming machine exemplified as a gaming machine according to the present invention.
FIG. 2 is an enlarged front view showing a variable winning device in the present embodiment.
FIG. 3 is a perspective view for explaining the operation of the state change mechanism of the variable prize apparatus.
FIG. 4 is a perspective view for explaining the operation of the state change mechanism of the variable prize apparatus.
FIG. 5 is a perspective view for explaining the operation of the state conversion mechanism of the variable winning device.
FIG. 6 is a perspective view for explaining the operation (storage state) of the variable winning device.
7 is a block diagram showing a main configuration of the ball game machine of FIG. 1. FIG.
FIG. 8 is an enlarged front view showing a partial configuration of the state conversion mechanism.
FIG. 9 is an enlarged front view showing a partial configuration of the state conversion mechanism.
FIG. 10 is a flowchart showing game control processing.
FIG. 11 is a flowchart showing a timer interrupt process.
FIG. 12 is a flowchart showing a start port sensor determination process.
FIG. 13 is a flowchart illustrating an example of a start winning opening / closing process.
FIG. 14 is a flowchart illustrating an example of a start winning opening / closing process.
FIG. 15 is a time chart showing the operation of the movable member and the sensor when a game ball wins the first starting port.
FIG. 16 is a time chart showing the operation of the movable member and the sensor when a game ball wins the second starting port.
FIG. 17 is a flowchart showing another example of the start winning opening / closing process.
FIG. 18 is a flowchart illustrating another example of the start winning opening / closing process.
FIG. 19 is a flowchart showing a winning ball detection sensor process 1;
FIG. 20 is a flowchart showing winning ball detection sensor processing 2;
FIG. 21 is a flowchart showing still another example of the start winning opening / closing process.
FIG. 22 is a flowchart showing still another example of the start winning opening / closing process.
FIG. 23 is a flowchart showing winning ball detection sensor prize ball number data transmission processing 1;
FIG. 24 is a flowchart showing winning ball detection sensor prize ball number data transmission processing 2;
[Explanation of symbols]
100 bullet ball machine
1 Game board
3. Variable prize-winning equipment
3a Mounting board
3b concave chamber
4 First start port
5 Second starting port
8 Movable members
11 Special prize opening
12 General winning entrance
14,140 State change mechanism
14m Electric drive source for movable members
17a winning ball detection sensor
20 Game control means (control means, ball detection invalidation means, ball detection validation means, winning ball counting means, prize ball number data addition storage means, winning difficulty level changing means, first special winning difficulty state control means, second special Winning difficulty control means, first special prize invalidating means, second special prize invalidating means)
30 Discharge control means (control means)
80 prize ball discharge means

Claims (3)

A mounting board for mounting on the game board; a concave chamber formed at a substantially central portion of the mounting board; projecting toward the rear of the mounting board and having an open front surface; a movable member provided on the mounting board; A general winning port and a special winning port which are provided at a required portion of the concave chamber and can receive a game ball received by the movable member, and an electric drive source for the movable member which drives the movable member to be openable and closable. A variable prize device,
A start opening where game balls can win,
In the game board,
As an auxiliary game generation condition that a game ball wins the starting opening, an auxiliary game is generated in which the movable member of the variable winning device performs an opening / closing operation a predetermined number of times,
As a special game occurrence condition that a game ball received by the variable prize apparatus during the auxiliary game wins a special game opening, the number of times the movable member opens and closes is larger than the number of times of opening and closing in the auxiliary game. In a ball game machine equipped with a control means capable of generating and controlling a special game state in which a cycle game for performing an opening / closing operation is performed,
The variable winning device is:
Provided with a winning ball detection sensor capable of detecting a game ball received by the movable member upstream of a general winning port and a special winning port arranged on the downstream side,
The control means includes
Based on the fact that the winning ball detection sensor has detected a game ball, game control means for outputting prize ball number data corresponding to the detection ,
A discharge control means for discharging a prize ball based on the prize ball number data based on the reception of the prize ball number data output from the game control means;
With
The game control means includes
In addition special game state, if there is detection of a game ball according to the winning ball detection sensor, and a disabled detection of the gaming ball, sphere detection disabled not to output the winning balls number data corresponding to the detection of the gaming ball Means,
The game ball detection by the winning ball detection sensor is valid for a predetermined time only when the auxiliary game has occurred despite being in a state other than the special gaming state, and the winning ball detection sensor during the predetermined time If there is a detection of a game ball by the ball detection validating means for outputting prize ball number data corresponding to the detection of the game ball ,
A ball game machine characterized by comprising: The game control means includes
A winning ball counting means for counting the number of balls detected by the winning ball detection sensor during a time when the detection of the gaming ball by the winning ball detection sensor is effective due to the generation of the auxiliary game ;
The sphere detection enabling means includes
A function for invalidating the detection of the game ball by the winning ball detection sensor even during the time when the detection of the game ball by the winning ball detection sensor is valid when the counting result of the winning ball counting means reaches a predetermined number The ball game machine according to claim 1, further comprising: The game control means includes
The winning ball number data generated based on the detection of the gaming ball by the winning ball detection sensor is transmitted to the discharge control means during the time when the detection of the gaming ball by the winning ball detection sensor is effective due to the occurrence of the auxiliary game. A prize ball number data adding and storing means for adding and storing the numerical value indicated by the prize ball number data before
The sphere detection enabling means includes
When the addition storage result of the winning ball number data adding storage means reaches the upper limit number, the gaming ball is detected by the winning ball detection sensor even during the time when the detection of the gaming ball by the winning ball detection sensor is effective. The bullet ball game machine according to claim 1, further comprising a function of disabling.

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