JP2004173987A - Game machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a game machine capable of diversifying the number and layout of generators etc. mounted on a game board, providing a game full of variation, preventing the game from being monotonous, easily changing the model of the game machine, and reducing the cost related to the model change. <P>SOLUTION: The game machine comprises the game board with obstacle pins for changing the direction of falling of game balls, generators to make motions when a specific condition is satisfied, a winning hole for a game ball to enter and an actuation hole for actuating the variable display of a plurality of variation patterns or motions of the generators when a game ball enters the hole, and a display part mounted lower than the game board. Game balls are enclosed inside the game machine and are circulated inside the game machine. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a gaming machine such as a pachinko gaming device.
[0002]
[Prior art]
Usually, a pachinko gaming device is provided with a game board or the like in which a plurality of obstacle nails are driven into a main body portion formed of a main body frame and a window frame, and a player operates a firing handle provided on the pachinko gaming device. By operating the game balls, the game balls stored in the upper plate or the like are sequentially hit on the game board to advance the game.
Conventionally, there are a plurality of types of games provided by such pachinko gaming devices, and pachinko gaming devices include, for example, a first-type pachinko gaming device and a second-type pachinko gaming device according to the content of the provided game. It is called a gaming device, a third-class pachinko gaming device, or the like.
[0003]
The first-type pachinko gaming device is a so-called seven-machine pachinko gaming device, and a game board is provided with, for example, a starting port through which a game ball can enter, and an opening / closing plate that can be opened or closed. There are provided a large winning opening in which a V winning opening is provided and a display device provided with a display unit composed of a liquid crystal display.
[0004]
In such a first-class pachinko gaming device, when a game ball hit on a game board enters the starting port, it is determined whether or not a big hit (hereinafter, also referred to as a first-type big hit) is generated. In the display unit, the variable display game is started by variably displaying a plurality of variable symbols, and when a first-class jackpot occurs, the variable symbols are stopped and displayed in a predetermined combination of symbols, and thereafter, A first-class jackpot condition is generated based on the first-class jackpot to provide a predetermined benefit and / or advantageous condition.
[0005]
In addition, the second-type pachinko gaming device is a so-called slingshot pachinko gaming device, and a game board includes, for example, a plurality of starting ports into which game balls can enter, and a movable state that can be opened or closed. A winning device or the like in which a piece is provided and a V winning opening (hereinafter, also referred to as a second V winning opening) is provided therein is provided.
[0006]
In such a second-type pachinko gaming machine, when the game ball hit on the gaming board enters the starting port, the movable piece of the winning device is shifted for a predetermined time to a winning time in which the movable piece is opened once. Alternatively, when a game ball is entered into the second V winning opening by being executed a plurality of times, a jackpot (hereinafter, also referred to as a second-type jackpot) occurs, and thereafter, a second-type jackpot state based on the second-type jackpot occurs. , Certain benefits and / or advantages are provided.
[0007]
In addition, the third-type pachinko gaming device is a so-called right-handed pachinko gaming device, and a game board includes, for example, a starting port through which a game ball can enter, and an opening / closing plate that can be opened or closed. And a special starting opening provided with a V winning opening therein, a ball holding portion capable of holding a game ball provided on its peripheral surface, a rotating body rotating in a fixed direction, and a back side of the rotating body. Alternatively, there are provided a rotating winning opening including a V winning opening (hereinafter, also referred to as a third V winning opening) provided below, a display device including a display unit including a plurality of LEDs, and the like.
[0008]
In such a type 3 pachinko gaming device, it is determined whether or not a jackpot (hereinafter, also referred to as a type 3 jackpot) can be generated when a game ball hit on a game board enters the starting port. At the same time, on the display unit, a plurality of variable symbols are variably displayed, and when the occurrence of a third-type jackpot is enabled, the variable symbols are stopped and displayed in a predetermined symbol combination, and provided in a special starting port. The open / close plate is opened for a certain period of time. At this time, if a game ball can be inserted into the V winning opening provided in the special starting opening, a third-type jackpot occurs. Thereafter, when the game ball held by the ball holding unit of the rotating body enters the third-type V winning opening, a third-type jackpot state based on the third-type jackpot occurs, and a predetermined profit and / or advantageous state is obtained. Offering begins.
[0009]
In addition, since the number of gaming balls paid out in various jackpot states and the frequency of occurrence of jackpot states usually differ depending on the type of pachinko gaming device, the gambling characteristics of games provided by various pachinko gaming devices are reduced. Can be said to be different. For example, compared to the first-type jackpot state, the second-type jackpot state occurs more frequently, but the number of game balls paid out in the second-type jackpot state is small, so usually provided by a second-type pachinko gaming device The increase or decrease of the game balls in the game to be played is smaller than that of the first-type pachinko game device. Therefore, it can be said that the game provided by the second-type pachinko gaming device has a lower gambling property than the game provided by the first-type pachinko gaming device. As described above, since there is a difference in the gambling characteristics of the games provided by the various pachinko gaming devices, the player can select a pachinko gaming device according to his / her preference and play the game.
[0010]
In any of the pachinko gaming devices, when the game balls are continuously fired and the game balls stored in the upper plate or the like are exhausted, the player supplies new game balls to the upper plate or the like. This allows the player to continue playing the game.
Then, when ending the game, the player takes the so-called dollar box containing the obtained game balls to the exchange, and puts the game balls in the dollar box into the exchange. Then, the exchange issues a receipt or the like on which points corresponding to the number of game balls are printed. The player can obtain a prize according to the number of points by taking the issued receipt or the like to the prize exchange area.
[0011]
By the way, as described above, the gaming boards provided in various pachinko gaming devices include, as described above, an accessory (eg, a prize winning device, a rotating winning opening, etc.) that operates when a specific condition is satisfied, and a gaming device. In response to the entry of the ball, there is provided a starting port for performing a variable display of a plurality of variable symbols or the operation of the accessory, a display device including a display unit such as a liquid crystal display, and the like. Usually, a prize hole into which a game ball can enter, an obstacle nail which can change the direction in which the game ball falls, and the like are provided. Is also a target when firing game balls, so that as the number increases, it is possible to provide a variety of games, such as a game in which game balls are fired while changing targets. Prevents itself from becoming monotonous It is possible.
[0012]
However, since the size of the pachinko gaming device is determined by the standard, the area of the game board is limited, and if obstacles or display parts are provided, it is necessary to install accessories etc. on the game board. Since the area in which the game can be performed is naturally reduced, the number of characters and the like that can be installed on the game board is actually limited. For this reason, with the conventional pachinko gaming device, it is difficult to provide a variety of games, and the game itself becomes monotonous, and the player may be bored.
[0013]
In addition, in the conventional pachinko gaming machine, not only the number of characters and the like but also the arrangement of the characters and the like are fixed to some extent, and even if a new model is supplied, the arrangement of the target characters and the like is substantially the same. Therefore, there is no significant difference in the pachinko game itself, and it can be sufficiently predicted that the player gets tired of the pachinko game itself and stops playing the game.
[0014]
Further, in a game arcade (so-called pachinko hall), models are frequently changed, but in a conventional pachinko game machine, members that can be used when changing models are discarded without a chance to be reused. However, there are situations in which it is not preferable from the viewpoint of recycling, and how to reduce the cost of changing the model has become a major problem.
[0015]
As a conventional pachinko gaming device, there is a pachinko gaming device in which a display unit for displaying a plurality of variable symbols and an image indicating the number of held variable display games is provided below the gaming board (for example, see Patent Reference 1).
With such a pachinko gaming device, it is considered possible to solve the above-described problem.However, on the lower side of the game board, an upper plate and a lower plate in which game balls are stored, and a display unit Is provided, it is difficult to make the layout of the devices and devices provided below the game board compact. As a result, the size of the display unit is limited, and there has been a problem that it is not possible to dynamically display a fluctuating symbol or an effect image.
[0016]
[Patent Document 1]
JP 2002-186742 A
[0017]
[Problems to be solved by the invention]
The present invention has been made in view of the above-described problem, and its object is to provide a variety in the number and the arrangement of the accessories and the like provided on the game board, which are rich in variations. It is possible to provide a game, and it is also possible to display large fluctuating symbols and effect images, thereby preventing the game itself from becoming monotonous. It is an object of the present invention to provide a gaming machine that can be easily performed and that can suppress the cost associated with a model change.
[0018]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides an obstacle nail that can change the direction in which a game ball falls, a character that operates in response to a specific condition being satisfied, and a game ball. A winning opening to be obtained and a start-up opening for performing a variation display of a plurality of variation symbols or an operation of the above-mentioned accessory in response to the entry of the game ball are provided on the game board. There is provided a gaming machine which is provided on a lower side, wherein a game ball is sealed in the machine and circulated in the machine.
[0019]
More specifically, the present invention provides the following.
(1) a display unit for variably displaying at least a plurality of variably designed symbols that can be stopped and displayed;
A gaming machine equipped with a game board on which a game ball is launched,
The above-mentioned gaming board has obstacle nails that can change the direction in which the game ball falls,
An accessory that operates in response to the fulfillment of certain conditions,
A winning port where game balls can enter,
In response to the entering of the game ball, a variation opening of the plurality of variation symbols or a starting port where the operation of the accessory is performed is provided, and further,
The display unit is provided below the gaming board,
The game ball is sealed in the machine and circulated in the machine.
[0020]
According to the invention of (1), since the display unit is provided below the game board and is not provided on the game board, it is necessary to secure a wide area in which the accessories can be installed. Can be.
As a result, it is possible to increase the number of accessories and the like installed on the game board, and to provide a variety of games, such as a game in which a game ball must be fired while changing a target. .
In addition, since the arrangement of the accessories and the like can be greatly changed for each model, it is possible to have a variety of arrangements of the accessories and the like, so that the pachinko game itself does not get tired and various games can be performed. It becomes possible to enjoy.
[0021]
Note that a display device having a display unit or the like formed of a liquid crystal display is expensive, and is less likely to deteriorate compared to other members provided in the gaming machine. In a conventional gaming machine, the display device as described above is provided on the game board, and since many wires are led out from the display device, for example, it is necessary to replace only the game board with the display device left. Things are not easy. After all, when changing the model, work such as replacing the display device and the game board together, or once removing the display device and replacing the game board, etc. are performed, and the cost of changing the model is This is one of the factors that lead to an increase.
However, according to the invention of (1), since the display unit is provided below the game board, and the display unit is not provided on the game board, many wires are led out from the display device. Even in this case, it is possible to easily replace only the game board with the display device left in the game machine, for example, a control board or the like in which a program required for a pachinko game is stored and a game board. The model can be changed simply by replacing only the model. Therefore, when the model is changed, the display device can be easily reused, and the cost associated with the model change can be suppressed.
[0022]
In addition, since the display unit is provided below the game board, that is, at a position relatively close to the firing handle or the like operated by the player, even if the display unit is not provided on the game board, it can be seen. It is possible to enthusiastically play the game without causing difficulty or discomfort. Furthermore, since the game balls are sealed in the machine and circulated in the machine, there is no need to provide an upper plate for storing the game balls supplied to the firing handle, and the upper plate is omitted and the upper plate is provided. It is also possible to provide a display unit at the position where it was set. As a result, the layout can be made compact, and the degree of freedom in the arrangement of each member can be increased.
[0023]
In the present invention, at least a plurality of fluctuating symbols that can be stopped and displayed are fluctuated and displayed on the display unit, and it is desirable that an effect image including a character image is further displayed. This is because the display unit is provided below the game board, so that the display unit can be displayed large, and the effect image and the fluctuating design can be displayed larger than before. It is desirable that the display section on which the effect images and the fluctuating symbols that the player can pay attention to and enjoy is displayed as large as possible. It becomes possible. Therefore, an efficient layout can be achieved in which the falling area of the game ball can be enlarged and the area of interest of the player during the game including the display area of the display section can be expanded.
[0024]
[Definition of terms]
"Variable display" refers to a case where the identification information sequentially changes, for example, a case where a pattern "7" which is one identification information changes to a pattern "8" which is another identification information, or a case where the pattern "9" changes to another pattern. In addition to the case where the identification information moves and is displayed while one identification information is displayed in the display area where the identification information can be displayed, for example, when one symbol ""7" moves while being displayed in the display area.
Note that the identification information refers to visually identifiable information such as characters, symbols, pictures or patterns.
[0025]
The “game board” is a plate-like body provided in the main body frame, on which game balls are launched. The game board is provided with a plurality of obstacle nails capable of changing the direction in which the game ball falls, and further provided with a winning opening, a starting opening, and an accessory, which will be described later. Further, a guide rail for guiding the shot game balls to the upper side of the game board, a rolling guide member called a windmill, or the like may be provided.
However, in the present invention, a display unit described later is not provided on the game board, but is provided below the game board.
[0026]
The “display unit” means a unit in which at least a plurality of variable symbols that can be stopped and displayed are variably displayed. The one in which the variable display game is performed in the pachinko gaming device of the first type and the one in which the variable display of a plurality of variable symbols is performed in the pachinko gaming device of the third type correspond to the display unit in the present invention. Examples of the display unit include a screen of a display device having a liquid crystal display, a screen of a display device having a cathode ray tube, a plurality of 7-segment displays, and a dot display including a plurality of LEDs. .
[0027]
In addition, a so-called sub-digital indicating a result of a lottery for determining whether to open or close a movable piece provided in the vicinity of a starting port or a holding lamp indicating the number of variable display games held in a first-class pachinko gaming device. Etc. do not correspond to the display unit in the present invention. Therefore, the above-mentioned hold lamp, sub-digital, and the like may be provided on the game board, or may be provided below the game board.
[0028]
Further, in the present invention, it is preferable that an upper plate for storing game balls supplied to the firing handle is not provided. Since the game balls are sealed in the machine and circulated in the machine, it is possible to omit the upper plate. By omitting the upper plate, for example, the display unit is provided with an upper plate. This is because they can be provided at positions, so that the layout can be made compact and the degree of freedom in the arrangement of each member can be increased.
[0029]
"The game ball is enclosed in the machine and circulated in the machine" means that the game ball is punched out on a game board and enters a prize port or a start port described later, or any of the prize port or the start port. It means that the game ball discharged from the out port without entering the game machine is repeatedly hit on the game board without being discharged outside the machine.
Therefore, what is paid out in response to a game ball entering a winning opening or the like may be a game ball or another game medium (for example, a medal or a token). Here, the above-mentioned game medium refers to a medium that mediates a game value between the inside and the outside of the gaming machine.
In addition, the number of game balls to be paid out is stored as a point in a storage medium (for example, a RAM or the like) provided in the gaming machine. At the end of the game, the point is printed and output on a receipt or the like. It may be.
[0030]
The "winning opening" means a game ball that can enter therein, and the winning opening is, for example, a ball receiver provided on a game board and having an opening formed thereon for receiving the game ball. Can be mentioned. Normally, the gaming board is provided with an opening at the place where the winning opening is provided, for discharging the game ball entering the winning opening from the gaming board. The winning opening is provided with a detecting means (for example, a sensor or the like) for detecting that a game ball has entered the winning opening, and the detecting means detects that a game ball has entered the winning opening. Is detected, for example, a number of medals (for example, two) corresponding to a predetermined number (for example, 10) of game balls are paid out.
[0031]
The number and positions where the winning ports are provided are not particularly limited, and can be appropriately set in consideration of the content of the game to be provided, the degree of difficulty, and the like.
In the present invention, a game ball in which the game ball that has entered inside appears again on the game board, that is, a so-called gate through which a game ball that simply falls on the game board passes also corresponds to the winning opening.
[0032]
The “starting port” is a hole into which a game ball can enter, and in response to the game ball being entered, a variation display of a plurality of variation symbols or an operation of an accessory described later is performed. As the above-described starting port, similarly to the above-mentioned winning port, for example, a ball receiver or the like provided on a game board and having an upper side formed with an opening for receiving a game ball can be used. Usually, the game board is provided with an opening at a place provided at the starting port for discharging the game ball entering the starting port from the game board.
The starting port is provided with detecting means (for example, a sensor or the like) for detecting that a game ball has entered the starting port, and the detecting means detects that a game ball has entered the starting port. Then, the change display of a plurality of change symbols or the operation of the accessory is performed.
[0033]
The number and position of the starting ports are not particularly limited, and can be appropriately set in consideration of the content of the game to be provided, the degree of difficulty, and the like.
In the present invention, the game balls that enter the inside of the game board appear again on the game board, that is, the so-called gate through which the game ball that simply falls on the game board passes. In response to this, if a change display of a plurality of change symbols or an operation of the accessory is performed, it corresponds to a start port.
[0034]
An “accessory” refers to an object that operates when a specific condition is satisfied.
Note that this accessory is usually configured integrally with the winning opening and the starting opening described above.
The accessory is not particularly limited. For example, an opening / closing plate that can be opened or closed is provided, and a large winning opening provided with a V winning opening therein, A movable opening capable of being in a state or a closed state is provided in the vicinity thereof, and a movable piece capable of being opened or closed is provided, and a V winning opening is provided therein. A winning device and a ball holding portion capable of holding a game ball are provided on the peripheral surface thereof, and a rotating body that rotates in a fixed direction and a V winning opening provided on the back side or below the rotating body. Mouth and the like can be mentioned.
[0035]
In the present invention, the number and the position where the accessory is provided are not particularly limited, and can be appropriately set in consideration of the content of the game to be provided, the degree of difficulty, and the like.
In addition, the number of the accessory provided on the game board of the conventional pachinko gaming device is about 1 to 3, but in the present invention, since the display unit is not provided on the game board, it is possible to install the accessory. A wide possible area can be ensured, and it becomes possible to install a large number of accessories on the game board as compared with the conventional pachinko gaming machine. As a result, it is possible to provide a variety of games.
Further, since a wide area in which the accessory can be installed can be ensured widely, the arrangement of the accessory can be given a variety, for example, by greatly changing the arrangement of the accessory and the like for each model. As a result, it is possible to enjoy various games without getting tired of the pachinko game itself.
[0036]
In addition, the specific condition that triggers the operation of the accessory is not particularly limited, and can be appropriately set in accordance with the content of the game to be provided, the degree of difficulty, and the like. The specific conditions include, for example, winning a predetermined lottery performed in a control unit provided in the gaming machine, or having a game ball enter the starting port or winning port as described above. .
[0037]
The gaming machine of the present invention is a gaming machine in which a display unit is provided below a gaming board, a gaming ball is sealed in the gaming machine, and circulated in the gaming machine. ) Is desirable. This is because advantageous effects can be obtained in addition to the effects of the present invention as described above.
[0038]
(A) The gaming board is provided with an opening / closing plate capable of being opened or closed as the accessory, and a large winning opening provided with a first-class V winning opening therein;
A movable piece that can be in an open state or a closed state is provided, and a winning device in which a second-type V winning opening is provided therein, and
A ball holding portion capable of holding a game ball is provided on the peripheral surface thereof, and a rotating prize comprising a rotating body that rotates in a fixed direction and a third-type V winning opening provided on the back side or below the rotating body. A mouth is provided, and
In response to the game ball entering the starting opening, it is determined whether or not a first-class jackpot occurs, and once from the start of the variable display of the plurality of variable symbols to the stop display, once. When the first-type big hit occurs, the plurality of variable symbols are stopped and displayed in a predetermined combination, and thereafter, a predetermined profit and / or a predetermined profit based on the first-type big hit are generated. First-class game execution means for generating a first-class game state in which an advantageous state is provided,
In response to the game ball entering the starting port, the movable piece of the winning device is shifted once or plural times to the winning time in which the movable piece is opened for a predetermined time, and the game ball is inserted into the second V winning port. When entering, a second-type jackpot occurs, and thereafter, a second-type game execution means for generating a second-type gaming state in which a predetermined profit and / or advantageous state is provided, and
In response to the game ball entering the starting opening, it is determined whether or not the occurrence of the third-type jackpot is determined, and from the start of the variable display of a plurality of variable symbols to the stop display. Is performed once, and the occurrence of the third type jackpot is enabled, the plurality of variable symbols are stopped and displayed in a predetermined combination, and within a specific period after being stopped and displayed. When a game ball enters the first V winning opening, a third-type jackpot occurs, and thereafter, when a gaming ball held in the ball holding portion of the rotating body enters the third V winning opening, A gaming machine comprising a third type game execution means for generating a third type game state in which provision of a predetermined profit and / or advantageous state based on the third type jackpot is started.
[0039]
In a conventional gaming machine, when a player playing one game wants to play another game, the player must move to another gaming machine and play the game. According to the gaming machine of the present invention, a plurality of kinds of games can be played by one gaming machine, so that the player can calmly enjoy various games without moving to another gaming machine.
[0040]
In the gaming machine of the present invention (A), the first type gaming state, the second type gaming state, and the third type gaming state can occur, but only one gaming state occurs at the same time. And a plurality of game states may occur at the same time.
If a plurality of gaming states are to be generated at the same time, for example, immediately after the third-type jackpot state ends, a game ball enters the second-type starting port and a transition to a prize time is performed. To provide a game combining various games, such that if a game ball can be inserted into the second kind V winning opening of the winning device, the first kind jackpot state becomes a so-called probable change state with a high probability. Is also possible.
As a result, a novel game having new playability can be provided, and more players can be secured.
[0041]
The gaming machine according to the present invention (A) determines at least one gaming state to be generated among the first-type gaming state, the second-type gaming state, and the third-type gaming state according to the gaming state. It is desirable to have a determining means. This is because, for example, when the big hit state generated in one game state ends, another game state occurs, so that a variety of games can be provided.
[0042]
Further, it is preferable that the game state determination means determines at least one game state to be generated according to a combination of a plurality of variable symbols stopped and displayed on the display unit.
Since the combination of the plurality of variable symbols stopped and displayed does not only indicate whether or not a big hit occurs, it also indicates the type of the game state that will occur next. This is because the player can be more interested in the game, and can further concentrate on the game by paying attention to the changing symbols.
[0043]
In addition, it is preferable that the game state determining means determines at least one game state to be generated according to an instruction input via an input device provided in the gaming machine. Since the player can select a game to be played, a highly flexible gaming machine can be provided, and the player can calmly enjoy various games without moving to another gaming machine. Because you can.
[0044]
(B) game ball providing means for enabling use of a predetermined number of game balls in response to the insertion of medals, and
A gaming machine provided with a medal payout means for paying out a number of medals according to the number of game balls to be paid out when a predetermined condition is satisfied.
[0045]
As described above, when the game is over, it is necessary to carry a dollar box containing many game balls from the gaming machine to the exchange, but the dollar box containing many game balls is relatively heavy, Carrying such dollar boxes from the machine to the exchange is burdensome for the player or the clerk at the playground, and very painful, especially for women.
However, according to the invention of (B), what is hit on the game board is a game ball, but what is thrown into or paid out from the game machine is a medal. Also, in a game hall, the value is fixed, such as about 1/4 game ball for a game ball and about 20 yen for a medal. Therefore, according to the value, the number of game balls to be paid out is increased. In the case of five balls, one medal is actually paid out. Therefore, for example, even if a jackpot condition occurs and 2,000 gaming balls can be acquired, the actual payout is 400 medals, so the medals are transported from the gaming machine to the exchange machine. The object can be reduced in weight, and the burden on the transport work of the player or the clerk of the game hall can be reduced.
In addition, if something other than the game ball is paid out from the gaming machine, it can be predicted that the player will feel uncomfortable, but medals are widely used in the amusement arcade like the game ball, Further, as described above, since the values of the game balls and medals have been established from the past, by using the values as they are, it is possible to cause the player to play the game without giving a sense of incongruity.
[0046]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a front view schematically showing a gaming machine of the present invention, and FIG. 2 is a perspective view thereof. In the embodiments described below, a gaming machine having the above-described configurations (A) and (B) will be described. As a preferred embodiment of the gaming machine according to the present invention, the present invention is applied to a pachinko gaming machine. Shows when applied. In addition, in FIG. 2, the accessory provided on the game board is not shown.
[0047]
The pachinko gaming device 10 is provided with a main body frame 12, a game board 14 incorporated in the main body frame 12, and a window frame 16 of the main body frame 12 provided on the front surface of the game board 14. A display device 32 is provided below the panel 14 in the center of the front surface of the main body frame 12, and a control unit 13 is provided below the display device 32.
[0048]
In addition, the back of the pachinko gaming device 10 is configured such that when playing a game, the game balls enclosed in the machine can be circulated and used in the machine, and the detailed structure thereof is conventionally known. A game ball enclosure / circulation structure is adopted.
Also, speakers 46 are provided on the upper right side and the upper left side of the front surface of the main body frame 16, respectively, and for example, background music (BGM), voice, sound effects, and the like are output according to the game situation. Further, on the left side of the main body frame 12, there is provided a medal unit 1 having an insertion slot 2 and a payout slot 3 on the front surface thereof.
[0049]
A winning device 232 is provided at the center of the front of the game board 14, and a plurality of obstacle nails (not shown) are driven into the front of the game board 14. The game board 14 is formed of a resin material without using a nail driving mechanism, and a metal rod is implanted on the game board 14 made of the resin material so as to protrude forward of the game board 14. The present invention can also be applied to the above-described pachinko gaming device 10 (pachicon machine). In this specification, the pachinko gaming device 10 is a concept including a pachinko machine.
[0050]
A display device 32 having a display portion 32a composed of a liquid crystal display, which will be described later, is provided at the center of the front of the main body frame 12 below the game board 14, and at the center of the upper portion of the display device 32. , A display device 52 (see FIGS. 1 and 2).
The display device 52 is constituted by, for example, a 7-segment display, and variably displays a normal symbol, which is display information, so as to repeatedly change and stop. When a game ball enters any one of the general winning openings 54a to 54c provided on the game board 14, which will be described later, the display of the normal symbol is started to be changed on the display device 52, and after a predetermined time has elapsed. The normal symbol is stopped and displayed (see FIG. 3).
[0051]
The ordinary symbol is information including numbers and symbols, for example, numbers from “0” to “9” and symbols such as “☆”. When the normal symbol is displayed as a predetermined symbol, for example, "7" and is stopped and displayed, solenoids for driving movable pieces 58a and 58b provided on the left and right sides of the first-type starting port 44 described later. A current is supplied to 57 (not shown), and the movable pieces 58a and 58b are driven so that the game ball can easily enter the first-type starting port 44, so that the first-type starting port 44 is opened. . After a predetermined time has elapsed after the first-type starting port 44 is opened, the movable pieces 58a and 58b are driven to close the first-type starting port 44 so that game balls are difficult to enter. You do it.
[0052]
Further, four hold lamps 34a to 34d are provided on both left and right sides of the display device 52 described above. For example, the number of times the variable display game is held is indicated by the number of lighted hold lamps.
[0053]
A control unit 13 including a direction lever 15, a ball donation button 17, a cancel button 18, and an enter button 19 is provided below the display device 32. The player can input a predetermined instruction by operating the directional lever 15, the cancel button 18, and the enter button 19 while watching the image displayed on the display device 32. The ball donation button 17 is a button used for inputting an instruction for enabling a predetermined number of game balls to be used. For example, if five medals can be used for one medal, and 20 medals are credited to the pachinko gaming device 10, when the ball donation button 17 is operated, 100 balls are played. The use of a sphere becomes possible.
[0054]
On the left side of the display device 32, there is provided a medal insertion slot 25 through which medals can be inserted into the pachinko gaming device 10, and below the lower plate 22, a lower plate 22 for storing medals is provided. ing. Although not shown, a medal payout port 21 for paying out medals is provided inside the lower plate 22, and medals paid out from the medal payout opening 21 are paid out to the lower plate 22.
[0055]
On the right side of the display device 32, a credit number display device 23 composed of two 7-segment displays and an acquired number display device 24 also composed of two 7-segment displays are provided.
The credit number display device 23 displays the number of medals credited to the pachinko gaming device 10. For example, when ten medals are inserted from the medal insertion slot 25, ten medals are credited, so “10” is displayed on the credit amount display device 23. When the ball providing button 17 described above is operated and the use of 50 game balls corresponding to 10 credited medals becomes possible, the number of credited medals becomes 0. , "0" is displayed on the credit amount display device 23. Thereafter, for example, when a game ball enters the below-mentioned general winning opening 54a and obtains 10 game balls, it means that two medals corresponding to 10 game balls have been obtained, and thus the number of credits is obtained. “2” is displayed on the display device 23.
[0056]
The acquired number display device 24 temporarily displays the number of medals corresponding to the number of acquired game balls. For example, when a game ball enters the below-described general winning opening 54a and obtains 10 game balls, it means that two medals corresponding to 10 game balls have been obtained. 24, "2" is temporarily displayed, and the number of credited medals is increased by two.
[0057]
When an upper limit is set for the number of medals that can be credited, when the number of credited medals reaches the upper limit, the number of medals exceeding the upper limit is paid out to the lower plate 22 from the medal payout opening 21. Will be.
For example, when the upper limit of the number of medals that can be credited is set to 25 and the number of medals that have been credited in advance is 24, when two medals corresponding to 10 game balls are obtained, “2” is temporarily displayed on the acquired number display device 24, and the number of credited medals increases by two. However, the upper limit of the number of medals that can be credited is set to 25. In addition, "25" is displayed on the credit amount display device 23, and one medal exceeding the upper limit value is paid out from the medal payout opening 21 to the lower plate 22.
[0058]
Further, a firing handle 26 is provided below the credit number display device 23 and the acquired number display device 24 so as to be rotatable with respect to the main body frame 12. The game can proceed. On the back side of the firing handle 26, a firing motor 28 is provided.
When the firing handle 26 is rotated clockwise by the player, power is supplied to the firing motor 28, and the game balls are sequentially fired on the game board 14.
[0059]
The launched game ball is guided by a guide rail 30 provided on the game board 14 and moves to the upper portion of the game board 14, and thereafter, the game ball changes its traveling direction due to the collision with the plurality of obstacle nails described above. It falls down below the board 14.
[0060]
As described above, the medal unit 1 provided on the left side of the main body frame 12 is provided with the insertion slot 2 and the payout slot 3 on the front face thereof, and when a coin is inserted into the insertion slot 2, The number of medals corresponding to the value is credited.
For example, if the number of credited medals is 0 and a 500-yen coin is inserted, 25 medals are credited and “25” is displayed on the credit amount display device 23. On the other hand, if the coin inserted into the insertion slot 2 is not proper, the coin will be paid out from the payout slot 3.
[0061]
In addition, coins are inserted into the medal unit 1 provided in the pachinko gaming device 10, but the medal unit provided in the gaming machine of the present invention may be, for example, a device for inserting a bill, A prepaid card (for example, a Packy card) may be inserted. Although the pachinko gaming device 10 is configured integrally with the medal unit 1, the gaming machine of the present invention may be configured separately from the medal unit.
[0062]
In the pachinko gaming device 10, the number-of-credits display device 23 and the number-of-acquisitions display device 24 are provided in the main body frame 12. However, in the gaming machine of the present invention, the number-of-credits display device and the number-of-acquisitions display device include a medal. It may be provided in the unit. Further, instead of the credit number display device and the acquired number display device, an image indicating the number of credited medals and the acquired number may be displayed on the display unit 32a.
[0063]
FIG. 3 is an enlarged front view schematically showing the game board 14. Note that the same reference numerals are given to components corresponding to the components shown in FIGS. 1 and 2 described above.
[0064]
At substantially the center of the surface of the gaming board 14, a prize winning device 232 described later is provided. Rolling guide members 51a and 51b are provided on the upper right and lower left sides of the winning device 232 to guide the path in which the game ball falls in a predetermined direction. A rolling guide member 51c is also provided on the lower left side of the winning device 232.
[0065]
A general winning opening 54a is provided on the left side of the winning device 232, and general winning openings 54b and 54c are provided at lower left and right ends of the game board 14.
When game balls enter the general winning openings 54a to 54c, a predetermined number (for example, 10 balls) of game balls can be obtained. However, the game balls are not actually paid out and the obtained game balls are not paid out. The number of medals (for example, two) corresponding to the number is credited.
[0066]
Also, when a game ball enters any one of the general winning openings 54a to 54c, as described above, the fluctuation display of the ordinary symbols is started, and is stopped and displayed after a predetermined time has elapsed. At this time, when the normal symbol is stopped and displayed in a predetermined symbol, the movable pieces 58a and 58b provided on the left and right sides of the first type starting port 44 described later are opened.
[0067]
Above the general winning ports 54b and 54c, second type A starting ports 244a and 244b are provided, respectively, and below the winning device 232, a second type B starting port 244c is provided. ing.
The second type A starting ports 244a and 244b are starting ports in which a transition to a single prize time is performed by entering a game ball, and the second type B starting port 244c is activated twice by entering a game ball. This is the starting point where the transition to the winning time is made. As described above, the winning time is a period from when the movable pieces 258a and 258b of the winning device 232 are opened to when they are closed.
[0068]
A first-type starting port 44 having a ball detection sensor 42 is provided below the second-type B starting port 244c, and the first-type starting port 44 is closed on both left and right sides of the first-type starting port 44. Movable pieces 58a and 58b that can be in a state or an open state are provided. As described above, the movable pieces 58a and 58b are in an open state for a predetermined period when a normal symbol is stopped and displayed on the display device 52 with a predetermined symbol. Further, when a game ball enters the first-type starting port 44, a plurality of variable symbols are variably displayed on the display unit 32a, and a variable display game is started.
[0069]
On the right side of the winning device 232, a ball holding portion 212 capable of holding a game ball is provided on the peripheral surface thereof, a rotating body 211 rotating in a fixed direction, and a third type V provided on the back side of the rotating body 211. A rotating winning opening 210 including a winning opening 213 is provided. In addition, a ball receiving portion 214 having a through hole on the bottom surface thereof, through which a game ball can pass, is provided directly above the rotating winning opening 210.
[0070]
Since the rotating body 211 is located directly below the ball receiving portion 214, even if a game ball enters the ball receiving portion 214 having the through hole on the bottom surface thereof, the game ball does not pass through the through hole and receives the ball. Will remain in section 214.
When the rotating body 211 was rotated and the ball holding portion 212 provided on the peripheral surface of the rotating body 211 and the through hole provided on the bottom surface of the ball receiving portion 214 were in communication with each other, the ball stayed at the ball receiving portion 214. The game ball passes through the through hole and is held by the ball holding unit 212.
Thereafter, the game ball held by the ball holding unit 212 moves downward with the rotation of the rotating body 211, and the third kind V winning opening 213 provided on the back side of the rotating body 211 and the ball holding unit. When the communication with the game ball 212 is established, the game ball held by the ball holding section 212 enters the third-type V winning opening 213.
[0071]
A third-type large winning opening 202 is provided below the rotating winning opening 210, and the third-type large winning opening 202 is closed or opened on both left and right sides of the third-type large winning opening 202. Movable pieces 201a and 201b are provided. The movable pieces 58a and 58b are open for a predetermined period in response to a game ball entering the third type V winning opening 213.
[0072]
At the lower part of the game board 14, there is provided a special winning opening 38 having a first-class V winning opening 37 (not shown) therein, and in the vicinity thereof, the large winning opening 38 is closed or opened. An opening / closing plate 40 that can be brought into a state is provided. The open / close plate 40 is opened for a predetermined period in response to a plurality of variable symbols being stopped and displayed in a predetermined combination in the variable display game.
[0073]
Below the big winning opening 38, an out opening 39 is provided for discharging a game ball reaching the lowermost side of the gaming board 14 from the gaming board 14 without entering any of the above winning openings or starting ports. Have been.
Decorative lamps 36a and 36b are provided on the upper left and upper right sides of the outside of the game board 14.
[0074]
In the pachinko gaming device 10, the game balls are enclosed in the machine and circulate in the machine. The game balls discharged from are stored in a ball storage tank 35 (not shown) provided in the pachinko gaming device 10 without being discharged outside the machine. Then, as described above, when the ball supply button 17 is operated, a predetermined number of game balls among the game balls stored in the ball storage tank 35 are supplied to the launch motor 28, and the game board is again activated by the launch motor 28. 14 will be launched.
[0075]
FIG. 4 is a front view schematically showing the prize-winning device 232 provided substantially at the center of the front surface of the game board 14.
[0076]
The winning device 232 is provided with game ball entrances 221a and 221b on the right and left sides of the upper portion thereof, respectively.
In the vicinity of the game ball entrance 221a, a movable piece 258a for opening or closing the game ball entrance 221a is provided such that the lower portion is pivotally supported and the upper portion is turned laterally. When the game ball entrance 221a is standing, the game ball entrance 221a is in a closed state, and when the movable piece 258a has fallen to the side, the game ball entrance 221a is in an open state. Similarly, near the game ball entrance 221b, a movable piece 258b that makes the game ball entrance 221b open or closed is provided.
[0077]
In the drawing, the movable pieces 258a and 258b shown by solid lines show the state when the game ball entrances 221a and 221b are opened, and the movable pieces 258a and 258b shown by broken lines show the game ball entrance 221a. And 221b in a closed state.
[0078]
The inside of the winning device 232 is divided into an upper space 225, a middle space 227 and a lower space 229 by an upper plate 231 and a middle plate 233. The game ball that has passed through the game ball entrance 221 a or 221 b enters the upper space 225 of the winning device 232. The upper plate 231 is provided with ball passage detectors 255a and 255b each having a through hole formed therein, and a game ball entering the upper space 225 passes through the ball passage detector 255a or 255b. , Enter the middle space 227.
[0079]
The middle plate 233 is provided so as to be inclined from the near side to the back side, and a center drop port 227a, a left drop port 227b, and a right drop port 227c are provided on the far side of the middle space 227. . The game ball that has passed through the ball passage detector 255a or 255b and entered the middle space 227 rolls on the middle plate 233 toward the back side, and enters the center drop port 227a, the left drop port 227b, or the right drop port 227c. And falls into the lower space 229.
[0080]
The lower space 229 is provided with a bottom plate 235 that is inclined from the back side to the near side, and the deepest side of the lower space 229 is provided with a central outlet 229a, a left outlet 229b, and a right outlet 229c. Have been.
The central discharge port 229a communicates with the above-described central drop port 227a, and the game ball that has passed through the central drop port 227a enters the lower space 229 via the central discharge port 229a.
The same applies to the left discharge port 229b and the right discharge port 229c. The left discharge port 229b communicates with the left fall port 227b, and the right discharge port 229c communicates with the right fall port 227c.
[0081]
In addition, a second-type V winning opening 238 is provided at the center on the most front side of the lower space 229, and special winning openings 256a and 256b are provided on both sides thereof.
The game ball falling into the lower space 229 after entering the center drop hole 227a, the left drop hole 227b or the right drop port 227c rolls toward the near side on the bottom plate 235, and the second kind V winning hole 238 or a special winning. It will enter the mouth 256a or 256b.
[0082]
In addition, the middle plate 233 provided in the winning device 232 is configured so that the front side can rotate downward, and the center drop port 227a, the left drop port 227b, and the right drop port 227c are set to predetermined positions. It may be configured to be able to be closed at a timing.
By doing in this way, it is possible to increase the possibility that the game ball enters the second kind V winning opening 232, and the player receives more profit and the advantageous state in the second kind jackpot state. Can be done.
[0083]
FIG. 5 is a block diagram showing a control circuit of the pachinko gaming machine according to the embodiment of the present invention.
The direction lever 15, the cancel button 18, the enter button 19, and the ball donation button 17 that constitute the control unit 13 described above are connected to an interface circuit group 62 of the control circuit 60. The interface circuit group 62 has an input / output bus 64. It is connected. When a predetermined instruction is input by operating the directional lever 15 or each button, an input signal is supplied to the input / output bus 64 via the interface circuit group 62.
[0084]
The firing handle 26 is also connected to the interface circuit group 62 of the control circuit 60. The angle signal indicating the rotation angle of the firing handle 26 is converted into a predetermined signal by the interface circuit group 62, and then the input / output bus. 64.
The input / output bus 64 is used to input / output data signals or address signals to / from a CPU 66 which is an arithmetic processing unit.
[0085]
The above-described interface circuit group 62 includes a coin detector 4 for detecting a coin inserted into the insertion slot 2 of the medal unit 1, an insertion medal sensor 8 for detecting a token inserted into the medal insertion slot 25, and A payout medal sensor 9 for detecting a medal paid out from the medal payout device 59 to the lower plate 22 is connected.
[0086]
When detecting the inserted coin, the coin detector 4 transmits a detection signal to the CPU 66 via the interface circuit group 62. On the other hand, when receiving the detection signal, the CPU 66 adds a point equivalent to the number of medals corresponding to the value of the coin to a point stored in the RAM 70 described later and stores the point. As a result, the number of credited medals has increased. Further, the CPU 66 performs a process of increasing and displaying the number of credited medals displayed on the credit amount display device 23.
[0087]
When the inserted medal sensor 8 detects the inserted medal, it transmits a detection signal to the CPU 66 via the interface circuit group 62. On the other hand, when receiving the detection signal, the CPU 66 adds a point equivalent to the number of inserted medals to a point stored in a RAM 70 described later and stores the point. As a result, the number of credited medals has increased. Further, the CPU 66 performs a process of increasing and displaying the number of credited medals displayed on the credit amount display device 23.
[0088]
The ball detection sensors 31 and 42, the first-class V winning detector 47, and the first-class large winning detector 48 are connected to the interface circuit group 62 described above. The ball detection sensor 31 is a sensor that detects a game ball that has entered one of the general winning ports 54a to 54c, and detects a game ball that has entered any one of the general winning ports 54a to 54c through the interface circuit group 62. , And transmits a detection signal to the CPU 66. On the other hand, when receiving the detection signal, the CPU 66 adds a point equivalent to the number of medals corresponding to the number of game balls to be paid out to a point stored in a RAM 70 described later, and stores the point. As a result, the number of credited medals has increased. Further, the CPU 66 performs a process of increasing and displaying the number of credited medals displayed on the credit amount display device 23.
[0089]
The ball detection sensor 42 is a sensor that detects a game ball that has entered the first-type starting port 44, and when the game ball that has entered the first-type starting port 44 is detected by the CPU 66 via the interface circuit group 62. Send a signal. On the other hand, when receiving the detection signal, the CPU 66 executes a process according to the game state, such as displaying a plurality of variable symbols in a variable manner and starting a variable display game.
[0090]
The first-type V winning detector 47 is a device that detects a game ball that has entered the first-type V winning opening 37 inside the special winning opening 38, and detects a gaming ball that has entered the first-type V winning opening 37. Upon detection, a detection signal is transmitted to the CPU 66 via the interface circuit group 62.
[0091]
The first-class large winning detector 48 is a device for detecting a game ball that has entered the special winning opening 38, and when a game ball that has entered the special winning opening 38 is detected by the CPU 66 via the interface circuit group 62. Send a signal.
[0092]
The interface circuit group 62 includes a second type A start winning detector 41, a second type B start winning detector 43, a winning ball detector 45, ball passing detectors 255a and 255b, and a second type A starting winning detector. The V winning ball detector 257 is connected.
[0093]
The second type A start winning detector 41 transmits a detection signal to the CPU 66 via the interface circuit group 62 when the game ball passes through the second type A start port 244a or 244b.
The second type B start winning detector 43 transmits a detection signal to the CPU 66 via the interface circuit group 62 when the game ball passes through the second type B start port 244c.
[0094]
The winning ball detector 45 transmits a detection signal to the CPU 66 via the interface circuit group 62 when a game ball enters the special winning port 256a or 256b provided in the winning device 232.
The ball passage detectors 255a and 255b transmit a detection signal to the CPU 66 via the interface circuit group 62 when the game ball enters the winning space 232 and then passes through the upper space 225 and enters the middle space 227. I do.
The second type V winning detector 257 transmits a detection signal to the CPU 66 via the interface circuit group 62 when the game ball enters the second type V winning opening 238.
[0095]
Further, the above-described interface circuit group 62 is connected to a third-type V winning ball detector 49 and a third-type large winning detector 50.
The third type V winning ball detector 49 transmits a detection signal to the CPU 66 via the interface circuit group 62 when the gaming ball enters the third type V winning hole 202. The third type special winning detector 50 transmits a detection signal to the CPU 66 via the interface circuit group 62 when the game ball enters the third type special winning opening 202.
[0096]
A ROM (read only memory) 68 and a RAM (random access memory) 70 are also connected to the input / output bus 64 described above. The ROM 68 stores a control program for controlling the entire game flow of the pachinko gaming machine. Further, the ROM 68 stores initial data for executing a control program, a program for controlling a blinking operation pattern of the decoration lamp 36, and the like, when a variable display game is executed on the display device 32, and when various types of big hits occur. It also stores the sound data required when performing.
[0097]
Further, the RAM 70 stores the values of flags and variables used in the above-described programs. For example, it stores new input data, a calculation result by the CPU 66, a cumulative change number indicating the game history, a cumulative jackpot number, and the like.
[0098]
Further, an interface circuit group 72 is also connected to the input / output bus 64. The speaker 46, the launching motor 28, the display device 52, the decoration lamp 36, and the holding lamp 34 are connected to the interface circuit group 72. The interface circuit group 72 is provided by the CPU 66 in accordance with the result of the arithmetic processing. A drive signal and drive power are supplied to drive each.
[0099]
The display control device 150, the credit number display device 23, and the acquired number display device 24 are connected to the interface circuit group 72, and the display device 32 is connected to the display control device 150. Further, to the interface circuit group 72, a game ball providing device 53 is also connected.
[0100]
The credit number display device 23 displays the number of credited medals, that is, the points stored in the RAM 70. The credit number display device 23 displays points according to a driving command issued from the CPU 66 in accordance with the change in the number of points.
[0101]
The number-of-acquired display device 24 temporarily displays the number of credited medals when the number of credited medals increases in response to a game ball entering the winning opening or starting opening as described above. Is what is done. When the number of points stored in the RAM 70 increases in response to the entry of a game ball into the winning opening or the starting port, the acquired number display device 24 temporarily stores the increased points in response to a driving command issued from the CPU 66. Display.
[0102]
The display control device 150 issues a drive signal for driving the display device 32 based on a drawing command issued from the control circuit 60.
The display control device 150 will be described later in detail with reference to the drawings.
[0103]
The game ball supplying device 53 is a device for supplying the game balls from the ball storage tank 35 to the firing motor 28 to enable the use of the game balls.
When the ball supply button 17 described above is operated and an instruction for requesting supply of a game ball is input, the CPU 66 sends a command signal for supplying a game ball corresponding to the point stored in the RAM 70 to the game ball supply device. Send to 53. Upon receiving the command signal, the game ball providing device 53 supplies game balls corresponding to the above points from the ball storage tank 35 to the firing motor 28. As a result, the use of the game ball becomes possible, and it becomes possible to fire the game ball on the game board 14 by operating the firing handle 26.
[0104]
The medal payout device 59 receives a predetermined instruction input by operating the direction lever 15 and the various buttons 18 to 19 constituting the control unit 13 or increases the number of credited medals to a predetermined upper limit value. Is paid out to the lower plate 22 through the medal payout exit 21 in response to the arrival of
[0105]
Further, the rotating body drive motor 33, the solenoids 55 to 57, and the solenoids 255a and 255b are connected to the interface circuit group 72.
The rotator driving motor 33 is a motor for rotating the rotator 211. The rotator 211 is always rotated in a constant direction by the rotator driving motor 33 at about 10 seconds per rotation.
[0106]
The solenoid 55 drives the opening / closing plate 40 provided near the special winning opening 38 to open and close. The solenoid 56 drives the movable pieces 201a and 201b provided on the left and right sides of the third-class large winning opening 202 to open and close, and the solenoid 57 is provided on the left and right sides of the first-type starting opening 44. The movable pieces 58a and 58b are driven to open and close.
[0107]
The solenoids 248a and 248b are for opening and closing the movable pieces 258a and 258b, and the solenoids 248a and 248b are connected to the movable pieces 258a and 258b via well-known link mechanisms, respectively.
When drive power is supplied and the solenoids 248a and 248b are excited, the movable pieces 258a and 258b fall to the side, and the game ball entrances 221a and 221b of the winning device 232 are opened, while the supply of drive power is stopped. When the solenoids 248a and 248b are demagnetized, the movable pieces 258a and 258b stand upright, and the game ball entrances 221a and 221b of the winning device 232 are closed.
[0108]
FIG. 6 is a block diagram schematically showing a circuit of the display control device described above.
The interface circuit 152 is connected to the input / output bus 154, and the drawing command issued from the control circuit 60 is supplied to the input / output bus 154 via the interface circuit 152. The input / output bus 154 is configured to input / output a data signal or an address signal to / from the CPU 156.
[0109]
The ROM 158 and the RAM 160 are also connected to the input / output bus 154 described above. The ROM 158 stores a display control program for generating a drive signal to be supplied to the display device 32 based on a drawing command issued from the control circuit 60. On the other hand, the RAM 160 stores the values of flags and variables used in the above-described programs.
[0110]
Further, an image data processor (hereinafter, referred to as VDP) 162 is also connected to the input / output bus 154. The VDP 162 includes a circuit such as a so-called sprite circuit, a screen circuit, and a pallet circuit, and is a processing device that can perform various processes for displaying an image on the display device 32.
[0111]
The VDP 162 includes a video RAM 164 for storing image data corresponding to a drawing command issued from the control circuit 60, background image data displayed as a background image, and variable design image data displayed as a variable design. Also, an image data ROM 166 for storing character image data and the like displayed as character images performing various effects is connected. Further, a drive circuit 168 that issues a drive signal for driving the display device 32 is connected to the VDP 162.
[0112]
The above-described CPU 156 reads and executes the display control program stored in the ROM 158, and causes the video RAM 164 to store the image data displayed on the display device 32 in response to the drawing command issued from the control circuit 60.
The drawing commands issued from the control circuit 60 include display commands such as a background image display command, a symbol image display command, and a character display command.
The image data ROM 166 stores background image data, variable design image data, and character image data, as described above.
[0113]
In the following, it is assumed that the pachinko gaming apparatus 10 has been activated, the variables used in the CPU 66 described above have been initialized to predetermined values, and the pachinko gaming apparatus 10 is operating normally. Next, an example of a subroutine executed in the control circuit 60 will be described with reference to the drawings.
[0114]
The pachinko gaming device described below has a first type gaming state, a second type gaming state, and a third type gaming state in a normal state (a state in which the variable display game is not played and no big hit state occurs). When a gaming state is set and a big hit state occurs, the game progresses in a gaming state corresponding to the generated big hit state, and when the big hit state ends, the pachinko gaming device progresses the game in the normal state again.
[0115]
FIG. 7 is a flowchart showing a subroutine executed in the control circuit 60 described above. This subroutine is a subroutine relating to the insertion of coins, the insertion and withdrawal of medals, and the provision of game balls, and is called at a predetermined timing from a previously executed control program for controlling the pachinko game of the pachinko game device 10. Is to be executed.
[0116]
First, the CPU 66 determines whether or not a coin has been inserted into the medal unit 1 through the insertion slot 2 (Step S10). That is, the CPU 66 determines whether a detection signal emitted from the coin detector 4 has been received.
If the coin inserted through the slot 2 is not proper, the coin is paid out through the payout slot 3, and the coin detector 4 does not emit the detection signal.
[0117]
If it is determined in step S10 that a coin has been inserted, the CPU 66 executes a credit number changing process (step S11). The credit number changing process is a process of changing the number of credited medals or changing the number of medals displayed on the credit number display device 23.
For example, when the number of credited medals is 0 and a detection signal indicating that a 500-yen coin has been inserted is received in step S10, the CPU 66 stores 25 points in the RAM 70. As a result, 25 medals corresponding to the value of the coin have been credited. Further, the CPU 66 performs a process of driving the credit amount display device 23 to display “25”.
The credit number changing process will be described later in detail with reference to the drawings.
[0118]
Next, the CPU 66 determines whether or not a medal has been inserted into the pachinko gaming device 10 through the medal insertion slot 25 (step S12). That is, the CPU 66 determines whether or not a detection signal emitted from the inserted medal sensor 8 has been received.
If the medal inserted through the medal insertion slot 25 is not proper, the medal is paid out from the medal payout opening 21 to the lower plate 22, and no detection signal is emitted from the inserted medal sensor 8. .
[0119]
If it is determined in step S12 that a medal has been inserted, the CPU 66 executes a credit number changing process (step S11). For example, if the number of credited medals is 24 and a detection signal indicating that a medal has been inserted is received in step S12, the CPU 66 adds one point to the 24 points previously stored in the RAM 70. , 25 points are stored in the RAM 70. As a result, 25 medals are credited. Further, the CPU 66 performs a process of driving the credit amount display device 23 to display “25”.
[0120]
Next, the CPU 66 determines whether or not the ball donation button 17 has been operated (step S13). That is, the CPU 66 determines whether or not an input signal issued from the ball donation button 17 has been received.
When it is determined that the ball providing button 17 has been operated, the CPU 66 performs a process of providing a number of game balls according to the point P (step S14), and further executes a credit number changing process (step S11).
[0121]
For example, when the number of credited medals is 25 and an input signal issued from the ball donation button 17 is received in step S13, the CPU 66 drives the game ball dispensing device 53, and from the ball storage tank 35, 125 game balls corresponding to 25 points previously stored in the RAM 70 are supplied to the launch motor 26, and the 125 game balls can be used. Thereafter, a credit number changing process is executed, and 25 points are subtracted from 25 points stored in the RAM 70 in advance, and stored as 0 points in the RAM 70. As a result, the number of credited medals becomes zero. Further, the CPU 66 performs a process of driving the credit amount display device 23 to display “0”.
When the subroutine shown in FIG. 7 is being executed, the control circuit 60, the ball donation button 17, and the game ball donation device 53 receive a medal to enable a predetermined number of game balls to be used. Functions as a sphere donating means.
[0122]
FIG. 8 is a flowchart showing a subroutine for changing the number of credits executed in the control circuit 60 described above. This subroutine is a subroutine called and executed in step S11 described above.
[0123]
First, the CPU 66 calculates a change number V of points (step S29).
That is, the CPU 66 converts the inserted coin, the inserted or paid-out medals, the acquired game balls, and the usable game balls into a point change number V at a predetermined conversion rate.
[0124]
The conversion rate is not particularly limited, and can be appropriately set according to the content and the difficulty of the game to be provided. Examples of the conversion rate include the following conversion rates.
(I) When a coin is inserted, the conversion rate is set to 1 point / 20 yen, and the number V of change in points is determined.
(Ii) When a medal is inserted, the conversion rate is set to 1 point / sheet, and the number of points change V is determined.
(Iii) When a game ball is obtained, the conversion rate is determined as 1 point / 5 balls, and the number V of change in points is determined.
(Iv) When medals are paid out, the conversion rate is set to 1 point / sheet, and the number V of changes in points is determined.
(V) If the game ball is usable, the conversion rate is determined as 1 point / 5 balls, and the number V of change in points is determined.
[0125]
Note that the point change number V determined by the above (i) to (iii) is a number for increasing points (increase number), and the point change number V determined by the above (iv) to (v). Is a number for reducing points (decrease number).
Further, when calculating the change number V of points according to the conversion rate as described above, when a fraction occurs for a medal or a game ball, the fraction may be rounded down. Further, the data related to the fraction may be stored and cumulatively added.
For example, when the number of acquired game balls is 12, according to the above (iii), the change number V of the points is 2, but as a fraction, there are two more game balls. In this case, two fractions may be rounded down, or the fractions may be stored as data and accumulated and added, and when the fraction becomes five, the point change number V may be added by one.
[0126]
Next, the CPU 66 calculates the changed point P ′ from the point P previously stored in the RAM 70 and the point change number V by P ± V = P ′ (step S20). When the change number V of the points is an increase number, the point P 'after the change increases as compared with the point P by P + V = P'. On the other hand, when the change number V of the point is a decrease number, the point P 'after the change is smaller than the point P due to PV = P'.
[0127]
Next, the CPU 66 determines whether or not the changed point P ′ calculated in step S20 exceeds the upper limit value 25 of the point P (step S21).
When determining that the changed point P 'does not exceed 25, the CPU 66 stores the changed point P' as the point P in the RAM 70 (step S22).
[0128]
On the other hand, when it is determined that the changed point P 'exceeds 25, payout of (P'-25) medals is performed (step S23). That is, the CPU 66 drives the medal payout device 59 to start payout of medals, and thereafter, when receiving a detection signal indicating that (P′−25) medals have been paid out from the payout medal sensor 9, The driving of the payout device 59 is stopped.
Further, the CPU 66 stores 25 as a point P in the RAM 70 (step S24).
[0129]
When the process of step S22 or S24 is performed, the CPU 66 drives the credit amount display device 23 to perform a process of displaying the point P stored in the RAM 70 as the credit amount (step S25).
Next, the CPU 66 determines whether or not the change number V calculated in step S20 is an increase number, that is, whether or not the change number V is determined by the above (i) to (iii) (step S26). ).
[0130]
When it is determined that the change number V is an increase number (when it is determined that the change number V is a number determined by the above (i) to (iii)), the change number V is temporarily obtained as the obtained number. A process of displaying the number on the number display device 24 is performed (step S27).
In steps S26 and S27, only the change number V determined in (iii) above may be displayed on the acquired number display device 24.
[0131]
In step S26, when it is determined that the change number V is not the increase number, or when the process of step S27 is performed, the present subroutine ends.
Although an explanation is omitted, when an instruction to end the game is input, all credited medals are paid out, and the number of credited medals becomes zero.
When the subroutine shown in FIG. 8 is executed, the control circuit 60 and the medal payout device 59, when a predetermined condition is satisfied, pays out medals according to the number of game balls to be paid out. It functions as a medal payout means for performing.
[0132]
Next, a game performed in the pachinko gaming device 10 will be described with reference to FIGS.
When the subroutine shown in FIG. 9 to FIG. 18 is being executed, the pachinko gaming device 10 includes, among the first-type game execution means, the second-type game execution means, and the first-type game execution means, It will function as at least one means.
[0133]
FIG. 9 is a flowchart showing a subroutine executed by the control circuit 60 for detecting a game ball. This subroutine is called and executed at a predetermined timing from a control program for controlling the pachinko game of the pachinko gaming device 10 which is executed in advance.
[0134]
First, it is determined whether or not a game ball has entered the winning opening (step S30). The winning ports are, for example, the general winning ports 54a to 54c in the example shown in FIG. That is, CPU 66 determines whether or not a detection signal emitted from ball detection sensor 31 has been received.
[0135]
If it is determined in step S30 that a game ball has entered the winning opening, the above-described credit number changing process is executed (step S11).
For example, when 10 game balls are paid out in response to the game balls entering the general winning openings 54a to 54c, the CPU 66 executes the above-described credit number changing process, and at the points stored in the RAM 70, Two points equivalent to the number of medals corresponding to the number of game balls to be paid out are added and stored. Further, the CPU 66 performs a process of increasing and displaying the number of credited medals to be displayed on the credit amount display device 23.
[0136]
Further, the CPU 66 executes a process of changing and displaying the ordinary symbols on the display device 52 (step S31). In addition, as described above, when the fluctuation-displayed normal symbol comes to a predetermined symbol when stopped, the movable pieces 58a and 58b are driven to open the first-type starting port 44, This is to make it easier for game balls to enter the first type starting port 44.
[0137]
In step S30, when it is determined that the game ball has not entered the winning opening, or when the process of step S31 has been executed, it is detected whether or not the game ball has entered the first-type starting opening (step S32). This first-type starting port is, for example, the first-type starting port 44 in the example shown in FIG. 3 described above. That is, the CPU 66 determines whether or not a detection signal emitted from the ball detection sensor 42 has been received.
[0138]
If it is determined in step S32 that a game ball has entered the first-type starting port 44, the above-described credit number changing process is executed (step S11).
For example, when five game balls are paid out in response to a game ball entering the first-type starting port 44, the CPU 66 executes the above-described credit number changing process, and at the points stored in the RAM 70, One point equivalent to the number of medals corresponding to the number of game balls to be paid out is added and stored. Further, the CPU 66 performs a process of increasing and displaying the number of credited medals to be displayed on the credit amount display device 23.
[0139]
Next, the CPU 66 determines whether or not a second-type jackpot has occurred (step S33). When it is determined that the second-type jackpot state does not occur, a lottery execution process is performed (step S34). This lottery execution process is a process of performing a lottery that determines to generate any one of the first-type jackpot, the third-type jackpot, and the loss. The lottery execution process will be described later in detail with reference to the drawings.
[0140]
In step S32, when it is determined that no game ball is in the first-type starting port 44, in step S33, when it is determined that the second-type jackpot state has occurred, or the process of step S34 is performed. In this case, next, it is determined whether or not a game ball has entered the second type starting port 244 (the second type A starting ports 244a to 244b and the second type B starting port 244c) (step S35). That is, the CPU 66 determines whether or not a detection signal issued from the second type A start winning detector 41 or the second type B start winning detector 43 has been received.
[0141]
If it is determined in step S35 that a game ball has entered the second type starting port 244, the above-described credit number changing process is executed (step S11).
For example, when 10 game balls are paid out in response to a game ball entering the second type starting port 244, the CPU 66 executes the above-described credit number changing process, and at the points stored in the RAM 70, Two points equivalent to the number of medals corresponding to the number of game balls to be paid out are added and stored. Further, the CPU 66 performs a process of increasing and displaying the number of credited medals to be displayed on the credit amount display device 23.
[0142]
Next, it is determined whether a first-class or third-class jackpot state has occurred (step S36). If it is determined that the first or third type jackpot state has not occurred, the CPU 66 executes a start winning process described later (step S37), and sets the movable pieces 258a and 258b of the winning device 233 to the open state for a predetermined period. And
[0143]
In step S35, when it is determined that the game ball is not in the second type starting port 244, in step S36, it is determined that the first or third type big hit state has not occurred, or in step S37. If the process has been executed, it is next determined whether or not a game ball has entered the third type V winning opening 213 (step S38). That is, the CPU 66 determines whether or not a detection signal emitted from the third type V winning ball detector 49 has been received. When it is determined that no game ball is in the third type V winning opening 213, the present subroutine is terminated.
[0144]
On the other hand, if it is determined that a game ball has entered the third-type V winning opening 213, the CPU 66 performs the above-described credit number change processing (step S11), and further determines whether the third-type jackpot flag is established. Is determined (step S39).
In the variable display game, the third-type jackpot flag stops and displays a plurality of variable symbols in a combination of symbols corresponding to the third-type jackpot (see FIG. 11). This flag is established when a game ball enters the winning opening 37 (see FIG. 13).
If it is determined in step S39 that the third-type jackpot flag is established, the CPU 156 performs a third-type jackpot execution process (step S400) to generate a third-type jackpot state. On the other hand, when it is determined that the third-type jackpot flag is not established, the present subroutine is terminated.
The third-type jackpot execution process will be described later in detail with reference to the drawing (FIG. 14).
[0145]
FIG. 10 is a flowchart showing a subroutine for performing the lottery execution process executed in the control circuit 60.
First, a game type determination lottery process is performed by a calculation process of the CPU 66 (step S40). The game type determination lottery process is a process of performing a lottery for determining whether to perform the first type jackpot lottery or the third type jackpot lottery. That is, the CPU 66 sets the probability table used for the game type determination lottery stored in the ROM 68 in the RAM 70 and performs sampling of random numbers.
The process of setting the probability table in the RAM 70 does not need to be performed every time step S40 is performed, and may be set in the RAM 70 at all times.
[0146]
Next, as a result of the game type determination lottery, it is determined whether or not it is determined to perform the first type jackpot lottery (step S41). That is, the CPU 66 sets data corresponding to a numerical value obtained as a result of random number sampling in the probability table set in the RAM 70 as a lottery result.
[0147]
If it is determined in step S41 that the first-type jackpot lottery is determined to be performed, the CPU 66 performs the first-type jackpot lottery that determines to generate one of the first-type jackpot and the loss (step S42). ).
On the other hand, if it is determined in step S41 that the third-type jackpot lottery is determined to be performed, the CPU 66 performs the third-type jackpot lottery that determines to generate one of the third-type jackpot and the loss ( Step S43).
These lotteries can be executed by setting a probability table stored in the ROM 68 and used for the lottery in the RAM 70 and sampling random numbers, similarly to the above-mentioned game type determination lottery.
In addition, about the third-type jackpot lottery, once the third-type jackpot flag is established in step S65 (see FIG. 13) described later, until a predetermined number of times (for example, two times) of the third-type jackpot occurs. A third-type jackpot lottery may be performed using a probability table set so that the third-type jackpot occurs with a high probability.
[0148]
When the process of step S42 or S43 is executed, next, the result of the first or third type jackpot lottery is any one of "outside", "first type jackpot" or "third type jackpot". It is determined whether or not there is (step S44).
[0149]
If it is determined in step S44 that the result of the lottery is “miss”, the CPU 66 stores the lottery data corresponding to the loss in the RAM 70 (step S45). At this time, a loss has occurred.
If it is determined in step S44 that the result of the lottery is “first-type big hit”, the CPU 66 stores the lottery data corresponding to the first-type big hit in the RAM 70 (step S46). At this time, a first-class jackpot has occurred.
If it is determined in step S44 that the result of the lottery is “third-type jackpot”, the CPU 66 stores the lottery data corresponding to the third-type jackpot in the RAM 70 (step S47). At this time, a third-class jackpot has occurred.
[0150]
When the processing of step S45, S46 or S47 has been executed, it is next determined whether or not a big hit state has occurred (step S49).
If it is determined that the big hit state has occurred, the number, color, and the like of the holding lamps 34 that are turned on are changed (step S48) to indicate to the player that the variable display game has been held.
For example, when lottery data is generated as a result of the first-type jackpot lottery, one of the holding lamps 34a to 34d is lit in red, and when lottery data is generated as a result of the third-type jackpot lottery, By illuminating one of the hold lamps 34a to 34d in blue, it is possible to recognize whether the held variable display game is related to the first type game state or the third type game state. be able to.
After performing the process in step S48, the present subroutine is terminated.
[0151]
On the other hand, if it is determined in step S49 that the big hit state has not occurred, it is determined whether or not there is a variable display game in progress (display) (step S50). Note that the variable display game in progress (display) is currently displayed on the display unit 32a of the display device 32 and is in a state where the player can see it, and the variable display game before the variable symbol is stopped and displayed. It is a game. That is, the presence of the variable display game in progress (display) means that one game ball has already entered the first-type start port 44 and the variable display game described later is being executed.
[0152]
If it is determined in step S405 that there is no variable display game in progress (display), the variable display game is started (step S51).
On the other hand, if it is determined that there is a variable display game in progress (display), the variable display game is suspended, so that the number, color, etc. of the lit suspension lamps 34 are changed as described above (step S48). ), End this subroutine.
[0153]
FIG. 11 is a flowchart showing a subroutine executed in display control device 150. This subroutine is a subroutine for displaying an image on the display unit 32a of the display device 32, and is a subroutine called and executed at a predetermined timing.
[0154]
First, the CPU 156 determines whether the current gaming state is a stopped state, a big hit state, or a state in which the variable display game is being performed based on various data obtained from the control circuit 60, a drawing command issued from the control circuit 60, and the like. It is determined which of the normal states other than these is the game state (step S100).
The stopped state is a state in which the game is not performed, but an image prompting input of an instruction for performing various settings related to the game, a so-called demonstration screen, and the like are displayed on the display unit 32a. If an instruction is input via the directional lever 15 or the various buttons 17 to 19 while an image for prompting the user to input an instruction for performing various settings related to the game is set, the setting corresponding to the instruction is performed. At the same time, an image corresponding to the instruction is displayed.
[0155]
The big hit state includes a first kind big hit state, a second kind big hit state, and a third kind big hit state. When any one of the jackpot states has occurred, in step S100, the CPU 156 determines that the gaming state is the jackpot state.
When the gaming state is the big hit state, the display unit 32a displays an effect image for making the player recognize that the big hit state is occurring and for exciting the big hit state.
Also, when the gaming state is a state in which the variable display game is being played, an effect image that excites the variable display game is displayed on the display unit 32a.
[0156]
If it is determined in step S100 that the current gaming state is the stopped state, the CPU 156 selects a background image or a character image to be an effect image, and generates screen configuration information of the effect image (step S101).
That is, the CPU 156 uses the VDP 162 to select a background image, a character image, and the like, and to generate screen configuration information, such as a background image and a character image, in the video RAM 164 based on the drawing command issued from the control circuit 60.
[0157]
Next, it is determined whether or not an instruction has been input via the direction lever 17 and the various buttons 17 to 19 constituting the control unit 13 (step S102).
When determining that the instruction has been input, the CPU 156 selects an image corresponding to the instruction and generates screen configuration information (step S103). That is, when the CPU 156 receives the input signal supplied via the control circuit 60, the CPU 156 uses the VDP 162 to select an image according to the instruction and to generate the screen configuration information of the image in the video RAM 164.
[0158]
Next, based on the screen configuration information generated in the video RAM 164 in steps S101 and S103, each image data corresponding to the screen configuration information is read from the image data ROM 166 by the VDP 162.
After that, the image data is displayed on the display device 32 by the VDP 162 based on the information on the priority and the position to be displayed in the screen configuration information, and then transmitted to the display device 32 and transmitted to the display unit 32a. It is displayed (step S104).
[0159]
The processes of steps S101 to S104 described above are repeatedly executed until it is determined in step S105 to be described later that the game has started, or in step S106, the display of the image on the display unit 32a is to be ended. Things. By repeatedly executing the processing as described above, a character image can be displayed so as to operate in a predetermined manner, or an image corresponding to an input instruction can be displayed.
[0160]
Next, the CPU 156 determines whether the game has started based on various data acquired from the control circuit 60, a drawing command issued from the control circuit 60, and the like (step S105).
When it is determined that the game has been started, the game state has shifted from the stopped state to the normal state, and thus the CPU 156 proceeds to step S111 to be described later, and performs processing for displaying an image related to the normal state.
[0161]
On the other hand, when determining that the game has not been started, the CPU 156 determines whether or not to end the display of the image on the display unit 32a (Step S106). It should be noted that the display of the image on the display unit 32a is determined to end when, for example, the supply of power to the pachinko gaming device 10 ends.
When determining that the display of the image on the display unit 32a is not to be ended, the CPU 156 returns the process to step S100, and repeatedly executes the processes of steps S100 to S105. When it is determined that the display of the image on the display unit 32a is to be ended, the present subroutine is ended.
[0162]
If it is determined in step S100 that the current gaming state is the normal state, the CPU 156 selects a background image or a character image to be an effect image, and generates screen configuration information of the effect image (step S111).
That is, the CPU 156 uses the VDP 162 to select a background image, a character image, and the like, and to generate screen configuration information, such as a background image and a character image, in the video RAM 164 based on the drawing command issued from the control circuit 60.
[0163]
Next, the CPU 156 generates screen configuration information of the remaining game ball image (step S112). That is, when the CPU 156 receives the data on the number of remaining game balls supplied via the control circuit 60, the CPU 156 selects an image of the number of remaining game balls by the VDP 162, and generates screen configuration information.
For example, when the number of credited medals is 25, and the number of game balls per one medal is 5, the remaining number of game balls is 125. At this time, when receiving data relating to the remaining number of game balls supplied via the control circuit 60, the CPU 156 selects an image indicating that the number of remaining game balls is 125 by the VDP 162, and displays the screen configuration information. Is generated.
Examples of the game ball remaining number image include an image indicating the number of game balls by a number, a bar graph, or the like, an image indicating game balls corresponding to the remaining number, and the like.
[0164]
Next, based on the screen configuration information generated in the video RAM 164 in steps S111 to S112, each image data corresponding to the screen configuration information is read from the image data ROM 166 by the VDP 162.
After that, the image data is displayed on the display unit 32a by the VDP 162 based on the information on the priority and the position to be displayed in the screen configuration information, and then transmitted to the display device 32 and transmitted to the display unit 32a. It is displayed (step S114).
[0165]
The processing in steps S111 to S112 and S114 to S115 described above is determined by determining whether the variable display game has been started in step S116 to be described later, determining that the game has ended in step S118, or displaying in step S106. The process is repeatedly executed until it is determined that the display of the image on the unit 32a is to be ended.
By repeatedly executing the processing as described above, the character image can be displayed so as to operate in a predetermined manner, or the remaining number of game balls can be displayed according to the change.
[0166]
Next, the CPU 156 determines whether a big hit state has occurred based on various data acquired from the control circuit 60, a drawing command issued from the control circuit 60, and the like (step S115).
If it is determined that the big hit state has occurred, it means that the gaming state has shifted from the normal state to the big hit state, and the CPU 156 proceeds to step S121 to be described later and performs a process of displaying an image related to the big hit state.
[0167]
On the other hand, if it is determined that the big hit state has not occurred, the CPU 156 determines whether or not the variable display game has been started based on various data obtained from the control circuit 60, a drawing command issued from the control circuit 60, and the like. Is determined (step S116).
Step S116 is processing corresponding to step S51 of the lottery execution processing routine (see FIG. 10) described above. Therefore, when the processing of step S51 of the lottery execution processing routine is performed by the control circuit 60, the display control device 150 determines in step S116 that the variable display game has been started, and displays the image related to the variable display game. The processing for displaying the data on the unit 32a is performed.
[0168]
If it is determined that the variable display game has been started, it means that the gaming state has shifted from the normal state to the state in which the variable display game is performed, and the CPU 156 reads the lottery data stored in the RAM 70 of the control circuit 60 (step S117) The process proceeds to step S200 described later, and the variable display game is started.
[0169]
On the other hand, when determining that the variable display game has not been started, the CPU 156 determines whether or not the game has ended based on various data obtained from the control circuit 60, a drawing command issued from the control circuit 60, and the like. Judge (step S118)
If it is determined that the game has ended, the game state has shifted from the normal state to the stop state, and the CPU 156 advances the process to step S101 described above.
[0170]
On the other hand, when determining that the game has not ended, the CPU 156 determines whether or not to end the display of the image on the display unit 32a (step S106).
When determining that the display of the image on the display unit 32a is not to be ended, the CPU 156 returns the process to step S100, and repeatedly executes the processes of steps S100 and S111 to S118. When it is determined that the display of the image on the display unit 32a is to be ended, the present subroutine is ended.
[0171]
If it is determined in step S100 that the current gaming state is the big hit state, the CPU 156 selects a background image or a character image to be an effect image, and generates screen configuration information of the effect image (step S121).
That is, the CPU 156 uses the VDP 162 to select a background image, a character image, and the like, and to generate screen configuration information, such as a background image and a character image, in the video RAM 164 based on the drawing command issued from the control circuit 60.
[0172]
Next, the CPU 156 generates screen configuration information of the remaining game ball image (step S122). That is, when the CPU 156 receives the data on the number of remaining game balls supplied from the control circuit 60, the CPU 156 selects an image of the number of remaining game balls by the VDP 162 and generates screen configuration information in the video RAM 164.
Note that this processing is the same as the processing in step S112 described above, and has already been described, and thus description thereof will be omitted.
[0173]
Next, the CPU 156 generates screen configuration information such as a round number image (step S123). That is, when the CPU 156 receives data related to the number of rounds supplied via the control circuit 60, the CPU 156 selects an image of the number of rounds by the VDP 162 and generates screen configuration information in the video RAM 164.
The data related to the number of rounds is data related to the number of jackpot games repeatedly performed in various jackpot states.
In step S123, as necessary, in addition to the screen configuration information of the round number image, screen configuration information of an image indicating the number of times a game ball has entered the special winning opening or the like in each big hit game is generated.
[0174]
Next, based on the screen configuration information generated in the video RAM 164 in steps S121 to S123, each image data corresponding to the screen configuration information is read from the image data ROM 166 by the VDP 162.
After that, the image data is displayed on the display unit 32a by the VDP 162 based on the information on the priority and the position to be displayed in the screen configuration information, and then transmitted to the display device 32 and transmitted to the display unit 32a. It is displayed (step S124).
[0175]
The processes in steps S121 to S124 described above are repeatedly executed until it is determined in step S125 to be described later that the jackpot state has ended, or in step S106, the display of the image on the display unit 32a is ended. Is what is done.
By repeatedly executing the processing as described above, the character image can be displayed so as to operate in a predetermined manner, or the remaining number of game balls, the number of rounds, and the like can be displayed according to the change. .
[0176]
Next, the CPU 156 determines whether or not the big hit state has ended based on various data acquired from the control circuit 60, a drawing command issued from the control circuit 60, and the like (step S125).
When it is determined that the big hit state has ended, the gaming state has shifted from the big hit state to the normal state, and thus the CPU 156 proceeds to the above-described step S111 to perform processing for displaying an image related to the normal state.
[0177]
On the other hand, when determining that the big hit state has not ended, the CPU 156 determines whether or not to end the display of the image on the display unit 32a (step S106).
When determining that the display of the image on the display unit 32a is not to be ended, the CPU 156 returns the process to step S100, and repeatedly executes the processes of steps S100 and S121 to S125. When it is determined that the display of the image on the display unit 32a is to be ended, the present subroutine is ended.
[0178]
When the process of step S117 is performed, the gaming state shifts from the normal state to a state in which the variable display game is performed, and the variable display game is started.
Here, the variable display game is a game imitating a game played in a slot machine, in which a plurality of symbols, which are a plurality of identification information, are displayed on the display unit 32a of the display device 32, and each of the plurality of symbols is displayed so as to change. After that, the game is displayed such that these symbols are sequentially stopped at a predetermined timing.
[0179]
For example, these 12 symbols are sequentially displayed on the display unit 32a as one set of symbols consisting of 12 numbers “1”, “2”,..., “12”, and the symbols move. And the symbol itself is changed. For example, on the display unit 32a, the symbol "1" is displayed so as to scroll from the top to the bottom of the display device 32, and then the symbol "2" is displayed so as to scroll from the top to the bottom. "3" is similarly displayed so as to scroll from top to bottom. After the symbol "1" to the symbol "12" are displayed in this manner, the symbol "1" is scrolled again, and the same display is sequentially repeated.
[0180]
By displaying the symbol on the display unit 32a in this manner, the symbol is scrolled from "1" to "2" and from "2" to "3" until "12" so that the symbol is sequentially changed. Is displayed, and then "1" is displayed again. The manner in which a symbol is displayed such that the symbol itself changes sequentially while moving the position of one symbol in this manner is called variable display. A mode in which a certain symbol is stopped and displayed is referred to as a stop display.
[0181]
When displaying the symbols belonging to one group on the display unit 32a, the symbols to be displayed are not limited to only one symbol belonging to the group, and a plurality of symbols, for example, two to three symbols are simultaneously displayed. You may do it. For example, when the symbol “5” is variably displayed on the display unit 32a, a portion or the whole of the symbol “4” is variably displayed below the symbol “5”, and the symbol “6” is displayed above the symbol “5”. May be variably displayed. The above-described symbol set is a concept corresponding to the symbol set displayed on one reel used in the slot machine.
[0182]
Further, when the variable display game is executed on the display unit 32a, symbols belonging to each of the plurality of sets are displayed. For example, when each of the symbols belonging to three sets is to be displayed in the horizontal direction, the symbols belonging to one set are displayed on the left side of the display unit 32a, and the symbols belonging to the other set are displayed on the display unit 32a. The symbols that are displayed in the center and belong to the remaining sets are displayed on the right side of the display unit 32a.
[0183]
By displaying the design that is the identification information in this way, a plurality of identification information is displayed on the display unit 32a. For example, when the variable display is performed such that only one of the symbols belonging to one set is always displayed, three symbols are displayed on the display unit 32a, that is, one symbol is displayed on the left side, One symbol is displayed at the center, and one symbol is displayed at the right side. Further, the number of sets when the variable display game is executed is not limited to three, and symbols belonging to a plurality of sets other than three may be displayed on the display unit 32a.
[0184]
As described above, by displaying the symbols in this way, a plurality of symbols, that is, a plurality of pieces of identification information are displayed on the display section 32a which is a display section. Further, as described above, a plurality of symbols belonging to one group may be displayed. For example, two symbols belonging to one group may be displayed so as to be simultaneously displayed in a variable manner. If a set is to be displayed, a total of six symbols are variably displayed on the display section 32a.
[0185]
After variably displaying the symbols belonging to a plurality of sets, when all the variably displayed symbols are stopped and displayed at a predetermined timing, the combination of these symbols matches the symbol combination corresponding to the first-class jackpot. When the game is stopped and displayed, it is determined that the variable display game has won the first-class jackpot, a first-class jackpot state occurs, and a predetermined profit and / or advantageous state is provided to the player. Become.
[0186]
For example, when symbols belonging to three sets are displayed on the display unit 32a, symbols belonging to one set are stopped and displayed at "7", symbols belonging to other sets are also stopped and displayed at "7", and When the symbols belonging to the set are also stopped and displayed at "7", the symbol combination matches the symbol combination "7"-"7"-"7" corresponding to the first-class jackpot, and the variable display game is executed. As a first-type jackpot is won, a first jackpot state occurs, and a predetermined profit and / or advantageous state is provided to the player.
When the first big hit state occurs, the control circuit 60 supplies an electric current to the above-mentioned solenoid 55, and the opening / closing plate 40 of the special winning opening 38 provided on the front surface of the game board 14 is in an open state, and the game ball is large. It becomes easy to enter the winning opening 38.
[0187]
Also, when all the symbols that have been displayed in a variable manner are stopped and displayed at a predetermined timing, the combination of these symbols is a combination of symbols corresponding to the third type jackpot (for example, “8” − “8” − “8”). And the like, the stop display is performed, and a chance to generate a third-type jackpot has been obtained in the variable display game, and the open / close plate 40 provided in the vicinity of the special winning opening 38 for a predetermined period is set. It becomes open.
At this time, if a game ball enters the first-type V winning opening 37 in the special winning opening 38, a third-type jackpot occurs, and thereafter, if a game ball enters the third-type V winning opening 213, the third type wins. A jackpot situation occurs, and a predetermined benefit and / or advantageous situation is provided to the player.
When the third-type big hit state occurs, the control circuit 60 supplies current to the above-described solenoid 56, and the movable pieces 201a and 201b of the third-type big winning opening 202 provided on the front surface of the game board 14 are opened. In this state, the game balls easily enter the third-class large winning opening 202.
[0188]
When the variable display game is started, first, an internal lottery process is executed by a calculation process of the CPU 66 (step S200). This internal lottery process corresponds to the lottery data stored in the RAM 70 in any one of the above-described steps S45 to S47, that is, the lottery data corresponding to the loss, the lottery data corresponding to the first-type jackpot, or the third-type jackpot. Based on the lottery data, all of the symbols belonging to the plurality of groups that have been variably displayed are stopped and displayed, and the symbol combination is determined in advance when the symbol is determined. The CPU 66 performs an internal lottery process as described later. The process of changing the display of symbols and the stop display are performed so that the symbols are stopped and displayed in the combination of symbols determined by the above.
[0189]
Next, the CPU 156 selects a background image or a character image to be an effect image, and generates screen configuration information of the effect image (step S201).
That is, the CPU 156 uses the VDP 162 to select a background image, a character image, and the like, and to generate screen configuration information, such as a background image and a character image, in the video RAM 164 based on the drawing command issued from the control circuit 60.
[0190]
Next, the CPU 156 generates screen configuration information of the remaining game ball image (step S202). That is, when the CPU 156 receives the data on the number of remaining game balls supplied from the control circuit 60, the CPU 156 selects an image of the number of remaining game balls by the VDP 162 and generates screen configuration information in the video RAM 164.
This processing is the same as the processing in step S112 described above, and has already been described, and thus description thereof will be omitted.
[0191]
Next, the CPU 156 selects an image to be a variable symbol and generates screen configuration information of the variable symbol image (step S203). That is, the CPU 156 uses the VDP 162 to select a variable symbol image and to generate screen configuration information of the variable symbol image in the video RAM 164 based on the drawing command issued from the control circuit 60.
[0192]
Next, based on the screen configuration information generated in the video RAM 164 in steps S201 to S203, the VDP 162 reads each image data corresponding to the screen configuration information from the image data ROM 166.
After that, the image data is displayed on the display unit 32a by the VDP 162 based on the information on the priority and the position to be displayed in the screen configuration information, and then transmitted to the display device 32 and transmitted to the display unit 32a. It is displayed (step S204).
[0193]
The processes in steps S201 to S204 described above are performed until it is determined in step S205 to be described later that all the variable symbols have been stopped or displayed, or in step S106, the display of the image on the display unit 32a is to be ended. Are executed repeatedly.
For example, when the processes of steps S201 to S204 are repeatedly performed, after a predetermined period has elapsed, in step S203, the screen configuration information is generated in a mode in which one variable symbol image is stopped and displayed, and thereafter, the predetermined period is set. Is passed, in step S203, the screen configuration information is generated in such a manner that one more variable symbol image is stopped and displayed. When all the variable symbols are stopped and displayed through such a process, it is determined that all the variable symbols are stopped and displayed in step S205, and the processes of steps S201 to S204 that are repeatedly executed are completed. is there.
[0194]
Next, the CPU 156 determines whether all the variable symbols have been stopped and displayed (Step S205).
When it is determined that all the fluctuation symbols are not stopped and displayed, it is determined whether or not the display of the image on the display unit 32a is to be ended (step S106).
If it is determined that the display of the image on the display unit 32a is not to be ended, the process returns to step S100, and the process of step S100 or S201 to step S205 is repeatedly executed.
[0195]
On the other hand, if it is determined that all the fluctuation symbols have been stopped and displayed, the CPU 156 next determines a plurality of fluctuation symbols in a predetermined combination (for example, “8” − “8”) by lottery data corresponding to the third-type jackpot. It is determined whether or not a stop display has been performed (step S206).
When it is determined from the lottery data corresponding to the third type jackpot that a plurality of variable symbols have been stopped and displayed in a predetermined combination, the control circuit 60 starts a special winning opening opening / closing process described later (step S207), Since the gaming state has shifted from the state in which the display game is played to the normal state, the process proceeds to step S111 described above.
[0196]
If it is determined from the lottery data corresponding to the third-type jackpot that a plurality of variable symbols are not stopped and displayed in a predetermined combination, then a plurality of variable symbols are determined by the lottery data corresponding to the first-type jackpot. It is determined whether or not the stop display is performed in a combination (for example, “7”-“7”-“7”) (step S208).
If it is determined from the lottery data corresponding to the first-type jackpot that a plurality of variable symbols have been stopped and displayed in a predetermined combination, the control circuit 60 starts a first-type jackpot execution process described later (step S209). Since the gaming state has shifted from the state in which the variable display game is played to the big hit state, the process proceeds to step S121 described above.
[0197]
If it is determined that the lottery data corresponding to the first-class jackpot is not stopped and displayed in a predetermined combination, then the CPU 156 determines whether the lottery data stored in the RAM 70 exists based on the data acquired from the control circuit 60 or the like. It is determined whether or not to perform (step S210).
If it is determined that the lottery data stored in the RAM 70 does not exist, there is no variable display game suspended, so that the game state shifts from the state in which the variable display game is played to the normal state, and The process proceeds to S111.
[0198]
On the other hand, when it is determined that the lottery data stored in the RAM 70 is present, the variable display game is held, so that the oldest lottery data is read out of the lottery data stored in the RAM 70 (step S211). ), The control circuit 60 changes the number, color, and the like of the lit lamps (Step S212), and returns the process to Step S200. Thereafter, in step S200, the CPU 156 executes an internal lottery process based on the read lottery data, and repeatedly executes the processes of steps S201 to S205 based on the result of the internal lottery process.
[0199]
In addition, when a large hit state (for example, a second type big hit state) occurs in another game state while the variable display game related to the first type or third type game state is being played, the variable display in progress is performed. The game may be interrupted, and after the variable display game ends, a big hit state in another game state may occur.
Further, if the ongoing variable display game is to be interrupted, the interrupted variable display game may be restarted after a jackpot in another game state occurs, and the interrupted variable display game may be resumed. May not be restarted.
[0200]
Next, a first-type jackpot execution process routine executed in the control circuit 60 in response to the execution of the process of step S209 shown in FIG. 11 will be described with reference to FIG.
In the following description, it is assumed that fifteen first-class jackpot games are provided intermittently in the first-class jackpot state. In addition, the first-type jackpot game is one time from when the special winning opening 38 is opened to when 10 game balls enter the special winning opening 38 or until a predetermined time elapses. It is assumed to be a game. Furthermore, one type 1 jackpot game is also referred to as one round.
[0201]
In the first-class jackpot execution process routine, first, n, which is the number of first-class jackpot games, is set to n = 1 (step S301). That is, the CPU 66 stores the fact that n = 1 in a table (round number storage table) provided in the RAM 70 for storing the number of first-class jackpot games.
[0202]
Next, it is determined whether or not it is time to open the special winning opening 38 (step S302).
If it is determined that it is time to open the special winning opening 38, the special winning opening 38 is opened (step S303).
That is, the CPU 66 supplies a drive signal to the solenoid 55 via the interface circuit group 72, thereby opening the open / close plate 40 and opening the special winning opening 38. This allows the player to insert a game ball into the special winning opening 38.
On the other hand, if it is determined that it is not the timing when the special winning opening 38 will be in the open state, the process returns to step S302.
[0203]
Next, it is determined whether or not a game ball has entered the special winning opening 38 (step S304). Whether or not a game ball has entered the special winning opening 38 is determined by whether or not a game ball has been detected by the first-class large winning detector 47 provided in the special winning opening 38.
Then, when a game ball is detected by the first-class large winnings detector 47, a detection signal is supplied to the interface circuit group 62. The CPU 66 that has received the detection signal stores the number of gaming balls in a table (first-class large winning opening game ball storage table) for storing the number of gaming balls entering the special winning opening 38 provided in the RAM 70 ( (Step S305) Further, the credit amount changing process shown in FIG. 8 is executed (Step S11).
[0204]
In step S304, when it is determined that no game ball is in the special winning opening 38, or when the credit number changing process is executed in step S11, then a predetermined number of game balls enter the special winning opening 38. It is determined whether or not it has been performed (step S307). That is, the CPU 66 compares the number of game balls stored in the first-class large winning opening game ball storage table with the predetermined number of game balls (10 balls) stored in another area of the RAM 70, and It is determined whether or not a predetermined number (ten balls) of game balls have entered the mouth 38.
[0205]
When it is determined that a predetermined number of game balls have not entered the special winning opening 38, it is determined whether a predetermined time has elapsed since the special winning opening 38 was opened (step S308). That is, the CPU 66 determines whether or not the count of the elapsed time started in step S302 has reached a predetermined time.
If it is determined that the predetermined time has not elapsed since the opening of the special winning opening 38, the process returns to step S304.
[0206]
On the other hand, when it is determined in step S307 that a predetermined number of game balls have entered the special winning opening 38, or when it is determined in step S308 that a predetermined time has elapsed, the special winning opening 38 is closed (step S309). ).
As described above, the opening time of the special winning opening 38 is determined by either the number of game balls entering the special winning opening 38 or time, and if a predetermined number of game balls enter the special winning opening 38, Even if the predetermined time has not been reached, the special winning opening 38 is closed. On the other hand, even if the number of game balls entering the special winning opening 38 does not reach the predetermined value, if the predetermined time has elapsed, the special winning opening is achieved. The mouth 38 is closed.
Further, the closing of the special winning opening 38 is performed by supplying a drive signal to the solenoid 55 through the interface circuit group 72 to close the opening / closing plate 40.
[0207]
Next, 1 is added to n, which is the number of first-class jackpot games, so that n = n + 1 is set (step S310). That is, the CPU 66 stores the number of first-class jackpot games in the round number storage table provided in the RAM 70 so that n = n + 1.
Then, it is determined whether or not the number n of first-class jackpot games is 15 or less (step S311). That is, the CPU 66 first reads the number of first-type jackpot games stored in the round number storage table, compares this number with n = 15 data stored in another area of the RAM, and It is determined whether or not the number n of the jackpot games is n ≦ 15.
[0208]
If it is determined in step S311 that the number n of first-class jackpot games is n ≦ 15, it is determined whether a game ball has entered the first-class V winning opening 37 (step S312). That is, the CPU 66 determines whether or not the detection signal issued from the first-type V winning ball detector 47 has been received while the processes of steps S304 to S308 are repeatedly executed.
If it is determined in step S312 that a game ball has entered the first-class V winning opening 37, the process returns to step S302. Therefore, in this subroutine, the first-type jackpot game is repeatedly performed as long as the game ball continues to enter the first-type V winning opening 37 in each first-type jackpot game until n exceeds 15.
On the other hand, if it is determined that n, which is the number of jackpot games, has exceeded 15, or if it is determined that a game ball has entered the first-class V winning opening 37, this subroutine is terminated.
[0209]
Next, a special winning opening opening / closing process routine executed in the control circuit 60 in response to the execution of the process of step S207 shown in FIG. 11 will be described with reference to FIG.
[0210]
First, the CPU 66 supplies a drive signal to the solenoid 55 via the interface circuit group 72, thereby opening the open / close plate 40 and opening the special winning opening 38 (step S60).
Next, it is determined whether or not a game ball has entered the special winning opening 38 (step S61). Whether or not a game ball has entered the special winning opening 38 is determined by whether or not a game ball has been detected by the first-class large winning detector 47 provided in the special winning opening 38.
When a game ball is detected by the first-class large winning detector 47, a detection signal is supplied to the interface circuit group 62. Upon receiving this detection signal, the CPU 66 executes the credit number changing process shown in FIG. 8 (step S11).
[0211]
When it is determined in step S61 that the game ball has not entered the special winning opening 38, or when the process of step S11 is performed, the CPU 66 determines that a predetermined time has elapsed since the special winning opening 38 was opened. It is determined whether or not this is the case (step S62). That is, the CPU 66 determines whether or not the count of the elapsed time started in step S60 has reached a predetermined time.
If it is determined that the predetermined time has not elapsed since the opening of the special winning opening 38, the process returns to step S61.
[0212]
On the other hand, when it is determined in step S62 that the predetermined time has elapsed, the CPU 66 supplies a drive signal to the solenoid 55 via the interface circuit group 72 to close the open / close plate 40, thereby obtaining a special winning opening. 38 is closed (step S63).
[0213]
After executing the processing of step S63, the CPU 66 determines whether or not a game ball has entered the first-class V winning opening 37 (step S64). That is, the CPU 66 determines whether or not the detection signal issued from the first-type V winning ball detector 47 has been received while the processes of steps S60 to S63 are repeatedly executed.
When it is determined that no game ball is in the first-class V winning opening 37, the present subroutine is terminated.
On the other hand, if it is determined that a game ball has entered the first-type V winning opening 37, it means that a third-type jackpot has occurred, so the CPU 66 sets a third-type jackpot flag (step S65), and executes this subroutine. finish.
[0214]
If it is determined that a game ball has entered the third-type V winning opening 213 in step S38 of the above-described game ball detection processing routine (see FIG. 9) when the third-type jackpot flag is established, the flowchart shown in FIG. In step S400 shown in FIG. 9, the third-type jackpot execution process is performed, and the third-type jackpot state occurs.
[0215]
Next, the third-type jackpot execution process called and executed in step S400 shown in FIG. 9 will be described.
FIG. 14 is a flowchart showing a subroutine for performing the third-type jackpot execution process executed in the control circuit 60.
[0216]
In the following description, it is assumed that fifteen third-type jackpot games are provided intermittently in the third-type jackpot state. In addition, in the third-type jackpot game, a predetermined time elapses from the time when the third-type big winning opening 202 is opened to the time when ten game balls enter the third-type big winning opening 202. It is assumed that the game is a game in which the game is performed once. Further, one third-type jackpot game is also referred to as one round.
[0219]
In the third-type jackpot execution process routine, first, n, which is the number of third-type jackpot games, is set to n = 1 (step S401). That is, the CPU 66 stores the fact that n = 1 in a table (round number storage table) provided in the RAM 70 for storing the number of third-type jackpot games.
[0218]
Next, it is determined whether or not it is time to open the third-class large winning opening 202 (step S402).
If it is determined that it is time to open the third-class special winning opening 202, the third-class special winning opening 202 is opened (step S403).
That is, the CPU 66 supplies a drive signal to the solenoid 56 via the interface circuit group 72, thereby opening the movable pieces 201a and 201b and opening the third-class large winning opening 202. This allows the player to insert a game ball into the third-class large winning opening 202.
On the other hand, if it is determined that it is not the timing at which the third-class large winning opening 202 will be in the open state, the process returns to step S402.
[0219]
Next, it is determined whether or not a game ball has entered the third-type special winning opening 202 (step S404). Whether or not a game ball has entered the third-class special winning opening 202 is determined based on whether or not a third-class special winning detector 50 provided in the third-class special winning detector 202 has detected a game ball.
Then, when a game ball is detected by the third-class special winning detector 50, a detection signal is supplied to the interface circuit group 62. Upon receiving this detection signal, the CPU 66 stores the number of game balls in a table (third-type special winning opening game ball storage table) for storing the number of game balls entering the third-type special winning opening 202 provided in the RAM 70. It is stored (step S405), and the credit number changing process shown in FIG. 8 is executed (step S11).
[0220]
If it is determined in step S404 that the game ball is not in the third-type special winning opening 202, or if the credit number changing process is executed in step S11, It is determined whether or not the number of game balls has entered (step S407). That is, the CPU 66 compares the number of game balls stored in the third-type special winning opening game ball storage table with the predetermined number of game balls (10 balls) stored in another area of the RAM 70, and It is determined whether or not a predetermined number (ten balls) of game balls have entered the seed winning opening 202.
[0221]
When it is determined that the predetermined number of game balls have not entered the third-type special winning opening 202, it is determined whether a predetermined time has elapsed since the third-type special winning opening 202 was opened. (Step S408). That is, the CPU 66 determines whether or not the count of the elapsed time started in step S402 has reached a predetermined time.
If it is determined that the predetermined time has not elapsed since the third-type special winning opening 202 has been opened, the process returns to step S404.
[0222]
On the other hand, when it is determined in step S407 that a predetermined number of game balls have entered the third-type special winning opening 202, or when it is determined that a predetermined time has elapsed in step S408, the third-type special winning opening 202 Is closed (step S409). As described above, the opening time of the third-class special winning opening 202 is determined by either the number of game balls entering the third-class special winning opening 202 or time, and the third-class special winning opening 202 is determined. If a predetermined number of game balls enter, the third-type special winning opening 202 is closed without reaching a predetermined time, while the number of game balls entering the third-type special winning opening 202 reaches a predetermined value. Even if it is not, the third-class large winning opening 202 is closed after a predetermined time has elapsed.
Further, the third-type large winning opening 202 is closed by supplying a drive signal to the solenoid 56 via the interface circuit group 72 to close the movable pieces 201a and 201b.
[0223]
Next, 1 is added to n, which is the number of third-type jackpot games, so that n = n + 1 is set (step S410). That is, the CPU 66 stores the number of third-type jackpot games in the round number storage table provided in the RAM 70 such that n = n + 1.
Then, it is determined whether or not the number n of the third-type jackpot games is 15 or less (step S411). That is, the CPU 66 first reads the number of third-type jackpot games stored in the number-of-rounds storage table, compares this number with data of n = 15 stored in another area of the RAM, It is determined whether or not the number n of the jackpot games is n ≦ 15.
[0224]
If it is determined in step S411 that the number n of third-type jackpot games is n ≦ 15, it is determined whether a game ball has entered the third-type V winning opening 213 (step S412). That is, the CPU 66 determines whether or not the detection signal issued from the third type V winning ball detector 47 has been received while the processes of steps S404 to S408 are repeatedly executed.
If it is determined in step S412 that a game ball has entered the third type V winning opening 213, the process returns to step S402. Therefore, in this subroutine, the third-type jackpot game is repeatedly performed as long as the game ball continues to enter the third-type V winning opening 213 in each third-type jackpot game until n exceeds 15.
On the other hand, if it is determined that n, which is the number of jackpot games, has exceeded 15, or if it is determined that a game ball has entered the third type V winning opening 213, this subroutine is terminated.
[0225]
Next, a description will be given, with reference to FIG. 15, of a start winning process executed when a game ball enters the second type start port 244.
FIG. 15 is a flowchart showing a subroutine for performing the start winning process called and executed in step S37 (see FIG. 9) described above.
[0226]
First, it is determined whether an invalid period has been set (step S520).
The invalidation period is set when the transition to the prize time is performed or when the second-type jackpot game is performed, and when the invalidation period is set, the second-type The shift to the winning time performed when the game ball enters the starting port 244 is not performed, and the game is invalidated. The timing at which the invalid period is set will be described later.
[0227]
If it is determined in step S520 that the invalid period is set, the CPU 66 ends the present subroutine.
If it is determined in step S520 that the invalid period has not been set, then it is determined whether a game ball has entered the second type A starting port 244a or 244b (step S529). When determining that the game ball has entered the second type A starting port, the CPU 66 updates (increases) the number-of-transitions data stored in the RAM 70 so that the number of transitions (C) to the winning time becomes C = C + 1. ) (Step S530).
[0228]
On the other hand, if it is determined that a game ball has not entered the second type A starting port 244a or 244b, it means that a game ball has entered the second type B starting port 244c, and the CPU 66 determines the number of transitions to the winning time. The number-of-transitions data stored in the RAM 70 is updated (increased) so that (C) becomes C = C + 2 (step S531).
When executing the processing of step S530 or S531, the CPU 66 performs a winning time transition processing (step S532), and ends the present subroutine. The prize time shift processing will be described later in detail.
[0229]
Next, the winning time transfer process will be described with reference to FIG.
FIG. 16 is a flowchart showing a subroutine for performing the winning time transition processing called and executed in step S532 described above.
[0230]
First, the CPU 66 performs a process of starting the counting of the A timer (step S540). The A timer measures the time required for shifting to the winning time, and is set to T (A) = 0 (second) at the start.
The ROM 68 stores a program in which the movable pieces 258a and 258b are opened 1.5 seconds after the start of the counting of the A timer, and the movable pieces 258a and 258b are closed after 2.0 seconds. I have. Therefore, the winning time is 0.5 seconds.
[0231]
In the description of FIG. 16, the case where the winning time is always 0.5 seconds will be described. However, in the present invention, for example, the winning time when a game ball enters the second type A starting port 244a or 244b. May be different from the period of the winning time when the game ball enters the second type B starting port 244c.
[0232]
After executing the processing in step S540, the CPU 66 determines whether T (A) <1.5, that is, whether the count of the A timer is less than 1.5 seconds (step S541). .
When determining that the count of the A timer is less than 1.5 seconds, the CPU 66 returns the process to step S541, and repeatedly executes the process of step S541 until the count of the A timer reaches 1.5 seconds.
[0233]
On the other hand, when determining that the count of the A timer is not less than 1.5 seconds, that is, determining that the count of the A timer has reached 1.5 seconds, the CPU 66 performs a process of setting an invalid period (step S542).
After the movable pieces 258a and 258b are opened in step S543, the movable pieces 258a and 258b are closed in step S546, and the invalid period is continued until the setting of the invalid period is canceled in step S547. During the invalid period, the shift to the winning time is not performed (see FIG. 15).
[0234]
Next, a process of opening the movable pieces 258a and 258b is performed (step S543). In other words, the CPU 66 supplies drive power to the solenoids 248a and 248b to excite the solenoids 248a and 248b, tilt the movable pieces 258a and 258b sideways, and open the game ball entrances 221a and 221b of the winning device 232. In such a way, a game ball enters the winning device 232.
[0235]
Next, the CPU 66 determines whether or not T (A) <2.0, that is, whether or not the count of the A timer is less than 2.0 seconds (step S544).
If it is determined that the count of the A timer is less than 2.0 seconds, the CPU 66 returns the process to step S544, and repeatedly executes the process of step S544 until the count of the A timer reaches 2.0 seconds. The pieces 258a and 258b are kept open.
[0236]
On the other hand, when determining that the count of the A timer is not less than 2.0 seconds, that is, determining that the count of the A timer has reached 2.0 seconds, the CPU 66 determines that the number of transitions to the winning time (C) is C = The process of updating the number-of-transitions data stored in the RAM 70 is performed so as to be C-1 (step S545).
[0237]
Thereafter, the CPU 66 performs a process of closing the movable pieces 258a and 258b (step S546).
That is, the CPU 66 stops the supply of the driving power to the solenoids 248a and 248b, thereby demagnetizing the solenoids 248a and 248b, making the movable pieces 258a and 258b stand, and closing the game ball entrances 221a and 221b of the winning device 232. To prevent a game ball from entering the winning device 232.
[0238]
After the operation of the movable pieces 258a and 258b in step S546 is completely completed, the CPU 66 performs processing for canceling the invalid period set in step S542 described above (step S547).
[0239]
Next, it is determined whether or not the game ball has passed the ball passage detector (step S548).
The ball passage detectors are, for example, the ball passage detectors 255a and 255b in the example shown in FIG. That is, the CPU 66 determines whether a detection signal has been received from the ball passage detector 255a or 255b.
[0240]
When it is determined in step S548 that the game ball has passed the ball passage detector 255a or 255b, a winning reception process described later is started (step S549). In this winning reception processing, the entry of game balls into the second kind V winning opening 238 provided in the winning device 232 is made effective, and the game ball enters the second kind V winning opening 238 or a special winning. A process of determining whether a game ball has entered the mouth 256a or 256b is performed. However, in step S549, only the process of starting the prize receiving process is performed, so that after the process of step S549 is performed, the prize time shift process and the prize receiving process described later are performed in parallel. Become.
[0241]
If it is determined in step S548 that the game ball has not passed the ball passage detector 255a or 255b, or if the process of step S549 is executed, the count of the A timer is terminated and cleared (step S550).
[0242]
Next, it is determined whether or not the second-type jackpot game has been started in the winning reception process started in step S549 described above (step S551).
When the second-type jackpot game is started, the movable pieces 258a and 258b are opened or closed in the second-type jackpot game, so that the movable pieces 258a and 258b are opened or closed in this subroutine. It is not possible to perform the process of setting the status. Therefore, if it is determined in step S551 that the second-type jackpot game has been started, the present subroutine ends.
[0243]
On the other hand, if the CPU 66 determines that the second-type jackpot game has not been started, the CPU 66 then determines that the number of transitions to the winning time (C) is C> 0 based on the number of transitions data stored in the RAM 70. It is determined whether or not this is the case (step S552).
If it is determined in step S552 that the number of transitions to the prize time (C) is C> 0, it means that the number of transitions to the prize time (C) remains, and the process returns to step S540. Until the number of transitions to the winning time (C) becomes C = 0, the processing of steps S540 to S551 is repeatedly executed.
[0244]
If it is determined in step S552 that the number of transitions to the prize time (C) is not C> 0, the number of transitions to the prize time (C) is 0, indicating that all the transitions to the prize time have been completed. Therefore, this subroutine ends.
[0245]
Next, a winning reception processing routine will be described with reference to FIG.
FIG. 17 is a flowchart showing a subroutine for performing the winning reception process started in step S549 described above.
[0246]
First, the CPU 66 performs a process of starting the counting of the B timer (step S560). The B timer measures the time required to accept a game ball entering the second type V winning opening 238, and is set to T (B) = 0 (second) at the start.
If no game ball enters the second-type V winning opening 238 or the special winning opening 256a or 256b by 12 seconds after the start of counting of the B timer, the winning device 232 is stored in the ROM 68. A program for inactivating the game and stopping the progress of the game when an error such as a clogged ball has occurred therein is stored.
[0247]
Next, the CPU 66 executes a process for starting V-prize reception for validating the entry of game balls into the second-type V-prize port 238 (step S561).
The V prize reception is performed until the V prize reception is completed in step S566 or step S569 described later. When the V prize reception is performed, the detection from the second type V prize ball detector 257 is performed. When receiving the signal, the CPU 66 determines that a game ball has entered the second-type V winning opening 238. On the other hand, even when a detection signal is received from the second-type V-winning ball detector 257 when the V-winning reception is not performed, the CPU 66 does not determine that a game ball has entered the second-type V-winning opening 238. . As described above, by allowing the ball to enter the second type V winning opening 238 only during the specific period during which the V winning reception is being performed, it is possible to prevent the player from being fraudulent.
[0248]
Next, it is determined whether a game ball has entered the special winning opening (step S562). The special winning openings are, for example, the special winning openings 256a and 256b in the example shown in FIG. That is, the CPU 66 determines whether or not a detection signal from the winning ball detector 45 has been received.
If it is determined in step S562 that a game ball has entered the special winning opening, the CPU 66 executes the above-described credit number changing process (step S11).
[0249]
If it is determined in step S562 that the game ball has not entered the special winning opening, or if the process of step S11 has been executed, it is determined whether the game ball has entered the second type V winning opening (step S564). . The second type V winning opening is, for example, the second type V winning opening 238 in the example shown in FIG. That is, the CPU 66 determines whether or not the detection signal from the second type V winning ball detector 257 has been received.
If it is determined in step S564 that the game ball is not in the second-type V winning opening, the CPU 66 then determines whether T (B) <12, that is, the count of the B timer is less than 12 seconds. Is determined (step S565).
[0250]
When determining that the count of the B timer is less than 12 seconds, the CPU 66 returns the process to step S562, and repeatedly executes the processes of steps S562 to S564.
On the other hand, if it is determined that the count of the B timer is not less than 12 seconds, that is, if it is determined that the count of the B timer has reached 12 seconds, the process of ending the V winning reception (step S566) and the count of the B timer are terminated. (Step S567), and a game deactivation process is performed (step S568). After the progress of the game is stopped, the present subroutine is terminated.
Even if 12 seconds have elapsed since the game ball entered the winning device 232, the game ball did not enter the second-type V winning opening 238 or the special winning opening 256a or 256b. This is because ball clogging may occur in the device 232. In the case where the game deactivation process is performed, if the clogging of the ball is eliminated by a staff member of the game hall or the like, the game is continuously performed in a normal state.
[0251]
On the other hand, if it is determined in step S564 that a game ball has entered the second type V winning opening 238, the CPU 66 terminates the V winning reception process (step S569) and ends the counting of the B timer. A clearing process (step S570) is performed, and the above-described credit number changing process is performed (step S571).
[0252]
Next, the CPU 66 performs a second-type jackpot game execution process (step S572). The second type jackpot game execution processing will be described later in detail with reference to the drawings.
[0253]
Further, the CPU 66 updates and stores the number-of-transitions data stored in the RAM 70 so that the number of transitions (C) to the winning time becomes 0 (step S574), and ends this subroutine.
[0254]
Next, the second-type jackpot game execution process will be described with reference to FIG.
FIG. 18 is a flowchart showing a subroutine for performing the second-type jackpot game execution process executed in step S572 described above.
In the following description, the number of times of opening and closing refers to the number of winning times performed in intermittent opening by the movable pieces 258a and 258b, and the number of rounds refers to the number of times of intermittent opening by the movable pieces 258a and 258b. In a single intermittent opening by the movable pieces 258a and 258b, the number of game balls entering the second-type V winning opening and the special winning opening is referred to as a winning number.
In addition, the upper limit of the number of times of opening and closing, the number of rounds, and the number of winnings is assumed to be 18, 16, and 10 balls, respectively.
[0255]
First, the CPU 66 performs a process of setting an invalid period (step S600). This invalid period is continued until the process of step S620 is performed and the setting of the invalid period is canceled when the second type jackpot game ends, and during the invalid period, the second type start is performed. The transition to the winning time due to the game ball entering the mouth 244 is not performed, and the game is suspended.
[0256]
Next, a process of setting the number of rounds (R) to R = 0, the number of opening and closing (K) to K = 0, and the number of winnings (B) to B = 0 is performed (step S601).
That is, the CPU 66 stores the number of rounds in the RAM 70 assuming that the number of rounds (R) is R = 0, stores the number of times of opening and closing assuming that the number of opening and closing (K) is K = 0, and stores the winning number (B). ) Is B = 0 and the winning number data is stored.
[0257]
In the second-type jackpot game, when the number of times of opening and closing (K) reaches 18 or the number of winnings (B) reaches 10, it is determined that a game ball has entered the second-type V winning opening 238. When the number of rounds (R) increases by one and the number of rounds (R) reaches 16, the second-type jackpot game ends.
[0258]
Next, a process of starting V-prize acceptance for validating game balls entering the second-type V-prize port 238 is executed (step S602).
The reception of the V prize is performed until the reception of the V prize is completed in step S619, which will be described later. However, this processing is the same as the processing performed in step S561, and has already been described. The description is ended.
[0259]
Thereafter, the CPU 66 performs a process of starting counting by the C timer (step S603). The C timer measures the time required for intermittent release by the movable pieces 258a and 258b in the second-type jackpot game, and is set to T (C) = 0 (second) at the start.
The ROM 68 stores a program in which the movable pieces 258a and 258b are opened 1.5 seconds after the start of the count of the C timer, and the movable pieces 258a and 258b are closed 2.5 seconds later. I have. Accordingly, one winning time in the intermittent opening by the movable pieces 258a and 258b is 1.0 second.
[0260]
After executing the processing in step S603, the CPU 66 determines whether T (C) <1.5, that is, whether the count of the C timer is less than 1.5 seconds (step S604). .
When determining that the count of the C timer is less than 1.5 seconds, the CPU 66 returns the process to step S604, and repeatedly executes the process of step S604 until the count of the C timer reaches 1.5 seconds.
[0261]
On the other hand, when determining that the count of the C timer is not less than 1.5 seconds, that is, determining that the count of the C timer has reached 1.5 seconds, the CPU 66 performs processing to open the movable pieces 258a and 258b (step S605). In other words, the CPU 66 supplies drive power to the solenoids 248a and 248b to excite the solenoids 248a and 248b, tilt the movable pieces 258a and 258b sideways, and open the game ball entrances 221a and 221b of the winning device 232. In such a way, a game ball enters the winning device 232.
[0262]
Next, the CPU 66 determines whether or not T (C) <2.5, that is, whether or not the count of the C timer is less than 2.5 seconds (step S606).
When determining that the count of the C timer is less than 2.5 seconds, the CPU 66 returns the process to step S606, and repeatedly executes the process of step S606 until the count of the C timer reaches 2.5 seconds. The pieces 258a and 258b are kept open.
[0263]
On the other hand, when determining that the count of the C timer is not less than 2.5 seconds, that is, determining that the count of the C timer has reached 2.5 seconds, the CPU 66 stops supplying the driving power to the solenoids 248a and 248b. As a result, the solenoids 248a and 248b are demagnetized, the movable pieces 258a and 258b are set up, and the game ball entrances 221a and 221b of the prize device 232 are closed so that game balls do not enter the prize device 232 (step S607). ).
Thereafter, the CPU 66 updates (increases) the opening / closing count data stored in the RAM 70 so that the opening / closing count (K) becomes K = K + 1 (step S608), and terminates and clears the count of the C timer (step S608). S609).
[0264]
Next, it is determined whether or not a game ball has entered the special winning opening 256a or 256b or the second type V winning opening 238 (step S610).
That is, the CPU 66 determines whether or not a detection signal from the winning ball detector 45 or the second type V winning ball detector 257 has been received.
If it is determined in step S610 that a game ball has entered the special winning opening 256a or 256b or the second type V winning opening 238, the CPU 66 executes the above-described credit number changing process (step S11).
Further, after executing the processing of step S11, the CPU 66 updates (increases) the winning number data stored in the RAM 70 so that the winning number (B) becomes B = B + 1 (step S612).
[0265]
In step S610, when it is determined that no game ball is in the special winning opening or the second type V winning opening, or when the process in step S612 is executed, the CPU 66 determines the winning number data stored in the RAM 70 based on the winning number data. Then, it is determined whether or not the winning number (B) is B <10 (step S613).
[0266]
If it is determined that the number of winnings (B) is B <10, that is, the number of winnings (B) is less than 10, the CPU 66 then determines the number of times of opening and closing based on the number of times of opening and closing stored in the RAM 70. It is determined whether or not (K) satisfies K <18 (step S614).
[0267]
If it is determined that the number of opening and closing (K) is K <18, the winning number (B) is less than 10 and the number of opening and closing (K) is less than 18, and the process returns to step S603. Until the winning number (B) reaches 10 or the opening / closing frequency (K) reaches 18 in step S613, the processes of steps S603 to S612 are repeatedly executed to intermittently open the movable pieces 258a and 258b. Continue to do so.
[0268]
On the other hand, if it is determined in step S613 that the winning number (B) has reached 10, or if it is determined in step S614 that the number of opening and closing (K) has reached 18, the CPU 66 determines the number of opening and closing (K). Is updated so that K = 0, and the winning number data stored in the RAM 70 is updated so that the winning number (B) becomes B = 0 (step S615). ) One intermittent release by the movable pieces 258a and 258b is completed.
Thereafter, the CPU 66 updates (increases) the round number data stored in the RAM 70 so that the round number (R) becomes R = R + 1 (step S616).
[0269]
Next, the CPU 66 determines whether or not the number of rounds (R) satisfies R <16 based on the number-of-rounds data stored in the RAM 70 (step S617).
If it is determined that the number of rounds (R) is R <16, the CPU 66 determines whether a game ball has entered the second-type V winning opening 238 during the period in which the movable pieces 258a and 258b are intermittently opened. It is determined whether or not it is (step S618). That is, the CPU 66 determines whether or not the detection signal from the V winning ball detector 57 has been received while the above-described processes of steps S603 to S614 are repeatedly executed.
[0270]
If it is determined in step S618 that the game ball has not entered the second type V winning opening 238 during the period in which the movable pieces 258a and 258b are intermittently opened, the process returns to step S603, and the process returns to step S603. The processing of S614 is repeatedly executed to intermittently open new movable pieces 258a and 258b.
[0271]
If the number of rounds (R) has reached 16 in step S617, or if it is determined in step S618 that a game ball has entered the second-type V winning opening 238, the CPU 66 determines whether the V started in step S602 described above. The process of ending the winning reception (step S619) and the process of canceling the invalid period set in step S600 are performed (step S620), and the present subroutine is ended to end the second-type jackpot game.
[0272]
Next, a screen image displayed on the display unit 32a of the display device 32 provided in the pachinko gaming device 10 will be described with reference to FIGS.
FIGS. 19 (a) to 19 (d) and FIGS. 20 (a) to 20 (d) show examples of screen images displayed on the display unit 32a of the display device 32 provided in the pachinko gaming device 10. is there.
[0273]
The screen image shown in FIG. 19A is a screen image displayed when the game is not started, that is, when the gaming state is in the stopped state (see FIG. 11).
On the upper side of the display unit 32a, an image indicating an operation procedure of "Please select a game" is displayed, and on the lower side of the image, five types of games that can be selected by the player are shown. An image is displayed. The image indicating “3” displayed on the leftmost side corresponds to the third type of game state, and the image indicating “1” displayed second from the right and the “3” displayed on the rightmost side. The image indicating "2" corresponds to the second type gaming state. For example, when the direction lever 15 and the various buttons 18 and 19 constituting the control unit 13 are operated and an image indicating “1” is selected, the game proceeds in the first type game state.
[0274]
When an image indicating “random” displayed second from the left is selected, the CPU 66 automatically selects and selects at least one of the first to third game states. The game proceeds in the playing state. Further, when an image indicating “composite” displayed at the center is selected, the game proceeds in the first to third type game states.
In the screen image shown in FIG. 19A, “composite” is selected.
[0275]
In addition, an image that prompts the player to confirm that "Is it okay with a composite game?" Is displayed below the display section 32a, and an image that shows options such as "Yes" and "No" is displayed. At this time, if "Yes" is selected, the game is started in the first to third type game states.
[0276]
The screen images shown in FIGS. 19 (b) to (d) and FIGS. 20 (a) to (d) are effect images in which four pigs, which are characters, find a large treasure chest and check the contents. . In addition, a game ball remaining number image imitating a meter is displayed on the upper portion of the display unit 32a, and the game ball remaining number image indicates the number of game balls corresponding to the number of credited medals.
[0277]
When the gaming state is the normal state (see FIG. 11), a screen image as shown in FIG. 19 (b) is displayed on the display unit 32a, and the four pigs that have found the treasure chest jump and rejoice, An image showing the appearance of running around the area is displayed.
[0278]
When a game ball enters the first-type starting port 44 when an image as shown in FIG. 19B is displayed, a first-type jackpot lottery is performed, and the first-type jackpot lottery is performed. As a result, when a first-class jackpot occurs and the variable display game is started, three variable symbols are displayed in a variable manner on the display unit 32a.
[0279]
Then, as shown in FIG. 19 (c), when the three variable symbols are stopped and displayed in the symbol combination "7"-"7"-"7" in which the first-class jackpot state occurs, the coin is removed from the treasure box. Overflows, and an image indicating that the four pigs are delighted is displayed, and a first-type jackpot state based on the first-type jackpot occurs.
[0280]
The screen image shown in FIG. 19D is a screen image displayed on the display unit 32a when the first-class big hit state occurs. On the lower left side of the display unit 32a, an image substantially similar to the effect image shown in FIG. 19C is displayed, and on the right side of the display unit 32a, an image indicating a game board, an image indicating the number of remaining rounds, An image indicating the number of game balls that can enter the special winning opening 38 is displayed.
In the image indicating the game board, an image corresponding to the special winning opening 38 is displayed in an enlarged manner, and an image indicating a plurality of arrows is displayed around the image. It is shown that the character to be targeted is the special winning opening 38. Further, in the effect image displayed on the lower left side, an image indicating “1” is displayed, which indicates that the generated big hit state is a first-class big hit state.
[0281]
On the other hand, when the variable game is being played, a game ball enters the second type starting port 244, and when the transition to the winning time is performed, the game ball enters the second type V winning port 238 of the winning device 232. Enters, a second-type jackpot occurs, the image shown in FIG. 20A is displayed on the display unit 32a, and then a second-type jackpot state occurs.
In such a case, after the variable display game ends, the second type jackpot state may occur, or the variable display game may be interrupted and the second type jackpot state may occur. Further, in the case where the variable display game is interrupted and the second type jackpot state occurs, the interrupted variable display game may be restarted after the second type jackpot state is terminated. The variable display game may not be performed.
[0282]
The screen image illustrated in FIG. 20B is a screen image displayed on the display unit 32a when the second-type jackpot state occurs. The effect image shown in FIG. 19 (c) is displayed on the lower left side of the display unit 32a in a substantially similar image. On the right side of the display unit 32a, an image showing a game board, an image showing the number of remaining rounds, An image indicating the number of game balls that can enter the second type V winning opening 238 and the special winning opening 256 is displayed.
In the image showing the game board, an image corresponding to the prize device 232 is displayed in an enlarged manner, and an image showing a plurality of arrows is displayed around the image. It is shown that the character to be taken is the winning device 232. Further, in the effect image displayed on the lower left side, an image indicating “2” is displayed, which indicates that the generated big hit state is the second type big hit state.
[0283]
In addition, when a game ball enters the first-type starting port 44 when an image as shown in FIG. 19B is displayed, a third-type jackpot lottery is performed, and the third-type jackpot is performed. As a result of the lottery, when a third-type jackpot occurs and the variable display game is started, three variable symbols are variably displayed on the display unit 32a.
[0284]
Then, as shown in FIG. 20 (c), when the three variable symbols are stopped and displayed with the symbol combination "8"-"8"-"8" in which the third-type jackpot state occurs, FIG. Similarly to c), a coin overflows from the treasure chest, and an image showing that four pigs are delighted is displayed, and a third-type jackpot state based on the third-type jackpot occurs.
[0285]
The screen image illustrated in FIG. 20D is a screen image displayed on the display unit 32a when the third-type jackpot state occurs. On the lower left side of the display unit 32a, an image substantially similar to the effect image shown in FIG. 19C is displayed, and on the right side of the display unit 32a, an image indicating a game board, an image indicating the number of remaining rounds, An image indicating the number of game balls that can enter the third-class large winning opening 202 is displayed.
In the image showing the game board, an image corresponding to the third-type large winning opening 202 and an image corresponding to the rotating winning opening 210 are enlarged and displayed, and a plurality of arrows are displayed around the image. Is displayed, indicating that the characters to be targeted in the third-type jackpot state are the third-type large winning opening 202 and the rotating winning opening 210. Further, in the effect image displayed on the lower left side, an image indicating “3” is displayed, which indicates that the generated big hit state is the third type big hit state.
[0286]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, since the display part is provided below the game board, and is not provided on a game board, the area which can install an accessory etc. widely can be ensured.
As a result, it is possible to increase the number of accessories and the like installed on the game board, and to provide a variety of games, such as a game in which a game ball must be fired while changing a target. .
In addition, since the arrangement of the accessories and the like can be greatly changed for each model, it is possible to have a variety of arrangements of the accessories and the like, so that the pachinko game itself does not get tired and various games can be performed. It becomes possible to enjoy.
[0287]
Since the display unit is provided below the game board and the display unit is not provided on the game board, even if many wirings are led out from the display device, the display device is provided on the game machine. It is possible to easily change only the game board while leaving the game, for example, to change the model only by replacing the game board with a control board or the like that stores programs etc. necessary for pachinko games Can be. Therefore, when the model is changed, the display device can be easily reused, and the cost associated with the model change can be suppressed.
[0288]
In addition, since the display unit is provided below the game board, that is, at a position relatively close to the firing handle or the like operated by the player, even if the display unit is not provided on the game board, it can be seen. It is possible to enthusiastically play the game without causing difficulty or discomfort. Furthermore, since the game balls are sealed in the machine and circulated in the machine, there is no need to provide an upper plate for storing the game balls supplied to the firing handle, and the upper plate is omitted and the upper plate is provided. It is also possible to provide a display unit at the position where it was set. As a result, the layout can be made compact, and the degree of freedom in the arrangement of each member can be increased.
[Brief description of the drawings]
FIG. 1 is a front view schematically showing a pachinko gaming device according to the present invention.
FIG. 2 is a perspective view of the pachinko gaming device shown in FIG.
FIG. 3 is an enlarged front view schematically showing a game board surface of the pachinko gaming machine shown in FIG.
FIG. 4 is a front view schematically showing a winning device provided on the game board of the pachinko gaming device shown in FIG.
FIG. 5 is a block diagram showing a control circuit of the pachinko gaming machine shown in FIG.
6 is a block diagram showing an internal structure of a display control device of the pachinko gaming device shown in FIG.
FIG. 7 is a flowchart showing a subroutine for performing a game ball providing process executed in the pachinko gaming machine.
FIG. 8 is a flowchart showing a subroutine for performing a credit number changing process executed in the pachinko gaming machine.
FIG. 9 is a flowchart showing a subroutine for performing a game ball detection process executed in the pachinko gaming device.
FIG. 10 is a flowchart showing a subroutine for performing a lottery execution process executed in the pachinko gaming device.
FIG. 11 is a flowchart showing a subroutine for performing display unit display processing executed in the pachinko gaming device.
FIG. 12 is a flowchart showing a subroutine for performing a first-class jackpot execution process executed in the pachinko gaming device.
FIG. 13 is a flowchart showing a subroutine for performing a special winning opening opening / closing process executed in the pachinko gaming machine.
FIG. 14 is a flowchart showing a subroutine for performing a third-type jackpot execution process executed in the pachinko gaming device.
FIG. 15 is a flowchart showing a subroutine for performing a start winning process executed in the pachinko gaming device.
FIG. 16 is a flowchart showing a subroutine for performing a winning time transition process executed in the pachinko gaming device.
FIG. 17 is a flowchart showing a subroutine for performing a winning reception process executed in the pachinko gaming device.
FIG. 18 is a flowchart showing a subroutine for performing a second-type jackpot execution process executed in the pachinko gaming device.
FIG. 19 is a view illustrating an example of a screen image displayed on the display unit of the pachinko gaming device.
FIG. 20 is a diagram illustrating an example of a screen image displayed on the display unit of the pachinko gaming device.
[Explanation of symbols]
1 Medal unit
2 Input port
3 Refund port
10. Pachinko game machines (game machines)
12 Body frame
13 Control unit
14 Game board
15 direction lever
16 window frames
17 Ball donation button
18 Cancel button
19 Enter button
22 Lower plate
23 Credit display device
24 Acquisition number display device
25 Medal slot
26 Launch handle
28 launch motor
30 Guide rail
31 Ball detection sensor
32 display device
32a display
34 Hold lamp
36 Decorative lamp
38 Grand Prize Winner
39 Out mouth
40 opening and closing plate
42 Ball Detection Sensor
44 First Class Startup
46 speaker
51 Rolling guide member
52 Display device
54 General Winners
58, 201, 258 Movable piece
60 control circuit
66 CPU
68 ROM
70 RAM
150 Display control device
202 Third Class Grand Prize
210 Revolution winning opening
211 rotating body
212 ball holder
213 Third Class V Winner
214 Ball receiver
232 Winning device
238 Type 2 V Winner
244 Type 2 starting port

Claims (1)

A display unit in which at least a plurality of variable symbols that can be stopped and displayed are variably displayed, and
A gaming machine equipped with a game board on which a game ball is launched,
In the game board, obstacle nails that can change the direction in which the game ball falls,
An accessory that operates in response to the fulfillment of certain conditions,
A winning port where game balls can enter,
In response to the entering of the game ball, a variation opening of the plurality of variation symbols or a starting port for performing the operation of the accessory is provided, and further,
The display unit is provided below the gaming board,
A gaming machine, wherein the gaming ball is sealed in the machine and circulated in the machine.

Images