JP2019201828A - Game machine - Google Patents

Abstract

To provide a game machine capable of exactly grasping a problem of a movable body.SOLUTION: A game machine capable of performing a game includes: a plurality of movable bodies; movable body control means capable of individually controlling operation of the movable bodies; and special notification means capable of executing special notification, based on satisfaction of a predetermined condition. The special notification means can grasp which movable body is operating normally by executing notification capable of checking whether or not each of the movable bodies is operating normally as special notification.SELECTED DRAWING: Figure 22-18

Description

  The present invention relates to a gaming machine capable of playing a game.

  Conventionally, in a gaming machine including a movable body, when a malfunction of the movable body is confirmed by operating the movable body when performing initialization of the movable body, and it is determined that there is a malfunction, the light emission mode of the lamp There is one that reports a problem by changing (see, for example, Patent Document 1).

JP 2016-36514 A

  However, in Patent Document 1, there is a problem that it is not possible to accurately grasp the malfunction of the movable object simply by notifying that there is a malfunction in the movable body.

  The present invention has been made paying attention to such problems, and an object thereof is to provide a gaming machine capable of accurately grasping a defect of a movable object.

In order to solve the above-described problem, a gaming machine according to means 1 of the present invention provides:
A gaming machine capable of performing a game (for example, a pachinko gaming machine 1),
A plurality of movable bodies (for example, a first movable body 116SG032L, a second movable body 116SG032R, a third movable body 116SG032U, a fourth movable body 116SG032D);
Movable body control means capable of individually controlling the operation of the movable body (for example, the first control body 116SG032L, the second movable body 116SG032R, the third movable body 116SG032U, and the fourth movable body are provided as a movable body operation effect by the effect control CPU 120. 116SG032D can be operated individually),
Based on the fact that the predetermined condition is satisfied (for example, the channel of the setting changeover switch 116SG400 is set to “C”), special notification means (for example, the effect control CPU 120 can execute the notification control shown in FIG. 22-9). As a part of the process related to the setting changeover switch shown in FIG.
With
The special notification means can execute a notification capable of confirming whether or not each of the movable bodies is operating normally as the special notification (for example, the origin position sensor of each movable body in the operation check result image). And the part that displays “○”, “△”, “×”, etc. in the column of the production position sensor)
It is characterized by that.
According to this feature, it is possible to grasp which movable body is operating normally.

The gaming machine of means 2 of the present invention is the gaming machine described in means 1,
The special notification means can execute notification by displaying a special screen (for example, an operation check result image in the image display device 5) as the special notification, and based on the display of the special screen, the movable notification unit Each of the bodies is sequentially operated in a predetermined manner so that it can be confirmed whether or not each of the movable bodies is operating normally (for example, as shown in FIG. 22-18, the operation is performed in the image display device 5). While displaying the check result image, the operation check of each movable body is executed in order, and “O”, “△”, “×” are sequentially displayed in the column of the origin position sensor and the effect position sensor corresponding to each movable body. Etc.)
It is characterized by that.
According to this feature, it is possible to easily recognize which movable body is a movable body that is informed whether or not it is operating normally on the special screen.

The gaming machine of means 3 of the present invention is the gaming machine according to means 1 or means 2,
A setting operation unit capable of performing a plurality of different settings (for example, changing the volume output from the speakers 8L and 8R, shifting to the power saving mode, and checking the operation of each movable body, the push button 31B, the stick controller 31A, etc.) by the setting operation. (For example, setting changeover switch 116SG400)
The special notification means performs the special notification when a specific setting is set in the setting operation unit at power-on (for example, as shown in the first modification, power is supplied to the pachinko gaming machine 1). (The part that sequentially checks the operation of each movable body based on the fact that the channel of the setting changeover switch 116SG400 is set to "C" when it is started)
It is characterized by that.
According to this feature, it is possible to prevent the notification from being improperly executed by performing the specific setting in the setting operation unit after activation.

The gaming machine of means 4 of the present invention is the gaming machine described in means 3,
An effect execution means capable of executing an effect (for example, a portion where the effect control CPU 120 executes the effect control process),
An operation unit (for example, a stick controller 31A or a push button 31B) capable of receiving an operation associated with the production;
With
The special notification means sequentially operates each of the movable bodies in a predetermined manner on condition that a specific setting is set in the setting operation unit at power-on and a specific operation is received in the operation unit (for example, As shown in the first modification, the channel of the setting changeover switch 116SG400 is set to “C” and the power supply to the pachinko gaming machine 1 is started for a predetermined period (for example, 10 seconds). In addition, the operation check of each movable body is sequentially executed based on the operation of the push button 31B a predetermined number of times (for example, five times).
It is characterized by that.
According to this feature, even if the specific setting is erroneously set in the setting operation unit when the power is turned on, it is possible to prevent the movable body from being operated in a predetermined manner.

The gaming machine of means 5 of the present invention is the gaming machine according to means 4,
The special notification means determines that the operation is not normally performed and executes the special notification when the predetermined operation is not completed by a predetermined determination period after the predetermined operation is started (for example, When the origin position sensor or origin position sensor corresponding to the movable body subject to the operation check is OFF when the last process timer set in the movable body operation check processing has timed out (in the processing of 116SGS251, 116SGS262, 116SGS281) (When it is determined as N), it is set in the portion where “Δ” is displayed in the column of the origin position sensor or the effect position sensor of the movable body subject to the motion check in the motion check result image, or in the movable body motion recheck process. Corresponding to the movable object whose operation is to be checked when the last process timer expires When the origin position sensor or the origin position sensor is OFF (when determined to be N in the processing of 116SGS322, 116SGS338, 116SGS351), the origin position sensor or the effect position sensor of the movable body subject to the operation check in the operation check result image ("X" in the field)
According to this feature, it is possible to quickly and accurately determine that the device is not operating normally.

A gaming machine of means 6 of the present invention is the gaming machine according to any of means 3 to means 5,
The special notification means terminates the special notification when the setting in the setting operation unit is changed to a setting different from the specific setting, and positions the movable body at the initial position for all the movable bodies. (For example, when it is determined that the channel of the setting changeover switch 116SG400 is set to a value other than “C” in 116SGS231 of the movable body operation check process and 116SGS301 of the movable body operation recheck process) (The portion where the control CPU 120 executes the movable body origin return operation processing shown in FIG. 22-14)
It is characterized by that.
According to this feature, all the movable bodies can be reliably positioned at the initial position.

The gaming machine of means 7 of the present invention is the gaming machine according to any one of means 1 to means 6,
The special notification means can execute notification by displaying a special screen on which whether or not each of the movable bodies is operating normally is displayed as the special notification (for example, in FIG. 22-18). As shown, in the operation check result image, “O”, “△”, “X”, etc. can be displayed at the same time in the column of the origin position sensor and effect position sensor corresponding to each movable body)
It is characterized by that.
According to this feature, it can be quickly confirmed whether or not each of the movable bodies is operating normally.

  In addition, this invention may have only the invention specific matter described in the claim of this invention, and has a structure other than this invention specific matter with the invention specific matter described in the claim of this invention. It may be a thing.

It is a front view of the pachinko gaming machine in this embodiment. It is a block diagram which shows the various control boards etc. which were mounted in the pachinko game machine. It is a flowchart which shows an example of a game control main process. It is a flowchart which shows an example of the timer interruption process for game control. It is a flowchart which shows an example of a special symbol process process. It is a flowchart which shows an example of production control main processing. It is a flowchart which shows an example of production control process processing. It is a figure for demonstrating the variation pattern and the kind of reach. It is a figure showing an example of production operation. It is a figure showing an example of production operation. It is a figure showing an example of production operation. It is a figure showing an example of production operation. It is a figure showing an example of production operation. It is a figure showing an example of production operation. It is a flowchart which shows an example of a notice effect determination process. It is a figure which shows the determination ratio in a notice effect determination process. It is a figure which shows the example of production | presentation operation | movement of a modification. It is a figure which shows the example of production | presentation operation | movement of a modification. It is a figure which shows the example of production | presentation operation | movement of a modification. It is a front view of a pachinko gaming machine. It is a block diagram which shows the various control boards etc. which were mounted in the pachinko game machine. It is a rear perspective view of a pachinko gaming machine. It is a back perspective view of the pachinko gaming machine of the state where the frame for gaming machines is opened. (A), (B) is a figure which illustrates an effect control command. It is explanatory drawing which shows each random number. It is a figure which illustrates a fluctuation pattern. It is explanatory drawing which shows a display result determination table. It is explanatory drawing which shows the big hit classification determination table. It is explanatory drawing which shows the content of various jackpots. (A) is explanatory drawing which shows the big hit fluctuation pattern judgment table (for big hit A), (B) is the explanatory drawing which shows the big hit fluctuation pattern judgment table (for big hit B, big hit C), (C) FIG. 5 is an explanatory diagram showing a small hit variation pattern determination table. It is explanatory drawing which shows the fluctuation pattern determination table for loss. It is a block diagram which shows the structural example of the data holding area for game control. It is a front view which shows the structure of a 2nd special variable winning ball apparatus. (A) is a front view of a display monitor, (B) is explanatory drawing explaining the display content of a display monitor. It is a figure which shows the structure of a part of storage area in RAM of a main board | substrate. It is the figure which showed the memory map of CPU in a main board | substrate. It is the figure which showed the RAM area corresponding to the storage area of main board RAM. (A) is a time chart which shows the display time of the item displayed on a display monitor, (B-1)-(B-6) is explanatory drawing explaining the change of the display content of a display monitor. It is explanatory drawing explaining the movement of the data memorize | stored in the storage area of the ring buffer. It is a flowchart which shows a part of game control main process. It is explanatory drawing which shows the display mode of the display monitor in a setting change process. It is a flowchart which shows an example of the timer interruption process for game control. It is a flowchart which shows an example of a special symbol process process. It is a flowchart which shows an example of production control main processing. It is a flowchart which shows an example of production control process processing. It is a figure which shows the production | generation aspect of a 1st start winning effect and a 2nd start winning effect. It is a figure which shows the production | presentation aspect during a fluctuation | variation display. It is a figure which shows the production | presentation aspect during a fluctuation | variation display. It is a figure which shows the effect aspect in the variation display in the modification 1. FIG. It is a figure which shows the production | presentation aspect in the variation display in the modification 2. FIG. It is a figure which shows the production | presentation aspect in the variation display in the modification 2. FIG. It is explanatory drawing which shows the display mode of the display monitor in the setting change process in the modification 3. (A) is explanatory drawing which shows the display mode of the display monitor in the modification 4, (B) is explanatory drawing explaining the change of the display content of the display monitor in the modification 4. FIG. It is a figure which shows the security cover in the modification 5. FIG. It is a figure which shows opening and closing of the frame for game machines in the modification 5. FIG. It is a figure which shows the security cover in the modification 6. FIG. It is a figure which shows opening and closing of the frame for game machines in the modification 6. FIG. It is explanatory drawing which shows the pachinko game machine in the modification 7. It is a figure which illustrates an effect control command. It is a flowchart which shows an example of a setting value conversion process. It is explanatory drawing which shows the conversion method to the setting secret value of a setting value. It is explanatory drawing which shows a part of display mode of the display monitor in a setting change process. It is a flowchart which shows an example of a command analysis process. It is a flowchart which shows an example of a setting value update process. It is explanatory drawing which shows the determination ratio of a morning ichi background effect (setting value suggestion effect). It is a block diagram which shows the various control boards etc. which were mounted in the pachinko game machine. It is a rear perspective view of a pachinko gaming machine. (A), (B) is a figure which illustrates an effect control command. It is explanatory drawing which shows each random number. It is a figure which illustrates a fluctuation pattern. It is explanatory drawing which shows a display result determination table. It is explanatory drawing which shows the big hit classification determination table. It is explanatory drawing which shows the content of various jackpots. (A) is explanatory drawing which shows the big hit fluctuation pattern judgment table (for big hit A), (B) is the explanatory drawing which shows the big hit fluctuation pattern judgment table (for big hit B, big hit C), (C) FIG. 5 is an explanatory diagram showing a small hit variation pattern determination table. It is explanatory drawing which shows the fluctuation pattern determination table for loss. It is a flowchart which shows a game control main process. It is a flowchart which shows a setting value confirmation process. (A) is a flowchart showing the RAM processing, and (B) is a schematic diagram of the RAM. It is a flowchart which shows a setting change process. It is a flowchart which shows a part of timer interruption process. It is a flowchart which shows a power-off detection process. It is a flowchart which shows an example of production control main processing. Explanatory drawing which shows the information memorize | stored in RAM, and the state cleared. It is explanatory drawing which shows the initial symbol for every received command. It is explanatory drawing which shows the alerting | reporting aspect at the time of starting of a pachinko game machine. It is a flowchart which shows a power-off detection process. It is a flowchart which shows a part of effect control process process. 16 is a flowchart showing a setting change process in Modification 8. 18 is a flowchart showing a part of effect control main processing in Modification 8. It is a figure which shows the display mode of the image display apparatus in the modification 8. It is a figure which shows the display mode of the image display apparatus in the modification 9. It is a figure which shows the display mode of the image display apparatus in the modification 10. It is a front view of a pachinko gaming machine. It is a block diagram which shows the various control boards etc. which were mounted in the pachinko game machine. (A), (B) is a figure which illustrates an effect control command. It is explanatory drawing which shows the operation | movement aspect of each movable body. It is the schematic of an effect control board. It is a figure which shows a setting switch. It is a flowchart which shows a game control main process. It is a flowchart which shows production control main processing. It is a flowchart which shows a setting changeover switch related process. It is a flowchart which shows a movable body operation | movement check process. It is a flowchart which shows a movable body operation | movement check process. It is a flowchart which shows a movable body operation | movement recheck process. It is a flowchart which shows a movable body operation | movement recheck process. It is a flowchart which shows a movable body origin return operation | movement process. It is explanatory drawing of the character color of the operation check result image for every model ID of a pachinko gaming machine. It is explanatory drawing which shows the operation example of operation control at the time of non-detection and operation control for real operation confirmation. It is explanatory drawing which shows the example of operation speed of operation control at the time of non-detection and operation control for actual operation confirmation. It is a figure which shows the display mode of an image display apparatus. It is a figure which shows the display mode of the image display apparatus in the modification 13.

(Basic explanation)
First, a basic configuration and control of the pachinko gaming machine 1 (which is also a configuration and control of a general pachinko gaming machine) will be described.

(Configuration of pachinko machine 1)
FIG. 1 is a front view of a pachinko gaming machine 1 and shows an arrangement layout of main members. The pachinko gaming machine (game machine) 1 is roughly divided into a gaming board (gauge board) 2 constituting a gaming board surface, and a gaming machine frame (base frame) 3 for supporting and fixing the gaming board 2. A game area is formed on the game board 2, and a game ball as a game medium is launched into a game area from a predetermined hitting device.

  In a predetermined position of the game board 2 (in the example shown in FIG. 1, to the right of the game area), a variable display (also called a special figure game) of special symbols (also called special figures) as a plurality of types of special identification information is provided. A first special symbol display device 4A and a second special symbol display device 4B to be performed are provided. Each of these consists of a 7-segment LED or the like. The special symbol is represented by a number indicating “0” to “9” or a lighting pattern such as “−”. The special symbol may include a pattern in which all LEDs are turned off.

  The “variable display” of the special symbol is, for example, to display a plurality of special symbols in a variable manner (the same applies to other symbols described later). Examples of the fluctuation include an update display of a plurality of symbols, a scroll display of a plurality of symbols, deformation of one or more symbols, and enlargement / reduction of one or more symbols. In the case of a special symbol or a variation of a normal symbol described later, a plurality of types of special symbols or normal symbols are updated and displayed. In the variation of the decorative pattern described later, a plurality of types of decorative patterns are scroll-displayed or updated, or one or more decorative symbols are deformed or enlarged / reduced. Note that the variation includes an aspect in which a certain symbol is blinked. At the end of the variable display, a predetermined special symbol is stopped as a display result (also referred to as derivation or derivation display) (the same applies to variable display of other symbols described later). Note that variable display may be expressed as variable display or fluctuation.

  The special symbol variably displayed on the first special symbol display device 4A is also referred to as “first special symbol”, and the special symbol variably displayed on the second special symbol display device 4B is also referred to as “second special symbol”. In addition, the special figure game using the first special figure is referred to as a “first special figure game”, and the special figure game using the second special figure is also referred to as a “second special figure game”. There may be one kind of special symbol display device that performs variable display of special symbols.

  An image display device 5 is provided near the center of the game area on the game board 2. The image display device 5 includes, for example, an LCD (liquid crystal display device), an organic EL (Electro Luminescence), and the like, and displays various effect images. The image display device 5 may be composed of a projector and a screen. Various effect images are displayed on the image display device 5.

  For example, on the screen of the image display device 5, in synchronization with the first special symbol game or the second special symbol game, decorative symbols (such as symbols indicating numbers) as a plurality of types of decorative identification information different from the special symbols. The variable display is performed. Here, in synchronization with the first special game or the second special game, the decorative symbols are variably displayed in the left, middle, and right decorative symbol display areas 5L, 5C, and 5R (for example, up and down) Direction scroll display and update display). Note that the special display game and the variable display of the decorative symbols executed in synchronism are collectively referred to simply as variable display.

  On the screen of the image display device 5, there may be provided a display area for displaying a hold display corresponding to the variable display for which execution is suspended and an active display corresponding to the variable display being executed. The hold display and the active display are collectively referred to as a variable display compatible display corresponding to the variable display.

  The number of variable displays that are held is also called the number of stored memories. The number of reserved memories corresponding to the first special figure game is also referred to as a first reserved memory number, and the number of reserved memories corresponding to the second special figure game is also referred to as a second reserved memory number. The total of the first reserved memory number and the second reserved memory number is also referred to as the total reserved memory number.

  In addition, a first hold indicator 25A and a second hold indicator 25B configured to include a plurality of LEDs are provided at predetermined positions on the game board 2, and the first hold indicator 25A indicates the number of LEDs lit. To display the first reserved memory number, and the second reserved indicator 25B displays the second reserved memory number according to the number of lit LEDs.

  Below the image display device 5, a winning ball device 6A and a variable winning ball device 6B are provided.

  The winning ball apparatus 6A forms a first start winning opening that is maintained in a certain open state in which a game ball can always enter, for example, by a predetermined ball receiving member. When a game ball enters the first start winning opening, a predetermined number of (for example, three) prize balls are paid out and the first special game can be started.

  The variable winning ball device 6B (ordinary electric accessory) forms a second start winning opening that is changed between a closed state and an open state by a solenoid 81 (see FIG. 2). The variable winning ball apparatus 6B includes, for example, an electric tulip-shaped accessory having a pair of movable wing pieces, and when the movable wing piece is in a vertical position when the solenoid 81 is off, the tip of the movable wing piece Is close to the winning ball device 6A, and the game ball enters the closed state in which the game ball does not enter the second starting winning port (also referred to as the second starting winning port is closed). On the other hand, the variable winning ball device 6B is in an open state in which the game ball can enter the second starting winning opening when the movable blade piece is in the tilted position when the solenoid 81 is in the on state (second starting ball). It is also said that the winning opening is open.) When a game ball enters the second start winning opening, a predetermined number (for example, three) of prize balls are paid out and the second special game can be started. Note that the variable winning ball device 6B is not limited to the one having an electric tulip type accessory as long as it changes between a closed state and an open state.

  At a predetermined position of the game board 2 (in the example shown in FIG. 1, four places in the lower left and right sides of the game area), there are provided general winning holes 10 that are always kept in a certain open state by a predetermined ball receiving member. In this case, when entering any of the general winning ports 10, a predetermined number (for example, 10) of game balls are paid out as prize balls.

  Below the winning ball device 6A and the variable winning ball device 6B, a special variable winning ball device 7 having a large winning opening is provided. The special variable winning ball apparatus 7 includes a large winning opening door that is opened and closed by a solenoid 82 (see FIG. 2), and the special winning opening as a specific area that changes between an open state and a closed state by the large winning opening door. Form.

  As an example, in the special variable winning ball device 7, when the solenoid 82 for the special winning opening door (for the special electric accessory) is in the OFF state, the large winning opening door closes the large winning opening and the game ball is large. You will not be able to enter (pass) the winning entrance. On the other hand, in the special variable winning ball apparatus 7, when the solenoid 82 for the special prize opening door is in the ON state, the special prize opening door opens the big prize opening, so that the game ball can easily enter the special prize opening. Become.

  When game balls enter the big prize opening, a predetermined number (for example, 14) of game balls are paid out as prize balls. When game balls enter the big prize opening, for example, more prize balls are paid out than when game balls enter the first start prize opening, the second start prize opening, and the general prize opening 10, for example.

  The entry of a game ball into each winning opening including the general winning opening 10 is also referred to as “winning”. In particular, winning at the starting port (first starting winning port, second starting winning port starting port) is also referred to as starting winning.

  A normal symbol display 20 is provided at a predetermined position of the game board 2 (on the left side of the game area in the example shown in FIG. 1). As an example, the normal symbol display 20 is composed of 7-segment LEDs and the like, and variably displays normal symbols as a plurality of types of normal identification information different from the special symbols. A normal symbol is represented by a number indicating “0” to “9” or a lighting pattern such as “−”. The normal symbol may include a pattern in which all LEDs are turned off. Such variable display of normal symbols is also called a general game.

  On the left side of the image display device 5, a passing gate 41 through which a game ball can pass is provided. Based on the fact that the game ball has passed through the passing gate 41, the usual game is executed.

  Above the normal symbol display 20, a universal figure holding display 25 </ b> C is provided. The general figure hold display unit 25C is configured to include, for example, four LEDs, and displays the number of general figure hold storage, which is the number of general figure games that are being executed, by the number of lighted LEDs.

  In addition to the above-described configuration, the surface of the game board 2 is provided with a windmill for changing the flow direction and speed of the game ball and a number of obstacle nails. In the lowermost part of the game area, there is provided an out port through which game balls that have not entered any winning port are taken.

  Speakers 8L and 8R for reproducing and outputting sound effects and the like are provided at the left and right upper positions of the gaming machine frame 3, and a game effect lamp 9 for game effects is provided at the periphery of the game area. ing. The game effect lamp 9 includes an LED.

  At a predetermined position (not shown in FIG. 1) of the game board 2, a movable body 32 that operates in accordance with the performance is provided.

  At the lower right position of the gaming machine frame 3, there is provided a hitting operation handle (operation knob) 30 that is operated by a player or the like in order to launch a game ball toward the game area by the hitting ball launching device.

  At a predetermined position of the gaming machine frame 3 below the gaming area, a game ball paid out as a prize ball or a game ball lent out by a predetermined ball lending machine is held (stored) so as to be supplied to a ball hitting device. ) Is provided. Below the upper plate, there is provided a hitting ball supply plate (lower plate) from which prize balls are paid out when the upper plate is full.

  At a predetermined position of the gaming machine frame 3 below the gaming area, a stick controller 31A that can be held and tilted by the player is attached. The stick controller 31A is provided with a trigger button that can be pressed by the player. The operation on the stick controller 31A is detected by the controller sensor unit 35A (see FIG. 2).

  At a predetermined position of the gaming machine frame 3 below the game area, a push button 31B is provided that allows the player to perform a predetermined instruction operation by a pressing operation or the like. An operation on the push button 31B is detected by a push sensor 35B (see FIG. 2).

  In the pachinko gaming machine 1, the stick controller 31 </ b> A and the push button 31 </ b> B are provided as detection means for detecting the player's operation (operation, etc.), but other detection means may be provided.

(Outline of game progress)
A game ball is launched toward the game area by a rotation operation by the player to the hitting operation handle 30 provided in the pachinko gaming machine 1. When the game ball passes through the passing gate 41, a normal game by the normal symbol display 20 is started. In the case where the game ball passes through the passing gate 41 during the previous execution of the normal game, etc. (when the game ball passes through the pass gate 41 but the normal game based on the pass cannot be immediately executed). The usual game based on the passage is suspended up to a predetermined upper limit number (for example, 4).

  In this ordinary game, if a specific ordinary symbol (a symbol per ordinary symbol) is stopped and displayed, the display result of the ordinary symbol becomes “per ordinary symbol”. On the other hand, if a normal symbol other than the symbols per ordinary symbol (ordinary symbol losing symbol) is stopped and displayed as the fixed ordinary symbol, the display result of the ordinary symbol becomes “ordinary symbol losing”. When the “normal hit” is reached, an opening control is performed to open the variable winning ball device 6B for a predetermined period (the second start winning opening is opened).

  When a game ball enters the first start winning opening formed in the winning ball device 6A, the first special figure game by the first special symbol display device 4A is started.

  When the game ball enters the second start winning opening formed in the variable winning ball device 6B, the second special symbol game by the second special symbol display device 4B is started.

  If a game ball enters (wins) a start winning opening during a period during which a special figure game is being executed or during a period where a big hit gaming state or a small hit gaming state, which will be described later, is controlled (a start winning has occurred) In the case where the special game based on the start prize cannot be immediately executed), the special game based on the entry is suspended until a predetermined upper limit number (for example, 4).

  In a special game, if a specific special symbol (a jackpot symbol, for example, “7”, the actual symbol differs depending on the jackpot type to be described later) is stopped and displayed as a special symbol, it will be a “hit” symbol. If a predetermined special symbol different from (a small hit symbol, for example, “2”) is stopped and displayed, “small hit” is obtained. In addition, if a special symbol (losing symbol, for example, “-”) different from the big hit symbol or the small winning symbol is stopped and displayed, it is “lost”.

  After the display result in the special figure game becomes “big hit”, the big hit gaming state is controlled as an advantageous state advantageous to the player. After the display result in the special figure game becomes “small hit”, the game is controlled to the small hit gaming state.

  In the big hit game state, the player can obtain a prize ball by causing the game ball to enter the big prize opening. Therefore, the big hit gaming state is an advantageous state for the player. The greater the number of rounds in the big hit gaming state, and the longer the opening upper limit period, the more advantageous for the player.

  Note that a “big hit” is set as the big hit type. For example, a number of types of opening of the big prize opening (number of rounds and opening upper limit period) and gaming state after the big hit gaming state (described later, normal state, short-time state, probability change state, etc.) are prepared, and depending on them Type is set. As the jackpot type, there may be provided a jackpot type that can obtain many prize balls, or a jackpot type that has few prize balls or hardly obtains prize balls.

  In the small hit gaming state, the special winning opening formed by the special variable winning ball apparatus 7 is opened in a predetermined opening mode. For example, in the small hit game state, the same opening mode as the big hit game state in the case of some big hit types (the number of times of opening of the big prize opening is the same as the number of rounds, and the closing timing of the big prize opening is also the same. Etc.), the grand prize opening is opened. Similar to the big hit type, the small hit type may be provided for the “small hit”.

  After the big hit gaming state is ended, depending on the big hit type, it may be controlled to a short time state or a probable change state.

  In the short-time state, control (short-time control) is executed to shorten the average special figure change time (period during which the special figure is changed) compared to the normal state. In the short-time state, by reducing the average normal map change time (period in which the normal map is changed) from the normal state, or by improving the probability of “per normal map” in the normal game, than the normal state, Control (high opening control, high base control) that makes it easy for the game ball to enter the second start winning opening is also executed. The short-time state is a state advantageous for the player because the variation efficiency of the special symbol (especially the second special symbol) is improved.

  In the probability variation state (probability variation state), in addition to the time reduction control, probability variation control is executed in which the probability that the display result is “big hit” is higher than in the normal state. The probability variation state is a state that is more advantageous for the player because it is likely to be a “hit” in addition to the improvement of the variation efficiency of the special symbol.

  The short-time state or the probability change state continues until any one end condition such as that a predetermined number of special game has been executed and the next big hit game state has been established. A game whose end condition is that a predetermined number of special game has been executed is also referred to as a number of cuts (short time cut, number change probability change, etc.).

  The normal state is a gaming state other than a special state such as a big hit gaming state advantageous for the player, a short-time state, a probable change state, etc., and the display result in the ordinary game is “per ordinary figure”. The pachinko gaming machine 1 such as the probability and the probability that the display result in the special figure game is “big hit” is the initial setting state of the pachinko gaming machine 1 (for example, when a system reset is performed, a predetermined return after power-on) This is the same control as when the process was not executed.

  A state in which the probability variation control is being executed is also referred to as a high probability state, and a state in which the probability variation control is not being performed is also referred to as a low probability state. The state where the time reduction control is executed is also referred to as a high base state, and the state where the time reduction control is not executed is also referred to as a low base state. By combining these, it is said that the short-time state is a low-accuracy and high-base state, the probability variation state is a high-accuracy and high-base state, the normal state is a low-accuracy and low-base state, and the like. The highly accurate state and the low base state are also referred to as a highly accurate low base state.

  After the small hit game state ends, the game state is not changed, and the game state before the display result of the special game is “small hit” is controlled continuously (however, “small hit” occurs) If the special figure game at the time is the special figure game of the predetermined number of times, the gaming state is naturally changed). It should be noted that there is no “small hit” as the display result of the special game.

  Note that the gaming state may change based on the fact that the gaming ball has passed a specific area (for example, a specific area in the big prize opening) during the big hit gaming state. For example, when the game ball passes through a specific area, the game ball may be controlled to be in a probable change state after the big hit game state.

(Progress of production, etc.)
In the pachinko gaming machine 1, various effects (effects for notifying the progress of the game or exciting the game) are executed according to the progress of the game. The production will be described below. The effect is performed by displaying various effect images on the image display device 5, but in addition to or instead of the display, audio output from the speakers 8L and 8R and / or the game effect lamp 9 This may be performed by turning on / off the light, and the operation of the movable body 32.

  In the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R provided in the image display device 5, the first special game or the first game is produced as an effect executed in accordance with the progress of the game. Corresponding to the start of the 2 special figure game, the variable display of the decorative symbols is started. At the timing when the display result (also referred to as a fixed special symbol) is stopped and displayed in the first special symbol game or the second special symbol game, the fixed decorative symbol (a combination of three decorative symbols) that is the display result of the variable decorative symbol display ) Is also stopped (derived).

  In the period from the start of the variable display of the decorative design to the end thereof, the variable display mode of the decorative design may be a predetermined reach mode (reach is established). Here, the reach mode is a variable display for decorative symbols that have not been stopped yet when the decorative symbols stopped on the screen of the image display device 5 constitute a part of a jackpot combination described later. It is a mode that is continuing.

  In addition, a reach effect is executed in response to the above-described reach mode during variable display of decorative symbols. In the pachinko gaming machine 1, the ratio of the display result (the display result of the special figure game or the display result of the variable display of the decorative pattern) according to the production mode becomes “big hit” (also called the big hit reliability or the big hit expectation). Different types of reach production are executed. Reach production includes, for example, normal reach and super reach with higher hit reliability than normal reach.

  When the display result of the special figure game is “big hit”, a predetermined decorative pattern that is a predetermined big hit combination is derived as a display result of variable display of decorative symbols on the screen of the image display device 5 (decoration) The display result of the variable display of the symbol is “big hit”). As an example, the same decorative symbols (for example, “7”, etc.) are stopped and displayed together on predetermined active lines in the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R. .

  In the case of “probable big hit”, which is controlled to the probable change state after the big hit gaming state, odd numbers of decorative symbols (for example, “7”, etc.) are all stopped and displayed, and after the big hit gaming state is finished, In the case of a “non-probable big hit (normal big hit)” that is not controlled, an even number of decorative symbols (for example, “6”, etc.) may be stopped and displayed together. In this case, odd-numbered decorative symbols are also referred to as probability variation symbols, and even-numbered decorative symbols are also referred to as non-probable variation symbols (normal symbols). After becoming a reach mode with a non-probable variation pattern, a promotion effect that finally becomes a “probability large hit” may be executed.

  When the display result of the special game is “small hit”, as a display result of variable display of decorative symbols on the screen of the image display device 5, a fixed decorative symbol (for example, “ 1 3 5 "etc.) is derived (the display result of the variable display of the decorative symbol is" small hit "). As an example, the decorative symbols constituting the chance eye are stopped and displayed on the predetermined effective lines in the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R. In addition, when the display result of the special figure game becomes “big hit” of some big hit types (big hit type of big hit gaming state in the same manner as the small hit gaming state) and when it becomes “small hit” A common fixed decorative symbol may be derived and displayed.

  When the display result of the special figure game is “losing”, the decorative display variable display mode is not the reach mode, but the non-reach combination fixed display pattern (“ (Also referred to as “non-reach lose”) may be stopped (the display result of the variable display of the decorative pattern may be “non-reach lose”). Further, when the display result is “losing”, after the decorative display variable display mode becomes the reach mode, the predetermined reach combination (“reach loss”) that is not a big hit combination is displayed as the variable display display result of the decorative design. In other cases, the fixed decorative symbol (also referred to as “definitely”) is stopped and displayed (the display result of the variable display of the decorative symbol is “reach lose”).

  The effects that can be executed by the pachinko gaming machine 1 include displaying the variable display corresponding display (hold display or active display). As other effects, for example, a notice effect for notifying the jackpot reliability is executed during variable display of decorative symbols. The notice effect includes a notice effect for notifying the big hit reliability in the variable display being executed, and a pre-read notice effect for notifying the big hit reliability in the variable display before execution (variable display for which execution is suspended). As the pre-reading notice effect, an effect of changing the display mode of the variable display compatible display (hold display or active display) to a mode different from the normal mode may be executed.

  Further, in the image display device 5, by temporarily stopping the decorative design during the variable display of the decorative design and then restarting the variable display, the single variable display is made to appear as a plurality of variable displays in a pseudo manner. A pseudo-continuous effect may be executed.

  Even during the big hit game state, the big hit effect for informing the big hit game state is executed. As the big hit effect, an effect for notifying the number of rounds or a promotion effect indicating that the value of the big hit gaming state may be executed. In addition, during the small hit game state, the small hit effect during the small hit game state is executed. In addition, the big hit game in the small hit game state and a part of the big hit type (a big hit type of the big hit gaming state in the same manner as the small hit gaming state, for example, a big hit type in which the subsequent gaming state is a high probability state) By executing a common effect with the state, the player may not know whether the current state is the small hit game state or the big hit game state. In such a case, a common performance is executed after the end of the small hit gaming state and after the end of the big hit gaming state, so that it is not possible to identify the high probability state or the low probability state. May be.

  Further, for example, when a special game or the like is not being executed, a demonstration (demonstration) image is displayed on the image display device 5 (a customer waiting demonstration effect is executed).

(Board configuration)
In the pachinko gaming machine 1, for example, a main board 11, an effect control board 12, an audio control board 13, a lamp control board 14, and a relay board 15 as shown in FIG. 2 are mounted. In addition, various boards such as a payout control board, an information terminal board, a launch control board, and a power supply board are disposed on the back surface of the pachinko gaming machine 1.

  The main board 11 is a control board on the main side, and the progress of the above-described game in the pachinko gaming machine 1 (execution of a special game (including management of holding), execution of a general game (including management of holding), jackpot A gaming state, a small hit gaming state, a gaming state, and the like). The main board 11 includes a game control microcomputer 100, a switch circuit 110, a solenoid circuit 111, and the like.

  The game control microcomputer 100 mounted on the main board 11 is, for example, a one-chip microcomputer, which includes a ROM (Read Only Memory) 101, a RAM (Random Access Memory) 102, a CPU (Central Processing Unit) 103, and the like. And a random number circuit 104 and an I / O (Input / Output port) 105.

  The CPU 103 performs a process for controlling the progress of the game (a process for realizing the function of the main board 11) by executing a program stored in the ROM 101. At this time, various data stored in the ROM 101 (data such as later-described variation patterns, later-described effect control commands, and various tables referred to when making various determinations described later) are used, and the RAM 102 is used as the main memory. . The RAM 102 is a backup RAM in which a part or all of the RAM 102 is stored for a predetermined period even when power supply to the pachinko gaming machine 1 is stopped. Note that all or a part of the program stored in the ROM 101 may be expanded in the RAM 102 and executed on the RAM 102.

  The random number circuit 104 counts numerical data indicating various random number values (game random numbers) used for controlling the progress of the game in an updatable manner. The game random number may be updated by CPU 103 executing a predetermined computer program (updated by software).

  The I / O 105 includes, for example, an input port to which various signals (detection signals described later) are input, and various signals (the first special symbol display device 4A, the second special symbol display device 4B, the normal symbol display device 20, the first hold). And an output port for transmitting a signal for controlling (driving) the display hold device 25B, the second hold display device 25B, the general-purpose hold display device 25C, etc., and a solenoid drive signal).

  The switch circuit 110 is configured to detect detection signals (game balls pass or not) from various switches for detecting a game ball (gate switch 21, start port switch (first start port switch 22A and second start port switch 22B), count switch 23). A detection signal indicating that the switch has entered and the switch is turned on is taken in and transmitted to the game control microcomputer 100. Through the transmission of the detection signal, the passing or entry of the game ball is detected.

  The solenoid circuit 111 sends a solenoid drive signal (for example, a signal for turning on the solenoid 81 or the solenoid 82) from the game control microcomputer 100 to the solenoid 81 for the ordinary electric accessory or the solenoid 82 for the grand prize opening door. To transmit.

  The main board 11 (game control microcomputer 100) sends an effect control command (a command for designating (notifying) the progress of the game) according to the progress of the game as part of the control of the progress of the game. 12 is supplied. The effect control command output from the main board 11 is relayed by the relay board 15 and supplied to the effect control board 12. The production control command includes, for example, various determination results on the main board 11 (for example, a display result of a special figure game (including a jackpot type), a variation pattern used when the special figure game is executed (details will be described later) )), A game status (for example, start and end of variable display, open status of a big prize opening, occurrence of winning, number of reserved memories, gaming state), a command specifying an error, and the like.

  The production control board 12 is a sub-side control board independent of the main board 11, receives production control commands, and produces productions (various productions according to the progress of the game) based on the received production control commands. (Including various notifications such as driving of the movable body 32, error notification, notification of power failure recovery, etc.).

  On the effect control board 12, an effect control CPU 120, a ROM 121, a RAM 122, a display control unit 123, a random number circuit 124, and an I / O 125 are mounted.

  The effect control CPU 120 executes a program stored in the ROM 121 to execute an effect together with the display control unit 123 (a process for realizing the above-described function of the effect control board 12 and an effect to be executed). Including the determination of At this time, various data (data such as various tables) stored in the ROM 121 is used, and the RAM 122 is used as a main memory.

  The effect control CPU 120 displays the execution of the effect based on detection signals from the controller sensor unit 35A and the push sensor 35B (signals output when an operation by the player is detected and indicating the operation content as appropriate). The control unit 123 may be instructed.

  The display control unit 123 includes a VDP (Video Display Processor), a CGROM (Character Generator ROM), a VRAM (Video RAM), and the like, and executes an effect based on an execution instruction from the effect control CPU 120.

  The display control unit 123 causes the image display device 5 to display the effect image by supplying the image display device 5 with a video signal corresponding to the effect to be executed based on the effect execution instruction from the effect control CPU 120. The display control unit 123 further supplies a sound designation signal (a signal for designating the sound to be output) to the sound control board 13 in order to perform sound output synchronized with the display of the effect image and turn on / off the game effect lamp 9. Or a lamp signal (a signal designating the lighting / extinguishing mode of the lamp) is supplied to the lamp control board 14. Further, the display control unit 123 supplies a signal for operating the movable body 32 to the movable body 32 or a drive circuit that drives the movable body 32.

  The audio control board 13 is equipped with various circuits for driving the speakers 8L and 8R, drives the speakers 8L and 8R based on the sound designation signal, and outputs the audio designated by the sound designation signal from the speakers 8L and 8R. Let

  The lamp control board 14 is equipped with various circuits for driving the game effect lamp 9, drives the game effect lamp 9 based on the ramp signal, and turns on / off the game effect lamp 9 in a manner specified by the ramp signal. To do. In this way, the display control unit 123 controls audio output and lamp on / off.

  The production control CPU 120 executes sound output, lamp on / off control (sound designation signal, lamp signal supply, etc.) and control of the movable body 32 (supply of a signal for operating the movable body 32, etc.). You may do it.

  The random number circuit 124 counts numerical data indicating various random values (effect random numbers) used for executing various effects in an updatable manner. The effect random number may be updated (updated by software) when the effect control CPU 120 executes a predetermined computer program.

  For example, the I / O 125 mounted on the effect control board 12 transmits an input port for receiving an effect control command transmitted from the main board 11 and the like, and various signals (video signal, sound designation signal, ramp signal). Output port.

  Substrates other than the main board 11 such as the effect control board 12, the sound control board 13, and the lamp control board 14 are also referred to as sub-boards. A plurality of sub-boards may be provided for each function as in the pachinko gaming machine 1, or one sub-board may be configured to have a plurality of functions.

(Operation)
Next, the operation (action) of the pachinko gaming machine 1 will be described.

(Main operations of the main board 11)
First, main operations in the main board 11 will be described. When power supply to the pachinko gaming machine 1 is started, the game control microcomputer 100 is activated and the CPU 103 executes game control main processing. FIG. 3 is a flowchart showing a game control main process executed by the CPU 103 on the main board 11.

  In the game control main process shown in FIG. 3, the CPU 103 first sets prohibition of interruption (step S1). Subsequently, necessary initial settings are made (step S2). The initial setting includes setting of a stack pointer, register setting of a built-in device (CTC (counter / timer circuit), parallel input / output port, etc.), setting for making the RAM 102 accessible.

  Next, it is determined whether or not the output signal from the clear switch is on (step S3). The clear switch is mounted on, for example, a power supply board. When the power is turned on while the clear switch is on, an output signal (clear signal) is input to the game control microcomputer 100 via the input port. When the output signal from the clear switch is on (step S3; Yes), an initialization process (step S8) is executed. In the initialization process, the CPU 103 performs a RAM clear process for clearing flags, counters, and buffers stored in the RAM 102, and sets initial values in the work area.

  Further, the CPU 103 transmits an effect control command for instructing initialization to the effect control board 12 (step S9). When the effect control CPU 120 receives the effect control command, for example, the image display device 5 displays a screen for notifying that the control of the gaming machine has been initialized.

  If the output signal from the clear switch is not on (step S3; No), it is determined whether backup data is stored in the RAM 102 (backup RAM) (step S4). When the power supply to the pachinko gaming machine 1 is stopped due to an unexpected power failure or the like (power failure), the CPU 103 executes a power supply stop process immediately before it becomes unable to operate due to the stop of the power supply. In the power supply stop process, a process for turning on a backup flag indicating that data is backed up in the RAM 102, a data protection process for the RAM 102, and the like are executed. Data protection processing includes addition of error detection codes (checksum, parity bits, etc.) and processing for backing up various data. The data to be backed up includes various data (including various flags and various timer states) for progressing the game, as well as the status of the backup flag and an error detection code. In step S4, it is determined whether or not the backup flag is on. When the backup flag is off and backup data is not stored in the RAM 102 (step S4; No), an initialization process (step S8) is executed.

  When the backup data is stored in the RAM 102 (step S4; Yes), the CPU 103 checks the data of the backed up data (performed using the error detection code) and determines whether the data is normal (step). S5). In step S5, for example, it is determined whether or not the data in the RAM 102 matches the data when the power supply is stopped, based on the parity bit and the checksum. If it is determined that they match, it is determined that the data in the RAM 102 is normal.

  If it is determined that the data in the RAM 102 is not normal (step S5; No), the internal state cannot be returned to the state at the time of stopping the power supply, so the initialization process (step S8) is executed.

  When it is determined that the data in the RAM 102 is normal (step S5; Yes), the CPU 103 performs a recovery process (step S6) for returning the internal state of the main board 11 to the state when the power supply is stopped. In the restoration process, the CPU 103 sets a work area based on the storage contents of the RAM 102 (contents of backed up data). As a result, when the game state is restored when the power supply is stopped and the special symbol is changing, the change of the special symbol is resumed from the state before the recovery by executing the game control timer interrupt processing described later. Will be.

  And CPU103 transmits the production control command which instruct | indicates the recovery | restoration from a power interruption to the production control board 12 (step S7). In conjunction with this, an effect control command for designating a backed-up gaming state before power interruption, or an effect control for designating the display result of the special figure game being executed when the special figure game is being executed. A command may be transmitted. As these commands, the same commands as those set for transmission in the special symbol process processing described later can be used. When the effect control CPU 120 receives the effect control command for specifying the time of recovery from the power interruption, for example, the image display device 5 notifies that the power recovery from the power interruption has been made or is being recovered from the power interruption. To display the screen. The effect control CPU 120 may perform an appropriate screen display based on the effect control command.

  After finishing the restoration process or the initialization process and transmitting the effect control command to the effect control board 12, the CPU 103 executes a random number circuit setting process for initializing the random number circuit 104 (step S10). Then, the CTC register built in the game control microcomputer 100 is set so that a timer interrupt is periodically taken every predetermined time (for example, 2 ms) (step S11), and an interrupt is permitted (step S12). ). Thereafter, the loop processing is started. Thereafter, an interrupt request signal is sent from the CTC to the CPU 103 every predetermined time (for example, 2 ms), and the CPU 103 can periodically execute timer interrupt processing.

  When the CPU 103 that has executed such a game control main process receives an interrupt request signal from the CTC and receives an interrupt request, the CPU 103 executes a game control timer interrupt process shown in the flowchart of FIG. When the game control timer interrupt process shown in FIG. 4 is started, the CPU 103 first executes a predetermined switch process, thereby causing the gate switch 21, the first start port switch 22A, the second start port through the switch circuit 110. Whether or not detection signals are received from various switches such as the switch 22B and the count switch 23 is determined (step S21). Subsequently, an abnormality diagnosis of the pachinko gaming machine 1 is performed by executing a predetermined main-side error process, and a warning can be generated if necessary according to the diagnosis result (step S22). Thereafter, by executing a predetermined information output process, for example, jackpot information (information indicating the number of occurrence of jackpot) supplied to a hall management computer installed outside the pachinko gaming machine 1, start information (start Data such as information indicating the number of winnings) and probability variation information (information indicating the number of times the probability has changed) is output (step S23).

  Subsequent to the information output process, a game random number update process for updating at least a part of the game random numbers used on the main board 11 side by software is executed (step S24). Thereafter, the CPU 103 executes special symbol process processing (step S25). The CPU 103 executes special symbol process processing for each timer interrupt, thereby realizing management of special symbol game execution and suspension, control of a big hit gaming state or a small hit gaming state, control of a gaming state, etc. Later).

  Following the special symbol process, a normal symbol process is executed (step S26). The CPU 103 executes the normal symbol process for each timer interruption, thereby managing the execution and holding of the ordinary game based on the detection signal from the gate switch 21 (based on the game ball passing through the passing gate 41), The opening control of the variable winning ball apparatus 6B based on “per figure” is enabled. The ordinary game is executed by driving the normal symbol display device 20, and the ordinary figure display number is displayed by turning on the ordinary symbol display device 25C.

  After executing the normal symbol process, a process when a power interruption occurs, a process for paying out a prize ball, or the like may be performed as part of the game control timer interrupt process. Thereafter, the CPU 103 executes command control processing (step S27). The CPU 103 may transmit and set an effect control command in each of the above processes. In the command control process of step S27, a process of transmitting the effect control command set for transmission to a sub-side control board such as the effect control board 12 is performed. After executing the command control process, the interrupt is permitted and then the game control timer interrupt process is terminated.

  FIG. 5 is a flowchart showing an example of processing executed in step S25 shown in FIG. 4 as the special symbol process. In this special symbol process, the CPU 103 first executes a start winning determination process (step S101).

  In the start winning determination process, a process of detecting occurrence of a start winning, storing hold information in a predetermined area of the RAM 102, and updating the hold memory number is executed. When a start winning occurs, a random number value for determining a display result (including a jackpot type) and a variation pattern is extracted and stored as hold information. Further, based on the extracted random number value, a process for determining in advance a display result or a variation pattern may be executed. After storing the hold information and the number of reserved memories, transmission setting for transmitting an effect control command for designating determination results such as the occurrence of a start prize, the number of reserved memories, and the prefetch determination is performed on the effect control board 12. . The effect control command at the time of a start winning set in this way is transmitted from the main board 11 to the effect control board 12 by, for example, executing the command control process in step S27 shown in FIG. Is transmitted.

  After executing the start winning determination process in S101, the CPU 103 selects and executes one of the processes in steps S110 to S120 according to the value of the special figure process flag provided in the RAM 102. In each process (steps S <b> 110 to S <b> 120) of the special symbol process, transmission settings for transmitting an effect control command corresponding to each process to the effect control board 12 are performed.

  The special symbol normal process of step S110 is executed when the value of the special symbol process flag is “0” (initial value). In this special symbol normal process, whether or not to start the first special symbol game or the second special symbol game is determined based on the presence or absence of the hold information. Also, in the special symbol normal processing, whether or not the display result of the special symbol or decorative symbol is “big hit” or “small hit” based on the random number value for determining the display result, and the big hit type when “big hit” is assumed Is determined (predetermined) before the display result is derived and displayed. Further, in the special symbol normal process, a confirmed special symbol (any one of the big hit symbol, the small hit symbol, or the lost symbol) to be stopped and displayed in the special symbol game is set according to the determined display result. Thereafter, the value of the special symbol process flag is updated to “1”, and the special symbol normal process ends. The special game using the second special figure may be executed with priority over the special game using the first special figure (also referred to as special figure 2 priority digestion). In addition, the winning order of the game balls to the first start winning opening and the second starting winning opening may be stored, and the start condition of the special figure game may be established in order of winning (also referred to as winning order digestion).

  When various determinations are made based on random number values, various tables stored in the ROM 101 (tables in which determination values to be compared with random number values are assigned to the determination results) are referred to. The same applies to other decisions on the main board 11 and various decisions on the effect control board 12. In the effect control board 12, various tables are stored in the ROM 121.

  The variation pattern setting process in step S111 is executed when the value of the special figure process flag is “1”. In this variation pattern setting process, one of multiple types of variation patterns can be selected using a random value for determining the variation pattern based on the result of prior determination of whether or not the display result is “big hit” or “small hit”. The process to decide on is included. In the variation pattern setting process, when the variation pattern is determined, the value of the special figure process flag is updated to “2”, and the variation pattern setting process ends.

  Fluctuation patterns include special game execution time (special graphic variable time) (also the execution time of decorative symbol variable display), decorative symbol variable display mode (such as presence / absence of reach), and variable decorative symbol display The content of the production (the type of reach production, etc.) is designated and is also called a variable display pattern.

  The special symbol variation process in step S112 is executed when the value of the special symbol process flag is “2”. This special symbol variation process includes a process for setting the special symbol to be varied in the first special symbol display device 4A and the second special symbol display device 4B, and an elapsed time after the special symbol starts to vary. It includes processing to measure Further, it is also determined whether or not the measured elapsed time has reached a special figure fluctuation time corresponding to the fluctuation pattern. When the time elapsed since the start of the special symbol variation reaches the special symbol variation time, the value of the special symbol process flag is updated to “3”, and the special symbol variation process is terminated.

  The special symbol stop process in step S113 is executed when the value of the special symbol process flag is “3”. In this special symbol stop process, the first special symbol display device 4A or the second special symbol display device 4B stops the variation of the special symbol, and stops (displays) the definite special symbol that is the display result of the special symbol. The process to set for is included. When the display result is “big hit”, the value of the special figure process flag is updated to “4”. On the other hand, when the big hit flag is off and the display result is “small hit”, the value of the special figure process flag is updated to “8”. When the display result is “lost”, the value of the special figure process flag is updated to “0”. When the display result is “small hit” or “losing”, the gaming state is also updated when the time reduction state or the probability variation state is controlled and when the end of the number cut is established. When the value of the special figure process flag is updated, the special symbol stop process ends.

  The big hit release pre-processing in step S114 is executed when the value of the special figure process flag is “4”. This pre-opening process for jackpots includes a process for starting the execution of the round in the jackpot gaming state and setting the open winning opening based on the fact that the display result is “hit” It is. When the big prize opening is in an open state, a process of supplying a solenoid drive signal to the solenoid 82 for the big prize opening door is executed. At this time, for example, an open upper limit period in which the big winning opening is opened or an upper limit execution number of rounds is set corresponding to which of the big hit types. When these settings are finished, the value of the special figure process flag is updated to “5”, and the big hit release pre-processing is finished.

  The big hit release processing in step S115 is executed when the value of the special figure process flag is "5". The big hit opening process includes a process for measuring the elapsed time since the big winning opening is in the open state, the measured elapsed time, the number of game balls detected by the count switch 23, and the like. The process etc. which determine whether it became the timing which returns to a closed state from an open state are included. Then, when returning the prize winning opening to the closed state, after executing processing for stopping the supply of the solenoid driving signal to the solenoid 82 for the prize winning opening door, the value of the special figure process flag is updated to “6”, The processing during the jackpot release is terminated.

  The big hit release post-processing in step S116 is executed when the value of the special figure process flag is “6”. In this post-hit-opening process, a process for determining whether or not the number of executions of the round in which the big winning opening is opened has reached the set upper limit execution number, and when the upper limit execution number is reached, the big hit game state The process etc. which perform the setting for ending are included. When the round execution count does not reach the upper limit execution count, the value of the special figure process flag is updated to “5”, whereas when the round execution count reaches the upper limit execution count, the special figure process flag value is updated. The value is updated to “7”. When the value of the special figure process flag is updated, the processing after the big hit release ends.

  The big hit end process in step S117 is executed when the value of the special figure process flag is “7”. The jackpot end process includes a process of waiting until a waiting time corresponding to a period in which an ending effect is executed as an effect operation for notifying the end of the jackpot game state, and a probability change corresponding to the end of the jackpot game state. This includes processing for performing various settings for starting control and time-saving control. When such a setting is made, the value of the special figure process flag is updated to “0”, and the jackpot end processing ends.

  The small hit pre-release process in step S118 is executed when the value of the special figure process flag is “8”. This pre-opening process for small hits includes a process for setting the big winning opening in the small hit gaming state based on the fact that the display result is “small hit”. At this time, the value of the special figure process flag is updated to “9”, and the small hit release pre-processing ends.

  The small hit releasing process in step S119 is executed when the value of the special figure process flag is “9”. In the small hit opening process, the process for measuring the elapsed time since the big prize opening is in the open state, and the timing for returning the big prize opening from the open state to the closed state based on the measured elapsed time, etc. The process etc. which determine whether or not were included are included. When the big prize opening is returned to the closed state and the end timing of the small hit gaming state is reached, the value of the special figure process flag is updated to “10”, and the small hit opening process ends.

  The small hit end process in step S120 is executed when the value of the special figure process flag is “10”. This small hit end process includes a process of waiting until a waiting time corresponding to a period during which the effect operation for notifying the end of the small hit gaming state is executed. Here, when the small hit gaming state ends, the gaming state in the pachinko gaming machine 1 before the small hit gaming state is continued. When the waiting time at the end of the small hit gaming state has elapsed, the value of the special figure process flag is updated to “0”, and the small hit end processing ends.

(Main operations of the production control board 12)
Next, main operations in the effect control board 12 will be described. In the effect control board 12, when the supply of the power supply voltage is received from the power supply board or the like, the effect control CPU 120 is activated and executes the effect control main process as shown in the flowchart of FIG. When the effect control main process shown in FIG. 6 is started, the effect control CPU 120 first executes a predetermined initialization process (step S71), clears the RAM 122, sets various initial values, and displays the effect control board 12. Performs register settings for the mounted CTC (counter / timer circuit). Further, an initial operation control process is executed (step S72). In the initial operation control process, control for performing the initial operation of the movable body 32 such as control for driving the movable body 32 to return to the initial position and control for performing a predetermined operation check is executed.

  Thereafter, it is determined whether or not the timer interrupt flag is on (step S73). The timer interrupt flag is set to the on state every time a predetermined time (for example, 2 milliseconds) elapses based on, for example, the CTC register setting. At this time, if the timer interrupt flag is off (step S73; No), the process of step S73 is repeatedly executed and awaits.

  On the side of the effect control board 12, an interrupt for receiving the effect control command from the main board 11 is generated separately from the timer interrupt that occurs every time a predetermined time elapses. This interruption is generated when, for example, an effect control INT signal from the main board 11 is turned on. When an interruption due to the turn-on of the effect control INT signal occurs, the effect control CPU 120 automatically sets the interrupt prohibition, but if a CPU that does not automatically enter the interrupt disable state is used, the interrupt is interrupted. It is desirable to issue a prohibition instruction (DI instruction). The effect control CPU 120 executes, for example, a predetermined command reception interrupt process in response to an interrupt when the effect control INT signal is turned on. In this command reception interrupt process, an effect control command is fetched from a predetermined input port that receives a control signal transmitted from the main board 11 via the relay board 15 among the input ports included in the I / O 125. The effect control command captured at this time is stored in an effect control command reception buffer provided in the RAM 122, for example. Thereafter, the effect control CPU 120 ends the command reception interrupt processing after setting the interrupt permission.

  If the timer interrupt flag is on in step S73 (step S73; Yes), the timer interrupt flag is cleared and turned off (step S74), and command analysis processing is executed (step S75). In the command analysis process, for example, after reading various effect control commands transmitted from the game control microcomputer 100 of the main board 11 and stored in the effect control command receiving buffer, the read effect control commands are read. Corresponding settings and controls are performed. For example, the read effect control command can be stored in a predetermined area of the RAM 122 or stored in the RAM 122 so that the effect control command can be confirmed by the effect control process or the like. Turn on the provided reception flag. Further, when the effect control command specifies the gaming state, the display control unit 123 may be instructed to display a background according to the gaming state.

  After executing the command analysis process in step S75, an effect control process process is executed (step S76). In the effect control process, for example, an effect image display operation in the display area of the image display device 5, an audio output operation from the speakers 8L and 8R, a lighting operation in a decorative light emitter such as the game effect lamp 9 and a decoration LED, and the movable body 32 Control for operating various effect devices, such as the drive operation, is performed. In addition, determination, determination, setting, and the like according to an effect control command or the like transmitted from the main board 11 are performed on the control content of the effect operation using various effect devices.

  Following the effect control process in step S76, an effect random number update process is executed (step S77), and at least a part of the effect random numbers used on the effect control board 12 side is updated by software. Thereafter, the process returns to step S73. Another process may be executed before returning to the process of step S73.

  FIG. 7 is a flowchart showing an example of processing executed in step S76 of FIG. 6 as the effect control process. In the effect control process shown in FIG. 7, the effect control CPU 120 first executes a prefetch notice setting process (step S161). In the pre-reading notice setting process, for example, determination, determination, and setting for executing the pre-reading notice effect are performed based on the effect control command at the time of start winning transmitted from the main board 11. Further, a process for displaying a hold display is executed based on the hold memory number specified from the effect control command.

  After executing the process of step S161, the CPU 120 for effect control selects and executes one of the following processes of steps S170 to S177 according to the value of the effect process flag provided in the RAM 122, for example.

  The variable display start waiting process in step S170 is a process executed when the value of the effect process flag is “0” (initial value). This variable display start waiting process is a process for determining whether or not to start variable display of decorative symbols on the image display device 5 based on whether or not a command for specifying the start of variable display is received from the main board 11. Etc. When it is determined that the variable display of the decorative design in the image display device 5 is started, the value of the effect process flag is updated to “1”, and the variable display start waiting process is ended.

  The variable display start setting process in step S171 is a process executed when the value of the effect process flag is “1”. In this variable display start setting process, based on the display result and variation pattern specified by the effect control command, the display result of the variable display of the decorative design (determined decorative design), the variable display mode of the decorative design, the reach effect and various The presence / absence of execution of various effects such as a notice effect, its mode, execution start timing, and the like are determined. Then, an effect control pattern (a collection of control data for instructing the display control unit 123 to execute the effect) reflecting the determination result or the like is set. Thereafter, based on the set production control pattern, the display control unit 123 is instructed to start the variable display of decorative symbols, the value of the production process flag is updated to “2”, and the variable display start setting process is terminated. The display control unit 123 causes the image display device 5 to start variable display of decorative symbols in response to an instruction to start execution of variable display of decorative symbols.

  The variable display effect process in step S172 is a process executed when the value of the effect process flag is “2”. In this variable display effect processing, the effect control CPU 120 instructs the display control unit 123 to display an effect image based on the effect control pattern set in step S171 on the display screen of the image display device 5. In addition, driving the movable body 32, outputting sound and sound effect from the speakers 8L and 8R by outputting a command (sound effect signal) to the sound control board 13, and issuing a command (lighting signal) to the lamp control board 14 Various effects control during variable display of decorative symbols, such as turning on / off / flashing the game effect lamp 9 and the decorative LED by the output, is executed. After such effect control is performed, for example, an end code indicating the end of variable display of decorative symbols is read from the effect control pattern, or a command specifying stop display of the final decorative symbols is received from the main board 11. Corresponding to what has been done, the definite decorative symbol that is the display result of the decorative symbol is stopped and displayed. When the definite decorative symbol is stopped and displayed, the value of the effect process flag is updated to “3”, and the effect process during variable display ends.

  The special figure waiting process in step S173 is a process executed when the value of the effect process flag is “3”. In this special figure waiting process, the effect control CPU 120 determines whether or not an effect control command for designating the start of the big hit gaming state or the small hit gaming state has been received from the main board 11. When an effect control command designating starting a big hit gaming state or a small hit gaming state is received, if the command designates the start of a big hit gaming state, the value of the production process flag is set to “6”. Update to "". On the other hand, if the command specifies the start of the small hit gaming state, the value of the effect process flag is updated to “4” which is a value corresponding to the effect processing during the small hit. Also, when the command waiting time of the command has passed without receiving a command specifying that the big hit gaming state or the small hit gaming state is started, it is determined that the display result in the special figure game is “losing”. Thus, the value of the production process flag is updated to “0” which is an initial value. When the value of the production process flag is updated, the waiting process per special figure is terminated.

  The small hitting effect process in step S174 is a process executed when the value of the effect control process flag is “4”. In this small hit effect processing, the effect control CPU 120 sets, for example, an effect control pattern corresponding to the effect contents in the small hit game state, and executes various effect controls in the small hit game state based on the setting contents. . Also, in the small hit effect processing, for example, in response to receiving a command to end the small hit gaming state from the main board 11, the value of the effect process flag is a value corresponding to the small hit end effect. It is updated to a certain “5”, and the small hit effect production process is terminated.

  The small hit end effect process in step S175 is a process executed when the value of the effect control process flag is “5”. In this small hit end effect process, the effect control CPU 120 sets, for example, an effect control pattern corresponding to the end of the small hit game state, and various effect controls at the end of the small hit game state based on the set content. Execute. Thereafter, the value of the effect process flag is updated to the initial value “0”, and the small hit end effect process is ended.

  The big hit effect process in step S176 is a process executed when the value of the effect process flag is “6”. In the jackpot effect processing, the effect control CPU 120 sets, for example, an effect control pattern corresponding to the effect contents in the jackpot game state, and executes various effect controls in the jackpot game state based on the set contents. Also, in the big hit effect processing, for example, in response to receiving a command for ending the big hit gaming state from the main board 11, the value of the effect control process flag is a value corresponding to the ending effect processing. 7 ", and the big hit effect processing is terminated.

  The ending effect process in step S177 is a process executed when the value of the effect process flag is “7”. In this ending effect process, the effect control CPU 120 sets, for example, an effect control pattern corresponding to the end of the jackpot gaming state, and performs various effects control of the ending effect at the end of the jackpot gaming state based on the set contents. Execute. Thereafter, the value of the effect process flag is updated to “0”, which is the initial value, and the ending effect process ends.

(Modification of basic explanation)
The present invention is not limited to the pachinko gaming machine 1 described in the basic description above, and various modifications and applications are possible without departing from the spirit of the present invention.

  The pachinko gaming machine 1 of the above basic description is a payout type gaming machine that pays out a predetermined number of game media as prizes based on the occurrence of winnings, but encloses the game media and gives points based on the occurrence of winnings. It may be an enclosed game machine.

  Only one type of symbol (for example, a symbol indicating “−”) is displayed during variable display of the special symbol, and variable display may be performed by repeatedly displaying and extinguishing the symbol. Further, in the case where the symbol is displayed during variable display, the symbol may not be displayed when the variable display is stopped (a symbol indicating “−” may not be displayed as a display result).

  In the above basic explanation, the pachinko gaming machine 1 is shown as the gaming machine, but a predetermined number of bets are set by inserting medals, and a plurality of types of symbols are rotated in accordance with the operation of the operation lever by the player. When the symbols are stopped in response to the stop button operation by the player, if the combination of the stopped symbols becomes a specific symbol combination, a slot machine capable of executing a game in which a predetermined number of medals are paid out to the player (for example, a big bonus The present invention can also be applied to a slot machine equipped with one or more of regular bonus, RT, AT, ART, CZ (hereinafter, bonus etc.).

  The program and data for realizing the present invention are not limited to a form distributed and provided by a detachable recording medium with respect to the computer device or the like included in the pachinko gaming machine 1; It is also possible to adopt a form that is distributed by installing it in a storage device. Furthermore, the program and data for realizing the present invention are distributed by downloading from other devices on a network connected via a communication line or the like by providing a communication processing unit. It doesn't matter.

  The game execution mode is not only executed by attaching a detachable recording medium, but can also be executed by temporarily storing a program and data downloaded via a communication line or the like in an internal memory or the like. It is also possible to execute directly using hardware resources on the other device side on a network connected via a communication line or the like. Furthermore, the game can be executed by exchanging data with other computer devices or the like via a network.

  In the present specification, the comparison expression (expression such as “high”, “low”, “difference”, etc.) of various ratios such as the performance execution ratio is that the ratio of one is “0%”. May be included. For example, one of the ratios is “0%” and the other is a ratio of “100%” or a ratio of less than “100%”.

(Explanation regarding the feature 31AK)
Next, the characteristic part 31AK of the present embodiment will be described. FIG. 8 is a diagram for explaining the variation pattern and the type of reach in the pachinko gaming machine 1 of the present embodiment. As shown in FIG. 8A, in this embodiment, the non-reach losing fluctuation patterns PA1-1 and PA1-2 in which the decorative display variable display mode is not the reach mode and the display result is “lost”. , The variation pattern PA2-1 to PA2-6, PA3-1 to PA3-4, etc., in which the decorative pattern variable display mode is the reach mode and the display result is “lost”, and the display result is “big hit” Fluctuation patterns PB2-1 to PB2-6, PB3-1 to PB3-4, and the like are prepared.

  In addition, as shown in FIG. 8B, in this embodiment, reach effects such as normal reach and super reach A to E are executed. In this embodiment, the reach effect is also referred to as a suggestion effect suggesting that the reach effect is controlled. As shown by the number of black stars in FIG. 8B, the reliability when each reach is executed (the jackpot reliability) is as follows: normal reach <super reach E <super reach D <super reach C <super reach B <Higher in the order of Super Reach A. In addition, you may provide the reach which determines that it becomes a big hit.

  In this embodiment, super reach is executed via normal reach. Further, during the reach production of the super reach, the development production that develops (promotes) to a more reliable reach may be executed. Variation patterns PA3-1 to PA3-4 and the like, such as variation patterns PA3-1 to PA3-4 shown in FIG. 8A, are variation patterns corresponding to the execution of the development effect. In FIG. 8A, a variation pattern in which the reliability is developed to a superreach level one level is shown, but a variation pattern in which the reliability is developed in two or more steps is also provided. Further, a variation pattern in which the development effect is executed a plurality of times may be provided.

  In this embodiment, except for the normal reach with the lowest reliability, the title of the reach is notified at a predetermined timing after the reach is established. As shown in FIG. 8B, the notification mode of the title differs depending on the type of reach. Specifically, the super reach E having the lowest reliability in the super reach is notified of the reach title only by display, and the title of the other super reach is notified by display and voice. In this way, the notification of the title is executed by more production devices in the reach with high reliability than the reach with low reliability. Thereby, a player's expectation can be effectively spoken, and the production effect is improved. Note that the notification mode of the title may be arbitrarily changed depending on the reliability or regardless of the reliability. Further, even in the same reach effect, the notification mode may be changed according to the actual display result or the like. Further, the fonts of the title characters (Gothic, Mincho, etc.) and typefaces (lines, fonts, etc.) may be varied depending on the type of reach.

  The notification of the reach title (title notification) is not limited to indicating the title itself, such as the name of the reach, but may indicate the name of the character appearing in the reach effect, the effect content of the reach effect, or the like.

(Example of production operation of the characteristic part 31AK)
Subsequently, an example of the effect operation in the present embodiment will be described. The following effect operation is executed by the effect control CPU 120 executing effect control process processing based on the effect control command transmitted from the main board 11. FIG. 9 and FIG. 10 are diagrams showing an example of super reach production operation in the present embodiment. FIG. 9A shows that variable display of decorative symbols is being executed in the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R of the image display device 5. . After that, for example, as shown in FIG. 9B, the decorative symbols indicating the numbers 7 on the “left” and “right” stop and become a reach mode. After that, the production branches depending on the type of reach.

(Super Reach A)
In the case of super reach A, as shown in FIG. 9C, the character 31AK001, which is a teammate character, is displayed on the image display device 5, and the reach effect is started. Here, for example, an animation using the character 31AK001 is displayed. When a predetermined period of time elapses after the start of super reach production, such as when the introduction of super reach production (also referred to as super reach production) ends, the entire screen of image display device 5 is displayed as shown in FIG. The super reach A title 31AK002 (here “SP reach A” characters) is displayed, and the speaker 8 outputs the sound corresponding to the reach title name (here “super reach A”). The title of Super Reach A is notified. Thereafter, the title 31AK002 of Super Reach A is deleted, and as shown in FIG. 9E, the character 31AK003, which is an enemy character, is displayed, the dialogue 31AK004 of the character 31AK001 is displayed, or the character 31AK001 and the character 31AK003 are confronted. The subsequent part of the reach production of Super Reach A is executed. An effect in which characters confront each other is also called a battle effect. In the battle effect, if a teammate character wins, the game is a big hit, and if a teammate character loses, the game is lost.

  In addition, when displaying a line on the image display device 5 during the super reach effect, a sound corresponding to the line may be output from the speaker 8. Further, the lines are not limited to being displayed in a balloon as shown in FIG. 9E, and may be displayed as subtitles on the lower part of the image display device 5 or the like.

(Super Reach B)
In the case of super reach B, as shown in FIG. 9C, the character 31AK001 is displayed on the image display device 5 and the reach effect is started. Here, for example, an animation using the character 31AK001 is displayed. When a predetermined period of time elapses after the start of the super reach effect, such as when the introduction of the super reach effect ends, as shown in FIG. 9F, the title 31AK005 (here) Is displayed, and the audio corresponding to the title name of the reach (here, “super reach B”) is output from the speaker 8 to notify the title of the super reach B. The Thereafter, the title 31AK005 of Super Reach B is erased, and as shown in FIG. 9G, the character 31AK006, which is an enemy character, is displayed, the dialogue 31AK004 of the character 31AK001 is displayed, or the character 31AK001 and the character 31AK006 are confronted. The subsequent part of the reach production of Super Reach B is executed.

  As described above, in the super reach A and the super reach B, the reach title is notified when a predetermined period has elapsed since the start of the super reach production. By doing in this way, since the title can be notified after showing the introduction portion of the super reach effect to the player, etc., the effect effect of the title notification can be enhanced.

  Also, in Super Reach A (FIG. 9 (C) → (D) → (E)...) And Super Reach B (FIG. 9 (C) → (F) → (G). In the introductory part until the notification is made, a super reach effect is executed in a common effect mode (FIG. 9C). By doing in this way, it is possible to make the player pay attention to which super reach is made after the super reach production is started and which title is notified. The super-reach A and the super-reach B are not limited to making the production mode until the title is notified completely common, and it is possible to determine which super-reach is to be determined if the production is closely watched. You may make it make a part into a common production | presentation aspect. For example, in the introduction part of Super Reach A and Super Reach B, a super reach effect (for example, an effect that displays an enemy character or suggests an enemy character) is executed in a manner related to a title to be notified thereafter. It may be. By doing in this way, the production effect is improved and the player pays attention to the production. As described above, the title notification may be executed after it is possible to specify which super reach is to be made.

(Super Reach D)
In the case of Super Reach D, as shown in FIG. 9H, the Super Reach D title 31AK007 (here, the letters “SP Reach D”) is displayed in a part of the center of the image display device 5. At the same time, the sound corresponding to the title name of the reach (here, “defeat the enemy”) is output from the speaker 8, thereby informing the title of the super reach D. Thus, in the super reach D, the title is notified at the start of the super reach production. Further, below the title 31AK007, an expectation suggestion display 31AK008 indicating the expectation degree of the reach is displayed. The degree of expectation is represented by the number of black stars as shown in FIG. Here, the expectation degree is an expectation degree that is a big hit, but does not have to be completely coincident with the reach big hit reliability.

  Note that the super-reach D audio notification does not notify the title name as it is, but notifies the contents of the reach. As described above, in this embodiment, the notification mode of the voice title notification is varied depending on the type of reach. Thereby, the notification mode of a title alert | report becomes various and an interest improves.

  After the title is notified in the super reach D, the character 31AK001 is displayed on the image display device 5 as shown in FIG. At this time, the title 31AK007 and the expectation level suggestion display 31AK008 continue to be reduced and displayed in the upper right part of the image display device 5 or the like. By doing in this way, the player can grasp the degree of expectation of reach even during reach production. In FIG. 9I, the contents of the effects common to those in FIG. 9C (super reach A and super reach B) are shown, but a super reach effect dedicated to super reach D may be executed.

  Thereafter, as shown in FIG. 9J, the enemy character 31AK009 is displayed, the dialogue 31AK004 of the character 31AK001 is displayed, or the reach effect of super reach D in which the character 31AK001 and the character 31AK009 are confronted is executed. The

(Super Reach E)
In the case of super reach E, as shown in FIG. 10A, the title 31AK010 of super reach E (here, the letters “SP reach E”) is displayed in a part on the upper left of the image display device 5. Thus, the title of Super Reach E is notified. In Super Reach E, the title is not notified by voice. In addition to the display of the title 31AK010, the character 31AK001 and the enemy character 31AK011 are displayed, the dialogue 31AK004 of the character 31AK001 is displayed, or the reach effect of Super Reach E where the character 31AK001 and the character 31AK011 confront each other is displayed. Executed. Thus, in the super reach E, the title is notified together with the progress of the reach production. In Super Reach E, the title 31AK010 continues to be displayed during reach production.

  In the reach production of Super Reach E with a low jackpot reliability, it is possible to prevent giving a player an excessive sense of expectation by performing the title notification without stopping the progress of the reach production. On the other hand, in the reach production of Super Reach A, Super Reach B, and Super Reach D, the progress of the reach production is stopped and the title notification is performed (FIGS. 9D, 9F, 9D). H)). By doing in this way, the title notification according to the super reach production can be executed and the production effect is improved. Note that the title notification may be performed without stopping the progress of the reach in super reach production such as super reach A, super reach B, and super reach D. Contrary to this embodiment, in the reach production of the super reach with high hit reliability, the title notification may be performed without stopping the progress of the reach production. In the reach production of the super reach with low jackpot reliability, the progress of the reach production may be stopped and the title notification may be performed.

(Title notification timing)
As described above, in this embodiment, in the super reach A and the super reach B, the title is notified after a predetermined period has elapsed after the start of the super reach production, and in the super reach D and the super reach E, the super reach production is performed. The title is announced at the start. By doing in this way, the title alert | report according to reach production can be performed and production effect improves. In this embodiment, in Super Reach A and Super Reach B with high jackpot reliability, the title is notified after a predetermined period has elapsed after the start of Super Reach production, and Super Reach D and Super Reach with low jackpot reliability. In E, the title is notified at the start of the super reach production, but the title is notified at the start of the super reach production when the reach is high and the super reach when the reach is low. The title may be notified after a predetermined period has elapsed after the reach effect.

(Title display area)
In this embodiment, in the super reach A and the super reach B, the title is notified on the entire screen (first area) of the image display device 5, and in the super reach D and the super reach E, the image display device 5 is notified. The title is notified in a part of the screen (second area). By doing in this way, the title alert | report according to reach production can be performed and production effect improves. In particular, in the case of a reach with high hit reliability, the title notification is executed in a wider display area than in the case of a reach with low reliability, so that effective title notification is possible. Note that the title notification on the entire screen of the image display device 5 may be one in which the title is displayed in a size that fits the entire screen, or the title is displayed there with the entire background as the background for title notification. Things (title announcement using the entire screen) or the like may be used. In addition, the display area where the title notification is performed may be different between the super reach A and the super reach B, and the display area where the title notification is performed may be different between the super reach D and the super reach E.

  The method of changing the display area for performing the title notification according to the reach effect is not limited to the example of this embodiment, and the display area for performing the title notification according to the reach effect may be arbitrarily changed. For example, in the case of a reach with a high hit reliability, the title notification may be executed in a narrower display area than in the case of a reach with a low reliability. Further, in the case where the display area for performing the title notification is varied according to the reach effect, the display area may be varied as in this embodiment, or the display location may be varied.

(Expectation indication)
In this embodiment, in the supervision A and superreach B title announcements with high jackpot reliability, the superleach D having a lower jackpot reliability than superreach A and superreach B without displaying the expectation indication. In the title notification, the expectation suggestion display is displayed. By doing in this way, it can prevent that an effect becomes dull. In addition, in the title notification in Super Reach E, which has a lower hit reliability than Super Reach D, the expectation suggestion display is not displayed. By doing in this way, it is possible to prevent the player from losing a sense of expectation by displaying an expectation indication indicating that the reliability is low in a reach with low reliability. Note that an expectation indication may be displayed in at least a part of super reach A, super reach B, and super reach E.

  Note that the expected level suggestion display is not limited to that indicated by the number of black stars, as shown in FIG. 9 (H), etc., and the expected level may be suggested by a meter or a gauge. The numerical values may be displayed. Further, as shown in FIG. 9H or the like, in the case of indicating by the number of black stars, the number of stages of expectation may be increased so that half black (half) black stars can be displayed.

(Title display end timing)
Further, in this embodiment, in Super Reach A and Super Reach B, after the title is displayed, the title is deleted and a super reach effect is executed. Thereby, in super reach A and super reach B, attention can be paid to reach production. In Super Reach D and Super Reach E, after the title is displayed, the title continues to be displayed until a decision effect described later is executed. Thereby, in the super reach D and the super reach E, the kind of reach can be grasped even during the super reach production. In addition, by performing the above, the title notification according to the reach effect can be executed, and the effect of the effect is improved. Note that the display end timing of the title can be changed arbitrarily since any effect can be achieved.

  In addition, although the production operation of the reach effect of Super Reach C is omitted here, for example, title notification or expectation suggestion display corresponding to the jackpot reliability may be executed.

(Decisive production)
After each reach effect is executed, when it is time to derive the display result (the final stage of variable display), a determined effect for notifying whether or not the display result is a “big hit” is executed. The decision effect includes a decision effect indicating that the display result is “big hit” and a decision effect indicating that the display result is “lost”. In this embodiment, as shown in FIG. 10B, a decision effect is displayed in which the image 31AK012 is displayed on the image display device 5. Thereafter, if the display result is “big hit”, as shown in FIG. 10C, an image 31AK013 indicating that the ally character has won is displayed, and as shown in FIG. 10D, the big hit combination is obtained. A definitive decorative symbol is derived. If the display result is “losing”, an image indicating that the teammate character has been defeated is displayed, and a definite decorative symbol that is a reach-losing combination is derived.

  In this embodiment, even when the title is continuously notified even during the reach effect, the notification of the title is ended before the determined effect is executed. As a result, attention can be paid to the determined effect, and a well-defined title notification can be executed.

  In the example of the production operation shown in FIG. 9 and FIG. 10, during the reach production of the super reach, the decorative design is reduced and executed in the lower right part of the image display device 5. The method of displaying the decorative pattern may be arbitrary. For example, the decorative pattern may not be displayed during the reach effect, and the display mode (size, position, shading, number, etc.) may be varied depending on the type of reach effect.

  In addition, when displaying on-screen display, active display, character resident display during variable display, and mobile-related display, the image display device 5 is appropriately hidden during the super-reach reach effect in order to focus on the reach effect. It is good. At this time, during the low-reliability reach production such as Super Reach E, these displays may be kept displayed. By doing so, it is possible to prevent the player from expecting excessively due to the low-reliability reach effect, and it is possible to focus attention on the reach effect in the high-reliability reach effect.

(Development production)
Next, an example of an effect operation when the development effect is executed will be described. As shown in FIG. 11A, when the development effect is executed when the reach effect of Super Reach D is being executed (title notification of Super Reach D is being executed), FIG. As shown in the figure, an effect that the reach effect is interrupted and the screen is torn is executed. Thereafter, in the case of developing to super reach A, as shown in FIG. 11C, the title of super reach A is notified and the reach effect of super reach A is executed. In the case of developing to super reach B, as shown in FIG. 11D, the title of super reach B is notified, and the reach effect of super reach is executed. As described above, when the development effect is executed, the title notification of the development source reach is switched to the title notification of the development destination reach, which makes it easy to understand which reach has been developed. As shown in FIG. 11, when the development reach is a reach that performs title notification by display and sound, title notification by display and sound is executed again.

  The development effect is not limited to the example shown in FIG. 11B, and may be an effect that the screen gradually cracks and breaks, or displays a sandstorm (display that appears to be broken). You may do it. By making such an effect, an unexpected effect can be executed. Note that there may be a development effect such as an effect that the screen gradually cracks but the reach does not develop.

(Expectation suggestion)
In the effect operation example shown in FIG. 9 (H), a black star indicating the degree of expectation is displayed from the beginning in the degree-of-expected indication 31AK008. First, five white stars are displayed step by step. You may make it perform the expectation degree suggestion production which suggests an expectation degree by becoming a black star.

  For example, as shown in FIG. 12 (A), when the title of Super Reach D is notified, first, five white star expectation indications 31AK021 are displayed. Then, as shown in FIG. 12B, a black star 31AK022 larger than the star of the expected degree suggestion display 31AK021 is displayed, and as shown in FIG. 12C, the black star 31AK022 moves and the expected degree suggestion display 31AK021 A performance that fits into one of the white stars is performed. At this time, the speaker 8 outputs a sound “pin” indicating that the number of black stars indicating the degree of expectation has increased. As shown in FIGS. 12D and 12E, the same effects are repeated the number of times corresponding to the degree of reach expectation. At this time, the sound (volume, scale, sound quality, etc.) output from the speaker 8 may be changed stepwise every time it is repeated (every number of stars). When the number of black stars corresponding to the degree of expectation is accommodated in the expectation degree suggestion display 31AK021, the black star is highlighted as shown in FIG. 12F. By doing so, it becomes easy to understand that the expectation suggestion effect has ended.

  In the example shown in FIGS. 12A to 12F, black stars are displayed one by one, and the expectation level indicated by the expectation level suggestion display is increased by one level. However, there are two or more black stars. It may be displayed so that the degree of expectation increases by two or more levels. Alternatively, half of the black stars may be displayed and the expectation level may be increased by half. In this case, different sounds may be output or the same sound may be output according to the number of stars to be displayed (the number of steps of the expected degree of increase). For example, the same sound may be output when a half black star is displayed and when one black star is displayed. The same sound may be output when two and a half black stars are displayed and when three black stars are displayed. Further, there may be a case where no sound is output. By doing in this way, expectation suggestion production becomes various and production effect improves. Note that the same black star image is displayed regardless of the number of stages of expectation that increase at a time, fits into the white stars in the expectation suggestion display, and the number of black stars increases according to the number of stages of expected increase Such an effect may be executed.

(Direction mode)
There may be a plurality of effect modes in the effect device such as the image display device 5, the speaker 8, and the game effect lamp 9. In different effect modes, even when the same command (for example, a command specifying a variation pattern) is transmitted from the main board 11, effects based on the command are executed in different effect modes. In each effect mode, the background, character, motif, sound output from the speaker 8 and the like displayed on the image display device 5 may be different. The effect mode may be automatically changed according to the number of variable displays and the game state, or may be changeable by the player's operation.

  FIGS. 12G to 12L are examples of the presentation operation of the title notification and the degree of expectation presentation when the normal mode and the special mode are provided as the presentation mode. In the normal mode, as shown in FIGS. 12A to 12F, a title notification and an expectation suggestion effect are executed. In the special mode, the reach effect based on the variation pattern of the super reach D is the reach effect of the super reach D2, which is different from the reach effect of the super reach D. Therefore, when the variation pattern of super reach D is designated, the title 31AK023 of super reach D2 is displayed as shown in FIG. At this time, audio corresponding to the title name of the reach is output from the speaker 8, but audio different from the normal mode (for example, audio having a different voice color) is output. In addition, the expectation suggestion display 31AK024 in the super reach D2 is not a star but a diamond.

  Thereafter, as shown in FIG. 12 (H), a black rhombus 31AK025 larger than the star of the expectation level suggestion display 31AK024 is displayed, and as shown in FIG. 12 (I), the black rhombus 31AK025 moves and the expectation level suggestion display 31AK024 is displayed. An effect that fits in one of the white diamonds is performed. At this time, the speaker 8 outputs a sound “pong” indicating that the black diamond indicating the degree of expectation has increased. As shown in FIGS. 12J and 12K, the same effects are repeated the number of times corresponding to the expected degree of reach. When the number of black rhombuses corresponding to the degree of expectation is accommodated in the expectation degree suggestion display 31AK024, as shown in FIG. 12 (L), the black rhombus is highlighted. In this way, depending on the presentation mode (the state when the reach presentation is executed) determined according to the player's selection, the gaming state, etc., the presentation can be varied and the presentation effect can be varied by changing the notification mode of the title. improves.

  In FIG. 12, although the example of the production | presentation operation | movement when the fluctuation pattern of the super reach D is designated is shown, other reach productions (title notification, expectation suggestion production) by production mode (state when reach production is performed). (Including) may be different. Depending on the effect mode (the state when the reach effect is executed), whether or not the reach title is notified or the execution rate of the title notification may be varied. For example, when a predetermined production mode is selected, the reach title may not be notified. By doing in this way, the production according to the player's preference can be executed and the production effect is improved.

  In this embodiment, the expectation degree is suggested by the number of black stars in the expectation degree suggestion display, and the expectation suggestion effect that increases the number of black stars stepwise is executed. An expectation suggestion effect that reduces the number of displays suggesting stepwise may be executed. Such an expectation suggestion effect may be executed in addition to the expectation suggestion effect of this embodiment, or may be executed instead.

(Other examples of development effects)
In the case of performing the expectation suggestion effect that increases the display indicating the expectation level of the expectation level suggestion step by step, the development effect may be executed after increasing the display indicating the expectation level. In this case, when the display indicating the degree of expectation is increased after the development effect, the display to be increased may be displayed at a time instead of stepwise. For example, as shown in FIG. 13A, after the title of Super Reach D is notified and the effect of increasing the number of black stars stepwise is completed, the button is displayed on the image display device 5 as shown in FIG. The development effect in which the image 31AK031 is displayed is executed. Here, when an operation on the push button 31B is detected, the super reach C title 31AK032 (here, the letters “SP reach C”) is displayed as shown in FIG. The title of reach C is notified. As described above, when the development effect is executed, the title notification of the development source reach is switched to the title notification of the development destination reach, which makes it easy to understand which reach has been developed. Further, below the title 31AK032, an expectation suggestion display 31AK033 in which the number of black stars is three is highlighted. Even if the number of black stars increases by 2 or more, it is displayed at once. In addition, after the movable body 32 operates, the development effect in which the title or the degree of expectation indication changes may be executed.

(Notice production)
In this embodiment, as a notice effect, a title notice for notifying the reliability of a big hit is executed according to a notification mode of a title (for example, a display color of a title). For example, as shown in FIG. 14A, the Super Reach A title 31AK036 is displayed in black, and the audio corresponding to the Reach title name is output from the speaker 8, so that the Super Reach A title is notified. Then, as shown in FIG. 14 (B), a title notice in which the display color of the title 31AK036 changes to red is executed. Thus, when the title notice is not executed, the title is displayed in black, and when the title notice is executed, the title is displayed in a color other than black. In the title preview shown in FIG. 14, the title display mode (display color) may change after the reach title is notified by voice. By doing in this way, the effect of a notice effect can be enhanced. The timing at which the title is displayed in a color other than black is not limited to this, and the title may be displayed in a color other than black from the start of the title display.

  In addition, when a title notice that changes the display mode (display color) of the title is executed, after the display mode of the title is changed, sound corresponding to the changed display mode may be output. By doing in this way, the effect of a notice effect can be enhanced. Moreover, the title notification by voice may be executed after the display mode (display color) of the title is changed. In this case, sound corresponding to the display mode (display color) of the title after the change may be output.

(Title notification execution timing)
It is preferable that the notification of the title being reached is executed at a timing other than the execution timing of the effect (specific effect) that improves the degree of expectation controlled to the big hit advantageous state, such as the notice effect or the development effect. In this way, once the title is notified, an effect that improves the degree of expectation can be executed, so that the player's expectation can be maintained.

  FIG. 15 is a flowchart illustrating an example of a notice effect determination process for determining whether or not a notice effect is executed and an effect aspect. The notice effect determining process is executed by the effect control CPU 120 in the variable display start setting process in step S171 of FIG. In the notice effect determination process, the effect control CPU 120 first determines whether or not the variation pattern specified from the command transmitted from the main board 11 is a variation pattern of super reach (step 31AKS001).

  If the change pattern is a super reach variation pattern (step 31 AKS 001; Yes), the display color of the super reach title (whether or not the title notice is executed) is determined (step 31 AKS 002).

  In step 31AKS002, the display color of the super reach title is determined, for example, at the determination ratio shown in FIG. 16A, depending on whether the display result is “big hit” or “lost”. As shown in FIG. 16A, the display color of the Super Reach title changes from “black”, “red”, “black” to “red”, and from “black” to “fruit pattern”. The thing which changes from "red" to "fruit pattern" is provided, and the big hit reliability is high in this order (ascending order). That is, the big hit reliability differs according to the change timing of the display color of the title. By doing in this way, a player comes to pay attention to the change timing of the display color of a title, and a production effect improves.

  Note that the “fruit pattern” may be such that the title text is displayed in bold and the text itself is “fruit pattern”, or the background portion of the title display area is “fruit pattern”. . There may be a pattern displayed as “fruit pattern” from the beginning. As for the display color changing, as shown in FIG. 14, the display color may be changed after the title notification is executed. For the display color changing, there may be a plurality of timings at which the display color changes. Then, the jackpot reliability may be varied according to the timing at which the display color changes. In addition, since the title display period varies depending on the type of super reach, the timing at which the display color changes may vary depending on the type of super reach. In the case of super reach with a long title display period (for example, super reach D or super reach E), a plurality of changing timings may be provided to determine any of the changing timings. In the case of a super reach with a short title display period (for example, super reach A or super reach B), the number of timings to be changed may be one or less than that of a super reach with a long title display period.

  When there are a normal mode and a special mode as the production mode, the display color of the title is determined at the determination ratio shown in FIG. 16A in the normal mode, and the normal mode as shown in FIG. Determine the display color of the title at a different rate. In the special mode, the display color pattern and the order of reliability may be different from those in the normal mode. In this way, by changing the execution mode of the title notice (display color and display color change timing) depending on the effect mode, the effects become more diverse and the effect of the effect is improved.

  In this embodiment, a serif notice that predicts the jackpot reliability is executed as the notice effect according to the display mode (for example, the display color of the words) of the characters in the reach effect of the super reach.

  After determining the display color of the super-reach title, the display color of the character's speech in the super-reach reach effect (whether or not to execute the speech advance notice) is determined (step 31AKS003).

  In step 31AKS003, the display color of the lines in the reach effect is determined at a determination ratio shown in FIG. 16C, for example, depending on whether the display result is “big hit” or “lost”. As shown in FIG. 16C, the display colors of the lines in the reach production are “white”, “red”, and those that change from “white” to “red”, and are in this order (ascending order). The jackpot reliability is high. That is, the big hit reliability differs according to the change timing of the display color of the lines. By doing in this way, a player comes to pay attention to the change timing of the display color of words, and the production effect improves. For the display color changing, the display color may be changed after the line is displayed. For the display color changing, there may be a plurality of timings at which the display color changes. Then, the jackpot reliability may be varied according to the timing at which the display color changes.

  Further, the jackpot reliability may be different depending on the combination of the presentation modes of the title notice and the line notice. For example, when the same notice mode (display color) is included in the title notice and the line notice, the jackpot reliability may be increased when the same notice form is obtained. Also, the jackpot reliability may be different depending on the combination of the change timing of the production mode of the title notice and the line notice. For example, the big hit reliability may be higher when the change timing is the same than when the change timing is different, or the big hit reliability may be different depending on which change is first. In this way, it is possible to focus attention on the change timings of the title notice and the line notice.

  When there are a normal mode and a special mode as the effect mode, the display color of the lines may be determined in a ratio different from the normal mode in the special mode. In the special mode, the display color pattern and the order of reliability may be different from those in the normal mode.

  In addition, it may replace with serif notice and may be made to perform the notice effect which notifies a big hit reliability by the change of the effect aspect of reach production. In that case, in the notice effect, a plurality of effect mode change timings may be provided so that the jackpot reliability differs according to the change timing.

  After determining the display color of the line in the reach effect, or when it is determined that the change pattern is not a super reach variation pattern (step AK31S001; No), the presence / absence of execution and the effect mode are determined for other notice effects (step AK31S004). Thereafter, the determination result in 31AKS002 to 31AKS004 is stored in a predetermined area of the RAM 122 (step AK31S005), and the notice effect determination process is terminated.

  In this embodiment, the title notice and the serif notice can be executed in the case of super reach. However, in the case of a specific super reach (for example, other than the super-reliable super reach), the title notice is provided. And at least one of the serif notices may be made executable. Further, although the title notice and the line notice have been described as being determined at the determination ratio shown in FIG. 16, the determination ratio is arbitrary, and for example, the determination ratio may be varied depending on the type of super reach. By doing in this way, the notice effect according to the kind of reach can be performed, and the production effect improves.

  In this embodiment, the number of performance modes that can be executed (the number of display colors that can be displayed) differs between the title notice and the line notice. By doing in this way, the production becomes various and the production effect is enhanced. In the title notice and the serif notice, the number of executable effect modes may be arbitrarily changed, and the number and types of executable effect modes may be the same. By doing in this way, a unified notice effect can be executed, and the player can easily grasp the jackpot reliability.

(Action effect)
An effect indicating that the effect mode changes may be executed when the effect mode of the title notice and the line notice change. For example, an action effect image may be displayed on the image display device 5 and an action effect in which the image acts on at least one of a title and a line may be executed. And after an effect production | presentation is performed, you may make it a production | presentation aspect (display color) of a title or a line change. The effect mode (action effect image or the like) of the action effect may be the same regardless of whether it acts on the title or the speech. There may be a case where the effect mode of the title or the line does not change even though the effect effect is executed. When the action effect is executed, the presence / absence of execution of the action effect, the execution timing, and the effect mode may be determined based on the determination results relating to the title notice and the line notice. Such a determination may be executed in the process of step AK31S004. For example, the rate at which at least one effect mode of the title notice and the serif notice changes (the rate at which the effect aspect changes due to the action effect) may vary depending on the effect mode of the action effect, The rate of change in which direction of appearance changes (the rate of which acts) may be different, and the rate of change in which color (how many steps) may be different. . By executing such an action effect, the player will pay attention to which of the title and the line will act when the action effect image is displayed, and the effect is improved. In addition, when there exist several production | presentation modes, you may make it determine the presence or absence of execution of an effect production, and the production | presentation aspect in a different ratio according to production modes. By doing in this way, the effect production according to production mode can be performed and production effect improves.

  As another example of such an action effect, at least one effect mode (display color) of either a title or a line depending on the effect content of the reach effect (for example, the action content of the character or the effect content in the battle effect). May be changed. By doing in this way, the player comes to pay attention to the contents of the reach effect.

  The present invention is not limited to the pachinko gaming machine 1 described in the above-described characteristic portion 31AK, and various modifications and applications are possible without departing from the spirit of the present invention. For example, all the characteristic portions described in the above embodiment are not essential components and can be omitted as appropriate.

(Sub LCD)
As a sub display device different from the image display device 5, a sub liquid crystal may be provided on the game board 2 or the gaming machine frame 3. Here, although expressed as a sub liquid crystal, the sub display device may be configured by an organic EL or a dot matrix LED. The sub liquid crystal device may be fixed, for example, in the vicinity of the image display device 5, or may be movable or retractable. In the sub liquid crystal, various effects such as a notice effect and a display of a hold display are executed. For example, the title notification may be executed on the sub liquid crystal. As in the case of the super reach D and the super reach E in the above embodiment, when the title is continuously displayed even after the notification of the title, the title and the expectation suggestion display may be displayed on the sub liquid crystal. In this case, after the title is notified on the image display device 5, the title or the degree of expectation indication may be displayed on the sub liquid crystal. By doing in this way, a title and an expectation suggestion display which can display a title and an expectation suggestion display without obstructing the super reach production in the image display device 5 are also easy to understand.

  In the above-described embodiment, the example in which the present invention is applied to the notification of the title of the reach effect as the suggestion effect has been described, but the present invention is applied to the title notification (notification that mainly displays characters) related to other effects. May be. For example, in the case where a pre-read zone effect for shifting to a plurality of zones (stage, effect mode, etc.) having different background images and effect modes in the image display device 5 is executed as the notice effect (for example, the pre-read notice effect) The present invention may be applied to the title notification. When presenting a mission (such as “Reach with 7”, “Defeat all enemies using a stick controller”) and executing a mission effect that will be advantageous to the player when the mission is achieved, The present invention may be applied to mission title notification.

(Modification 1 of the characteristic part 31AK)
In the above embodiment, when it is time to derive the display result, a decision effect for informing whether or not the display result is “big hit” is executed, and then the display result is shown ( FIG. 10 (B) to (D)). Instead of such a determined effect, when the predetermined timing before the display result is derived, an operation effect that prompts the operation of the stick controller 31A or the push button 31B is executed, and a predetermined operation is detected during the operation effective period. The display result may be displayed by displaying the victory or defeat of the battle effect or temporarily stopping the display result. By doing in this way, since a display result is shown according to a player's operation, a player's willingness to participate in a game can be raised and interest is improved.

  FIGS. 17 and 18 are diagrams illustrating an example of super reach effect operation in a modified example in which an operation effect is executed and a display result is shown according to the operation. As shown in FIG. 17 (A), after reaching the reach mode in the image display device 5, as shown in FIG. 17 (B), for example, a character 31AK041 that is a friendly character and a character 31AK042 that is an enemy character are displayed. Then, as shown in FIGS. 17C to 17F and FIGS. 18G to 18I, a reach effect in which the character 31AK041 and the character 31AK042 confront each other is executed.

  With the reach effect, as shown in FIG. 17C, a small button image 31AK043 and a restriction line 31AK044 superimposed on the small button image 31AK043 are displayed on the lower right of the image display device 5. Thereby, although the operation effect using the push button 31B is executed, it is suggested that the acceptance of the operation is currently restricted.

  In this modification, a plurality of types of operation effect images indicating that an operation effect is executed are prepared. The big hit reliability varies depending on which operation effect image is displayed and the operation effect is executed. In addition, an image indicating that the operation effect is executed during the reach effect may change to a more reliable aspect.

  For example, as shown in FIG. 17D, a praying character 31AK045 is displayed, and as shown in FIG. 17E, the praying character 31AK045 is changed to a happy character 31AK046, and the small button image 31AK043 is changed to the large button image 31AK047. To change.

  Thereafter, as shown in FIG. 18 (H), the cannon 31AK048 is displayed, and as shown in FIG. 18 (I), the effect 31AK049 in which the bullet is fired from the cannon 31AK048 is displayed, and the bullet hits the large button image 31AK047. The effect 31AK050 to be displayed is displayed. Then, the large button image 31AK047 changes to a stick image 31AK051.

  Thus, in this modification, when the operation effect image changes, an effect effect indicating that the operation effect image changes is executed. Note that the operation effect image may change without an action effect. Further, there may be a case where the operation effect image does not change even though the action effect is executed. The rate at which the operation effect image changes may vary depending on the type of action effect.

  Thereafter, before a predetermined time before the display result is derived, the restriction line 31AK044 is deleted as shown in FIG. 18 (J), and the stick image 31AK051 is enlarged and displayed in the center as shown in FIG. 18 (K). A display prompting the user to pull the stick controller 31A is displayed. Further, at this time, an operation effective period in which the operation to the stick controller 31A is effective.

  When an operation of pulling the stick controller 31A is detected, an image 31AK052 indicating that the teammate character has won is displayed as shown in FIG. Thereafter, at the timing when the variation time ends, as shown in FIG. 18 (M), a definite decorative symbol that is a jackpot combination is derived. If no operation is detected within a predetermined operation effective period, the image shown in FIG. 18 (L) is automatically displayed.

  In this modification, there are a small button image, a large button image, and a stick image as the operation effect image, and when the operation effect using these images is executed in the order of the small button image <large button image <stick image. The jackpot reliability is high. Even if an operation effect image with low reliability is displayed, it may change to an operation effect image with high reliability during reach production, so the production effect is improved and the player's expectation is also improved. Can be maintained.

  In the example of the effect operation shown in FIGS. 17 and 18, the reach title notification and the expectation suggestion display are omitted, but in parallel with the reach effect and the operation effect shown in FIGS. It may be executed. The determination relating to the operation effect or the operation effect image (the presence / absence of the operation effect, the operation effect image to be displayed, the presence / absence of the action effect, etc.) may be executed in step 31AKS004 in FIG.

(Modification 2 of the characteristic part 31AK)
You may make it perform the suggestion display which suggests the expectation degree of control to advantageous states, such as a big hit game state. For example, the shutter effect for performing the first suggestion display and the reach title effect for performing the second suggestion display may be executed. In the shutter effect, an effect of covering the screen with the shutter display after the variable display is started is executed. In the reach title effect, an effect of displaying a reach title indicating the development destination of the reach effect after the reach is executed. There are cases where a specific image is included and displayed when any one of the shutter display and the reach title display is displayed. The reach title effect may be the same as the title notice in the above embodiment, or may be another effect determined by another process.

  The specific image is an image having a high jackpot reliability displayed including a plurality of types of elements in the image. The multiple types of elements include a banana image of element E1, a melon image of element E2, an apple image of element E3, a watermelon image of element E4, and a strawberry image of element E5. A fruit pattern image including these elements E1 to E5 is a specific image. In both the shutter display and the reach title display, all of the elements E1 to E5 are displayed so as to be visible. The display sizes of the elements E1 to E5 constituting the specific image are changed and displayed according to the display size difference between the shutter display and the reach title display. Further, all of the elements E1 to E5 are displayed so as to fit in the shutter display and the reach title display.

  When a shutter effect is executed after the start of variable display, when the fruit pattern image is displayed, the big hit reliability is higher than when the fruit pattern image is not displayed. Further, when the reach title is displayed during the execution of the reach effect, when the fruit pattern image is displayed, the big hit reliability is higher than when the fruit pattern image is not displayed. When the fruit pattern is not displayed, for example, a plain image not including the elements E1 to E5 is displayed. Note that an image pattern other than the fruit pattern image may be prepared as an image indicating the big hit reliability when the shutter effect and the reach title effect are executed. For example, a white image <blue image <red image <fruit pattern image may be prepared in the order of the big hit reliability (for example, a red shutter or a red letter reach title). Then, any one image pattern may be selected by a predetermined random number lottery depending on whether or not the display result of the variable display is a big hit.

  When a fruit pattern is displayed during shutter display and reach title display, a notification of outputting a common sound (melody) by the speaker 8 and a notification by light emission of the game effect lamp 9 are performed. By the light emission control of the common sound and game effect lamp 9, the player is shown that the fruit pattern is a special image. When such shutter display and reach title display are performed, common notification for the fruit pattern is executed. In the reach title display, a specific sound (voice) is further output after the common notification. Note that the output period of the common sound and the specific sound may partially overlap.

  FIG. 19 is a display screen diagram when the shutter effect and the reach title effect are executed. As shown in FIG. 19A, when the shutter effect is executed, the shutter image 31AK061 is displayed on the image display device 5 at the start of variable display. In the shutter image 31AK061, a fruit pattern image including all the elements E1 to E5 is displayed. In addition, when the shutter effect is executed, notification that outputs a common sound (melody) from the speaker 8 is executed, and notification by light emission of the game effect lamp 9 is executed. When the closed shutter is opened, the decorative symbol variable display is started as shown in FIG. A downward arrow indicates variable display of the left, middle, and right symbols. When the variable display of the left symbol and the right symbol is temporarily stopped, as shown in FIG.

  Next, as shown in FIG. 19D, a super reach production is started. For example, the variable display is displayed in a small size on the upper right side of the screen, and a character is displayed on the left side of the screen. A reach title image 31AK062 is displayed on the lower right of the screen, and the contents of super reach to be executed from now on are shown as reach title display. In the reach title image 31AK062, a fruit pattern image including all the elements E1 to E5 is displayed. In addition, in the reach title image 31AK062, characters “battle reach” indicating that a reach effect accompanied by a battle effect is executed are displayed.

  In addition, when the reach title effect is executed, notification that outputs a common sound (melody) from the speaker 8 is executed and notification by light emission of the game effect lamp 9 is executed. Further, after outputting the common sound, an effect is performed in which the character emits a specific sound (voice) indicating that the big hit reliability is high, such as “Atsuiatsui”. Here, the size of the suggestion display displayed in the reach title effect is smaller than that in the shutter effect. However, in this way, in the reach title effect, by outputting a specific sound, it can be made easier for the player to recognize that the fruit pattern image has been displayed. In addition, although the case where the output period of the common sound and the specific sound is completely separated has been described, the output periods may partially overlap.

  Thereafter, a battle reach effect as shown in FIG. An enemy character is displayed on the left side of the screen, and an ally character is displayed on the right side of the screen. When the teammate character wins the battle with the enemy character, the characters “Battle Victory!” Are displayed in the upper left of the screen. It is informed that the big hit has been confirmed by winning the battle. When the battle effect ends, the display returns to the variable display screen with the original number design. As shown in FIG. 19 (f), all symbols are stopped and a big hit symbol of “777” is displayed.

  As shown in FIGS. 19A and 19D, both the shutter image 31AK061 and the reach title image 31AK062 are displayed including all the elements E1 to E5 constituting the fruit pattern image. In this way, the fruit pattern image can be suitably displayed in both the shutter image 31AK061 and the reach title image 31AK062 having different display sizes. Thereby, it is possible to accurately tell that a fruit pattern image having a high jackpot reliability is displayed.

  Also, the display size of the shutter image 31AK061 shown in FIG. 19A is displayed larger than the display size of the reach title image 31AK062 shown in FIG. Therefore, the difference between the display size of the shutter image 31AK061 and the display size of the reach title image 31AK062 can be noted.

  Further, the shutter image 31AK061 shown in FIG. 19A and the reach title image 31AK062 shown in FIG. 19D are displayed at different timings. If it does in this way, it can prevent that the fruit pattern image which is a specific image becomes difficult to see by the execution timing overlapping.

  The determination related to the shutter effect (whether the shutter effect is present or the effect mode) may be executed in step 31AKS004 in FIG. In that case, the determination related to the shutter effect may be made based on the determination result of the display color of the title in step 31AKS002 of FIG. For example, when the display color of the title is determined to be a fruit pattern, a fruit pattern shutter effect may be easily performed. Further, the determination related to the reach title effect may be executed in step 31AKS004 in FIG. 15 together with the determination related to the shutter effect.

(Explanation regarding the characteristic part of this embodiment)
Next, the characteristic part of this Embodiment is demonstrated. Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 20-1 is a front view of the pachinko gaming machine 1 according to the present embodiment, and shows an arrangement layout of main members. The pachinko gaming machine (game machine) 1 is roughly divided into an outer frame 109SG001a formed in a vertically long rectangular frame shape, a gaming board (gauge board) 2 constituting a gaming board surface, and a gaming machine that supports and fixes the gaming board 2. It is composed of a frame (base frame) 3. A game area is formed on the game board 2, and a game ball as a game medium is launched into a game area from a predetermined hitting device. Further, the gaming machine frame 109SG003 includes a glass door frame 109SG003a having a glass window between a door opening position where the front side of the gaming machine frame 109SG003 is opened around the left side and a door closing position where the front surface is closed. The game area can be opened and closed by the glass door frame 109SG003a so that the game area can be seen through the glass window when the glass door frame 109SG003a is closed.

  In addition, the gaming machine frame 109SG003 can be opened by inserting a door key owned by a shop clerk in a game hall into a lock (not shown) and unlocking it. The door frame 109SG003a cannot be opened.

  The main board 11 is mounted on the back surface of the pachinko gaming machine 1 in a state of being housed in a board case 109SG201 configured to be openable by the first member and the second member. In addition, the main board 11 has a lock switch 109SG051 for switching to a setting change state or a setting confirmation state, which will be described later, and a setting value such as a jackpot winning probability (playing rate), which will be described later in the setting change state. A setting changeover switch 109SG052 that functions as a setting switch is provided.

  A setting switching main body provided with an operation unit operable by a player, such as the lock switch 109SG051 and the setting changeover switch 109SG052, is housed in the board case 109SG201 together with the main board 11, and the lock switch 109SG051 and the setting changeover switch 109SG052 are accommodated. Is exposed to the back side through an opening formed on the left side of the back surface of the substrate case 109SG201 so that it can be operated without opening the substrate case 109SG201.

  Since the board case 109SG201 having the lock switch 109SG051 and the setting changeover switch 109SG52 is provided on the back surface of the pachinko gaming machine 1, the operation is extremely difficult when the gaming machine frame 109SG003 is closed, and a predetermined door key is pressed. The operation can be performed by opening the gaming machine frame 3. Further, since the lock switch 109SG051 requires the operation of a setting key owned by a game shop clerk or the like, only the clerk possessing the setting key can be operated. Further, the lock switch 109SG051 is a switch that can execute an ON / OFF switching operation, which will be described later, and an operation (for example, a push-in operation) different from the switching operation, using a setting key. In this embodiment, the door key and the setting key are illustrated as separate keys, but may be shared by a single key.

  The substrate case 109SG201 is provided with a display monitor 109SG029 and a display changeover switch 109SG030 for switching the display of the display monitor 109SG029. The display monitor 109SG029 and the display changeover switch 109SG030 are connected to the main board 11 and are arranged at the upper left part of the board case 109SG201. In other words, the display monitor 109SG029 and the display changeover switch 109SG030 are arranged in front of the main case 11 in the substrate case 109SG201. Since the main board 11 is not visible when the gaming machine frame 109SG003 is not opened, the front when viewing the main board 11 is the back side of the gaming board 2 with the gaming machine frame 109SG003 opened. This is the front when visually recognizing and is different from the front of the pachinko gaming machine 1. However, the front when viewing the main board 11 and the front of the pachinko gaming machine 1 may be made common.

  As shown in FIGS. 20-3 and 20-4, the right end of the outer frame 109SG001a has a right side of a board case 109SG201 including a lock switch 109SG051 and a setting changeover switch 52 when the gaming machine frame 109SG003 is closed. A security cover 109SG500A that covers the part from the back side is attached. This security cover 109SG500A is a substantially L-shaped member comprising a short piece 109SG500Aa facing in the front-rear direction and a long piece 109SG500Ab extending from the rear end of the short piece 109SG500Aa toward the left side of the pachinko gaming machine 1, It is comprised by the plate-shaped synthetic resin material which has permeability | transmittance. The vertical dimension of the short piece 109SG500Aa is substantially the same as the vertical dimension of the back plate of the substrate case 109SG201. The security cover 109SG500A is fixed to the right end portion of the outer frame 109SG001a via the front end portion of the short piece 109SG500Aa.

  As shown in FIG. 20-3, the long piece 109SG500Ab contacts (or closes) from the rear of the pachinko gaming machine 1 to the right part of the board case 109SG201 in a state where the gaming machine frame 109SG003 is closed. Accordingly, the right side portion of the substrate case 109SG201 including the lock switch 109SG051 and the setting changeover switch 109SG052 is covered from the back side of the pachinko gaming machine 1. For this reason, the lock switch 109SG051 and the setting changeover switch 109SG052 cannot be operated by the long piece 109SG500Ab. On the other hand, as shown in FIG. 20-4, in a state where the gaming machine frame 109SG003 is opened, the lock switch 109SG051 and the setting changeover switch 109SG052 move together with the gaming machine frame 109SG003 to move from the long piece 109SG500Ab. By being separated, the covering state by the long piece 109SG500Ab is released, and the state becomes operable.

  That is, in the pachinko gaming machine 1 according to the present embodiment, when the gaming machine frame 109SG003 is closed, the security cover 109SG500A restricts the operation on the operation unit including the lock switch 109SG051 and the setting changeover switch 109SG052. While the state is maintained, while the gaming machine frame 109SG003 is opened, the restriction state by the security cover 109SG500A described above is released, and the operation of the lock switch 109SG051 and the setting changeover switch 109SG052 is allowed. It becomes a state.

  Since the board case 109SG201 is provided on the back side of the pachinko gaming machine 1, it is extremely difficult to access the lock switch 109SG051 and the setting changeover switch 109SG052 when the gaming machine frame 109SG003 is closed. Unless the game shop clerk or the like opens the gaming machine frame 109SG003 with a door key, the set value cannot be changed by operating the lock switch 109SG051 or the setting changeover switch 109SG052.

  However, in the state where the pachinko gaming machine 1 is installed on the gaming island (not shown) of the game hall, even if the gaming machine frame 109SG003 is closed, for example, with other pachinko gaming machines adjacent to the pachinko gaming machine 1 A lock switch 109SG051 on the back side of the pachinko gaming machine 1 by allowing an illegal member such as a wire or a cell board to enter from between a gaming device such as a card unit or a spacer member and the pachinko gaming machine 1 installed between And the setting change switch 109SG052 may be manipulated to change the setting value. Therefore, the security cover 109SG500A is used to switch the setting to the lock switch 109SG051 when the gaming machine frame 109SG003 is closed. Regulations restricting operation on the operation unit including the switch 109SG052 By being maintained state, it is possible to suitably suppress the abuse.

  Even in a restricted state where the gaming machine frame 109SG003 is closed and the right side of the back surface of the substrate case 109SG201 including the lock switch 109SG051 and the setting changeover switch 109SG052 is covered by the security cover 109SG500A, the substrate is passed through the transparent security cover 109SG500A. Since the main board 11 and the like housed in the case 109SG201 can be seen through, it is possible to easily check the status of the mounting surface on the main board 11 on which electronic components such as the CPU 103 are mounted and the seal seal.

  A first special symbol display device 4A and a second special symbol display device 4B are provided at predetermined positions of the game board 2 (in the example shown in FIG. 20-1, on the right side of the game area). Each of the first special symbol display device 4A and the second special symbol display device 4B is composed of, for example, a segment or a dot matrix LED (light emitting diode), and the like. A special symbol (also referred to as “special symbol”) is displayed in a variable manner (variable display). For example, the first special symbol display device 4A and the second special symbol display device 4B each variably display a plurality of types of special symbols composed of numbers indicating "0" to "9", symbols indicating "-", and the like. To do. The special symbols displayed on the first special symbol display device 4A and the second special symbol display device 4B are limited to those composed of numbers indicating "0" to "9", symbols indicating "-", and the like. Instead, for example, a plurality of types of lighting patterns in which the combination of the LED to be turned on and the LED to be turned off in the 7-segment LED may be set in advance as a plurality of types of special symbols.

  A plurality of special symbols are assigned symbol numbers corresponding thereto. As an example, symbol numbers “0” to “9” are assigned to numbers indicating “0” to “9”, and symbol numbers “10” are assigned to symbols indicating “−”. Just do it. Hereinafter, the special symbol variably displayed on the first special symbol display device 4A is also referred to as "first special symbol", and the special symbol variably displayed on the second special symbol display device 4B is also referred to as "second special symbol". .

  Both the first special symbol display device 4A and the second special symbol display device 4B are formed in a square shape, for example. Note that the type of the first special figure and the type of the second special figure may be the same (for example, both a number indicating “0” to “9” and a symbol indicating “−”). May be different. Further, each of the first special symbol display device 4A and the second special symbol display device 4B may be configured to variably display numbers (or two-digit symbols) indicating, for example, “00” to “99”. . In the present embodiment, the first special symbol display device 4A and the second special symbol display device 4B are illustrated in a rectangular shape. However, the present invention is not limited to this, and the first special symbol display device 4A and the second special symbol display device 4B are illustrated. The segments constituting the symbol display device 4A and the second special symbol display device 4B may be irregularly arranged.

  An image display device 5 is provided near the center of the game area on the game board 2. The image display device 5 is composed of, for example, an LCD (liquid crystal display device) or the like, and forms a display area for displaying various effect images. In the display area of the image display device 5, for example, there are three corresponding to the variable display of the first special symbol by the first special symbol display device 4A and the variable display of the second special symbol by the second special symbol display device 4B. The decorative symbols (also referred to as effect symbols), which are a plurality of types of identification information (decorative identification information) that can identify each of them, are variably displayed in the decorative symbol display area serving as a plurality of variable display portions.

  As an example, “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R are arranged in the display area of the image display device 5. And in response to the start of one of the changes in the first special symbol in the first special symbol display device 4A and the second special symbol in the second special symbol display device 4B in the special symbol game, In the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R, the variation of decorative symbols (for example, vertical scroll display) is started. Thereafter, when the fixed special symbol is stopped and displayed as a variation display result in the special symbol game, the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R in the image display device 5 are displayed. Then, the finalized decorative symbol (final stop symbol) that is the decorative symbol variation display result is stopped and displayed.

  Thus, in the display area of the image display device 5, the variable display using the first special symbol in the first special symbol display device 4A or the variable display using the second special symbol in the second special symbol display device 4B. In synchronism with the above, a variable display of a plurality of types of decorative symbols that can be identified is performed, and a definite decorative symbol that is a variation display result is derived and displayed (or simply referred to as “derivation”). In addition, for example, various display symbols such as a special symbol and a decorative symbol are derived and displayed to stop display of identification information such as a decorative symbol (also referred to as a complete stop display or a final stop display) to end the variable display. . On the other hand, during the variation display from the start of the variation display of the decorative symbol to the display of the final decorative symbol that is the variation display result, the variation rate of the decorative symbol becomes “0”. The symbol may be stopped and displayed, and for example, a display state that causes slight shaking or expansion / contraction may occur. Such a display state is also called a temporary stop display, and although the display result in the variable display is not deterministically displayed, the player can recognize that the variation of the decorative pattern due to the scroll display or the update display is not progressing. It becomes. Note that the temporary stop display may include displaying the decorative symbol completely stopped for a time shorter than a predetermined time (for example, 1 second) without causing slight shaking or expansion / contraction.

  For example, nine types of symbols (alphanumeric characters “1” to “9” or Chinese characters) may be used for the decorative symbols that are variably displayed in the “left”, “middle”, and “right” decorative symbol display areas 5L, 5C, and 5R. It may be any combination of numbers, English letters, nine character images related to a predetermined motif, a combination of numbers, letters, symbols, and character images. Character images may be, for example, people, animals, other objects, or , A decorative image showing a symbol such as a character or other arbitrary figure). Each of the decorative symbols is given a corresponding symbol number. For example, symbol numbers “1” to “9” are assigned to alphanumeric characters indicating “1” to “9”, respectively. Note that the number of decorative symbols is not limited to nine, and may be any number (for example, eight or ten) as long as an appropriate number of combinations such as a jackpot combination or a combination that is lost can be configured.

  After the decorative symbol variation display is started, the “left”, “middle”, and “right” ornament symbol display areas 5L, 5C, and 5R are displayed until the fixed ornament symbol that is the variation display result is derived and displayed. , For example, scroll display is performed such that the symbol number sequentially flows from top to bottom from the smallest to the largest, and when the ornamental symbol having the largest symbol number (for example, “9”) is displayed, The decorative symbol having the smallest symbol number (for example, “1”) is displayed. Alternatively, in at least one of the decorative symbol display areas 5L, 5C, and 5R (for example, the “left” decorative symbol display area 5L), the symbol number is scrolled from the largest to the smallest, and the symbol is displayed. When the decorative design with the smallest number is displayed, the decorative design with the largest design number may be displayed.

  In the display area of the image display device 5, a first reserved storage display area 109SG005D and a second reserved storage display area 109SG005U are arranged. An active display area 109SG005F for displaying the hold display corresponding to the memory as the active display is displayed. Here, the suspension of the variable display corresponding to each special symbol means that the game ball passes (enters) the first start winning opening formed by the winning ball apparatus 6A and the second starting winning opening formed by the variable winning ball apparatus 6B. ) Based on the starting prize. That is, the start condition (also referred to as “execution condition”) for executing the variable display of the special symbol or the decorative symbol is satisfied, but the variable display based on the previously established start condition is being executed, or the pachinko machine When the start condition for allowing the start of the variable display is not satisfied because 1 is controlled to the big hit gaming state, the variable display corresponding to the established start condition is held. The hold display in the first hold storage display area 109SG005D is a hold display generated based on the start winning when the game ball passes (enters) the first start winning opening, and the hold display in the second hold storage display area 109SG005U. Is a hold display generated based on the start winning when the game ball passes (enters) through the second start winning opening.

  In particular, the first reserved storage display area 109SG005D of the present embodiment has a hold 1 display position for displaying the first first special figure hold display from the bottom upward, and a second first special figure hold display. The hold 2 display position to display, the hold 3 display position to display the third first special figure hold display, and the hold 4 display position to display the fourth first special figure hold display are arranged in parallel. The display can be displayed.

  In addition, a character image 109SGC is displayed above the first reserved storage display area 109SG005D in the image display device 5 (see FIG. 20-27). In the pachinko gaming machine 1 according to the present embodiment, as will be described in detail later, when a new start win occurs, the hold display moves from the character image 109SGC toward the first hold storage display area 109SG005D or the active display area 109SG005F. The start winning effect can be executed.

  In the present embodiment, the hold display generated based on the start winning when the game ball passes (enters) the first start winning opening is displayed in a round white display (the hold displayed in the first hold storage display area 109SG005D). Storage display), and the hold display generated based on the start winning due to the game ball passing (entering) through the second start winning opening is a circular white display (the hold storage displayed in the second hold storage display area 109SG005U) Display). In addition, based on the hold display generated based on the start winning when the game ball passes (enters) through the first start winning opening, and based on the start winning when the game ball passes (enters) through the second start winning opening. The display mode of the generated hold display may be a different display mode.

  In the example illustrated in FIG. 20A, the number of special figure reservation memories is displayed above the first special symbol display device 4 </ b> A and the second special symbol display device 4 </ b> B together with the first reservation storage display area 109SG005D and the second reservation storage display area 109SG005U. The first hold indicator 25A and the second hold indicator 25B are provided for displaying the information in an identifiable manner. The first hold indicator 25A displays the first special figure hold memory number so that it can be specified. The second hold indicator 25B displays the second special figure hold memory number so that it can be specified. The number of first special figure hold memory is the number of memory for which the execution of the variable display using the first special figure is suspended. The second special figure holding memory number is the number of memories for which the execution of the variable display using the second special figure is suspended. The variable display holding memory number obtained by adding the first special figure holding memory number and the second special figure holding memory number is also referred to as a total holding memory number. When simply referring to the “number of special figure hold memory”, it usually refers to a concept including any of the first special figure hold memory number, the second special figure hold memory number, and the total hold memory number. It may refer to a concept that includes the first special figure reserved memory number and the second special figure reserved memory number but excludes the total reserved memory number).

  General winning ports 109SG050A and 109SG050D are provided on the left and right sides of the image display device 5, and general winning ports 109SG050B and 109SG050C are provided below the general winning ports 109SG050A. A winning ball device 6A and a variable winning ball device 6B are provided below the image display device 5. The winning ball apparatus 6A forms a first start winning opening that is always kept in a certain open state by a predetermined ball receiving member, for example. The variable winning ball apparatus 6B is in a normally open state (see the solid line position in FIG. 20-1) and a tilted position (in FIG. 20-1) by a solenoid 109SG081 for a normal electric accessory shown in FIG. 20-2. An ordinary electric accessory having a movable wing piece that changes to an expanded open state (see dotted line position) is provided, and a second start winning opening is formed.

  As an example, in the variable winning ball apparatus 6B, when the solenoid 109SG081 for the ordinary electric accessory is in the OFF state, the movable wing piece is in the vertical position, so that the game ball passes (enters) the second starting winning opening. It becomes difficult to open normally. On the other hand, in the variable winning ball apparatus 6B, the game ball passes (enters) the second start winning opening by tilt control in which the movable blade piece is tilted when the solenoid 109SG081 for the ordinary electric accessory is in the ON state. ) Is easy to expand. The variable winning ball apparatus 6B can enter the second start winning opening even when in the normally open state, but has a lower possibility of entering the game ball than when in the expanded open state. You may comprise so that it may become. Alternatively, the variable winning ball apparatus 6B may be configured so that the game ball does not enter the second starting winning opening in the normally open state, for example, by closing the second starting winning opening. In this way, the second start winning port as the second start area is in an expanded open state in which game balls easily pass (enter) and in a normally open state in which game balls are difficult to pass (enter) or cannot pass (enter). To change.

  The game ball that has passed (entered) the first starting winning opening formed in the winning ball apparatus 6A is detected by, for example, the first starting switch 22A shown in FIG. The game ball that has passed (entered) the second start winning opening formed in the variable winning ball apparatus 6B is detected by, for example, the second start opening switch 22B shown in FIG. Based on the detection of the game ball by the first start port switch 22A, a predetermined number (for example, three) of game balls are paid out as prize balls, and the first special figure holding memory number is set to a predetermined upper limit value (for example, “ 4 ") If the following, the first start condition is satisfied. Based on the detection of the game ball by the second start port 22B, a predetermined number (for example, three) of game balls are paid out as prize balls, and the second special figure holding memory number is set to a predetermined upper limit value (for example, “ 4 ") If the following, the second start condition is satisfied. The number of prize balls to be paid out based on the detection of the game ball by the first start port switch 22A and the number of prize balls to be paid out based on the detection of the game ball by the second start port switch 22B. May be the same number or different numbers.

  In addition, the game balls that have passed (entered) the general winning ports 109SG050A, 109SG050B, 109SG050C, 109SG050D are the first general winning port switch 109SG026A, the second general winning port switch 109SG026B, and the third general winning port switch shown in FIG. 109SG026C and the fourth general winning opening switch 109SG026D, and based on the detection, a predetermined number (for example, 10) of game balls are paid out as prize balls.

  On the right side of the winning ball device 6A and the variable winning ball device 6B, there is provided a special variable winning ball unit 109SG007 in which the first special variable winning ball device 109SG007A and the second special variable winning ball device 109SG007B are integrated.

  Here, the configuration of the special variable winning ball unit 109SG007 will be described. In addition, in the following description, it demonstrates on the basis of the up-down and left-right direction when the pachinko gaming machine 1 is seen from the front.

  As shown in FIG. 20A, in the special variable winning ball unit 109SG007, the left side constitutes a first special variable winning ball device 109SG007A, and the right side constitutes a second special variable winning ball device 109SG007B. Further, a cover body (not shown) made of a synthetic resin material having translucency is attached to the front side of the special variable winning ball unit 109SG007, and the player can pass the special variable winning ball unit through the cover body. The game balls flowing down in 109SG007, particularly in the second special variable winning ball apparatus 109SG007B, can be visually recognized.

  The first special variable winning ball device 109SG007A includes a first grand prize opening door 109SG701 that is opened and closed by a solenoid 109SG082 (see FIG. 20-2), and is opened and closed by the first big prize opening door 109SG701. A changing first big prize opening is formed. The first grand prize opening is formed to open upward at the left part of the special variable winning ball unit 109SG007. The first grand prize opening door 109SG701 is slidable in the front-rear direction between a closed position where the first big prize opening is closed by driving the solenoid 109SG082 and an open position where the first grand prize opening is opened. ing.

  In the first special variable winning ball apparatus 109SG007A, when the solenoid 109SG082 is in the on state, the first big winning opening door 109SG701 opens the first big winning opening, and the game ball passes (enters) the first big winning opening. Make it easy to do. On the other hand, when the solenoid 109SG082 is in the off state, the first grand prize opening door 109SG701 closes the first big prize opening, and the game ball cannot pass (enter) the first big prize opening. As described above, the first big prize opening is changed between an open state advantageous for a player through which game balls easily pass (enter) and a closed state unfavorable for the player through which game balls cannot pass (enter). In addition to the closed state in which the game ball cannot pass (enter) through the first grand prize opening, or in addition to the closed state, a partially open state in which the game ball is difficult to pass (enter) through the first grand prize port is provided. May be.

  A game ball that has passed (entered) the first grand prize opening is detected by the first count switch 109SG023 by passing through a first count switch 109SG023 (see FIG. 20-2) provided in the first big prize opening. Is done. The game ball that has passed through the first count switch 109SG023 is guided to the back side of the game board 2 through a through hole (not shown) formed in the game board 2. Based on the detection of game balls by the first count switch 109SG023, a predetermined number (for example, 15) of game balls are paid out as prize balls. In this way, when the game ball passes (enters) the first big prize opening opened in the first special variable prize winning ball device 109SG007A, other prize winning openings such as the first starting prize opening and the second starting prize opening are opened. More prize balls are paid out than when game balls pass (enter). Therefore, when the first special prize winning device 109SG007A is in the open state in the first special variable winning ball apparatus 109SG007A, the game ball can enter the first big prize winning port, which is a first state advantageous to the player. On the other hand, in the first special variable winning ball apparatus 109SG007A, if the first grand prize opening is closed, it is impossible or difficult to obtain a winning ball by passing (entering) the game ball to the first big winning opening. Thus, the second state is disadvantageous for the player.

  Further, most of the game balls that have flowed down without entering the first grand prize opening are guided to the variable winning ball device 6B by an unillustrated obstacle nail or the like. If the variable winning ball device 6B is in the expanded open state, the second start is performed. It is designed to win prizes.

  The second special variable winning ball device 109SG007B shown in FIG. 20-14 is formed to protrude upward from the first special variable winning ball device 109SG007A, and is opened and closed by a solenoid 109SG083 (see FIG. 20-2). The second big prize opening door 109SG711 is formed, and the second big prize opening door 109SG711 forms a second big prize opening which changes between an open state and a closed state. The second grand prize opening is formed so as to open upward at the upper end of the second special variable winning ball apparatus 109SG007B. The second grand prize opening door 109SG711 is operated between the first state (open state) in which the second grand prize winning opening is opened by driving the solenoid 109SG083 and the second state (closed state) in which the second big prize opening is closed. It is provided to be slidable in the front-rear direction.

  In the second special variable winning ball apparatus 109SG007B, when the solenoid 109SG083 for the second large winning opening door 109SG711 is in the ON state, the second large winning opening door 109SG711 opens the second large winning opening, and the game ball is in the second state. Make it easy to pass (enter) through the two major winning openings. On the other hand, when the solenoid 109SG083 for the second grand prize opening door 109SG711 is in the off state, the second big prize opening door 109SG711 closes the second big prize opening, and the game ball passes the second grand prize opening. (Entrance) can not be. As described above, the second grand prize opening is changed between an open state in which a game ball easily passes (enters) and is advantageous to the player, and a closed state in which the game ball cannot pass (enters) and is disadvantageous to the player. In addition to the closed state where the game ball cannot pass (enter) through the second grand prize opening, or in addition to the closed state, a partially opened state where the game ball is difficult to pass (enter) through the second big prize port is provided. May be.

  A game ball passing (entering) the second grand prize opening is detected by the second count switch 109SG024A by passing through the second count switch 109SG024A installed in the second big prize opening shown in FIG. 20-14. Is done. Based on the detection of the game ball by the second count switch 109SG024A, a predetermined number (for example, 15) of game balls are paid out as prize balls. Thus, when the game ball passes (enters) the second big prize opening opened in the second special variable prize winning ball device 109SG007B, other normal prizes such as the first starting prize opening and the second starting prize opening, for example. More prize balls are paid out than when game balls pass (enter) through the mouth. Therefore, when the second special prize winning device 109SG007B is in the open state in the second special variable winning ball device 109SG007B, the game ball can enter the second big prize winning port, which is a first state advantageous to the player. On the other hand, in the second special variable winning ball apparatus 109SG007B, if the second big prize opening is in a closed state, it is impossible or difficult to obtain a prize ball by passing (entering) the game ball to the second big prize opening. Thus, the second state is disadvantageous for the player.

  As shown in FIG. 20-14, in the second special variable winning ball apparatus 109SG007B, there is formed a gaming ball channel 109SG750 through which a gaming ball that has passed the second big winning opening can flow down. The game ball flow path 109SG750 includes a main path 109SG740 (area along the solid line in FIG. 20-14) through which the game ball that has passed the second grand prize opening can pass, and a branch path 109SG741 (FIG. 20-) branched from the main path 109SG740. 14 along the middle dotted line). A backflow preventing member 109SG730, which will be described later, is disposed between the main path 109SG740 and the branch path 109SG741. In addition, on the upstream side of the backflow prevention member 109SG730 in the main path 109SG740, a first branch portion 109SG742 that branches the branch path 109SG741 from the main path 109SG740 is provided, and on the downstream side of the backflow prevention member 109SG730 in the main path 109SG740. , A second branching portion 109SG743 in which a branching passage 109SG741 branches from the main route 109SG740 is provided. That is, the game ball flowing down the main route 109SG740 can move from the first branch portion 109SG742 or the second branch portion 109SG743 toward the branch passage 109SG741.

  A third count switch 109SG024B through which a game ball can pass is installed at the most downstream portion of the main path 109SG740, and the game ball passes through the third count switch 109SG024B, and is thereby passed by the third count switch 109SG024B. Detected. The game ball that has passed through the third count switch 109SG024B is guided to the back side of the game board 2 through a through hole (not shown) formed in the game board 2. The game ball that has reached the most downstream portion of the branch path 109SG741 is guided to the back side of the game board 2 through a through hole (not shown) formed in the game board 2 and passes through the fourth count switch 109SG024C. , Detected by the fourth count switch 109SG024C.

  In the present embodiment, the gaming state after the small hit game is controlled to the big hit gaming state based on the detection of the game ball by the third count switch 109SG024B during the small hit game described later. Yes. Therefore, during the period in which the second big prize opening door 109SG711 is open during the small hit game, the path of the game ball is changed by adding vibration or the like, and the game ball is detected by the third count switch 109SG024B. In this case, the pachinko gaming machine 1 according to the present embodiment stops the game in such a case.

  On the downstream side of the first branch portion 109SG742 in the main path 109SG740, a restricting member 109SG721 for restricting and allowing the game ball to flow toward the third count switch 109SG024B is provided. The restriction member 109SG721 protrudes into the main path 109SG740 by driving the solenoid 109SG085 (see FIG. 20-2), thereby restricting the flow of the game ball toward the third count switch 109SG024B in the main path 109SG740. And an allowance state allowing the game ball to flow down to the third count switch 109SG024B in the main path 109SG740 by retreating from the main path 109SG740 so as to be slidable in the front-rear direction.

  The upper portion of the regulating member 109SG721 is formed as a flat surface, and the flat surface is provided in the main path 109SG740 so as to form a predetermined angle downward toward the branch path 109SG741 in a front view. . For this reason, when the game ball flows down the main path 109SG740 when the regulation member 109SG721 is in the regulation state, the game ball passes through the second branch portion 109SG743 along the flat surface formed at the upper part of the regulation member 109SG721. It is guided to flow down toward the branch path 109SG741 via the route.

  Between the main path 109SG740 and the branch path 109SG741, a backflow prevention member 109SG730 is pivotally supported by a pivot that faces in the front-rear direction. The backflow prevention member 109SG730 is formed of a plate-like member whose upper end is pivotally supported by a pivot. It can be moved (rotated) so as to be able to pass to the 109SG741 side. Specifically, it is rotatable between an allowable position that inclines so as to open between the main path 109SG740 and the branch path 109SG741, and a restriction position that closes between the main path 109SG740 and the branch path 109SG741. Is provided. A rib 109SG801 projecting forward is provided above the regulating member 109SG721, and the backflow preventing member 109SG730 contacts the rib 109SG801 in a counterclockwise direction when viewed from the front.

  Note that the backflow prevention member 109SG730 is normally disposed at a restriction position due to its own weight, and at this restriction position, a game ball guided on a flat surface comes into contact with the main path 109SG740 side (right side in front view). When it is pushed by the game ball, it rotates clockwise in front view with the allowable position as the upper limit.

  At this time, the vertical width dimension between the front end portion of the backflow prevention member 109SG730 and the lower portion of the second branch portion 109SG743 is changed to be shorter than the diameter of the game ball, and the main path provided with the third count switch 109SG024B The game ball is allowed to move from the 109SG740 side to the branch path 109SG741 side where the fourth count switch 109SG024C is provided. On the other hand, when the backflow prevention member 109SG730 is in the restricted position, the backflow prevention member 109SG730 is in contact with the rib 109SG801 even if the game ball contacts from the branch path 109SG741 (left side in front view). The rotation of the member 109SG730 in the counterclockwise direction is restricted. At this time, since the width dimension between the front end portion of the backflow prevention member 109SG730 and the lower portion of the second branch portion 109SG743 is maintained shorter than the diameter of the game ball, the fourth count switch 109SG024C is provided. The movement of the game ball from the branch path 109SG741 side to the main path 109SG740 side where the third count switch 109SG024B is provided is reliably restricted.

  Returning to FIG. 20-1, a normal symbol display 20 is provided at a predetermined position of the game board 2 (in the example shown in FIG. 20-1, on the left side of the game area). As an example, the normal symbol display 20 is composed of 7 segments, dot matrix LEDs, and the like, like the first special symbol display device 4A and the second special symbol display device 4B, and a plurality of types of identification information different from the special symbols. Is displayed (variable display) so that it can be variably displayed.

  Above the normal symbol display 20, a universal figure holding display 25 </ b> C is provided. The general-purpose hold indicator 25C is configured to include, for example, four LEDs, and displays the general-purpose hold memory number as the number of effective passing balls that have passed through the passage gate 109SG041. The passing gate 109SG041 is installed between the first special variable winning ball device 109SG007A and the second special variable winning ball device 109SG007B in the special variable winning ball unit 109SG007. Note that a gate switch 21 to be described later is built in the passage gate 109SG041.

  In addition to the above-described configuration, the surface of the game board 2 is provided with a windmill for changing the flow direction and speed of the game ball and a number of obstacle nails. In addition, a winning opening other than the above-described winning holes may be provided. In the lowermost part of the game area, there is provided an out port through which game balls that have not entered any winning port are taken.

  Speakers 8L and 8R for reproducing and outputting sound effects and the like are provided at the upper left and right positions of the gaming machine frame 109SG003, and a game effect lamp 9 is provided at the periphery of the game area. A decorative LED may be arranged around each structure (for example, winning ball device 6A, variable winning ball device 6B, special variable winning ball unit 109SG007, etc.) in the game area of the pachinko gaming machine 1. At the lower right position of the gaming machine frame 109SG003, a hitting operation handle (operation knob) operated by a player or the like to launch a game ball as a game medium toward the game area is provided. For example, the hitting operation handle adjusts the resilience of the game ball according to the operation amount (rotation amount) by the player or the like. The hitting operation handle only needs to be provided with a single shot switch or a touch ring (touch sensor) for stopping the driving of a shooting motor included in the hitting ball shooting device.

  At a predetermined position of the gaming machine frame 109SG003 below the gaming area, a game ball paid out as a prize ball or a game ball lent out by a predetermined ball lending machine is held (stored) so as to be supplied to a ball hitting device. )) Is provided. Below the gaming machine frame 109SG003, there is provided a lower plate that holds (stores) surplus balls overflowing from the upper plate so as to be discharged out of the pachinko gaming machine 1. A stick controller 31A that can be held and tilted by the player is attached to the lower plate member forming the lower plate, for example, at a predetermined position on the front side of the upper surface of the lower plate body (for example, the central portion of the lower plate). ing. The upper plate member that forms the upper plate includes a push button 31B that allows a player to perform a predetermined instruction operation by a pressing operation or the like at a predetermined position on the upper surface of the upper plate body (for example, above the stick controller 31A). Is provided.

  In the present embodiment, the game area is divided into a left game area on the left side and a right game area on the right side of the center decorative frame that surrounds the periphery of the image display device 5 disposed at a substantially central position of the game area. A game ball that has been launched weakly with the hitting operation handle (left-handed) flows down the first path (left game area), and a game ball that has been launched more strongly with the hitting operation handle (right-handed) (Right game area).

  The game balls that have flowed down the first path can win the winning ball apparatus 6A and the variable winning ball apparatus 6B, and the game balls that have flowed down the second path are the variable winning ball apparatus 6B and the first special variable winning ball apparatus. Numerous obstacle nails are arranged so as to be able to win 109SG007A and the second special variable winning ball apparatus 109SG007B and pass through the passage gate 109SG041. That is, in the case of left-handed, it is impossible to win the first special variable winning ball device 109SG007A and the second special variable winning ball device 109SG007B, and it is impossible to pass the passage gate 109SG041.

  Next, the progress of the game in the pachinko gaming machine 1 will be schematically described. In the pachinko gaming machine 1, the normal symbol display 20 displays a variation display of the normal symbol such that the game ball that has passed through the passing gate 109SG041 provided in the gaming area is detected by the gate switch 21 shown in FIG. After the normal map start condition for execution is satisfied, the normal map start condition for starting the normal symbol variable display, such as the end of the previous normal map variable display, is established. The change display of the usual figure by the symbol display 20 is started.

  In this normal variation display, after the normal symbol variation is started, when a predetermined time which is the normal variation time has elapsed, the fixed normal symbol which is the normal symbol variation display result is stopped and displayed (derived display). At this time, if a specific normal symbol (symbol per symbol), such as a number indicating “7”, is stopped and displayed as the fixed normal symbol, the fluctuation display result of the normal symbol becomes “per symbol”. On the other hand, if a normal symbol other than the symbol per symbol, such as a number or symbol other than the number indicating “7”, is stopped and displayed as the fixed ordinary symbol, the fluctuation display result of the normal symbol is “usually lost”. Become. Corresponding to the fact that the normal symbol variation display result is “per normal”, the expansion opening control (tilting control) is performed in which the movable wing piece of the electric tulip constituting the variable winning ball apparatus 6B is tilted. When the predetermined time elapses, normal opening control is performed to return to the vertical position.

  After the first start condition is satisfied, for example, when the game ball that has passed (entered) the first start winning opening formed in the winning ball apparatus 6A is detected by the first start opening switch 22A shown in FIG. For example, based on the fact that the first start condition is satisfied due to the end of the previous special figure game or the big hit gaming state, the special figure variable display by the first special symbol display device 4A is started. Further, the second start condition is satisfied, for example, when the game ball that has passed (entered) the second start winning opening formed in the variable winning ball apparatus 6B is detected by the second start opening switch 22B shown in FIG. After that, for example, based on the fact that the second start condition is satisfied, for example, due to the previous special figure fluctuation display or the end of the big hit gaming state, the special figure fluctuation display by the second special symbol display device 4B is started. .

  In the variation display of the special symbol by the first special symbol display device 4A or the second special symbol display device 4B, after the variation display time as the special symbol variation time has elapsed after starting the variation display of the special symbol, A definite special symbol (variation display result) that is a variation display result is derived and displayed. At this time, if a specific special symbol (big hit symbol) is stopped and displayed as a confirmed special symbol, it becomes a “big hit” as the specific display result, and a predetermined special symbol (small bonus symbol) different from the big hit symbol is stopped and displayed. Then, it becomes “small hit” as a predetermined display result. Further, if a special symbol different from the big hit symbol or the small hit symbol is stopped and displayed as the confirmed special symbol, the game is “lost”.

  After the variation display result in the variation display of the special figure becomes “big hit”, it is controlled to the big hit gaming state as a specific gaming state in which a round advantageous to the player (also called “round game”) is executed a predetermined number of times. The After the variation display result in the variation display of the special figure becomes “small hit”, the small hit game state is controlled as a special game state different from the big hit game state.

  In the pachinko gaming machine 1 in this embodiment, as an example, a special symbol indicating the numbers “3”, “5”, and “7” is a big hit symbol, and a special symbol indicating the number “2” is a small hit symbol. , The special symbol indicating the symbol “−” is a lost symbol. In addition, each symbol such as a big hit symbol, a small hit symbol, and a lost symbol in the special symbol variation display by the first special symbol display device 4A is different from each symbol in the special symbol variation display by the second special symbol display device 4B. It may be designed to be a symbol, or a special symbol that is common in the variable display of both special symbols may be a big hit symbol, a small hit symbol, or a lost symbol.

  After the jackpot symbol is stopped and displayed as a special display result in the special symbol variable display and the specific display result is "big hit", in the big hit gaming state, the first special variable winning ball device 109SG007A first big winning door 109SG701 opens the first big prize opening in a period until a predetermined upper limit time (for example, 29 seconds) elapses or a predetermined number (for example, 10) of winning balls is generated. Thereby, the round which makes the 1st special variable winning ball apparatus 109SG007A the 1st state (open state) advantageous for a player is performed.

  The round, which is the opening cycle of the first big prize opening, can be repeatedly executed until the number of executions reaches a predetermined upper limit number (for example, “15”, “10”, “5”, etc.). Even before the number of rounds has reached the upper limit, the execution of the round is terminated when a predetermined condition is satisfied (for example, a game ball has not won the first big prize opening). Also good.

  In addition, after the small hit symbol is stopped and displayed as the specific display result in the special symbol variation display and the “small hit” as the specific display result, the second special variable winning ball device 109SG007B The second big prize opening door 109SG711 opens the second big prize opening during a period until a predetermined upper limit time (for example, 3 seconds) elapses or a predetermined number (for example, ten) of winning balls are generated. State. As a result, the second special variable winning ball device 109SG007B enters a first state (open state) that is advantageous to the player.

  In the present embodiment, in the small hit gaming state, the second big prize opening door 109SG711 is set to open once until a predetermined upper limit time (for example, 3 seconds) elapses. It is not limited to this, and may be opened multiple times in the small hit gaming state.

  In the small hit gaming state, when a game ball that has won a second big prize opening passes the third count switch 109SG024B provided in the second special variable winning ball device 109SG007B, the game ball passes through the third count switch 109SG024B. It becomes a "big hit" based on (V winning big hit). That is, the CPU 103 controls the gaming state to the big hit gaming state based on detecting the passing of the game ball through the third count switch 109SG024B. On the other hand, when the game ball that has won the second big winning opening in the small hit gaming state passes through the fourth count switch 109SG024C provided in the second special variable winning ball device 109SG007B, the “big hit” is not made. In other words, the CPU 103 does not control the gaming state to the big hit gaming state based on detecting the passing of the gaming ball through the fourth count switch 109SG024C.

  When the game ball is controlled to the big hit gaming state based on the passage of the third count switch 109SG024B, the second special prize winning ball device 109SG007B of the second special variable winning ball device 109SG007B is set to a predetermined upper limit time (for example, 29 seconds). ) Or the period until a predetermined number (for example, 10) of winning balls are generated, the second big prize opening is opened. Thereby, the round game which makes the 2nd special variable winning ball apparatus 109SG007B the 1st state (open state) advantageous for a player is performed. In the present embodiment, the second special variable winning ball device 109SG007B is controlled to the first state when the jackpot gaming state is controlled based on the passage of the third count switch 109SG024B. The present invention is not limited to this, and the first special variable winning ball device 109SG007A may be controlled to the first state.

  The round game, which is the opening cycle of the second grand prize opening, can be repeatedly executed until the number of executions reaches a predetermined upper limit number (for example, “15”, “5”, etc.). Note that even before the number of executions of the round game reaches the upper limit number, the round game may be ended when a predetermined condition is satisfied (for example, a game ball has not won the second big prize opening). Good.

  In addition, after the end of the big hit gaming state in the present embodiment, the time reduction state and the time reduction control in which the time reduction control (time reduction control) is performed within a predetermined range of fluctuations (for example, 100 times or 20 times) are performed. There is no control in either normal state. By performing the time reduction control, the fluctuation display time (special figure fluctuation time) in the special figure fluctuation display is shortened compared to the normal state. The normal state is a normal game state that is different from a specific game state such as a big hit game state, and is an initial setting state of the pachinko gaming machine 1 (for example, an initialization process after power-on, such as when a system reset is performed) The same control as in the state in which is executed. In the time-saving control, after the end of the big hit gaming state, a special number of fluctuation display is executed a predetermined number of times (for example, 100 times or 20 times), the fluctuation display result is “big hit”, What is necessary is just to complete | finish, when any conditions are fulfilled previously among game balls passing 3rd count switch 109SG024B.

  When the time reduction control is performed, the control for reducing the fluctuation time (special figure fluctuation time) in the fluctuation display of the special figure by the first special symbol display device 4A or the second special symbol display device 4B is shorter than that in the normal state. The control for shortening the fluctuation time (normal figure fluctuation time) of the normal figure by the symbol display 20 than in the normal state, and the fluctuation display result in the fluctuation display of the usual figure each time is “per normal figure”. When the tilt control time for performing the tilt control of the movable blade piece in the variable winning ball apparatus 6B based on the fact that the fluctuation display result is “per hit” is in the normal state. To increase the possibility that the second start condition is satisfied by making it easier for the game ball to pass through (enter) the second start winning opening, such as control for making it longer and control for increasing the number of tilts than in the normal state. Players at Advantageous to become control is performed taking. In this way, the control that facilitates the entry of the game ball into the second start winning opening in accordance with the time-shortening control and is advantageous to the player is also referred to as high opening control. As the high opening control, any one of these controls may be performed, or a plurality of controls (including all) may be performed in combination.

  By performing the high opening control, the frequency at which the second start winning opening becomes the expanded opening state is higher than when the high opening control is not performed. As a result, the second start condition for executing the special figure game using the second special figure in the second special symbol display device 4B is easily satisfied, and the fluctuation display of the special figure can be executed frequently. Next, the time until the fluctuation display result becomes “big hit” or “small hit” is shortened. The period during which the high opening control can be performed is also referred to as a high opening control period, and this period may be the same as the period during which the time reduction control is performed. The gaming state in which both the short time control and the high opening control are performed is also referred to as a short time state or a high base state.

  The pachinko gaming machine 1 includes various types such as a main board 11, an effect control board 12, an audio control board 13, a lamp control board 14, a terminal board (information output board) 16, and a power supply board 17 as shown in FIG. The control board is mounted. The pachinko gaming machine 1 is also equipped with a relay board 15 for relaying various control signals transmitted between the main board 11 and the effect control board 12. In addition, various boards such as a payout control board, a launch control board, and an interface board are disposed on the back surface of the game board 2 and the like in the pachinko gaming machine 1.

  The main board 11 is a main-side control board, and is mounted on the back surface of the pachinko gaming machine 1 in a state of being housed in the board case 109SG201, as shown in FIG. Various circuits for control are installed. The main board 11 is mainly addressed to a sub-side control board composed of a random number setting function used in a special game, a function of inputting a signal from a switch or the like disposed at a predetermined position, and an effect control board 12. A function of outputting and transmitting a control command as an example of command information as a control signal, a function of outputting various information to a hall management computer, and the like are provided. In addition, the main board 11 performs on / off control of each LED (for example, segment LED) constituting the first special symbol display device 4A and the second special symbol display device 4B, and thereby the first special diagram and the second special diagram. The display of fluctuation of a predetermined display pattern such as controlling the fluctuation display of the normal symbol display 20 or controlling the fluctuation display of the normal symbol by the normal symbol display 20 by controlling the lighting / extinguishing / coloring control of the normal symbol display 20 is performed. It also has a function to control.

  Further, as shown in FIGS. 20-3 and 20-15 (A), the main board 11 is provided with a display monitor 109SG029 that is visible from the back side of the pachinko gaming machine 1, and the display monitor 109SG029 includes Also, it has a function of displaying various winning information related to winning. A display changeover switch 109SG030 is provided on the left side of the display monitor 109SG029, and information displayed on the display monitor 109SG029 can be changed by operating the display changeover switch 109SG030.

  Also, on the main board 11, as shown in FIG. 20-2, the door opening sensor 109SG090 for detecting the opening of the glass door frame 109SG003a that covers the front surface of the game board 2 so as to be opened and closed, and the opening of the first grand prize opening door 109SG701. Various sensors such as a first grand prize opening door sensor 109SG091 for detecting the second grand prize opening door sensor 109SG092 for detecting the opening of the second big prize opening door 109SG711, and the like are connected. It also has a function of determining the occurrence of various abnormalities (errors) based on detection signals output from the sensors.

  The main board 11 incorporates various signals such as a power-off signal, a clear signal, and a reset signal in addition to detection signals from the gaming control microcomputer 100 and various gaming ball detection switches. Information output for outputting various signals such as security signals from the switch circuit 110 for transmitting to 100, the output circuit 109SG111 for transmitting the solenoid drive signal from the microcomputer 100 for game control to the solenoid 109SG081-83, and the terminal board 109SG016 A circuit 109SG112 is mounted.

  20-2 is enclosed in a substrate case 109SG201 made of a synthetic resin material having transparency, as shown in FIGS. 20-3 and 20-15 (A). 11, a display monitor 109SG029 (for example, 7 segments) is disposed, and a display changeover switch 109SG030 is disposed on the right side of the display monitor 109SG029. The display monitor 109SG029 and the display changeover switch 109SG030 are arranged on the front surface when the main board 11 is visually recognized. Since the main board 11 is not visible when the gaming machine frame 109SG003 is not opened, the front when viewing the main board 11 is the back side of the gaming board 2 with the gaming machine frame 109SG003 opened. This is the front when visually recognizing and is different from the front of the pachinko gaming machine 1. However, the front when viewing the main board 11 and the front of the pachinko gaming machine 1 may be made common.

  In addition, the main board 11 (game control microcomputer 100) has each award port (first grand prize port, second grand prize port, second start prize port, first start prize port, first to fourth general prizes). Mouth, hereinafter referred to as “entry area”), and the number of game balls that have entered the game is counted, and various winning information such as connection ratio and role ratio is displayed on the display monitor 109SG029. By displaying these winning information, it is possible to confirm various winning information such as a connection ratio and a role ratio after installation in the amusement hall. That is, it is normal for the manufacturer of the pachinko gaming machine 1 to design the game board surface so that the game ball enters the general winning opening at a predetermined frequency (passes the test). Further, when the test is performed, it is confirmed whether or not a game ball has entered the general winning opening at a predetermined frequency. Further, even after the pachinko gaming machine 1 is installed, it is confirmed what kind of adjustment is performed and, as a result of the adjustment, whether or not the game ball has entered the general winning opening as frequently as designed. Therefore, in the pachinko gaming machine 1 according to the present embodiment, it is possible to recognize what adjustments have been made after installation in the pachinko gaming machine 1.

  The lock switch 109SG051 and the setting changeover switch 109SG052 are provided on the back side of the pachinko gaming machine 1, and cannot be operated unless the gaming machine frame 109SG003 that can be opened by a predetermined key operation is opened. Only a store clerk possessing a predetermined key can operate. Further, since the lock switch 109SG051 requires a key operation, only a store clerk possessing a key for operating the lock switch 109SG051 can be operated among the store clerk of the game store. The lock switch 109SG051 is a switch that can execute an ON / OFF switching operation with a predetermined key and a switch that can execute an operation (for example, a pushing operation) different from the switching operation.

  As shown in FIG. 20-3, the lower part of the back side of the pachinko gaming machine 1 is used for discharging the game balls that have won the prize winning holes and the game balls that have entered the out slot to the outside of the pachinko gaming machine 1. A nozzle (discharge port) is provided, and a discharge port switch 109SG070 for detecting a game ball discharged from the pachinko gaming machine 1 (detecting a released game ball) is provided in the nozzle. ing. The outlet switch 109SG070 is connected to the aforementioned switch circuit 110 as shown in FIG. 20-2.

  The output circuit 109SG111 is also connected to a controller 109SG084 for driving the solenoid 109SG085. The controller 109SG084 starts driving control of the solenoid 109SG085 by receiving an activation signal from the game control microcomputer 100 via the output circuit 109SG111 when the pachinko gaming machine 1 is activated. When the controller 109SG084 drives the solenoid 109SG085, the regulating member 109SG721 repeats the regulated state and the allowed state every second regardless of the gaming state.

  A control signal transmitted from the main board 11 toward the effect control board 12 is relayed by the relay board 15. The control command transmitted from the main board 11 to the effect control board 12 via the relay board 15 is, for example, an effect control command transmitted and received as an electric signal. The effect control command includes, for example, a display control command used for controlling an image display operation in the image display device 5, a voice control command used for controlling sound output from the speakers 8L and 8R, and a game effect lamp 9. LED control commands used for controlling the lighting operation of the decoration LED and the like.

  FIG. 20-5 (A) is an explanatory diagram showing an example of the contents of the effect control command used in the present embodiment. The effect control command has, for example, a 2-byte structure, and the first byte indicates MODE (command classification), and the second byte indicates EXT (command type). The first bit (bit 7) of the MODE data is always “1”, and the first bit of the EXT data is “0”. Note that the command form shown in FIG. 20-5 (A) is an example, and other command forms may be used. In this example, the control command is composed of two control signals. However, the number of control signals constituting the control command may be one or a plurality of three or more.

  In the example shown in FIG. 20-5 (A), the command 8001H is a first change start command that specifies the start of change in the special figure game using the first special figure in the first special symbol display device 4A. Command 8002H is a second variation start command for designating the start of variation in a special symbol game using the second special symbol in second special symbol display device 4B. The command 81XXH is a decoration that is variably displayed in the “left”, “middle”, and “right” decoration symbol display areas 5L, 5C, and 5R in the image display device 5 in response to the special symbol variation display in the special symbol game. This is a variation pattern designation command for designating a variation pattern (variation time) such as a symbol. Here, XXH indicates an unspecified hexadecimal number, and may be a value arbitrarily set according to the instruction content by the effect control command. In the variation pattern designation command, different EXT data is set according to the variation pattern to be designated.

  Command 8CXXH is a change display result notification command, and is an effect control command for designating a change display result such as a special symbol or a decorative symbol. In the variable display result notification command, for example, as shown in FIG. 20-5 (B), a determination result (predetermined result) whether the variable display result is “lost”, “big hit” or “small hit”. ) Or different EXT data is set in accordance with a determination result (a jackpot type determination result) as to which of a plurality of jackpot types when the variation display result is “big hit”.

  In the variable display result notification command, for example, as shown in FIG. 20-5 (B), the command 8C00H is a first variable display result designation command indicating a pre-determined result indicating that the variable display result is “lost”. The command 8C01H is a second variable display result designation command for notifying the advance determination result and the big hit type determination result that the fluctuation display result is “big hit” and the big hit type is “big hit A”. The command 8C02H is a third variable display result designation command for notifying the advance determination result and the big hit type determination result that the fluctuation display result is “big hit” and the big hit type is “big hit B”. The command 8C03H is a fourth variable display result designation command for notifying a pre-determined result and a big hit type determination result that the fluctuation display result is “big hit” and the big hit type is “big hit C”. Command 8C04H is a fifth variable display result designation command for notifying a predetermined determination result that the variable display result is “small hit A”. The command 8C05H is a sixth variable display result designation command for notifying a predetermined result indicating that the variable display result is “small hit B”.

  The command 8F00H is a symbol confirmation command for designating stoppage (decision) of the decorative symbols in the decorative symbol display areas 5L, 5C, and 5R of the “left”, “middle”, and “right” in the image display device 5. The command 95XXH is a gaming state designation command for designating the current gaming state in the pachinko gaming machine 1. In the gaming state designation command, for example, different EXT data is set according to the current gaming state in the pachinko gaming machine 1. As a specific example, the command 9500H is a first gaming state designation command corresponding to a gaming state in which time reduction control is not performed (low base state, normal state), and the command 9501H is a gaming state in which time reduction control is performed (high base state) , The second gaming state designation command corresponding to the short time state).

  The command 96XXH is an error (abnormality) designation command that designates the occurrence of an error (abnormality) in the pachinko gaming machine 1 and the type of the error (abnormality) that has occurred. In the error (abnormality) designation command, for example, EXT data corresponding to each error (abnormality) is set, thereby specifying which error (abnormality) has been determined on the production control board 12 side. The occurrence of the specified error (abnormality) can be notified by an error notification process described later.

  The command A0XXH is a hit start designation command (also referred to as “fanfare command”) for designating display of an effect image indicating the start of the big hit gaming state or the small hit gaming state. The command A1XXH is a big winning opening releasing notification command for notifying that the big winning opening is a period in the big hit gaming state or the small hit gaming state. The command A2XXH is a notification command after opening the big winning opening that notifies that the big winning opening has changed from the open state to the closed state in the big hit gaming state or the small hit gaming state. The command A3XXH is a hit end designation command for designating display of an effect image at the end of the big hit gaming state or the small hit gaming state.

  In the hit start designation command and the hit end designation command, for example, EXT data similar to that of the variable display result notification command is set, so that different EXT data may be set in accordance with the predetermined determination result or the big hit type determination result. . Alternatively, in the hit start designation command or the hit end designation command, the correspondence relationship between the pre-determined result and the big hit type determination result and the set EXT data may be different from the correspondence relationship in the variable display result notification command. . In the big winning mouth opening notification command and the big winning mouth opening notification command, different EXT data is set corresponding to the number of rounds executed in the big hit gaming state or the small hit gaming state (for example, “1” to “15”). Is done.

  The command B100H is based on the fact that the game ball that has passed (entered) the first start winning opening formed by the winning ball apparatus 6A is detected by the first start opening switch 22A and a start winning (first start winning) has occurred. This is a first start opening prize designation command for notifying that the first start condition for executing the special figure game using the first special figure in the first special symbol display device 4A is established. The command B200H is based on the fact that the game ball that has passed (entered) the second start winning opening formed by the variable winning ball apparatus 6B is detected by the second start opening switch 22B and a start winning (second start winning) has occurred. The second start opening prize designation command for notifying that the second start condition for executing the special figure game using the second special figure in the second special symbol display device 4B is established.

  The command C1XXH is a first reserved memory number notification command for notifying the first special figure reserved memory number so that the special figure reserved memory number can be specified in the first reserved memory display area 109SG005D or the like. The command C2XXH is a second reserved memory number notification command for notifying the second special figure reserved memory number so that the special figure reserved memory number can be specified in the second reserved memory display area 109SG005U or the like. The first reserved memory number notification command is, for example, when the first start opening winning designation command is transmitted based on the fact that the game ball passes (enters) the first starting winning opening and the first start condition is satisfied. , Transmitted from the main board 11 to the effect control board 12. The second reserved memory number notification command is, for example, when the second start opening winning designation command is transmitted based on the fact that the game ball passes (enters) the second start winning opening and the second start condition is satisfied. , Transmitted from the main board 11 to the effect control board 12. In addition, the first reserved memory number notification command and the second reserved memory number notification command are used when the first start condition or the second start condition is satisfied (when the reserved memory number decreases). It may be transmitted in response to the start of execution.

  Instead of the first reserved memory number notification command and the second reserved memory number notification command, a total reserved memory number notification command for notifying the total reserved memory number may be transmitted. That is, a total pending storage number notification command for notifying an increase (or decrease) in the total pending storage number may be used.

  The command D100 is a V winning notification designation command for notifying that the V winning is achieved, that is, that the third count switch 109SG024B is turned on because the game ball has passed the third count switch 109SG024B.

  The game control microcomputer 100 mounted on the main board 11 is, for example, a one-chip microcomputer, and includes a ROM (Read Only Memory) 101 for storing a game control program, fixed data, and the like, and a game control work. A RAM (Random Access Memory) 102 that provides an area, a CPU (Central Processing Unit) 103 that executes a control program by executing a game control program, and updates numeric data indicating random values independently of the CPU 103 A random number circuit 104 to be performed, an input / output port (I / O) 105, and a real-time clock (RTC) 106 capable of outputting time information are configured.

  As an example, in the game control microcomputer 100, a process for controlling the progress of the game in the pachinko gaming machine 1 is executed by the CPU 103 executing a program read from the ROM 101. At this time, the CPU 103 reads fixed data from the ROM 101, the CPU 103 writes various fluctuation data to the RAM 102 and temporarily stores the fluctuation data, and the CPU 103 temporarily stores the various fluctuation data. The CPU 103 receives the input of various signals from outside the game control microcomputer 100 via the I / O 105, and the CPU 103 goes outside the game control microcomputer 100 via the I / O 105. A transmission operation for outputting various signals is also performed.

  FIG. 20-6 is an explanatory diagram illustrating a random number value counted on the main board 11 side. As shown in FIG. 20-6, in this embodiment, on the side of the main board 11, in addition to the random value MR1 for determining the special figure display result, the random value MR2 for determining the big hit type, the disturbance for determining the fluctuation pattern Numerical data indicating the numerical value MR3, the random value MR4 for determining the normal display result, and the random value MR5 for determining the initial value of the MR4 are controlled so as to be countable. In addition, in order to improve a game effect, random numbers other than these may be used. These random numbers MR1 to MR5 may be counted by updating by software using a different random counter in the CPU 103, or may be updated by the random number circuit 104. The random number circuit 104 may be built in the game control microcomputer 100 or may be configured as a random number circuit chip different from the game control microcomputer 100. Such random numbers used to control the progress of the game are also referred to as game random numbers.

  In this embodiment, each random number value MR1 to MR5 is exemplified as a value in the range shown in FIG. 20-6, but the present invention is not limited to this. The range of MR1 to MR5 may be varied according to the set value set in the pachinko gaming machine 1.

  FIG. 20-7 illustrates the variation pattern in the present embodiment. In the present embodiment, among the cases where the variation display result is “losing”, the variation display mode of the decorative symbol is “non-reach” and “reach”, respectively, Corresponding to the case where the display result is “big hit”, a plurality of variation patterns are prepared in advance. Further, one variation pattern is prepared in advance in response to a case where the variation display result is “small hit”. The variation pattern corresponding to the case where the variation display result is “losing” and the variation display mode of the decorative symbol is “non-reach” is called a non-reach variation pattern (also referred to as “non-reach loss variation pattern”). The variation pattern corresponding to the case where the display result is “losing” and the decorative symbol variation display mode is “reach” is referred to as a reach variation pattern (also referred to as “reach loss variation pattern”). Further, the non-reach variation pattern and the reach variation pattern are included in the loss variation pattern corresponding to the case where the variation display result is “lost”. A variation pattern corresponding to the case where the variation display result is “big hit” is referred to as a big hit variation pattern. A variation pattern corresponding to the case where the variation display result is “small hit” is referred to as a small hit variation pattern.

  The big hit variation pattern and the reach variation pattern include a normal reach variation pattern in which a normal reach reach effect is executed and a super reach change pattern in which a super reach reach effect such as super reach α and super reach β is executed. In the present embodiment, only one type of normal reach variation pattern is provided, but the present invention is not limited to this, and as in the case of super reach, normal reach α, normal reach β,... A plurality of normal reach fluctuation patterns may be provided. Also, in the super reach variation pattern, three or more super reach variation patterns such as super reach γ... In addition to super reach α and super reach β may be provided.

  As shown in FIG. 20-7, the special figure fluctuation time of the normal reach fluctuation pattern in which the reach effect of the normal reach according to the present embodiment is executed is set shorter than the super reach α and super reach β that are the super reach fluctuation patterns. Has been. In addition, regarding the special figure variation time of the super reach variation pattern in which the super reach reach effect such as super reach α and super reach β in the present embodiment is executed, the change pattern in which the super reach effect of the super reach β is executed However, the special figure variation time is set longer than the variation pattern in which the super reach production of the super reach α is executed.

  In the present embodiment, as described above, since the variation display result is set to “hit” in the order of super reach β, super reach α, and normal reach, the big hit expectation is set higher. In the super reach variation pattern, the longer the variation time, the higher the expectation of jackpot.

  In the present embodiment, as will be described later, the variation pattern type is determined in advance, for example, the non-reach type, the normal reach type, the super reach type, etc. Then, instead of determining the variation pattern to be executed from the variation pattern belonging to the variation pattern belonging to the determined type, it is determined using only the random value MR3 for variation pattern determination without determining these types. However, the present invention is not limited to this. For example, in addition to the random value MR3 for determining the variation pattern, a random number value for determining the variation pattern type is provided to determine these variation pattern types. The variation to be executed from the variation pattern belonging to the variation pattern belonging to the determined type after first determining the variation pattern type from the random value of It is also possible to determine the turn.

  Moreover, in this Embodiment, as shown to FIGS. 20-7, although the variation content (effect content) is previously determined for every variation pattern, this invention is limited to this. Instead, the variation content (effect content) may be different even for the same variation pattern according to the set value. For example, in the case of the normal reach loss variation pattern PA2-1, if the set value is 1, the variation pattern is a normal reach loss, and if the set value is 2, the pseudo-continuous effect is displayed. If the set value is 3 as a variation pattern that is executed twice and becomes non-reach loss, the pseudo-continuous effect is executed three times to obtain a change pattern that results in super reach loss.

  In the game control microcomputer 100, the CPU 103 executes a program read from the ROM 101, and uses the RAM 102 as a work area, thereby executing various processes for controlling the progress of the game in the pachinko gaming machine 1. Further, the CPU 103 can generate all of various random numbers used on the main board 11 side by executing a random number generation program.

  In addition to the game control program, the ROM 101 included in the game control microcomputer 100 stores various table data used for controlling the progress of the game. For example, the ROM 101 stores table data constituting a plurality of determination tables shown in FIGS. 20-8 and 20-9, which are prepared for the CPU 103 to make various determinations and decisions. The ROM 101 also has table data constituting a plurality of control pattern tables used for the CPU 103 to output various control signals from the main board 11, and a variation mode of each symbol in a variation display such as a special symbol or a normal symbol. A variation pattern table for storing a plurality of types of variation patterns is stored.

  The determination table stored in the ROM 101 includes, for example, a display result determination table (setting value 1) shown in FIG. 20-8 (A), a display result determination table (setting value 2) shown in FIG. 20-8 (B), and FIG. -8 (C) display result determination table (set value 3), jackpot type determination table (for the first special symbol) shown in FIG. 20-9 (A), jackpot type determination shown in FIG. 20-9 (B) Table (for second special symbol), small hit type determination table (not shown), small hit variation pattern determination table (not shown), loss fluctuation pattern, in addition to the small hit type determination table shown in FIG. A determination table (not shown), a general map display result determination table (not shown), a general map variation pattern determination table (not shown), and the like are included.

  The pachinko gaming machine 1 according to the present embodiment is configured such that the winning probabilities (the winning rate) for the big hit and the small hit change according to the set value. Specifically, in the special symbol normal processing of the special symbol process described later, the winning probability (the winning rate) for the big hit and the small hit is changed by using a display result determination table (winning probability) according to the set value. It has become. The set value consists of three stages of 1 to 3, with 1 being the highest payout rate, and the higher the value in the order of 1, 2 and 3, the lower the payout rate. In other words, when 1 is set as the set value, the player has the highest advantage, and as the value increases in order of 2, 3, the advantage decreases stepwise.

  20-8A to 20C are explanatory diagrams illustrating display result determination tables corresponding to the respective set values. The display result determination table is a collection of data stored in the ROM 101 and is a table in which a hit determination value to be compared with MR1 is set. In each display result determination table, the variation special figure designation buffer is 1 (first), that is, the case where the first special symbol is subject to fluctuation display, and the variation special figure designation buffer is 2 (second). That is, for each of the cases where the second special symbol is subject to variable display, a determination value for big hit and a determination value for small hit are set.

  As shown in FIG. 20-8 (A), when the display result determination table corresponding to the setting value 1 is used, when the variable special symbol designation buffer is the first, that is, the first special symbol is the variable display target. If the set value is “2” or “3”, the winning combination is won with a higher probability (1/99), and some of these judgment values correspond to the small hits. By being set as the determination value, the winning value is won with a higher probability (1/50) than when the setting values are “2” and “3”. When the variation special figure designation buffer is the second, the same determination value as that when the fluctuation special figure designation buffer is the first is set as the decision value corresponding to the big hit, and the second special symbol is set. Even if is subject to variable display, the first special symbol is won with the same probability (1/99) as when subject to variable display, and half of these judgment values are By being set as a determination value corresponding to the small hit, the small hit is won with a higher probability (100/200) than in the case where the first special symbol is the target of variable display.

  Also, as shown in FIG. 20-8 (B), when the display result determination table corresponding to the setting value 2 is used and the variation special figure designation buffer is the first, the setting value is “1”. The winning value is won with a lower probability (1/150) than in some cases, and a part of these determination values is set as a determination value corresponding to the small hit, so the setting value is “1”. Winning a small hit with a lower probability (1/99) than the case. Further, when the variation special figure designation buffer is second, the same determination value as that when the fluctuation special figure designation buffer is first is set as the determination value corresponding to the big hit, and the second special symbol is set. Even if is subject to variable display, the first special symbol will win a big hit with the same probability (1/150) as when it is subject to variable display, and half of these judgment values will be By being set as a judgment value corresponding to small hits, the probability is higher than the case where the first special symbol is subject to variable display, and the same probability as when the set value is “1” (100/200) will win a small hit.

  As shown in FIG. 20-8 (C), when the display result determination table corresponding to the setting value 1 is used, if the variation special figure designation buffer is the first, the determination value corresponding to the jackpot is set. However, the judgment value corresponding to the small hit is not set. Therefore, when the first special symbol is the target of the variable display, the setting value is “1”, “2”. Wins a big win with a lower probability (1/200), but does not win a small win (winning probability: 0). Further, when the variation special figure designation buffer is second, the same determination value as that when the fluctuation special figure designation buffer is first is set as the determination value corresponding to the big hit, and the second special symbol is set. Even if is subject to variable display, the first special symbol is won with the same probability (1/200) as when subject to variable display, and half of these judgment values are By being set as a judgment value corresponding to the small hit, there is a higher probability than the case where the first special symbol is subject to variable display, and the set values are “1” and “2”. Winning a small hit with the same probability (100/200) as in the case.

  That is, the CPU 103 refers to the display result determination table corresponding to the setting value set at that time, and the MR1 value corresponds to any one of the jackpots shown in FIGS. 20-8 (A) to (C). When the hit determination value is matched, it is determined that the special symbol is a big hit (big hit A to big hit C). Further, when MR1 coincides with any hit determination value corresponding to the small hits shown in FIGS. 20-8 (A) to (C), it is determined that the special symbol is a small hit. That is, the winning of the big hit and the small hit is determined with a probability according to the set value. The “probabilities” shown in FIGS. 20-8 (A) to (C) indicate the probability (proportion) of being a big hit and the probability (proportion) of being a small hit. Further, deciding whether or not to win a jackpot means deciding whether or not to control the jackpot gaming state, but the stop symbol in the first special symbol display device 4A or the second special symbol display device 4B is determined. It also means deciding whether or not to make a jackpot symbol. Further, determining whether or not to make a small hit means determining whether or not to control to the small hit gaming state, but stop in the first special symbol display device 4A or the second special symbol display device 4B It also means determining whether or not the symbol is to be a small hit symbol.

  In this embodiment, in each display result determination table shown in FIGS. 20-8 (A) to (C), the winning probabilities for the small hits are all the same when the variation special figure designation buffer is the second. However, the winning probability for small hits may be decreased in the order of the setting values 1, 2, and 3. On the other hand, when the fluctuation special figure designation buffer is the first, the winning probability of the small hit is made lower in the order of the setting values 1, 2, and 3, but the same as when the fluctuation special figure designation buffer is the second. In addition, the same winning probability may be used for all set values.

  In the present embodiment, the CPU 103 determines whether or not to make a big hit or a small hit using the display result determination table shown in FIGS. 20-8 (A) to (C). The big hit determination table and the small hit determination table are provided separately, and the big hit determination is performed depending on whether the first special symbol is a variable display or the second special symbol is a variable display regardless of the variable special symbol designation buffer. A common table may be used, and the small hit determination may be performed using separate tables for the case where the variable special figure designation buffer is the first and the second.

  Further, in the present embodiment, when using the display result determination table corresponding to the setting value 3 shown in FIG. 20-8 (C) and the variable special figure designation buffer is the first, other than the determination value corresponding to the big hit The judgment value is not set as the judgment value corresponding to the small hit, that is, the small hit is not won, but some of the judgment values other than the judgment value corresponding to the big hit correspond to the small hit It may be set as a judgment value so that a small hit is won. That is, the fact that the ratio of the small hit probability varies depending on the set value includes that the small hit probability is 0%.

  In this embodiment, a total of three set values of 1 to 3 are provided as set values that can be set in the pachinko gaming machine 1, but the present invention is not limited to this, and the pachinko gaming machine The set value that can be set to 1 may be two or four or more.

  FIGS. 20-9A and 20B are explanatory diagrams showing a big hit type determination table (for the first special symbol) and a big hit type determination table (for the second special symbol) stored in the ROM 101. FIG. Among these, FIG. 20-9 (A) determines the jackpot type using the holding memory based on the fact that the game ball has won the first start winning opening (that is, when the variable display of the first special symbol is performed). It is a table when doing. Also, in FIG. 20-9 (B), the jackpot type is determined by using the holding memory based on the fact that the game ball has won the second start winning opening (that is, when the second special symbol is displayed in a variable manner). Table.

  The big hit type determination table is one of the big hit types A to C based on the random number for determining the hit type (MR2) when it is determined that the variable display result is a big hit symbol. It is a table that is referred to in order to determine.

  FIG. 20C is an explanatory diagram illustrating a small hit type determination table stored in the ROM 101. The small hit type determination table determines whether the small hit type is small hit A or small hit B based on a random number (MR2) for hit type determination when it is determined that the variable display result is a small hit symbol. It is a table that is referred to in order to determine. In this embodiment, when the game ball passes the third count switch 109SG024B during the small hit game of the small hit A, that is, when a V winning big hit occurs, the big hit game with the big hit type of the big hit D is executed. When the game ball passes the third count switch 109SG024B during the small hit game of the small hit B, that is, when a V winning big hit occurs, the big hit game of the big hit type is the big hit E is executed. It has come to be. That is, these big hits D and big hits E are not big hit types determined by the random value MR2 for determining the hit type extracted at the time of starting winning, but the game balls during the small hit games of either the small hit A or the small hit B Is a jackpot type determined by whether or not it has passed through the third count switch 109SG024B.

  Here, the jackpot type in the present embodiment will be described with reference to FIG. 20-10. In the present embodiment, as the jackpot type, the jackpot A and jackpot D in which the time-shortening control is not executed after the end of the jackpot gaming state. The big hit B, the big hit C, and the big hit E are set in which the time-shortening control is executed after the big hit gaming state ends. That is, out of these big hits A to E, the big hits C and E are the most advantageous big hits for the player, and the big hits A and D are the most disadvantageous big hits for the player. Further, since the big hit E is a big hit that is more advantageous than the big hit D, the small hit B is a small hit that is more advantageous than the small hit A.

  Of these jackpots A to E, the jackpot A is a jackpot that is repeatedly executed five times (so-called five rounds) in which the first jackpot is changed to the second state advantageous to the player. Further, after the big hit game state of the big hit A ends, the time-shortening control is not executed.

  The big hit B is a big hit that is repeatedly executed 10 times (so-called 10 rounds) in which the first big prize opening is changed to the second state advantageous to the player. In addition, after the big hit game state of the big hit B is finished, the time-shortening control is executed until 20 special figure games are executed or until a big hit occurs again until 20 special figure games are executed.

  The big hit C is a big hit that is repeatedly executed 15 times (so-called 15 rounds) in which the first big prize opening is changed to the second state advantageous to the player. Further, after the big hit game state of the big hit C is finished, the time-shortening control is executed until 100 special figure games are executed or until a big hit occurs again until 100 special figure games are executed.

  The big hit D is a big hit that is repeatedly executed four times (so-called four rounds) to change the second big prize opening to the second state advantageous to the player. Further, after the big hit gaming state of big hit D is completed, the time-shortening control is not executed.

  The big hit E is a big hit that is repeatedly executed 14 times (so-called 14 rounds) for changing the second big prize opening to the second state advantageous to the player. Further, after the big hit game state of the big hit E is finished, the time-shortening control is executed until 100 special figure games are executed or until the big hit occurs again until 100 special figure games are executed.

  The big hit D and the big hit E have the second big prize opening 109SG712 as the opening target big winning opening, but the present invention is not limited to this, and the big winning opening for the big hit D and the big hit E is released. May be the first big prize opening. That is, for the big hit D and the big hit E, the second big prize opening 109SG712 is released for the small hit game, and the V big prize is generated during the small hit game, and the second big prize opening 109SG712 as the big hit game is generated. Instead of opening the first big prize opening.

  Note that, in the short-time state, the probability of being “per hit” increases, so that a small hit is more likely to occur than in the normal state. For this reason, in the short-time state, there is a case where a big hit occurs as a result of displaying the variation of the second special symbol, and a case where a big win occurs when a game ball wins a V during a small hit game, This is a so-called villa state that is likely to occur continuously without going through the state.

  In the short-time state after the big hit game of the big hit B, since the number of special figure games for which the short-time control is executed is set to 20, the small hit occurs during the 20 special figure games, and the game The rate at which the ball passes through the third count switch 109SG024B (the rate at which the game ball wins V and wins a big hit during 20 special game games) is set to about 50%. On the other hand, in the short-time state after the big hit game of big hit C and big hit E, the number of special figure games for which the short-time control is executed is set to 100 times, so that a small hit occurs during the 100 special figure games. In addition, the rate at which the game ball passes the third count switch 109SG024B (the rate at which the game ball wins V and wins a big hit during 100 special figure games) is set to almost 100%.

  In this embodiment, five types of jackpot A to jackpot E are provided as jackpot types, but the present invention is not limited to this, and six or more jackpot types may be provided. Also, four or less types may be provided.

  In addition, as shown in FIG. 20-9 (A), in the big hit type determination table (for the first special symbol), when the set value is “1”, the MR2 determination value ranges 0 to 299, 0 to 49 are assigned to jackpot A, 50 to 149 are assigned to jackpot B, and 150 to 299 are assigned to jackpot C. When the set value is “2”, the MR2 determination value range 0 to 299 is assigned to the jackpot A from 0 to 99, and the range from 100 to 249 is assigned to the jackpot B. 250 to 299 are assigned to the big hit C. When the set value is “3”, 0 to 149 are assigned to the big hit A, and 150 to 249 are assigned to the big hit B out of the MR2 determination value range 0 to 299. 250 to 299 are assigned to the big hit C.

  In this way, when a big hit occurs in the special symbol game of the first special symbol, the ratio of determining the big hit B or the big hit C for which the time reduction control is executed at the end of the big hit game is low in the order of the set values 1, 2, and 3. It is trying to become.

  On the other hand, as shown in FIG. 20-9 (B), in the jackpot type determination table (for the second special symbol), when the set value is “1”, the MR2 determination value ranges from 0 to 299. 0 to 29 are assigned to jackpot A, 30 to 99 are assigned to jackpot B, and 100 to 299 are assigned to jackpot C. Also, when the set value is “2”, 0 to 69 are assigned to the big hit A, and 70 to 269 are assigned to the big hit B out of the MR2 determination value range 0 to 299. 270 to 299 are assigned to the big hit C. When the set value is “3”, 0 to 199 are assigned to the big hit A, and 200 to 269 are assigned to the big hit B out of the MR2 determination value range 0 to 299. 270 to 299 are assigned to the big hit C.

  In this way, when a big hit occurs in the special symbol game of the second special symbol, the ratio of determining the big hits B and C at which the time reduction control is executed at the end of the big hit game is the big hit in the special symbol game of the first special symbol It is higher than the case where this occurs, and decreases in the order of the setting values 1, 2, and 3.

  That is, in this embodiment, as shown in FIGS. 20-9 (A) and 20-9 (B), when the set value is 1, the big hit type is determined as big hit C. The ratio is the highest, then the ratio determined to the big hit B is high, and the ratio determined to the big hit A is the lowest (the big hit type determination ratio at the setting value 1: big hit C> big hit B> big hit A). When the set value is 2, when the big hit type is the big hit B, the decision rate is the highest, then the big hit A is decided at a high rate, and the big hit C is decided at the lowest rate (the set value). Big hit type determination ratio in 2: big hit B> big hit A> big hit C). Further, when the set value is 3, the ratio of determining the jackpot type as the jackpot A is the highest, then the ratio of determining the jackpot B is high, and the ratio of determining the jackpot C is the lowest. (Big hit type determination ratio at setting value 3: big hit A> big hit B> big hit C).

  The present embodiment exemplifies a mode in which, depending on the set value that has been set, the big hit type when the variable display result is a big hit is determined at different ratios from the big hit A, big hit B, and big hit C. However, the present invention is not limited to this, and there may be one or a plurality of jackpot types that are not determined among jackpot A, jackpot B, and jackpot C depending on the set value. In other words, depending on the set value, the determination rate of the jackpot type is different, either one of the jackpot types is not determined (the determination rate is 0%), or the specific jackpot type is 100% Included in determining by percentage.

  As shown in FIG. 20-9 (C), in the small hit type determination table, when the set value is “1”, 0 to 99 in the MR2 determination value range 0 to 299 is small. Hits A are assigned, and 100 to 299 are assigned to small hits B. Also, when the set value is “2”, 0 to 149 are assigned to the small hit A in the MR2 determination value range 0 to 299, and 150 to 299 are assigned to the small hit B. Yes. Also, when the set value is “3”, 0 to 199 are assigned to the small hit A out of the MR2 determination value range 0 to 299, and 200 to 299 are assigned to the small hit B. Yes.

  As described above, when a V-winning big win occurs during the small hit game, the ratio of determining the big hit E in which the number of special-purpose games for which the time-shortening control is executed after the big hit game is 100 is 20 times. It is higher than the ratio for determining the big hit D and decreases in the order of the set values 1, 2 and 3.

  That is, in the present embodiment, as shown in FIG. 20-9 (C), when the set value is 1, the small hit type B is higher than the small hit A as the small hit type. As a result of the determination, the ratio at which the big hit type is determined to be the big hit E based on the occurrence of the V prize during the small hit game is higher than the ratio at which the big hit E is determined (V at the set value 1). Jackpot type determination ratio by winning: Jackpot E> Jackpot D). Also, if the set value is 2, the small hit type is determined at the same rate as the small hit A and the small hit B, so that a V prize is generated during the small hit game. The ratio of determining the big hit type as the big hit D is equal to the ratio determined as the big hit E based on the above (the big hit type determining ratio by the V winning at the set value 2: big hit E = big hit D). Further, when the set value is 3, when the small hit type is determined at a higher rate than the small hit B as the small hit type, the V winning is generated during the small hit game. The ratio at which the jackpot type is determined as the jackpot D is higher than the ratio at which the jackpot E is determined (the jackpot type determination ratio by the V winning at the set value 1: jackpot D> jackpot E).

  As described above, in the present embodiment, the determination ratio of the jackpot type when the variable display result is a big hit and the determination ratio of the jackpot type when a V prize is generated differs according to the set value set. In other words, the type of the small hit gaming state that is controlled according to the set value is changed, and the type of the big hit gaming state that is controlled when a V prize is generated may change. , To improve the entertainment interest of the game.

  In the present embodiment, the determination rate of the small hit type differs according to the set value that is set, but the present invention is not limited to this, and depending on the set value that is set, Among the small hits A and small hits B, there may be a small hit type that is not determined. In other words, the determination rate of the small hit type differs depending on the set value, that one of the small hit types is not determined (the determination rate is 0%), that is, the other small hit type It also includes determining the type at a rate of 100%. Further, in the present embodiment, a mode in which the small hit type is determined using the common small hit type determination table regardless of whether the variation special chart is the first special chart or the second special chart is illustrated. However, the present invention is not limited to this, and the determination ratio of the small hit type may be different depending on whether the variation special chart is the first special chart or the second special chart. When the small hit types are determined at different ratios according to the fluctuation special chart, there may be small hit types that are not determined among the small hit A and the small hit B depending on the fluctuation special chart. In other words, in order to determine the small hit type at a different ratio according to the fluctuation chart, one of the small hit types is not determined (the determination ratio is 0%), that is, the other small hit type is determined. It also includes determining at a rate of 100%.

  In the present embodiment, the big hit type and the big hit type are determined using MR2, which is a random value for determining the big hit type, but the present invention is not limited to this, and the big hit type and the small hit type are determined. At least one of the hit types may be determined using MR1 which is a random value for determining the special figure display result.

  Further, in the present embodiment, the smaller the set value set in the pachinko gaming machine 1 is, the more advantageous for the player (the higher the big hit probability or the small hit probability, the big hit type C as the big hit type or the small hit type as However, the present invention is not limited to this, and the larger the set value set in the pachinko gaming machine 1, the more advantageous for the player. You may do it.

  Further, in the present embodiment, while the big hit probability and the small hit probability change according to the set value set in the pachinko gaming machine 1, as shown in FIG. 20-10 to FIG. Although the form in which the sex itself does not change is illustrated, the present invention is not limited to this, and the gameability may be changed according to the set value set in the pachinko gaming machine 1.

  For example, when the set value set in the pachinko gaming machine 1 is 1, the game probability that loops at a rate of 1/320 in the normal state and 65% in the probability variation state (so-called probability variation loop type), When the set value set in the pachinko gaming machine is 2, the big hit probability in the normal state is 1/200, and the big hit game is based on the game ball passing through the third count switch 109SG024B during the big hit game. While the gaming state after the end is controlled to a probable variation state, the game playability (so-called V-probability variation type) in which the proportion of the game ball passing through the third count switch 109SG024B during the big hit game according to the fluctuation special figure is changed to a pachinko game When the set value set to the machine 1 is 3, the big hit probability is 1/320 and the small hit probability is 1/50, and the game is performed during the high base (during time-short control). There may be a game of (so-called one two-kind mixed type) which controls the jackpot gaming state based on passing through the third count switch 109SG024B. Further, the set values set in the pachinko gaming machine 1 are the same as 1 to 3, and the gameability is the same, but the big hit probability or the small hit probability is higher than the case where these set values are any one of 1 to 3. Thus, a setting may be provided in which the number of prize balls that can be acquired during the big hit game is small (for example, when the set value set in the pachinko gaming machine 1 is 4).

  Further, in this way, when the gameability is changed according to the set value, a common switch may be used for different purposes. Specifically, in the above-described example, when the set value is 1 or 4, the third count switch 109SG024B is switched to the effect switch (every game ball passes the third count switch 109SG024B, a predetermined effect is executed. When the setting value is 2 or 3, the game state is changed to the probable state based on the fact that the third count switch 109SG024B is passed through the game switch (the game ball has passed the third count switch 109SG024B). It may be used as a switch for controlling to the big hit gaming state.

  The ROM 101 also stores a variation pattern determination table for determining a variation pattern based on the random value MR3 for variation pattern determination. Any one of the fluctuation patterns is determined.

  Specifically, as the fluctuation pattern determination table, a big hit fluctuation pattern determination table used when it is determined in advance that the fluctuation display result is “big hit”, and the fluctuation display result is “small hit”. A jackpot variation pattern determination table that is used when it is predetermined and a loss variation pattern determination table that is used when the variation display result is determined to be “losing” are prepared in advance. ing.

  In the big hit variation pattern determination table, variation patterns of normal reach big hit variation pattern (PB1-1), super reach α big hit variation pattern (PB1-2), super reach β big hit variation pattern (PB1-3) On the other hand, a predetermined random value is assigned as a determination value in a range that can be taken by the random number value MR3 for variation pattern determination.

  As shown in FIGS. 20-11 (A) and 20-11 (B), the big hit variation pattern determination table is a big hit variation pattern determination table (big hit A) used when the big hit type is big hit A. And a big hit variation pattern judgment table (for big hit B and big hit C) that are used when the big hit type is for big hit B and big hit C are prepared in advance. A) and the big hit variation pattern judgment table (for big hit B and big hit C), the variation pattern for normal reach big hit (PB1-1), the fluctuation pattern for super reach α big hit (PB1-2), and the big hit for super reach β big hit For each variation pattern of the variation pattern (PB1-3), a place in the range that the random number MR3 for variation pattern determination can take A constant random value is assigned as a judgment value.

  As shown in FIG. 20-11 (A), in the big hit variation pattern determination table (for big hit A), when the set value is “1”, 0 to 0 in the MR0 determination value range 0 to 997. Up to 300 is assigned to the fluctuation pattern (PB1-1) of normal reach big hit, 301 to 800 are assigned to the fluctuation pattern (PB1-2) of super reach α big hit, and 801 to 997 are super reach β. It is assigned to the big hit variation pattern (PB1-3). When the set value is “2”, in the MR3 determination value range 0 to 997, 0 to 350 are assigned to the fluctuation pattern (PB1-1) for the normal reach big hit, and 351 to 825 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 826 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big. When the set value is “3”, in the MR3 determination value range 0 to 997, 0 to 400 are assigned to the fluctuation pattern (PB1-1) for normal reach big hit, and 401 to 850 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 851 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big.

  As shown in FIG. 20-11 (B), in the big hit variation pattern determination table (for big hit B, big hit C), when the set value is “1”, the MR3 determination value ranges 0 to 997. 0 to 100 are allocated to the fluctuation pattern (PB1-1) for normal reach big hit, 101 to 350 are assigned to the fluctuation pattern (PB1-2) for super reach α big hit, and 351 to 997 are assigned. It is assigned to the fluctuation pattern (PB1-3) per super reach β big hit. When the set value is “2”, 0 to 150 of the MR3 determination value range 0 to 997 is assigned to the fluctuation pattern (PB1-1) of the normal reach big hit, and 151 to 450 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 451 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big. When the set value is “3”, 0 to 200 of the MR3 determination value range 0 to 997 is assigned to the fluctuation pattern (PB1-1) of the normal reach big hit, and 201 to 550 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 551 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big hit.

  Thus, when the big hit A is won in the special figure game, the ratio of determining the fluctuation pattern (PB1-2) of the super reach α big hit is the ratio of determining the fluctuation pattern (PB1-3) of the super reach β big hit Higher and lower in the order of setting values 1, 2, and 3. Further, when the big hit B or big hit C is won in the special figure game, the ratio of determining the fluctuation pattern (PB1-3) for the super reach β big hit determines the fluctuation pattern (PB1-2) for the super reach α big hit. It is higher than the ratio and decreases in the order of setting values 1, 2, and 3.

  That is, in the present embodiment, when these determination values are the big hit type “big hit B” or “big hit C”, the super reach β is easily determined, and the big hit type is “big hit A”. In this case, since the super reach α is assigned so as to be easily determined, when the fluctuation pattern of the super reach β is executed, a player who may be “big hit B” or “big hit C”. Can raise the sense of expectation.

  Further, in the variation pattern determination table for small hits, a predetermined random number value within a range that can be taken by the random value MR3 for variation pattern determination is a determination value with respect to the variation pattern of the variation pattern (PC1-1) for small hits. Assigned as. Specifically, as shown in FIG. 20-11 (C), in the variation pattern determination table for small hits, even if the set value is “1”, “2”, or “3”, Of the judgment value ranges 0 to 997, 0 to 997 are assigned to the small hit variation pattern (PC1-1). Note that only PC1-1 is provided as the small hit variation pattern in the present embodiment, but the present invention is not limited to this, and two or more variation patterns are provided as the small hit variation pattern. The small hit variation pattern may be determined from the plurality of variation patterns at different ratios with the setting values “1”, “2”, and “3”.

  The loss variation pattern determination table includes a loss variation pattern determination table A that is used when the number of reserved memories is 1 or less in a low base state in which the game state is not subjected to time reduction control, and a low base Loss variation pattern determination table B used when the total number of reserved memories is 2 to 4 in the state, and loss variation used when the total number of reserved memories is 5 to 8 in the low base state A pattern determination table C and a loss variation pattern determination table D that is used when the gaming state is a high base state in which time-shortening control is performed are prepared in advance.

  In the variation pattern determination table A for loss, the non-reach loss variation pattern (PA1-1) without reduction, the normal reach loss variation pattern (PA2-1), the super reach α loss variation pattern (PA2-2), and the super reach. A predetermined random number value is assigned as a determination value to the variation pattern (PA2-3) of β loss in a range that the random value MR3 for determining the variation pattern can take.

  As shown in FIG. 20-12 (A), in the variation pattern determination table A for loss (for one or less low-base medium sum storage number), when the set value is “1”, the MR3 determination value Of the range 0-997, 0 to 350 are assigned to the non-reach loss variation pattern (PA1-1), and 351 to 700 are assigned to the normal reach loss variation pattern (PA2-1). Up to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and 901 to 997 are assigned to the fluctuation pattern (PA2-3) of the super reach β loss. When the set value is “2”, in the MR3 determination value range 0 to 997, 0 to 400 are assigned to the non-reach loss variation pattern (PA1-1), and 401 to 700 are included. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3). When the set value is “3”, 0 to 450 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 451 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3).

  Also, in the variation pattern determination table B for loss, the shortened non-reach loss variation pattern (PA1-2), the normal reach loss variation pattern (PA2-1), and the super reach corresponding to the total number of reserved memories of 2 to 4. A predetermined random value is assigned as a determination value to a variation pattern determining random value MR3 for the α loss variation pattern (PA2-2) and the super reach β loss variation pattern (PA2-3). ing.

  As shown in FIG. 20-12 (B), in the variation pattern determination table B for loss (for 2 to 4 low-base medium total pending storage numbers), if the set value is “1”, the MR3 determination value In the range 0 to 997, 0 to 400 are assigned to the non-reach loss variation pattern (PA1-1), and 401 to 700 are assigned to the normal reach loss variation pattern (PA2-1). 701 to 900 are assigned to the variation pattern (PA2-2) of the super reach α loss, and 901 to 997 are assigned to the variation pattern (PA2-3) of the super reach β loss. When the set value is “2”, 0 to 450 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 451 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3). When the set value is “3”, 0 to 500 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 501 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3).

  Further, in the variation pattern determination table C for loss, the shortened non-reach loss variation pattern (PA1-3), the normal reach loss variation pattern (PA2-1), and the super reach corresponding to the total reserved memory number of 5 to 8. A predetermined random value is assigned as a determination value to a variation pattern determining random value MR3 for the α loss variation pattern (PA2-2) and the super reach β loss variation pattern (PA2-3). ing.

  As shown in FIG. 20-12 (C), in the variation pattern determination table C for loss (for the low base medium total pending storage number of 5 or more), when the set value is “1”, the MR3 determination value Of the range 0-997, 0 to 450 are assigned to the non-reach loss variation pattern (PA1-1), and 451 to 700 are assigned to the normal reach loss variation pattern (PA2-1). Up to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and 901 to 997 are assigned to the fluctuation pattern (PA2-3) of the super reach β loss. When the set value is “2”, 0 to 500 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 501 to 700 are assigned. It is assigned to the fluctuation pattern (PA2-1) of the normal reach loss, 701 to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and the fluctuation pattern of the super reach β loss (901 to 997) ( PA2-3). When the set value is “3”, 0 to 550 are assigned to the non-reach loss variation pattern (PA1-1) in the MR3 determination value range 0 to 997, and 551 to 700 are included. It is assigned to the fluctuation pattern (PA2-1) of the normal reach loss, 701 to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and the fluctuation pattern of the super reach β loss (901 to 997) ( PA2-3).

  Further, in the variation pattern determination table D for loss, the variation pattern of the shortened non-reach loss (PA1-4), the variation pattern of the normal reach loss (PA2-1), the variation pattern of the super reach α loss (corresponding to the time reduction control) ( PA2-2), a predetermined random number value is assigned as a determination value in a range that the random value MR3 for determining the variation pattern can take for the variation pattern (PA2-3) of the super reach β loss.

  As shown in FIG. 20-12 (D), in the variation pattern determination table D for loss (for high base), when the set value is “1”, 0 to 450 are allocated to the non-reach loss variation pattern (PA1-1), 451 to 700 are allocated to the normal reach loss variation pattern (PA2-1), and 701 to 900 are super reach α. Loss fluctuation patterns (PA2-2) are assigned, and 901 to 997 are assigned to super reach β loss fluctuation patterns (PA2-3). When the set value is “2”, 0 to 500 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 501 to 700 are assigned. It is assigned to the fluctuation pattern (PA2-1) of the normal reach loss, 701 to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and the fluctuation pattern of the super reach β loss (901 to 997) ( PA2-3). When the set value is “3”, 0 to 550 are assigned to the non-reach loss variation pattern (PA1-1) in the MR3 determination value range 0 to 997, and 551 to 700 are included. It is assigned to the fluctuation pattern (PA2-1) of the normal reach loss, 701 to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and the fluctuation pattern of the super reach β loss (901 to 997) ( PA2-3).

  Thus, when using the variation pattern determination tables A to D for loss, the ratio for determining the non-reach variation pattern or the normal reach variation pattern is higher than that for determining the super reach variation pattern, and the set values 1, 2, It becomes lower in order of 3. Further, when using the variation pattern determination tables A to D for losing, regardless of the variation pattern determining table, among the determination values, 701 to 900 are the variation pattern of the super reach α loss, and 901 to 997 are the variation pattern of the super reach β loss. If the fluctuation pattern is assigned to each fluctuation pattern, that is, if the fluctuation display result is lost, the fluctuation pattern of the super reach is determined by a common determination ratio regardless of the set value. It is possible to prevent the effect of the presentation from being lowered due to the fact that the variable display by is not executed.

  The “common determination ratio” in the present embodiment is the same as the determination ratio at different setting values (this embodiment) as well as the determination ratio being the same at different setting values. (For example, between the set value 1 and the set value 3, the determination ratio of the variation pattern of the super reach differs by about 1%).

  In the present embodiment, when the variation display result is a loss, the embodiment in which the determination ratio of the variation pattern of the super reach is the same regardless of the set value is set. However, the present invention is not limited to this, and when the variation display result is lost, the determination ratio of all variation patterns of non-reach, normal reach, and super reach may be the same regardless of the set value. In addition, only the determination ratio of the variation pattern of either non-reach or normal reach may be the same.

  Also, in this embodiment, when the fluctuation display result is a loss, both the determination ratio of the fluctuation pattern of the super reach α loss and the determination ratio of the fluctuation pattern of the super reach β loss regardless of the set value that has been set. However, the present invention is not limited to this, and when the variation display result is a loss, the variation pattern of the super reach α loss is illustrated. The determination ratio of only one of the determination ratio of the super-reach β loss variation pattern may be the same regardless of the set value.

  In the present embodiment, when the variation display result is a loss, both the determination ratio of the variation pattern of the super reach α loss and the determination ratio of the variation pattern of the super reach β loss regardless of the set value that has been set. However, the present invention is not limited to this, and the set value that is set even when the variable display result is a big hit. Regardless of the set value, the determination ratio of the variation pattern per super reach jackpot may be the same.

  In the present embodiment, when the fluctuation display result is a loss, the determination ratio of the non-reach and normal reach fluctuation patterns differs according to the set value that is set. Depending on the set value, there may be one or more undecided variation patterns among the non-reach variation pattern and the normal reach variation pattern. In other words, the fact that the determination ratio of the variation pattern varies depending on the set value is that any variation pattern is not determined (the determination proportion is 0%) or a specific variation pattern is 100%. It is also included to determine at a rate of

  As shown in FIG. 20-12, the non-reach losing variation pattern (PA1-2) has a shorter variation time than the non-reach losing variation pattern (PA1-1), and the variation pattern (PA1). The non-reach loss variation pattern (PA1-3) has a shorter variation time than -2). Therefore, when the number of reserved memories increases, the non-reach loss variation pattern with a short variation time is determined, so that the reserved memories are easily digested, and the number of reserved memories reaches the upper limit number of 4. Occasionally, the winning prize makes it difficult to generate useless starting prizes that are not reserved, and when the number of reserved memories decreases, the fluctuation pattern of non-reach loss without shortening with a long fluctuation time ( By determining PA1-1), it becomes possible to prevent a decrease in the interest of the game due to the fact that the variable display is not executed by increasing the time of the variable display.

  In this embodiment, as shown in FIGS. 20-12 (A) to 20-12 (C), the variation pattern is determined using a variation pattern determination table for loss that differs depending on the total number of pending storages. Although the form is illustrated, the present invention is not limited to this, and the number of reserved memories in the special symbol to be changed (for example, when the variable display of the first special symbol is executed, the first special symbol is reserved) In the case of executing the variable display of the number of memories and the second special symbol, the variation pattern may be determined using a variation pattern determination table for losing that varies depending on the number of the second special symbols to be stored.

  Further, in each variation pattern determination table for losing of the present embodiment, even if the set value set in the pachinko gaming machine 1 is any value of 1 to 3, the variation pattern (PA2-2) And the range of random number values assigned to PA2-3) is the same. However, since the jackpot probability and the loss probability differ depending on the set value set in the pachinko gaming machine 1, the rate at which the change display is actually executed in the change pattern of the super reach loss (the change pattern of the super reach loss) (Appearance rate) varies depending on the set value set in the pachinko gaming machine 1. In this embodiment, the mode in which the change display is executed in accordance with the change pattern of the super reach loss according to the set value set in the pachinko gaming machine 1 is exemplified. In consideration of the jackpot probability and the loss probability for each set value, regardless of the set value set in the pachinko gaming machine 1, the change display is the change pattern of the super reach loss in the same ratio. It may be executed.

  The RAM 102 included in the game control microcomputer 100 shown in FIG. 20-2 may be a backup RAM that is partially or entirely backed up by a backup power supply created on a predetermined power supply board. That is, even if the power supply to the pachinko gaming machine 1 is stopped, a part or all of the contents of the RAM 102 is stored for a predetermined period (until the capacitor as the backup power supply is discharged and the backup power supply cannot be supplied). The In particular, at least data corresponding to the game state, that is, the control state of the game control means (such as a special figure process flag) and data indicating the number of unpaid prize balls may be stored in the backup RAM. The data corresponding to the control state of the game control means is data necessary for restoring the control state before the occurrence of a power failure or the like based on the data when the power is restored after a power failure or the like. Further, data corresponding to the control state and data indicating the number of unpaid prize balls are defined as data indicating the progress state of the game.

  In such a RAM 102, for example, a game control data holding area 109SG150 shown in FIG. 20-13 is provided as an area for holding various data used for controlling the progress of the game in the pachinko gaming machine 1. It has been. The data holding area 109SG150 for game control shown in FIG. 20-13 includes a first special figure storage unit 109SG151A, a second special figure storage unit 109SG151B, a general figure storage unit 109SG151C, a game control flag setting unit 109SG152, The game control timer setting unit 109SG153, the game control counter setting unit 109SG154, and the game control buffer setting unit 109SG155 are provided.

  The first special figure holding storage unit 109SG151A has a start prize (first start prize) that has passed since the game ball has passed (entered) the first start prize opening formed by the winning ball apparatus 6A, but has not yet started. The holding data of the figure game (the special figure game using the first special figure in the first special symbol display device 4A) is stored. As an example, the first special figure reservation storage unit 109SG151A associates with a reservation number in the winning order (game ball detection order) to the first start winning opening, and sets the first start condition in the passage (entrance) of the game ball. Based on the establishment, the random number value MR1 for determining the variation display result, the random value MR2 for determining the jackpot type, the numerical data indicating the random value MR3 for determining the variation pattern, etc., which are extracted from the random number circuit 104 and the like by the CPU 103 are reserved data. This is stored until the stored number reaches a predetermined upper limit value (for example, “4”). The hold data stored in the first special figure storage unit 109SG151A in this way indicates that the execution of the special figure game using the first special figure is being held, and the variable display result (special figure display) in this special figure game. On the basis of the result), it becomes the hold information that makes it possible to determine whether or not it will be a big hit.

  The second special figure storage unit 109SG151B has not started yet although the game ball has passed (entered) through the second start prize opening formed by the variable prize ball apparatus 6B and the start prize (second start prize) has been generated. On-hold data of a special figure game (a special figure game using the second special figure in the second special symbol display device 4B) is stored. As an example, the second special figure holding storage unit 109SG151B associates with the holding number in the winning order (game ball detection order) to the second starting winning opening and sets the second starting condition in the passage (entrance) of the game ball. Based on the establishment, the random number value MR1 for determining the variation display result, the random value MR2 for determining the jackpot type, the numerical data indicating the random value MR3 for determining the variation pattern, etc., which are extracted from the random number circuit 104 and the like by the CPU 103 are reserved data. , Until the number reaches a predetermined upper limit (for example, “4”). The hold data stored in the second special figure holding storage unit 109SG151B in this way indicates that the execution of the special figure game using the second special figure is being held, and the variable display result (special figure display) in this special figure game. On the basis of the result), it becomes the hold information that makes it possible to determine whether or not it will be a big hit.

  In addition, the holding information (first holding information) based on the establishment of the first starting condition by the game ball passing (entering) through the first starting winning opening, and the game ball passing (entering) through the second starting winning opening. Thus, the hold information (second hold information) based on the establishment of the second start winning prize may be stored in association with the hold number in the common hold storage unit. In this case, the start port data indicating whether the game ball has passed (entered) through the first start winning port or the second start winning port may be included in the hold information and stored in association with the hold number. .

  The usual figure holding storage unit 109SG151C stores the holding information of the usual figure game that has not yet been started by the normal symbol display 20 even though the game ball that has passed the passage gate 109SG041 is detected by the gate switch 21. For example, the general figure hold storage unit 109SG151C associates with the hold numbers in the order in which the game balls have passed through the passage gate 109SG041, and determines the normal figure display result extracted from the random number circuit 104 or the like by the CPU 103 based on the passage of the game balls. For example, numerical data indicating the random number MR4 is stored as pending data until the number reaches a predetermined upper limit (eg, “4”).

  The game control flag setting unit 109SG152 is provided with a plurality of types of flags whose state can be updated according to the progress of the game in the pachinko gaming machine 1 and the like. For example, the game control flag setting unit 109SG152 stores data indicating the value of the flag and data indicating the on state or the off state for each of the plurality of types of flags.

  The game control timer setting unit 109SG153 is provided with various timers used for controlling the progress of the game in the pachinko gaming machine 1. For example, the game control timer setting unit 109SG153 stores data indicating timer values in each of a plurality of types of timers.

  The game control counter setting unit 109SG154 is provided with a plurality of types of counters for counting the count values used for controlling the progress of the game in the pachinko gaming machine 1. For example, the game control counter setting unit 109SG154 stores data indicating the count value in each of a plurality of types of counters. Here, the game control counter setting unit 109SG154 may be provided with a random counter for the CPU 103 to count part or all of the game random numbers so that the software 103 can be updated by software.

  In the random counter of the game control counter setting unit 109SG154, random number values that are not generated by the random number circuit 104, for example, numerical data indicating the random number values MR1 to MR4 are stored as random count values. Numerical data indicating each random value is updated regularly or irregularly. The software executed by the CPU 103 to update the random count value may be for updating the random count value separately from the numerical data update operation in the random number circuit 104, or may be extracted from the random number circuit 104. The random count value may be updated by performing predetermined processing such as scramble processing or arithmetic processing on all or part of the numerical data.

  The game control buffer setting unit 109SG155 is provided with various buffers that temporarily store data used for controlling the progress of the game in the pachinko gaming machine 1. For example, the game control buffer setting unit 109SG155 stores data indicating buffer values in each of a plurality of types of buffers.

  The I / O 105 included in the game control microcomputer 100 shown in FIG. 20-2 includes an input port for taking in various signals transmitted to the game control microcomputer 100, and various types of information to the outside of the game control microcomputer 100. And an output port for transmitting a signal.

  As shown in FIG. 20-2, the effect control board 12 includes an effect control CPU 120 that performs a control operation according to a program, a ROM 121 that stores an effect control program, fixed data, and the like, and a work area of the effect control CPU 120. The RAM 122 that provides the display, the display control unit 123 that executes processing for determining the control content of the display operation in the image display device 5, and the presentation control CPU 120 update numerical data indicating random values independently of each other. A random number circuit 124 to perform and an I / O 125 are mounted.

  As an example, in the effect control board 12, when the effect control CPU 120 executes an effect control program read from the ROM 121, a process for controlling the effect operation by the effect electric component is executed. At this time, the effect control CPU 120 reads the fixed data from the ROM 121, the effect control CPU 120 writes the various data to the RAM 122 and temporarily stores the data, and the effect control CPU 120 stores the effect data in the RAM 122. Fluctuation data reading operation for reading out various fluctuation data temporarily stored, the reception control CPU 120 for receiving the input of various signals from the outside of the presentation control board 12 via the I / O 125, and the presentation control CPU 120 for I / O A transmission operation for outputting various signals to the outside of the effect control board 12 via O125 is also performed.

  The effect control CPU 120, the ROM 121, and the RAM 122 may be included in a one-chip effect control microcomputer mounted on the effect control board 12.

  In the effect control board 12, wiring for transmitting a video signal to the image display device 5, wiring for transmitting a sound effect signal as an information signal indicating sound number data to the sound control board 13, Wiring for transmitting an electrical decoration signal as an information signal indicating LED data is connected to the lamp control board 14.

  Note that, on the side of the effect control board 12, as with the main board 11, for example, random values (also referred to as effect random numbers) for determining various types of effects such as a notice effect are set.

  In addition to the effect control program, various data tables used for controlling the effect operation are stored in the ROM 121 mounted on the effect control board 12 shown in FIG. For example, the ROM 121 stores table data constituting a plurality of determination tables prepared for the effect control CPU 120 to make various determinations, determinations and settings, pattern data constituting various effect control patterns, and the like. Yes.

  As an example, in the ROM 121, the effect control CPU 120 controls the effect operations by various effect devices (for example, the image display device 5, speakers 8L and 8R, game effect lamp 9, decoration LED, effect model, etc.). An effect control pattern table storing a plurality of types of effect control patterns to be used, a display screen for displaying various types of errors (abnormalities), a lighting mode of the game effect lamp 9, an error notification pattern such as output sound, and the like are stored. Yes. The effect control pattern is composed of data indicating the control contents corresponding to various effect operations executed in accordance with the progress of the game in the pachinko gaming machine 1. The effect control pattern table only needs to store, for example, an effect control pattern during special figure change, a notice effect control pattern, and various effect control patterns.

  The special-control variation production control pattern corresponds to a plurality of types of variation patterns in the period from the start of the variation of the special symbol in the special-sign game until the finalized special symbol that is the special-sign display result is derived and displayed. Consists of data indicating the contents of control of various effect operations, such as effect display operations such as decorative display fluctuation display operations, reach effects, re-lottery effects, etc., or various effect display operations that do not involve decorative pattern change display Has been. The notice effect control pattern includes, for example, data indicating the control content of the effect operation that becomes the notice effect executed in response to the notice pattern in which a plurality of patterns are prepared in advance. The various effect control patterns are composed of data indicating the control contents corresponding to various effect operations executed in accordance with the progress of the game in the pachinko gaming machine 1.

  In the special-figure variation production control pattern, for example, a plurality of types of reach production control patterns with different production modes in each reach production may be included for each variation pattern that executes the reach production.

  The RAM 122 mounted on the effect control board 12 shown in FIG. 20-2 is provided with an effect control data holding area (not shown) as an area for holding various data used for controlling the effect operation. The effect control data holding area includes an effect control flag setting unit, an effect control timer setting unit, an effect control counter setting unit, and an effect control buffer setting unit.

  In the effect control flag setting unit, for example, a plurality of types of states whose states can be updated according to the effect operation state such as the display state of the effect image on the screen of the image display device 5, the effect control command transmitted from the main board 11, etc. A flag is provided. For example, the production control flag setting unit stores data indicating the value of the flag and data indicating the on state or the off state for each of the plurality of types of flags.

  The effect control timer setting unit is provided with a plurality of types of timers used for controlling the progress of various effect operations such as, for example, an effect image display operation on the screen of the image display device 5. For example, the production control timer setting unit stores data indicating timer values in each of a plurality of types of timers.

  The effect control counter setting unit is provided with a plurality of types of counters used for controlling the progress of various effect operations. For example, in the effect control counter setting unit, data indicating the count value in each of a plurality of types of counters is stored.

  The effect control buffer setting unit is provided with various buffers for temporarily storing data used for controlling the progress of various effect operations. For example, the effect control buffer setting unit stores data indicating buffer values in each of a plurality of types of buffers.

  In the present embodiment, in the predetermined area of the production control buffer setting section, the first special figure start winning buffer for performing the hold display in the first hold storage display area 109SG005D and the hold in the second hold storage display area 109SG005U A second special figure start winning buffer for displaying is set. In the first special figure start winning buffer, a storage area (an area corresponding to buffer numbers “1” to “4”) corresponding to the maximum value (for example, “4”) of the total reserved memory number of the first special figure reserved memory The second special figure start winning buffer has a storage area (buffer numbers “1” to “4” corresponding to the maximum value (for example, “4”) of the total reserved memory number of the second special figure reserved memory). Is provided). Note that the data of these start winning buffers is the effect control described later in response to the reception of the first start opening winning designation command and the second starting opening winning designation command, and the reception of the first variation start command and the second variation start command. It is updated in the hold effect process (S72, see FIG. 20-26) in the process process, and in the first hold memory display area 109SG005D and the second hold memory display area 109SG005U based on the updated start winning buffer data. The hold display is updated.

  Specifically, when the first start opening winning designation command is received based on the start winning at the first start winning opening, a circular white display is displayed on the hold display in the first hold storage display area 109SG005D. Is newly added, and when the first change start command is received based on the start of the change of the first special figure, the highest (of the hold display in the first hold storage display area 109SG005D ( Update the hold display so that the round white display of the hold memory that was awarded first is erased and the other round white display is shifted (moved) in a predetermined direction (for example, left). To do. Similarly, when the second start opening winning designation command is received based on the start winning at the second start winning opening, a round white display is newly added to the hold display in the second hold storage display area 109SG005U. On the other hand, when the second variation start command is received based on the fact that the variation of the second special figure is newly started, the highest (the earliest in the pending display in the second reserved storage display area 109SG005U) The white display of the hold-type memory that has won the start-up) is erased, and the hold-up display is updated so that the other round white display is shifted (moved) in a predetermined direction (for example, the left direction).

  Here, the display of the total of game balls and the ratio of the bonuses on the main board 11 of the present embodiment will be described.

  The main board 11 has information related to game winnings, for example, the number of winning balls by winning at the first starting opening (hews), the number of winning balls by winning at the second starting winning opening (electricity), and the first grand prize. The number of winning balls and the total number of winning balls are input and the number of fired balls is totaled, and the display monitor 109SG029 counts the first winning hole and the second winning hole (attacker). The ratio (%), which is the ratio of the number of winning balls for winning the two major winning holes (attackers), and the number of winning balls for winning the second starting winning opening (Den Chu) out of the total number of winning balls The ratio (%), which is the ratio of the number of winning balls by winning the Grand Prize Winner and the second Grand Prize winning opening (Attacker), and the base (%), which is the ratio of the total number of winning balls to the number of played balls It is supposed to be displayed. The continuous ratio is a ratio of the total number of winning balls that is occupied by the number of winning balls (the number of consecutive winning points of the following winning feature) by winning the first winning hole and the second winning hole (attacker). The role ratio means the number of winning balls in the second starting winning opening (Den Chu) out of the total number of winning balls and the number of winning balls in winning the first and second winning winning openings (attackers) ( It is the ratio of the following number of winning balls). The base is the ratio of the number of game balls launched to the total number of prize balls. The total number of winning balls (the total number of winning balls below) is based on the number of winning balls in the 1st Grand Prize Winner and the 2nd Grand Prize Winner (Attacker) and the 2nd starting prize opening (Den Chu) Number of winning balls and winning balls by winning in winning holes (first starting prize opening, general winning prize opening) other than the first big prize opening, the second big prize winning opening (Attacker), and the second starting winning prize opening (Den Chu) The sum of numbers. The first grand prize opening, the second big prize opening (attacker), and the second starting prize opening (electrical chew) are variable actors, and the winning range of the game ball is changed by changing the passable width of the game ball. It is an accessory whose expected ratio varies. In addition, the winning openings (first starting winning opening, general winning opening) other than the first winning opening, the second winning opening (attacker), and the second starting winning opening (Den Chu) are fixed roles, The passable width of the ball is fixed, and the expected winning percentage of the game ball is a fixed character.

  As for the calculation and calculation method of information related to game winnings, the number of winning balls for winning the first starting hole (heso) and the general winning opening (sode) in the number of winning balls of 6000 is as follows. (General prize ball number), number of regular electric prize balls (number of electric chew prize balls), which is the number of prize balls won by winning in the second starting prize opening (Den Chu), 1st Grand Prize Winner and 2nd Grand Prize Winner The number of special electoral award balls (attacker ball number), which is the number of winning balls for winning (attacker), is counted. The total is set as one set, and the continuous ratio (%) and the winning ratio (%) for 10 sets, that is, 60000 pieces are calculated. In addition, the number of award balls (general award ball number), the number of ordinary electric award balls (the number of electric chew award balls), and the special electric roles The number of prize balls (the number of attacker prize balls) is recorded in a ring buffer provided for each set value, and has a recording capacity of at least 11 sets, and is updated every set. Yes. In other words, the storage of 11 sets of 6000 is stored in an equivalent amount (for example, several bytes), and the cumulative ratio (%) and role ratio (%) can be calculated. As for the base, the number of game balls launched for 60000 prize balls is counted. The total is set as one set, and the ratio (base (%)) of 60000 prize balls to the number of game balls launched is calculated.

  The display monitor 109SG029 has a base (%), a hand ratio (%), and a cumulative base ratio (%), a hand ratio (%), and a base calculated based on the previous 60000 winning balls (%). Base 1 (%)) and a base (base 2 (%)) calculated based on the immediately preceding 60000 prize balls can be switched and displayed every predetermined time (for example, 5 seconds). That is, six displays are switched and displayed by one display means. In this case, it takes 30 seconds to display all, but the number of award balls by winning at the first start opening (hemo) counted by the progress of the game, winning at the second start winning opening (electric chew) The number of winning balls due to, and the number of winning balls due to winning at the first grand prize winning opening and the second big winning prize opening (attacker) will change. Then, for example, if the number of prize balls won after displaying the continuous ratio (%) for 6000 is reflected in the ratio (%) for 60000 displayed after that, There may be a discrepancy between the continuous ratio (%) and the duty ratio (%) for 60000 pieces. Therefore, the number of winning balls by winning at the first starting opening (hews), the number of winning balls by winning at the second starting winning opening (Den Chu), winning at the first winning opening and the second winning opening (attacker) If the number of award balls and the total number of award balls are input and totaled at a predetermined timing in the switching display (for example, a display timing of 6000 consecutive ratios (%), etc.), such a discrepancy is caused. Can be prevented.

  A storage area for storing information related to game winning in the present embodiment is provided for each set value. The prize ball, the prize ball total, and the total shot-in are stored in a storage area (ring buffer) corresponding to the set value. For this reason, the connection ratio, role ratio, and base of the present embodiment can be calculated individually for each set value.

  As an example of the calculation method, the total number of winning balls is 60000, and the number of winning balls by winning in the second start winning opening (Den Chu) and the first big winning opening and the second big winning opening (attacker) A method of calculating the ratio of the winning combination (ratio (%)) in the case where the number of winning winning balls, which is the total of the winning balls due to winning, is 42,000 will be described. In the following description, the total number of acquired balls means the total number of game media (prize balls) paid out from the pachinko gaming machine 1. Also, the number of winning balls acquired means the total number of game media paid out when the game media wins an attacker and electric chew. In addition, the number of consecutively-acquired balls acquired is the cumulative number of game media paid out when the game media wins an attacker. The total number of hits refers to the cumulative number of game media that have been put into the pachinko gaming machine 1 until the number of prize balls reaches 60000. For this reason, a connection ratio can be calculated | required by following (1) Formula. Further, the role ratio can be obtained by the following equation (2). The base can be obtained by the following equation (3).

  Connection ratio = [number of consecutive winning balls / total number of winnings] × 100 (1)

  Ratio = [(number of consecutive feature winning balls + number of winning balls) / total winning number] × 100 (2)

  Base = [60000 (total number of winning balls) / total number of shots] × 100 (3)

  When the total number of prize balls is 60000 and the number of winning balls is 42,000, the bonus rate is calculated as 0.70 (3 digits after the decimal point rounded down) by dividing 42000 by 60000. However, since the microcomputer used in the pachinko gaming machine 1 cannot perform the arithmetic operation after the decimal point, the operation by the following method is required.

  First, the first calculation method will be described. In the first calculation method, first, the number of winning characters is multiplied by 100 to 4200000. Then, 4200000 is divided by 60000. As a result, 70 is obtained as a quotient. From the 70 obtained here, the ratio of the actors is obtained as 70%. That is, by multiplying the dividend by 100, it is possible to obtain a calculation result up to two decimal places. Here, when the calculation result up to three digits after the decimal point is obtained, it may be multiplied by 1000.

  Next, the second calculation method will be described. In the second calculation method, first, the total number of prize balls is divided by 100 to obtain 600. Then, 42000 is divided by 600. As a result, 70 is obtained as a quotient. From the 70 obtained here, the ratio of the actors is obtained as 70%. That is, by dividing the divisor by 100, it is possible to obtain the calculation result up to two decimal places. Here, when the calculation result up to 3 digits after the decimal point is obtained, it may be divided by 1000.

  In the above example, the total number of prize balls is 60000, but a 3-byte area is provided as an area for storing the total number of prize balls in order to calculate the ratio of the long-term bonuses. That is, in this example, 00EA60h is stored in the 3-byte storage area. Similarly, 00A410h is stored in the 3-byte storage area for the number of winning balls acquired.

  Here, the microcomputer used in the pachinko gaming machine 1 can only perform operations between values of up to 2 bytes. Therefore, in order to facilitate the calculation, the lower 1 byte may be truncated.

  Here, a third calculation method performed by simplifying the second calculation method will be described. In the third calculation method, in order to facilitate calculation with the microcomputer used in the pachinko gaming machine 1, 60 h of the lower 1 byte is rounded down to 00EA60h of the total number of prize balls, and the total number of prize balls is 00EAh, that is, Calculate 234 in decimal notation. Similarly, 10h of the lower 1 byte is rounded down to 00A410h of the winning character acquisition ball number, and the winning character acquisition ball number is 00A4h, that is, 164 is calculated in decimal notation.

  Then, similarly to the second calculation method, 2 is calculated by dividing the total number of winning balls by 100 (273/100). Then, 156 is divided by 2 to obtain 78 as a quotient. From the 78 obtained here, the ratio of the actors is obtained as 78%.

  In the third calculation method, calculation with a microcomputer used in the pachinko gaming machine 1 is facilitated, but an error of + 12% occurs. However, the error when the total number of winning balls and the number of winning balls is 10 times is + 1%. That is, the error is reduced as the period for calculating the accessory ratio becomes longer, and approximates the original value.

  The substrate case 109SG201 is formed of a light-transmitting material, and the main substrate 11 and the display monitor 109SG029 can be visually recognized. The board case 109SG201 is formed with a hole (not shown) through which a wiring connector connected to the main board 11 is inserted, and a heat radiating hole for releasing heat of electrical components of the main board 11. The display monitor 109SG029 provided on the main board 11 is arranged at a position where the heat radiation hole is not directly in front. Therefore, the visibility of the display monitor 109SG029 is not blocked by the heat radiating holes. Here, “directly in front” means directly in front of the main board 11 as a viewpoint, and means between the main board 11 and an employee who wants to visually recognize the main board 11. Here, the microcomputer used in the pachinko gaming machine 1 can only perform operations between values of up to 2 bytes. Therefore, in order to facilitate the calculation, the lower 1 byte may be truncated.

  Here, a third calculation method performed by simplifying the second calculation method will be described. In the third calculation method, in order to facilitate calculation with the microcomputer used in the pachinko gaming machine 1, 60 h of the lower 1 byte is rounded down to 00EA60h of the total number of prize balls, and the total number of prize balls is 00EAh, that is, Calculate 234 in decimal notation. Similarly, 10h of the lower 1 byte is rounded down to 00A410h of the winning character acquisition ball number, and the winning character acquisition ball number is 00A4h, that is, 164 is calculated in decimal notation.

  Then, similarly to the second calculation method, 2 is calculated by dividing the total number of winning balls by 100 (273/100). Then, 156 is divided by 2 to obtain 78 as a quotient. From the 78 obtained here, the ratio of the actors is obtained as 78%.

  Also, a storage area for storing information related to game winnings (ring buffer, 10 sets total buffer (totaling information related to game winnings stored in a ring buffer having 10 counters with a maximum of 2 bytes), prize balls The total number buffer) may be stored continuously without being initialized when the reset button is operated. The ring buffer will be further described later. Note that the checksum of the stored value is calculated, and if an abnormality is detected, initialization is performed, the value of the number of winning balls is greater than the value of the total number of winning balls stored, Initialization of the storage area for storing information related to game winnings when an event that cannot occur as a situation is detected, such as when the number of consecutive feature-acquired balls is greater than the number of acquired balls Processing may be performed. Further, an error display or warning display may be performed without performing the initialization process, or an error display or warning display may be performed, or the initialization process may be performed after being performed. The error display and warning display will be further described later.

  For example, assuming that the total number of acquired balls is 34321 and the number of winning balls is 19876, 34321 are divided as a divisor for 19876 and the ratio is calculated. 1987/34321 = 0.57912... It is calculated that the role ratio (%) is about 57.9%. When calculation is performed in the game control microcomputer 100, calculation with a decimal point must be avoided, so the calculation formula is replaced with the following. In the division of 19876/34321, 34321 of the denominator is divided by 100, and the decimal point is rounded down to be 19876/343 = 57.9475. Since the fractional part is rounded down, it is calculated that the ratio is 57% (%) and is displayed on the display monitor 109SG029. In this example, the value calculated by accurate calculation is an error on the display. There will be no.

  The minimum value in 16 bits is 32768 (the value other than the value of the most significant bit is 0), and the value where the error is maximum is when the total number of acquired balls and the number of acquired balls are 32799 respectively. When this is calculated by the above method, 32799/32799 = 100%, and when replaced with the calculation by the game control microcomputer 100, 32799/327 = 100.3%, which is an error of + 0.3%. When the calculation is performed with the decimal point rounded down, for example, when the exact value is 69.9% and the value calculated by the game control microcomputer is 70.1%, 69% → 70% on the display. % Error may be displayed, but even in the display of 1% error, the duty ratio (%) (or continuous ratio (%)) can be displayed with a very small error.

  In addition, when the above calculation method is used, the total number of acquired balls is divided by 100. Therefore, when the total number of acquired balls is less than 100, the calculation cannot be performed. Further, the error gradually increases even when it is less than 32768. If it is less than 10,000, the error may exceed 1%, resulting in a larger error. That is, the smaller the total number of acquired balls, the larger the error. For this reason, until the total number of acquired balls of a specific number or more (for example, 32768 which is the minimum value of 16 bits) is counted by a counter, the display of the role (%) and the continuous ratio (%) is not performed on the display monitor Even if the display is performed, the fact that the error may be large may be notified by emitting light from a dedicated LED, outputting a notification sound, or blinking the displayed value.

  The display monitor 109SG029 displays the role ratio (%), the connection ratio (%), and the base (%) on 7 segments, and switches each value every predetermined period (for example, every 5 seconds). To display. In this case, for example, while the role ratio (%) is displayed for 5 seconds, an event occurs in which a new game medium wins an electric chew or an attacker, and the value calculated accordingly is changed to a continuous ratio ( %), There is a possibility that the value of the combination ratio (%) and the combination (%) may deviate. For this reason, it is preferable that the role ratio (%) and the connection ratio (%) are calculated in the same interrupt and are sequentially displayed.

  In addition, when the numerical value that can be displayed in 7 segments is 2 digits (for example, when two 7 segments are provided), it becomes impossible to display 100% as 100. In this case, 99 may be displayed instead of 100. In the display monitor 109SG029 shown in FIG. 20-15 (A), numerical values can be displayed in the lower two digits, but even in this case, the numerical values may be displayed without using the upper two digits. Alternatively, numerical values may be displayed in a part of the upper two digits under specific conditions.

  In the present embodiment, an example in which the game medium is won by a sensor provided in each of the attacker and the electric chew, and the number of the respective winning balls is individually counted based on the detection result. However, the present invention is not limited to this, and a sensor provided after the discharge passage through which the game media won in the attacker and the game media won in the electric chew merge is used, and the detection result Based on the above, the number of winning balls and the number of consecutive winning balls may be totaled.

  Hereinafter, the connection ratio, the role ratio, and the base display will be described more specifically. In the present embodiment, the main board 11 is provided on the back side of the game board 2 (see FIG. 1). In addition to the main board 11, peripheral boards such as the effect control board 12 are also provided on the back side of the game board 2.

  The RAM 102 on the main board 11 includes a gate passage number counter, a first starting winning number counter, a second starting winning number counter, a first general winning number counter, a second general winning number counter, a third general winning number counter, a fourth counter A general winning number counter and a large winning number counter are provided. In the present embodiment, the number of winning prizes of the first grand prize winning opening and the second big winning prize opening (attacker) is counted by the big winning prize counter, but the present invention is limited to this. The first grand prize counter that counts the number of prizes received in the first grand prize opening and the second grand prize counter that totals the number of prizes received in the second grand prize mouth are provided separately. The number of winnings in the first grand prize opening and the number of winnings in the second big winning opening may be counted separately, and the number of winnings may be summed to obtain the number of winnings for the attacker.

  The gate passage number counter is a counter that counts the number of game balls detected by the gate switch 21. The first start winning number counter is a counter that counts the number of game balls detected by the first start port switch 22A. The second start winning number counter is a counter that counts the number of game balls detected by the second start port switch 22B. The first general winning number counter is a counter that counts the number of game balls detected by the first general winning port switch 109SG026A. The second general winning number counter is a counter that counts the number of game balls detected by the second general winning port switch 109SG026B. The third general winning number counter is a counter that counts the number of game balls detected by the third general winning opening switch 109SG026C. The fourth general winning number counter is a counter that counts the number of game balls detected by the fourth general winning opening switch 109SG026D. The big prize counter is a counter that counts the number of game balls detected by the first count switch 109SG023 and the second count switch 109SG024A.

  Note that a clear switch (not shown) is connected to the main board 11. The clear switch is arranged on the back side surface of the game board 2 at a position where an employee or the like cannot easily operate. By operating the clear switch, data used for the connection ratio and the role ratio stored in the RAM 102 described later is cleared. The clear switch is a switch that is operated when the calculation of the link ratio and the role ratio has to be performed again, such as when a failure occurs in the calculation of the link ratio and the role ratio. For this reason, it is a switch that does not need to be operated when collecting data for calculating a normal linkage ratio and a hand ratio. When the clear switch is operated, a clear switch operation signal is transmitted to the main board 11 in addition to clearing data.

  The main board 11 is provided with the RTC 106 as described above, and the RTC 106 can detect the current time. The RTC 106 can measure a predetermined time, elapsed time, and the like by performing an initial setting, but in the present embodiment, the RTC 106 can measure a business hall operating time.

  The main board 11 is accommodated in the board case 109SG201. A caulking pin (not shown) is attached to the substrate case 109SG201. By providing the caulking pins, the main substrate 11 is completely enclosed in the substrate case 109SG201, and illegal acts on the main substrate 11 are prevented. Substrate case 109SG201 is a caulked substrate case (hereinafter also referred to as “caulking substrate case”).

  The display monitor 109SG029 is provided on the main substrate 11. In addition, a sealing seal (not shown) is attached to the substrate case 109SG201 to prove that the main substrate 11 has been sealed. For example, the seal sticker is pasted across the removed portion of the substrate case 109SG201. The seal seal is disposed at a position away from the main substrate 11, and is disposed at a position different from the position where the visibility of the display monitor 109SG029 is blocked, such as the front of the display monitor 109SG029. Thus, the display monitor 109SG029 is arranged at a position that is not hidden by the seal.

  The display monitor 109SG029 includes a first display unit 29A, a second display unit 29B, a third display unit 29C, a fourth display unit 29D, and a fifth display unit 29E. Each of the first display unit 29A to the fifth display unit 29E is configured by seven segments configured by seven segments that draw a character “8” and dots arranged at the lower right side of the seven segments. The first display unit 29A to the fifth display unit 29E can be lit and blinked in various colors, for example, red, blue, green, yellow, white, and the like. In addition, these colors can be displayed in different colors or so-called rainbows while changing in an extremely short period.

  Each item of display Nos. 1 to 6 shown in FIG. 20-15 (B) is displayed on the display monitor 109SG029. The set values (1 to 3) are displayed on the first display portion 29A of the first digit, and the summation period is displayed on the second display portion 29B of the second digit and the third display portion 29C of the third digit. The numerical values are displayed in percentage on the fourth display portion 29D of the fourth digit and the fifth display portion 29E of the fifth digit. In display No1, a short-term run ratio is displayed, and in display No2, a short-term role ratio is displayed. In display No. 3, the total cumulative run ratio is displayed, and in display No. 4, the total cumulative role ratio is displayed. In display No5, the base (base 1) calculated based on the previous 60000 prize balls is displayed, and in display No6, the base (base 2) calculated based on the previous 60000 prize balls is displayed. Is done.

  The short term here means a period in which the number of awarded balls (number of acquired balls) was 6000. The period for calculating the total cumulative means the total period after the calculation of the ratio and the ratio is started, or the total period after the calculation of the ratio and the ratio is once reset.

  In the above example, the linkage ratio, the role ratio, and the base are calculated regardless of the gaming state, but may be calculated in consideration of the gaming state. For example, the run ratio may be a ratio of the total number of winning balls that is occupied by the number of winning balls by winning a big winning opening in the big hit gaming state. Also, the ratio of the winnings is the percentage of the total number of winning balls that is based on the number of winning balls in the second starting winning opening in the high base state and the number of winning balls in the winning game in the big hit gaming state. Also good. The base may be calculated separately for the low base state and the high base state.

  When the short-term ratio of the display No1 is displayed, “y6.” Is displayed on the second display unit 29B and the third display unit 29C, and when the short-term role ratio of the display No2 is displayed, the second “Y7.” Is displayed on the display unit 29B and the third display unit 29C. When the short-term ratio of display No1 is displayed, the fourth display section 29D and the fifth display section 29E display the short-term ratio as a percentage (displayed in%) and display the short-term ratio of display No2. In this case, the short-term role ratio is displayed as a percentage (% display) on the fourth display unit 29D and the fifth display unit 29E.

  When the total cumulative ratio of display No. 3 is displayed, “A6.” Is displayed on the second display unit 29B and the third display unit 29C, and when the total cumulative role of display No. 4 is displayed, “A7.” Is displayed on the second display unit 29B and the third display unit 29C. When the total cumulative ratio of display No. 3 is displayed, the total cumulative ratio is displayed as a percentage (% display) on the fourth display unit 29D and the fifth display unit 29E, and the total cumulative combination of display No. 4 is displayed. When the ratio is displayed, the total cumulative combination ratio is displayed as a percentage (% display) on the fourth display unit 29D and the fifth display unit 29E.

  When the base 1 of the display No. 5 is displayed, “bL.” Is displayed on the second display unit 29B and the third display unit 29C, and when the base 2 of the display No. 4 is displayed, the second display unit. “B6.” Is displayed on 29B and the third display unit 29C. When the base 1 of the display No. 5 is displayed, the total cumulative ratio is displayed as a percentage (% display) on the fourth display unit 29D and the fifth display unit 29E, and the base 2 of the display No. 6 is displayed. In this case, the total cumulative combination ratio is displayed as a percentage (% display) on the fourth display unit 29D and the fifth display unit 29E.

  The main board 11 calculates the ratio, role ratio, and base in the first grand prize opening, the second big prize opening (attacker), the first starting prize opening, the second starting prize opening, and the first general prize opening. The number of game balls that have entered the fourth general prize opening and the number of game balls discharged from the discharge port are tabulated. In the main process, the CPU 103 performs the gate switch 21, the first start port switch 22A and the second start port switch 22B, the first count switch 109SG023, the second count switch 109SG024A, and the first general winning port switch 109SG026A to fourth general. Switch processing for confirming the state of each switch (presence / absence of a detection signal) of the winning port switch 109SG026D and the outlet port switch 109SG070 is performed.

  In this switch process, based on the detection signal output from each switch, it is specified which entry area the game ball has entered. When the detection signal is output from the gate switch 21, the value of the gate passage number counter is added, and when the detection signal is output from the first start port switch 22A and the second start port switch 22B, The values of the first start winning number counter and the second starting winning number counter are added, and when the detection signal is output from the first count switch 109SG023 and the second count switch 109SG024A, the value of the large winning number counter is added. When a detection signal is output from the first general prize opening switch 109SG026A, the second general prize opening switch 109SG026B, the third general prize opening switch 109SG026C, and the fourth general prize opening switch 109SG026D, 2nd general prize counter, 3rd general prize counter, 4th general prize counter When a detection signal is output from the outlet switch 109SG070, the number of game balls entering each entry area (to each prize opening is added) Total number of game balls won). Note that the value of each counter is stored in the RAM 102.

  In this way, the step for counting the number of game balls entering each entry area is executed together in a series of processes for checking the state of the switch corresponding to each entry area (switch state confirmation process). By including it in the switch process), the number of game balls entering each entry area can be counted without causing a separate counting program to be executed, that is, without causing a problem of insufficient capacity due to an increase in the number of execution programs. It has become.

  The CPU 103 of the main board 11 calculates the number of winning balls by winning each winning mouth based on the total number of winning game balls to each winning mouth, and stores the calculated number of winning balls in the RAM 102 for each winning mouth. Let The number of winning balls for winning a game ball is calculated by multiplying the number of gaming balls to be paid out by one winning with respect to the winning opening and the number of winning for the winning opening. The number of winning balls for winning a game ball is predetermined for each winning opening.

  As shown in FIG. 20-16, the number of winning balls for each winning mouth divided here is a winning ball by winning a general winning mouth ball (first general winning mouth to fourth general winning mouth (sode)). ), 1st starting prize mouth prize ball (award ball by winning at the 1st starting prize port (heso)), ordinary electric role award ball (award ball by winning a prize for electric Chu), special electric role award ball (to attacker) Number of winning balls). The RAM 102 also stores the total number of winning balls and the number of game balls that have been driven. The CPU 103 separately counts the number of game balls won in the general winning opening and the number of game balls won in the first starting opening, but the number of game balls won in the general winning opening and the first starting opening are counted. The number of winning game balls to may be summed up. In addition, although the number of prize balls for the general prize opening prize ball and the number of prize balls for the first start mouth prize ball are calculated separately, the number of prize balls for the general prize opening prize ball and the number of the first start mouth prize ball are calculated. May be calculated together.

  The RAM 102 includes a ring buffer and an active buffer for storing the number of winning balls and the number of hits. The ring buffer includes 10 first storage areas to 10th storage areas, each of which has a counter of up to 2 bytes for storing the number of winning balls by winning in each winning mouth for every 6000 winning balls. As described above, the ring buffer has a storage area of a predetermined unit (maximum 2 bytes). The active buffer also includes a 0th storage area composed of a counter of up to 2 bytes for storing the number of winning balls by winning in each winning mouth for every 6000 winning balls. In the 0th storage area, the number of winning balls for each winning mouth that increases as the game progresses is added. Eleven storage areas from the 0th storage area to the 10th storage area can store 256 × 256 = 65536 data, and up to 6000 data can be stored with a margin.

  In addition, the RAM 102 is provided with a storage area for the number of winning balls (for 10 sets) and the total number of hits stored in the first storage area to the tenth storage area, and the total accumulated for each winning opening. Yes. The storage area of the total of 10 sets and the total total is composed of a counter of maximum 3 bytes. Therefore, 256 × 256 × 256 = 16777216 data can be stored, and up to 60000 data can be spared. I can remember.

  In addition, the RAM 102 stores a ratio ratio storage area for storing the ratios and ratios of 10 sets and the total cumulative total, a base for 10 sets (base 2), and a base for the previous 10 sets (base 1). And a base storage area for storing. The CPU 103 of the main board 11 calculates the role and run ratio of 10 sets and the total cumulative based on the number of winning balls based on the number of winning game balls in each winning opening for 10 sets and the total cumulative. In addition, it is stored in the linkage ratio storage area for storing the total cumulative ratio and the linkage ratio. Each of the combination ratio combination ratio storage areas for storing the ratios and the combination ratios of the 10 sets and the total cumulative number is composed of a counter of 1 byte at maximum. For example, in the case of storing the set ratio and the total ratio of 10 sets and the total cumulative number as an integer, the counter can be stored with a margin with a maximum of 1 byte.

  Further, the CPU 103 of the main board 11 calculates a base for 10 sets based on the number of game balls to be awarded to each winning opening for 10 sets, and the base for 10 sets (base 2) and the previous time The base (base 1) calculated based on the number of game balls won for each of the 10 sets of winning holes is stored in the base storage area. For example, when the base 1 and the base 2 are stored as integers, they can be stored with a margin of a maximum counter of 1 byte.

  Here, the memory space of the CPU 103 of the main board 11 will be described. FIG. 20-17 is a diagram showing a memory map of the CPU on the main board. The CPU 103 has a memory space for accessing the above-described built-in register, ROM 101, RAM 102, and the like. Specifically, as shown in the memory map of FIG. 20-17, the address / data signal line of the ROM 101 is the ROM area of the memory space (0000H to 2FFFH (H is a hexadecimal number in the present embodiment. 0000H to 2FBFH, 2FC0H to 2FFFH are allocated to the program management area), and the CPU 103 reads the data from the ROM 101 by designating this ROM area. In the present embodiment, the ROM area is divided into eight areas from the first area to the eighth area for management, and the first area is an area starting from 0000H.

  The address / data signal line of the built-in register is assigned to a register area (FE00H to FEBFH in the present embodiment) of the memory space, and the CPU 103 reads data from the built-in register through this register area and transfers it to the register. Write the data.

  Further, the address / data signal line of the RAM 102 is assigned to the RWM area (F000H to F3FFH in this embodiment) of the memory space, and the CPU 103 designates this RWM area and reads data from the RAM 102 or transfers it to the RAM 102. Write data. Note that other areas of the memory space (in the present embodiment, 3000H to EFFFH, F400H to FDFFH, FEC0H to FFFFH) are unused areas.

  Further, a RAM area corresponding to the storage area of the RAM 102 (in this embodiment, a 16 Kbyte area of 0000H to 2FFFH) includes a RAM control area, a non-use area, a RAM data area, and other areas as shown in FIG. It consists of In the storage area of the RAM 102 corresponding to the RAM control area, instruction data (opcode) corresponding to each of a plurality of types of instructions executed by the CPU 103 and supplementary data (operands) necessary for the CPU 103 to execute each instruction are stored. Data for the configured control program (sometimes simply referred to as control program data) is temporarily stored, and the reference data referenced by the control program is stored in the storage area of the RAM 102 corresponding to the RAM data area. (For example, the above-mentioned various lottery data) is temporarily stored.

  In addition, data used for displaying the connection ratio and the role ratio is temporarily stored in the storage area of the RAM 102 corresponding to the non-use area and the storage area of the RAM 102 corresponding to the other area. For example, the storage area of the RAM 102 corresponding to the non-use area is provided with a storage area for storing the total cumulative number of winning balls for each winning opening and a total cumulative combination ratio storage area. The storage area of the RAM 102 corresponding to the other areas includes an active buffer having a 0th storage area for each winning opening, a ring buffer having a first storage area to a 10th storage area, and the number of winning balls for each winning opening (10 sets). Min) total storage area, and 10 sets of ratio ratio storage areas. It should be noted that the storage area of the RAM 102 corresponding to the non-use area and the storage area of the RAM 102 corresponding to the other area respectively store data having different subroutine start addresses.

  In the present embodiment, 1 byte (8 bits) of data can be stored in the storage area of the RAM 102 corresponding to each address of the RAM area, and each of the above-described data (command data, supplemental data, reference data) is stored. , Management data) is data having a number of bytes exceeding 1 byte (for example, 2 bytes), the data is divided and stored for each byte in the storage area of the RAM 102 corresponding to a plurality of consecutive addresses in the RAM control area. doing.

  The main board 11 controls the display monitor 109SG029 to display the connection ratio, the role ratio, and the base. Here, the main board 11 performs control to sequentially display a plurality of items. FIG. 20-19 (A) is a time chart showing display times of items displayed on the accessory ratio display device. As shown in FIG. 20-19 (A), when display on the display monitor 109SG029 is started, first, the short-term connection ratio of display No1 is displayed. The display of the short-term connection ratio of display No1 is displayed in green. In the display of the short-term connection ratio of the display No1, as shown in FIG. 20-19 (B-1), “1” that is the set value is displayed on the first display unit 29A, and “y” is displayed on the second display unit 29B. Is displayed, and the character “6.” is displayed on the third display portion 29C. In addition, the short-term continuous ratio is displayed on the fourth display unit 29D and the fifth display unit 29E. For example, when the short-term continuous ratio is 41%, the characters “4.” are displayed on the fourth display portion 29D, and the characters “1.” are displayed on the fifth display portion 29E.

  When the display of display No1 continues for 5 seconds, the short-term role ratio of display No2 is displayed. The display of the short-term continuous ratio of display No. 2 is displayed in red. In the display of the short-term role ratio of display No. 2, as shown in FIG. 20-19 (B-2), “1” that is the set value is displayed on the first display unit 29A, and “y” is displayed on the second display unit 29B. And the character “7.” is displayed on the third display portion 29C. Further, the short-term role ratio is displayed on the fourth display unit 29D and the fifth display unit 29E. For example, when the short-term role ratio is 63%, the characters “4.” are displayed on the fourth display portion 29D, and the characters “3.” are displayed on the fifth display portion 29E.

  When the display No. 2 continues for 5 seconds, the total cumulative ratio of the display No. 3 is displayed. The display of the total cumulative connection ratio of display No. 3 is displayed in red. In the display of the total cumulative ratio of display No. 3, as shown in FIG. 20-19 (B-3), the set value “1” is displayed on the first display unit 29A, and “A” is displayed on the second display unit 29B. "Is displayed, and" 6. "is displayed on the third display portion 29C. Further, the total cumulative ratio is displayed on the fourth display unit 29D and the fifth display unit 29E. For example, when the total cumulative continuous ratio is 58%, the characters “5.” are displayed on the fourth display portion 29D, and the characters “8.” are displayed on the fifth display portion 29E.

  When the display of display No. 3 continues for 5 seconds, the total cumulative combination ratio of display No. 4 is displayed. The display of the total cumulative combination ratio of display No. 4 is displayed in red. In the display of the total cumulative role ratio of display No. 4, as shown in FIG. 20-19 (B-4), “1” which is the set value is displayed on the first display unit 29A, and “A” is displayed on the second display unit 29B. "Is displayed, and" 7. "is displayed on the third display portion 29C. Further, the total cumulative combination ratio is displayed on the fourth display unit 29D and the fifth display unit 29E. For example, when the total cumulative combination ratio is 68%, the character “6.” is displayed on the fourth display portion 29D, and the character “8.” is displayed on the fifth display portion 29E.

  When the display of display No. 4 continues for 5 seconds, the base 1 of display No. 5 is displayed as shown in FIG. 20-19 (B-5). The display of base 1 of display No. 5 is displayed in red. In the display of the base 1 of the display No. 5, as shown in FIG. 20-19 (B-5), “1” as the set value is displayed on the first display unit 29A, and “b” is displayed on the second display unit 29B. The characters are displayed, and the characters “L.” are displayed on the third display portion 29C. Further, the base 1 calculated based on the previous 60000 prize balls is displayed on the fourth display unit 29D and the fifth display unit 29E. For example, when the base 1 is 40%, the characters “4.” are displayed on the fourth display portion 29D, and the characters “0.” are displayed on the fifth display portion 29E.

  When the display of display No. 5 continues for 5 seconds, the base 2 of display No. 6 is displayed as shown in FIG. 20-19 (B-6). The display of the base 2 of display No. 6 is displayed in red. In the display of base 2 of display No. 6, as shown in FIG. 20-19 (B-6), “1” that is the set value is displayed on the first display unit 29A, and “b” is displayed on the second display unit 29B. The characters are displayed, and the characters “6.” are displayed on the third display unit 29C. Further, the base 2 calculated based on the immediately preceding 60000 prize balls is displayed on the fourth display unit 29D and the fifth display unit 29E. For example, when the base 2 is 42%, the character “4.” is displayed on the fourth display portion 29D, and the character “2” is displayed on the fifth display portion 29E.

  And when the display of display No5 continues for 5 seconds, as shown to FIG. 20-19 (B-1), the short-term connection ratio of display No1 will be displayed. The short-term connection ratio of display No1 is displayed. Thereafter, the display of the base 2 of the display No. 1 to the base 2 of the display No. 6 is sequentially displayed every 5 seconds. In addition, the display color of only the short-term connection ratio of display No1 is green, and the short-term role ratio of display No2 to base 2 of display No5 is red. In this way, the display monitor 109SG029 switches and displays the short-term consecutive ratio, the short-term combined ratio, the total cumulative combined ratio, the total cumulative combined ratio, base 1 and base 2 every 5 seconds.

  Furthermore, the display of these short-term consecutive ratio, short-term combined ratio, total cumulative combined ratio, total cumulative combined ratio, base 1 and base 2 is as shown in FIGS. 20-19 (A) to 29-19 (C). Based on the operation of the display changeover switch 109SG030, when the set value is “1”, the short-term continuous ratio, the short-term combined ratio, the total cumulative combined ratio, the total cumulative combined ratio, the display of the base 1 and base 2, and the set value are “2”. ”For short-term ratio, short-term ratio, total cumulative ratio, total cumulative ratio, base 1 and base 2 display, short-term ratio, short-term ratio, total cumulative total when set value is“ 3 ” Ratio, total cumulative combination ratio, base 1 and base 2 display can be changed sequentially. If the display changeover switch 109SG030 is operated during display of the short-term continuous ratio, short-term combination ratio, total cumulative combination ratio, total cumulative combination ratio, base 1 and base 2 when the set value is “1”, The numerical value displayed on the first display unit 29A is updated to “2”, and the short-term continuous ratio, short-term role ratio, total cumulative ratio, total cumulative role displayed on the fourth display unit 29D and the fifth display unit 29E The numerical values of the ratio, base 1 and base 2 are switched to the set value “2”.

  Further, when the display changeover switch 109SG030 is operated during the display of the short-term continuous ratio, short-term combination ratio, total cumulative combination ratio, total cumulative combination ratio, base 1 and base 2 when the set value is “2”, The numerical value displayed on the first display unit 29A is updated to “3”, and the short-term run ratio, short-term role ratio, total cumulative run rate, total cumulative role displayed on the fourth display unit 29D and the fifth display unit 29E The numerical values of the ratio, base 1 and base 2 are switched to the set value “3”.

  If the display changeover switch 109SG030 is operated during display of the short-term continuous ratio, short-term combination ratio, total cumulative combination ratio, total cumulative combination ratio, base 1 and base 2 when the set value is “3”, The numerical value displayed on the first display unit 29A is updated to “1”, and the short-term continuous ratio, the short-term role ratio, the total cumulative ratio, the total cumulative role displayed on the fourth display unit 29D and the fifth display unit 29E. The numerical values of the ratio, base 1 and base 2 are switched to the set value “1”.

  The display monitor 109SG029 of the present embodiment exemplifies a form capable of displaying the connection ratio, role ratio, and base at each set value, but the present invention is not limited to this, and the display monitor In 109SG029, only one numerical value or only two numerical values may be displayed among these connection ratio, role ratio, and base.

  Further, in the present embodiment, a connection ratio, a hand ratio, and a base, which are information based on the number of awarded balls, are calculated, and a form in which these connection ratio, hand ratio, and base are displayed on the display monitor 109SG029 is exemplified. However, the present invention is not limited to this, and the history of the number of awarded balls may be displayed on the display monitor 109SG029 without calculating the connection ratio, role ratio, and base. Good.

  In the present embodiment, the display monitor 109SG029 displays only the short-term consecutive ratio in red, and the short-term combined ratio, total cumulative combined ratio, total cumulative combined ratio, base 1 and base 2 are displayed in green. However, the present invention is not limited to this, and the short-term continuous ratio and the short-term service ratio, the total cumulative service ratio, and the total cumulative service ratio are displayed in the same color. It may be displayed in the same color different from the short-term role ratio, the total cumulative role ratio, and the total cumulative role ratio.

  On the main board 11, when the total number of prize balls in the 0th storage area in the active buffer reaches 6000, which is a predetermined capacity, the storage in the 0th storage area to the 10th storage area in the ring buffer is updated. Furthermore, the storage of the total and total cumulative for 10 sets and the storage of the combined ratio storage area for storing the ratios and continuous ratios of the 10 sets and total cumulative are updated.

  In the update in the active buffer and the ring buffer, the numerical value stored in the 0th storage area of the active buffer is moved to the first storage area of the ring buffer. Further, the numerical values stored in the first storage area to the ninth storage area of the ring buffer are moved to the second storage area to the tenth storage area, respectively. For example, as shown in FIG. 20-20, the number of winning balls of the general winning opening in the 0th storage area to the 9th storage area is “27” “81” “120” “36” “225” “87”, respectively. It is assumed that “66” “117” “45” “21”. At this time, when the total number of prize balls in the 0th storage area of the active buffer reaches 6000, the number of prize balls of the general winning opening prize balls in the 1st storage area to the 10th storage area is “27”, “81”, “ 120 ”,“ 36 ”,“ 225 ”,“ 87 ”,“ 66 ”,“ 117 ”,“ 45 ”, and“ 21 ”. Also, the number of prize balls in the 0th storage area is set to “0”, and the number of prize balls in the 10th storage area is deleted.

  When the number of prize balls stored in the 0th storage area to the 10th storage area is updated, the number of prize balls stored may be temporarily deleted and a new number of prize balls may be stored. Or you may memorize | store a new number of prize balls in the form overwritten on the number of prize balls stored.

(Setting change processing)
Next, the change of the set value of the pachinko gaming machine 1 in the present embodiment will be described. First, in the pachinko gaming machine 1 according to the present embodiment, as shown in FIGS. 20-21, after executing the initialization process (step S8) in the above-described game control main process (see FIG. 3), the CPU 103 Then, it is determined whether or not the lock switch 109SG051 is ON (step 109SGSa11). When the lock switch 109SG051 is ON (step 109SGSa11; Yes), it is determined whether or not the door opening sensor 109SG090 is ON (step 109SGSa12). When the door opening sensor 109SG090 is ON (step 109SGSa12; Yes), a setting change process (step 109SGSa13) is executed, and the process proceeds to step 109SGSa14.

  The CPU 103 receives the operation of the setting changeover switch 109SG052 and the lock switch 109SG051 by executing the setting change process (step 109SGSa13), and the setting value can be changed. In the setting change process, it is possible to check the setting status of the setting value on the display of the display monitor 109SG029.

  Then, after executing the setting change process (step 109SGSa13), after executing step S7, if the lock switch 109SG051 is OFF (step 109SGSa11; No), if the door opening sensor 109SG090 is OFF (step 109SGSa12; No) ) Reads out the set value stored in the backup area of the RAM 102 in step 109SGSa14, sets the read set value as the set value of the pachinko gaming machine 1, and then executes the processes in and after step S10.

  In the present embodiment, when a new setting value is set in the pachinko gaming machine 1 in the setting change process, the CPU 103 is a command for notifying the setting control board 12 of the set value. May be output. In this way, when the CPU 103 can output a command for notifying the set value set to the effect control board 12, the effect control CPU 120 can recognize the newly set value. Therefore, at a specific timing of the game (for example, during a variable display or at the end of a big hit game), a notification effect of the set value of the pachinko gaming machine 1 (for example, a fixed notification effect of the set value 1, etc.) It is possible to execute a setting value suggesting effect or the like that suggests a setting value of the gaming machine 1.

  In the present embodiment, the CPU 103 executes the setting change process to exemplify the setting value that allows the setting value of the pachinko gaming machine 1 to be changed. However, the present invention is not limited to this, When executing the setting change process, the CPU 103 may output a command for notifying the effect control board 12 that the setting change process is being executed. As described above, when the CPU 103 outputs a command for notifying the effect control board 12 that the setting change process is being executed, it indicates that the CPU 103 is executing the setting change process. Since the CPU 120 can recognize, the set value of the pachinko gaming machine 1 is being changed by displaying an image on the image display device 5, outputting sound from the speakers 8L and 8R, emitting light from the game effect lamp 9, and the like. It is possible to notify the surroundings of the situation.

  For example, while the setting change process is being executed, characters such as “setting change” are displayed on the black background on the image display device 5 and sound such as “setting change is being performed” is repeatedly output from the speakers 8L and 8R. Other displays in the image display device 5 (for example, decorative symbols, small symbols, fourth symbols, right-handed display, etc.) may be prevented from being displayed, but these decorative symbols, small symbols, fourth symbols, right-handed displays Etc. may be displayed during the execution of the setting change process. Furthermore, during the execution of the setting change process of the present embodiment, since the special symbol or normal symbol variation display is not executed, the first special symbol display device 4A, the second special symbol display device 4B, the normal symbol display device. 20 is not displayed at all, but the present invention is not limited to this, and during execution of the setting change process, the first special symbol display device 4A, the second special symbol display device 4B, and the normal symbol display device are displayed. At 20, a symbol indicating that the setting change process is being executed or a symbol indicating a specific display result (for example, loss) may be stopped and displayed.

  In the present embodiment, the symbol indicating that the setting change process is being executed in the first special symbol display device 4A, the second special symbol display device 4B, and the normal symbol display device 20 during the execution of the setting change process. However, the present invention is not limited to this, and the first on-hold indicator is displayed during the execution of the setting change process. You may make it light-emit (for example, for repeating blinking) in the aspect which shows that 25A, the 2nd holding | maintenance display device 25B, and the common figure holding | maintenance display device 25C are performing the setting change process. Further, a display (round number display) that displays the number of rounds in the big hit game on the pachinko gaming machine 1 or an instruction to the player to launch a game ball in a specific area of the game area (for example, the game area on the right side). When a display (right-handed display) or the like is provided, the display may emit light in a mode indicating that the setting change process is being executed.

  In this embodiment, when the clear switch is on (S3; Y), when backup data is not stored (S4; N), or when the backup RAM is not normal (S5; N). In the above example, the lock switch 109SG051 and the door opening sensor 109SG090 are determined to be ON (109SGSa11, 109SGSa12) and the setting change process (109SGSa13) is executed. However, the present invention is not limited to this. If the backup data is not stored (S4; N) or the backup RAM is not normal (S5; N), the pachinko gaming machine 1 is cut off in an abnormal state, or the power is turned off in an abnormal state. Since this is an event that can occur when the is turned on, it is determined that the clear switch is on. If (S3; Y) only whether the determination (109SGSa11,109SGSa12) and or tablets switches 109SG051 or door opening sensor 109SG090 is ON, the may perform the setting change processing (109SGSa13). That is, when backup data is not stored (S4; N) or when the backup RAM is not normal (S5; N), the setting value set in the pachinko gaming machine 1 may be taken over.

  In the present embodiment, the CPU 103 executes the setting change process to exemplify the setting value that allows the setting value of the pachinko gaming machine 1 to be changed. However, the present invention is not limited to this, The CPU 103 may be able to check a setting value set in the pachinko gaming machine 1 from the display monitor 109SG029, while being able to execute a process in which the setting value cannot be changed (hereinafter, a setting check process). When the CPU 103 can execute the setting check process as described above, the CPU 103 may output a command for notifying the effect control board 12 that the setting check process is being executed. As described above, when the CPU 103 outputs a command for notifying the effect control board 12 that the setting confirmation process is being executed, it is determined that the CPU 103 is executing the setting confirmation process. Since the CPU 120 can recognize, the set value of the pachinko gaming machine 1 is being changed by displaying an image on the image display device 5, outputting sound from the speakers 8L and 8R, emitting light from the game effect lamp 9, and the like. It is possible to notify the surroundings of the situation.

  It should be noted that the setting confirmation process only needs to be executable on condition that the lock switch 109SG051 and the door opening sensor 109SG090 are turned on after the CPU 103 executes the initialization process of the main process (see FIG. 3). However, for example, during the special symbol variation display, during the big hit game, during the small hit game, when the special symbol variation display is not executed but there is a reserved memory, a predetermined period after the error is detected, The lock switch 109SG051 and the door during a predetermined period such as when award balls are being paid out, waiting for game balls to enter the big hit game start gate (only when the big hit game start gate is provided in the pachinko gaming machine 1), etc. Even if the open sensor 109SG090 is turned on, the setting confirmation process may not be executed.

  Further, after the CPU 103 executes the setting confirmation process and displays the set value set in the pachinko gaming machine 1 on the display monitor 109SG029, the set value is displayed on the display monitor 109SG029 without switching the lock switch 109SG051 to OFF. The game may be enabled in a state where is set.

  Next, the processing status of the setting change process and the display mode of the display monitor 109SG029 will be described. First, as shown in FIGS. 20-22 (A) and 20-22 (B), when the power is turned off (turned off) by the operation of a store clerk or the like in the game hall, the power to the pachinko gaming machine 1 is reduced. When the supply stops, the display on the display monitor 109SG029 ends. Note that when the big prize opening is open, such as during a big hit game or a small hit game, at the timing when the power is turned off, the supply of power to the solenoid 82 is stopped to close the big prize opening.

  Next, as shown in FIG. 20-22 (C), when a store clerk or the like of the game hall turns on the power while operating the clear switch (Yes in step S3 of the game control main process), the lock switch 109SG051 is turned on. And the setting change process is executed by the CPU 103 on the condition that the door opening sensor 109SG090 is ON, and the setting value stored in the backup area of the RAM 102 is displayed on the display monitor 109SG029.

  When the setting value is displayed on the display monitor 109SG029 in this manner, as shown in FIG. 20-22 (D), the CPU 103 detects the operation of the setting changeover switch 109SG052 by a store clerk or the like in the game hall. The numerical values displayed on the display monitor 109SG029 are sequentially updated (for example, updated as 1 → 2 → 3 → 1 →... Each time the setting changeover switch 109SG052 is operated).

  Next, as shown in FIG. 20-22 (E), the CPU 103 detects the pushing operation of the lock switch 109SG051 by a store clerk or the like of the game hall, and sets the setting value displayed on the display monitor 109SG029 in the RAM 102. Store (update storage) in the backup area. At this time, the CPU 103 blinks the display monitor 109SG029 to notify the store clerk of the game hall that a new set value is stored in the backup area of the RAM 102. Further, when the reserved storage is stored in the backup area of the RAM 102, the reserved storage is cleared.

  In FIG. 20-22 (E), as shown in the feature part 2 (see FIGS. 20-40 to 20-46) of the present embodiment described later, the CPU 103 stores the set value stored in the backup area of the RAM 102. It may be converted into a set secret value and a set value designation command including the set secret value may be output to the effect control board 12. When the effect control board 12 (the effect control CPU 120) receives the set value designation command from the CPU 103, the set value is set by specifying the set value from the set value designation command and storing it. A suggestion effect (setting value suggestion effect) may be executed. In addition, when the big prize opening is closed at the timing of FIG. 20-22 (A when the power of the pachinko gaming machine 1 is turned off), the big prize opening is opened again. Thereafter, the CPU 103 ends the setting change processing based on the fact that the lock switch 109SG051 is turned off by the operation of the store clerk or the like of the game hall, and the game is possible, that is, the change display result, the jackpot type, the change pattern The decision lottery, prize ball payout, and the like can be executed.

  In the setting change processing in the present embodiment, the setting value stored in the backup area of the RAM 102 is displayed as the initial display displayed on the display monitor 109SG029. However, the present invention is not limited to this. The initial display to be displayed on the display monitor 109SG029 in the setting change process is the most advantageous setting value for the player (“1” in this embodiment), or the most unfavorable for the player. A set value (“3” in this embodiment) may be displayed.

  When the CPU 103 that has executed such a game control main process receives the interrupt request signal from the CTC and receives the interrupt request, it executes the game control timer interrupt process shown in the flowchart of FIGS. When the game control timer interrupt process shown in FIG. 20-23 is started, the CPU 103 first executes a power-off detection process (109SGS010). Then, by executing a predetermined switch process, the gate switch 21, the first start port switch 22A, the second start port switch 22B, the first count switch 109SG023, the second count switch 109SG024A, the third switch circuit 110 are executed. The state of detection signals input from various switches such as the count switch 109SG024B, the fourth count switch 109SG024C, and the discharge port switch 109SG070 is determined (109SGS011).

  Subsequently, when a game ball is won at any of the general winning opening 109SG050A to the general winning opening 109SG050D, the first starting winning opening, the second starting winning opening, the first grand winning opening, and the second large winning opening 109SG712, That is, the first start port switch 22A, the second start port switch 22B, the first count switch 109SG023, the second count switch 109SG024A, the first general winning port switch 109SG026A, the second general winning port switch 109SG026B, the third general winning port switch When a detection signal is input from 109SG026C or the fourth general winning opening switch 109SG026D, a winning ball process (109SGS012) is performed for setting the number of winning balls corresponding to the winning by each detection signal.

  Next, the CPU 103 displays a winning information process (109SGS013) for calculating winning information such as a winning ratio, a running ratio, and a base, and displays winning information such as a winning ratio, a running ratio, and a base calculated in the winning information processing on the display monitor 109SG029. A winning information display control process (109SGS014) to be displayed is performed. Thereafter, by executing predetermined main-side error processing (109SGS015), abnormality diagnosis of the pachinko gaming machine 1 is performed, and a warning can be executed if necessary according to the diagnosis result. Thereafter, by executing a predetermined information output process, for example, data such as jackpot information, start information, probability variation information, payout information supplied to a hall management computer installed outside the pachinko gaming machine 1 is output. (109SGS016).

  Subsequent to the information output process, a game random number update process for updating at least part of game random numbers such as the random number MR1 and the random numbers MR1 to MR4 used on the main board 11 side by software is executed (109SGS017). . Thereafter, the CPU 103 executes special symbol process processing (109SGS018). In the special symbol process, the value of the special symbol process flag provided in the game control flag setting unit 109SG152 is updated according to the progress of the game in the pachinko gaming machine 1, and the first special symbol display device 4A or the second special symbol is displayed. Various processes are selected and executed in order to perform control of display operation in the display device 4B and setting of opening / closing operation of the special winning opening in the special variable winning ball unit 109SG007 in a predetermined procedure.

  Following the special symbol process, the normal symbol process is executed (109SGS019). The CPU 103 controls the display operation (for example, turning on / off the segment LED, etc.) in the normal symbol display 20 by executing the normal symbol process, thereby displaying the normal symbol variation display and the movable wing in the variable winning ball apparatus 6B. Enables the tilting operation setting of the piece.

  After executing the normal symbol process, the CPU 103 transmits a control command from the main board 11 to the sub-side control board such as the effect control board 12 by executing the command control process (109SGS020). As an example of these, in command control processing, corresponding to the setting in the command transmission table specified by the value of the transmission command buffer provided in the game control buffer setting unit 109SG155, among the output ports included in the I / O 105, After setting the control data in the output port for transmitting the effect control command to the effect control board 12, the predetermined control data is set in the output port of the effect control INT signal and the effect control INT signal is turned on for a predetermined time. An effect control command can be transmitted based on the setting in the command transmission table by setting the state to the off state. After executing the command control process, after setting the interrupt enabled state, the game control timer interrupt process is terminated.

  In the command control process of 109SGS020, a command for notifying that the set value set in the pachinko gaming machine 1 is notified, or notifying that the variation pattern or variation display has ended. By transmitting the existing command including information on the set value set in the pachinko gaming machine 1, the set value may be periodically notified to the effect control board 12. Further, the production control board 12 (production control CPU 120) receives these commands from the main board 11, and executes productions that suggest the set values at various timings, such as during variable display or during big hit games. May be.

  FIG. 20-24 is a flowchart illustrating an example of processing executed by 109SGS018 illustrated in FIG. 20-23 as the special symbol process. In this special symbol process, the CPU 103 first executes a start winning determination process (109SGS021). After executing the start winning determination process, the CPU 103 selects and executes one of the processes of 109SGS022 to 109SGS031 according to the value of the special figure process flag provided in the game control flag setting unit 109SG152.

  In the start winning process of 109SGS021, it is determined whether or not there has been a first start prize or a second start prize by the first start port switch 22A or the second start port switch 22B. The random number value MR1, the random value MR2 for determining the big hit type, and the random value MR3 for determining the variation pattern are extracted, and in the case of the first start winning, the free entry of the first special figure storage unit 109SG151A If it is the second start winning prize, it is stored at the highest level, and stored at the highest level of the empty entry in the second special figure reservation storage unit 109SG151B. In the start winning process, when a start winning occurs, the setting for transmitting the first start opening winning designation command and the second starting prize designation command to the effect control board 12 is also executed. Note that the first start opening prize designation command and the second start opening prize designation command are output to the effect control board 12 when the CPU 103 executes a command control process (109SGS020).

  The special symbol normal process of 109SGS022 is executed when the value of the special symbol process flag is “0”. In this special symbol normal process, the first special symbol display device 4A and the second special symbol are based on the presence or absence of reserved data stored in the first special symbol reservation storage unit 109SG151A or the second special symbol reservation storage unit 109SG151B. It is determined whether or not to start the special game using the display device 4B. In the special symbol normal process, the special symbol or decorative symbol is displayed based on the display result determination table (see FIG. 20-8) corresponding to the set value and the numerical data indicating the random value MR1 for variation display result determination. It is determined (predetermined) whether or not the fluctuation display result of the above is to be “big hit” before the fluctuation display result is derived and displayed. Further, in the special symbol normal process, in response to the special symbol variation display result in the special symbol game, the confirmed special symbol (big hit symbol or the like in the special symbol game by the first special symbol display device 4A or the second special symbol display device 4B). Either a small hit symbol or a lost symbol) is set. In the special symbol normal process, the value of the special symbol process flag is updated to “1” when the variation display result of the special symbol or the decorative symbol is determined in advance.

  The variation pattern setting process of 109SGS023 is executed when the value of the special figure process flag is “1”. In this variation pattern setting process, a variation pattern is selected from any of a plurality of variations using numerical data indicating a variation pattern determination random value MR3 based on a result of prior determination as to whether or not the variation display result is “big hit”. This includes the process of determining whether or not. Note that the variation pattern is determined using one of the variation pattern determination tables shown in FIGS. 20-11 to 20-12 according to the set value, the variation display result, and the jackpot type. When the variation pattern setting process is executed and the variation display of the special symbol is started, the value of the special diagram process flag is updated to “2”.

  Through the special symbol normal process of 109SGS022 and the variation pattern setting process of 109SGS023, the variation pattern including the variation display time of the fixed special symbol, the special symbol, and the decorative symbol, which becomes the variation display result of the special symbol, is determined. In other words, the special symbol normal processing and the variation pattern setting processing use the random value MR1 for variation display result determination, the random value MR2 for jackpot type determination, and the random value MR3 for variation pattern determination to determine whether a special symbol or decorative pattern is used. The process of determining the variable display mode is included.

  The special symbol variation process of 109SGS024 is executed when the value of the special symbol process flag is “2”. This special symbol variation process includes a process for setting the special symbol to be varied in the first special symbol display device 4A and the second special symbol display device 4B, and an elapsed time after the special symbol starts to vary. It includes processing to measure For example, each time the special symbol variation process of 109SGS024 is executed, the special symbol variation timer value, which is the stored value in the special diagram variation timer provided in the game control timer setting unit 109SG153, is decremented or added by 1, Regardless of whether the game is a special game using the first special graphic in the special symbol display device 4A or a special game using the second special graphic in the second special symbol display device 4B, it is passed by a common timer. Time measurements are taken. Further, it is also determined whether or not the measured elapsed time has reached a special figure fluctuation time corresponding to the fluctuation pattern. As described above, the special symbol variation process of 109SGS024 is performed by the special symbol variation in the special symbol game using the first special symbol in the first special symbol display device 4A or the second special symbol in the second special symbol display device 4B. It suffices if it is a process for controlling the variation of the special symbol in the special figure game using the game by a common processing routine. When the elapsed time since the start of the special symbol variation reaches the special symbol variation time, the value of the special symbol process flag is updated to “3”.

  The special symbol stop process of 109SGS025 is executed when the value of the special figure process flag is “3”. In this special symbol stop process, the first special symbol display device 4A or the second special symbol display device 4B stops the variation of the special symbol, and the definite special symbol resulting from the variation display of the special symbol is stopped and displayed (derived). A process for performing the setting is included. Then, it is determined whether or not the jackpot flag provided in the game control flag setting unit 109SG152 is turned on. If the jackpot flag is turned on, the value of the special figure process flag is updated to “4”. Is done. On the other hand, when the big hit flag is off, it is further determined whether or not the small hit flag provided in the game control flag setting unit 109SG152 is on, and the small hit flag is on. In this case, the value of the special figure process flag is updated to “7”. If both the big hit flag and the small hit flag are OFF, the value of the special figure process flag is updated to “0”.

  The pre-opening process of 109SGS026 is executed when the value of the special figure process flag is “4”. In this big hit release pre-processing, based on the fact that the fluctuation display result is “big hit”, etc., a process for starting the execution of the round in the big hit gaming state and setting the first big winning opening to the open state Etc. are included. At this time, for example, the upper limit of the period during which the first big winning opening is opened is set in accordance with whether the big hit type is “big hit A”, “big hit B”, or “big hit C”. Also good. As an example, regardless of the type of jackpot, the upper limit of the period during which the first grand prize opening is in the open state is set to “29 seconds”, and the opening number of the first big prize opening that is the upper limit number of times to execute the round “Big hit A” is set to “5 times”, “Big hit B” is set to “10 times”, and “Big hit C” is set to “15 times”. That's fine. At this time, the value of the special figure process flag is updated to “5”.

  The 109SGS027 big hit release process is executed when the value of the special figure process flag is “5”. This big hit opening process is based on the process of measuring the elapsed time since the first big prize opening is in the open state, the measured elapsed time, the number of game balls detected by the first count switch 109SG023, and the like. The process includes determining whether or not it is time to return the first big prize opening from the open state to the closed state. Then, when returning the first grand prize winning port to the closed state, after executing processing for stopping the output of the solenoid drive signal to the solenoid 109SG082 for the first grand prize winning door 109SG701, the value of the special figure process flag is “6”. Is updated.

  The jackpot end process of 109SGS028 is executed when the value of the special figure process flag is “6”. In the jackpot end process, a waiting time corresponding to a period in which an ending effect as an effect operation for notifying the end of the jackpot game state is executed by an effect device such as the image display device 5, the speakers 8L and 8R, the game effect lamp 9 or the like. A process of waiting until time elapses and a process of performing various settings (setting of a time reduction flag) for starting time reduction control in response to the end of the big hit gaming state are included. When such setting is performed, the value of the special figure process flag is updated to “0”.

  Specifically, in the jackpot end process, the type of jackpot executed is specified. If the identified big hit type is “big hit A”, the special process flag value is updated to “0” without setting the hourly flag. When the identified big hit type is “big hit B”, the time reduction flag is set and the initial count value (“20” in the present embodiment) corresponding to “big hit B” is set in the short time counter. Update the value of the process flag to “0”. When the specified big hit type is “hit C”, the hour / hour flag is set, and the initial count value (“100” in this embodiment) corresponding to “hit C” is set in the hour / hour counter. The value of the special figure process flag is updated to “0”.

  109SGS029 pre-opening process for small hits is executed when the value of the special process flag is “7”. In the pre-opening process for small hits, the execution of the round is started in the small hit gaming state based on the fact that the change display result is “small hits”, and the second big winning opening 109SG712 is set to the open state. Includes the process of setting. At this time, for example, based on the fact that the variable display result is “small hit”, the upper limit of the period during which the second big prize opening 109SG712 is opened is set to “1 second”, and the upper limit number of times to execute the round By setting the number of times the second big prize opening 109SG712 is opened to “1”, the setting for the small hit state may be made. At this time, the value of the special figure process flag is updated to “8”.

  In the present embodiment, in the small hit state, the number of times the second big prize opening 109SG712 is opened is set to “1”, and the upper limit of the period during which the second big prize opening 109SG712 is opened is set to “1 second”. However, the present invention is not limited to this, and the number of times the second large winning opening 109SG712 is opened in the small hit state may be two or more, or the second large The upper limit of the period during which the winning opening 109SG712 is in the open state may be a period other than “1 second” as long as the game ball can win the second large winning opening 109SG712.

  The small hit releasing process of S30 is executed when the value of the special figure process flag is “8”. This small hit opening process includes a process for measuring the elapsed time since the second big winning opening 109SG712 is opened, the measured elapsed time, the number of game balls detected by the second count switch 109SG024A, and the like. Based on this, processing for determining whether or not it is time to return the second grand prize winning port 109SG712 from the open state to the closed state is included. Then, when returning the second grand prize winning port 109SG712 to the closed state, after executing processing for stopping the output of the solenoid drive signal to the solenoid 109SG083 for the second big prize winning port door 109SG711, the value of the special figure process flag is “ Updated to 9 ″.

  The small hit end process of 109SGS031 is executed when the value of the special figure process flag is “9”. This small hit end processing corresponds to a period in which an ending effect as an effect operation for notifying the end of the big hit gaming state is executed by an effect device such as the image display device 5, the speakers 8L and 8R, the game effect lamp 9 or the like. Processing that waits until the waiting time elapses is included. When such setting is performed, the value of the special figure process flag is updated to “0”.

  Next, the operation of the effect control board 12 will be described. FIG. 20-25 is a flowchart showing the effect control main process executed by the effect control CPU 120 mounted on the effect control board 12. The effect control CPU 120 starts executing the main process when the power is turned on. In the main processing, first, initialization processing is performed for clearing the RAM area, setting various initial values, and initializing a timer for determining the activation control activation interval (for example, 2 ms) (109SGS051). Thereafter, the effect control CPU 120 proceeds to a loop process for monitoring a timer interrupt flag (109SGS052). When the timer interrupt occurs, the effect control CPU 120 sets a timer interrupt flag in the timer interrupt process. In the main process, if the timer interrupt flag is set (turned on), the effect control CPU 120 clears the flag (109SGS053) and executes the following process.

  The effect control CPU 120 first analyzes the received effect control command and performs a process of setting a flag according to the received effect control command (command analysis process: 109SGS054). In this command analysis process, the effect control CPU 120 confirms the content of the command transmitted from the main board 11 stored in the reception command buffer. The effect control command transmitted from the game control microcomputer 100 is received by an interrupt process based on the effect control INT signal and stored in a buffer area formed in the RAM 122. In the command analysis process, it is analyzed which command (see FIG. 20-5) is the effect control command stored in the buffer area.

  Next, the effect control CPU 120 performs effect control process processing (109SGS055). In the effect control process, a process corresponding to the current control state (effect control process flag) is selected from the processes corresponding to the control state, and display control of the image display device 5 is executed.

  Next, an effect random number update process for updating a counter value for generating an effect random number such as a jackpot symbol determination random number is executed (109SGS056), and then the process proceeds to 109SGS052.

  FIG. 20-26 is a flowchart showing the effect control process (109SGS055) in the effect control main process. In the effect control process, the effect control CPU 120 first executes a hold effect process for controlling effects related to hold display and active display (109SGS072). In the hold effect process according to the present embodiment, the effect control CPU 120 receives the first start opening prize designation command and the second start opening prize designation command and receives the first hold storage display area 109SG005D and the second The hold display can be displayed in the active display area 109SG005F based on the update of the hold display in the 2 hold storage display area 109SG005U and the reception of the first change start designation command and the second change start designation command. In the hold effect process, the effect control CPU 120 can execute the first start winning effect and the second start winning effect.

  As shown in FIG. 20-27 (A) and FIG. 20-27 (B), the first start winning effect is a display in which the hold display is displayed in the first hold storage display area 109SG005D and the active display area 109SG005F is active. When a start winning is generated at the first start winning opening during the variable display where the display is displayed, the hold display is directed from the character image 109SGC toward the display position of the new hold display in the first hold storage display area 109SG005D. This is an effect of moving and displaying. In addition, the movement display of the hold display of the first start winning effect target is the position determined based on the first special figure hold memory number at the start of the first start winning effect (the hold in the first hold memory display area 109SG005D). The process ends by moving to a position determined according to the number of memories.

  In addition, the second start winning effect is the first in the state where the number of reserved memories is 0 and the variable display is not executed, as shown in FIGS. 20-27 (C) and 20-27 (D). This is an effect of moving and displaying the active display from the character image 109SGC toward the active display area 109SG005F via the first reserved storage display area 109SG005D when a start winning occurs at the start winning opening.

  Thereafter, the effect control CPU 120 performs any one of 109SGS073 to 109SGS082 in accordance with the value of the effect control process flag. In each process, the following process is executed.

  Fluctuation pattern designation command reception waiting process (109SGS073): It is confirmed whether or not a variation pattern designation command is received from the game control microcomputer 100. Specifically, it is confirmed whether or not a variation pattern designation command is received in the command analysis process. If the variation pattern designation command has been received, the value of the effect control process flag is changed to a value corresponding to the decorative symbol variation start process (109SGS074).

  Decoration symbol variation start processing (109SGS074): Control is performed so that the variation of the ornament symbol is started. Then, the value of the effect control process flag is updated to a value corresponding to the decorative symbol changing process (109SGS075).

  Decoration symbol variation processing (109SGS075): Controls the switching timing of each variation state (variation speed) constituting the variation pattern and monitors the end of the variation time. When the variation time ends, the value of the effect control process flag is updated to a value corresponding to the decorative symbol variation stop process (109SGS076).

  Decoration symbol variation stop processing (109SGS076): Control of deriving and displaying a decoration symbol and displaying a display result (stop symbol) based on the reception of an effect control command (design determination command) for instructing all symbols to stop. Do. Then, the value of the effect control process flag is updated to a value corresponding to the big hit display process (109SGS077), the small hit display process (109SGS080), or the variation pattern designation command reception waiting process (109SGS073).

  Jackpot display processing (109SGS077): After the end of the variation time, control is performed to display a screen for notifying the image display device 5 of the occurrence of a jackpot. Then, the value of the effect control process flag is updated to a value corresponding to the big hit game processing (109SGS078).

  Big hit game processing (109SGS078): Control during a big hit game is performed. For example, when a command for opening a special prize opening or a command for opening a special prize opening is received, display control of the number of rounds in the image display device 5 is performed. Then, the value of the effect control process flag is updated to a value corresponding to the jackpot end effect process (109SGS079).

  Big hit end effect processing (109SGS079): In the image display device 5, display control is performed to notify the player that the big hit game state has ended. Then, the value of the effect control process flag is updated to a value corresponding to the variation pattern designation command reception waiting process (109SGS073).

  Small hit display process (109SGS080): After the variation time is over, control is performed to display a screen for notifying the image display device 5 of the occurrence of a small hit. Then, the value of the effect control process flag is updated to a value corresponding to the small hit game processing (109SGS081).

  Small hit game processing (109SGS081): Control during the small hit game is performed. For example, when a command for opening a special prize opening or a command for opening a special prize opening is received, display control of the number of rounds in the image display device 5 is performed. Then, the value of the effect control process flag is updated to a value corresponding to the small hit end effect process (109SGS082).

  Small hit end effect processing (109SGS082): In the image display device 5, display control is performed to notify the player that the small hit gaming state has ended. Then, the value of the effect control process flag is updated to a value corresponding to the variation pattern designation command reception waiting process (109SGS073) or the big hit display process (109SGS077).

  In the present embodiment, when the first start winning effect described above is executed, the first hold storage is started by the end of the variable display and the start of a new variable display during the execution of the first start winning effect. There is a case where the number of held display displayed in the display area 109SG005D changes (decreases). In such a case, as shown in FIGS. 20-28 (A) to 20-28 (E), the movement destination (stop position) in the first hold storage display area 109SG005D of the hold display of the first start winning effect target. ) Is determined again, the first start winning effect may be continued.

  For example, as shown in FIGS. 20-28 (A) to 20-28 (E), the end of the variable display and the start of a new variable display are started during the execution of the first start winning effect toward the hold 4 display position. When the hold display displayed in the first hold memory display area 109SG005D is shifted based on the fact that the number of the first special figure hold memory has become two, the first hold memory display area 109SG005D When the hold display is no longer displayed at the hold 3 display position), after re-determining the move destination in the first hold storage display area 109SG005D of the hold display of the first start winning effect target as the hold 3 display position, What is necessary is just to continue 1 start prize production.

  In addition, during a specific effect that suggests that the fluctuation display result is a big hit, such as a reach effect during a change in super reach, the first start winning effect can cause the player to focus on the reach effect. It will disappear. Therefore, in the hold effect processing according to the present embodiment, as shown in FIGS. 20-29 (A) and 20-29 (B), during the execution of a specific effect such as a reach effect during a change in super reach, When a new start winning occurs at the 1 start winning opening, the first start winning effect is not executed and only a new hold display is additionally displayed in the first hold storage display area 109SG005D. It is possible to prevent the interest of the reach production from being reduced by the 1 start winning production.

(Modification 1)
In the present embodiment, the form in which the first start winning effect and the second starting winning effect are executed as the appearance display in the present invention has been illustrated. However, the present invention is not limited to this, and Modification 1 As shown in FIGS. 20-30 (A) and 20-30 (B), when a new start win occurs when the number of reserved memories is 0 and the variable display is not being executed, The hold display may be displayed as the active display in the active display area 109SH005F without executing the 2 start winning effect, and the hold display may be displayed as the second start winning effect from the character image 109SGC to the first hold storage display area 109SG005D. You may move directly to the active display area 109SG005F without going through. By doing so, it is possible to shorten a period from when a new start winning is generated until an active display is displayed in the active display area 109SG005F.

  Moreover, in this Embodiment, although the form which displays a white round hold display in the 1st hold memory display area 109SG005D and the 2nd hold memory display area 109SG005U was illustrated, this invention is not limited to this. A plurality of display modes (for example, a blue round shape, a red round shape, a white triangle, a white square, etc.) are provided as display modes of the hold display, and in which display mode the hold display is displayed. Thus, it is possible to make it possible to execute a hold change effect that suggests a ratio (a jackpot expectation level) in which the change display result is a big hit in the change display corresponding to each hold display.

(Modification 2)
In this way, when the jackpot expectation is varied according to the display mode of the hold display, the display mode of the hold display of the first start winning effect target may be changed during the first start winning effect. Specifically, as shown in FIGS. 20-31 (A) to 20-31 (D) as the second modification, a movable body is provided on the side of the image display device 5 and the first start winning effect is being executed. By placing the movable body on the movement path of the hold display, the hold display is hidden from the player. Then, the display mode of the hold display during the first start winning effect is changed by changing the display mode of the hold display during the concealment (from the circular white display to the star-shaped white color shown in FIG. 20-31 (D)). (Change to display 109SG005H1) may be realized. By doing in this way, since a player can be made to pay attention to which the display mode of the hold display of the first start winning effect target changes, the gaming interest can be improved.

  In the second modification, the hold display of the first start winning effect target is concealed by the movable body, and the display form of the hold display is changed during the concealment, but the present invention is limited to this. Instead, as shown in FIGS. 20-32 (A) to 20-32 (D), the hold display of the first start winning effect target is displayed not on the movable body but on the image display device 5. The display mode of the hold display during the first start winning effect (circle) is concealed by the image (character image 109SG005G shown in FIG. 20-32 (C)), and the display mode of the hold display is changed during the concealment (circle) The change from the white display of the mold to the square white display 109SG005H2 shown in FIG. 20-32 (D) may be realized.

(Modification 3)
Further, in the present embodiment, an example in which the set value of the pachinko gaming machine 1 can be changed when the power of the pachinko gaming machine 1 is turned on is illustrated, but the present invention is not limited to this, and the pachinko gaming machine 1 The change of the set value may be executable during the game. In addition, when changing the set value of the pachinko gaming machine 1 during the game, for example, as shown in FIGS. 20-33 (A) to 20-33 (C) as a modified example 3, first, for example, a shop clerk After the game machine frame 109SG003 is opened, the lock switch 109SG0051 is turned on to display the set value currently set in the pachinko gaming machine 1 on the display monitor (first display unit 109SG029A). A shop clerk or the like changes the numerical value displayed on the first display unit 109SG029A by operating the setting changeover switch 109SG052.

  Then, when a store clerk or the like of the game hall pushes the lock switch 109SG051, the numerical value (set value) displayed on the first display unit 109SG029A is set as the set value of the new pachinko gaming machine 1, and the RAM 102 is backed up. What is necessary is just to store in an area | region. After the new set value is set, the special control holding memory, the general drawing holding memory and the game control flag setting unit 109SG152, the game control timer setting unit 109SG153, by clearing the game control data holding area 109SG150, Various flags and data stored in the game control counter setting unit 109SG154, the game control buffer setting unit 109SG155, and the like may be deleted.

  As described above, by clearing the game control data holding area 109SG150, a change storage result that is a big hit with a change in the set value is newly generated, or a new variable winning ball apparatus 6B is newly created. It is possible to prevent the fact that the result of the fluctuation display during execution becomes a big hit unfairly because it is released (the occurrence of a normal hit). Further, by clearing the game control data holding area 109SG150, the big prize opening is closed during the big hit game, or the variable prize ball apparatus 6B is closed when the variable prize ball apparatus 6B is open. It is possible to prevent the player from obtaining an inappropriate profit. Further, when the setting change process is interrupted without setting a new set value, it is possible to prevent the pending storage from being erased even though the new set value is not set.

  In the third modification, the setting value of the pachinko gaming machine 1 can be changed during the game. However, the present invention is not limited to this, and thus the pachinko game is being played during the game. When the set value of the machine 1 can be changed, sound output from the speakers 8L and 8R, LED light emission, etc. based on the detection of the opening of the gaming machine frame 109SG003 by a frame opening detection sensor (not shown) May be provided with an opening notification means capable of notifying that the gaming machine frame 109SG003 is being opened, so that the setting value of the pachinko gaming machine 1 can be prevented from being illegally changed.

  Further, when the release notification means is provided as described above, it is determined whether or not the pending storage is stored in the game control data holding area 109SG150 while the gaming machine frame 109SG003 is opened, and the game control data holding area 109SG150. May be notified in a different notification mode from the case where no storage is stored in the game control data holding area 109SG150. In this way, when the gaming machine frame 109SG003 is opened to change the set value, it is easy to determine whether or not the pending storage is stored in the game control data holding area 109SG150 according to the notification mode of the notification means. Since the game shop clerk and the like can recognize, it is possible to prevent the setting value from being changed inappropriately.

  Furthermore, in the third modification example, when the release notification means is provided as described above, whether or not there is a holding storage in which the variable display result is a big hit in the game control data holding area 109SG150 while the gaming machine frame 109SG003 is opened. When it is determined that there is a holding memory whose variation display result is a big hit, the notification may be performed in a different notification mode from the case where it is determined that there is no holding memory whose variation display result is a big hit. In this way, when the gaming machine frame 109SG003 is opened, the game store clerk and the like can easily recognize the presence or absence of reserved storage that results in a big hit in the variable display result. It is possible to prevent the value from being changed.

  Further, the set value of the pachinko gaming machine 1 can be changed during the game as in the third modification, and the display mode of the hold display is changed from the white circle to the white circle as in the second modification. If it is possible to change to a white triangle or quadrangle with a higher expectation level than the jackpot, it is determined whether or not there is a holding display displayed with a white triangle or quadrangle while the gaming machine frame 109SG003 is opened, When it is determined that there is a hold display displayed with a white triangle or square, the notification may be performed in a different notification mode from that when there is no hold display displayed with a white triangle or square. In this way, when the gaming machine frame 109SG003 is opened, the store clerk in the game hall indicates that the hold display is displayed as a white triangle or quadrangle with a higher expectation of jackpot than the white round shape. Etc. can be easily recognized, so that the setting value can be prevented from being changed inappropriately.

  In addition, in this modification 3, although the form which clears a pending | holding memory | storage based on the new setting value being set to the pachinko gaming machine 1 is illustrated, this invention is not limited to this, Even when the set value that was originally set in the pachinko gaming machine 1 is reset, the hold storage may be cleared.

  Moreover, in this modification 3, although the form which clears a pending | holding memory | storage based on the new setting value being set to the pachinko game machine 1 is illustrated, this invention is not limited to this. As shown in FIG. 20-33 (A), when the setting value set in the pachinko gaming machine 1 is displayed on the display monitor 109SG029, that is, when the setting change process is executed by the CPU 103, the hold storage is performed. You may clear it. By doing in this way, it can prevent reliably that the change of a setting value is no longer reflected correctly in the pachinko gaming machine 1.

  Moreover, in this modification 3, although the 1st big winning opening and the 2nd big winning opening 109SG712 are illustrated based on the new setting value being set to the pachinko gaming machine 1, The present invention is not limited to this. As shown in FIG. 20-33 (A), the timing at which the set value set in the pachinko gaming machine 1 is displayed on the display monitor 109SG029, that is, the setting by the CPU 103. When the change process is executed, the first grand prize winning port or the second grand prize winning port 109SG712 may be closed. By doing in this way, it can prevent reliably that the change of a setting value is no longer reflected correctly in the pachinko gaming machine 1.

  Further, in the third modification, when there is a holding storage in the game control data holding area 109SG150 while the gaming machine frame 109SG003 is opened, an example in which notification by the notification means is executed is illustrated. The invention is not limited to this, and if there is a pending storage in the game control data holding area 109SG150 while the gaming machine frame 109SG003 is being opened, even if a new setting value cannot be set in the pachinko gaming machine 1 Alternatively, it may be difficult to set a new set value by providing a more complicated change procedure than when there is no reserved storage in the game control data holding area 109SG150 while the gaming machine frame 109SG003 is opened. By doing so, it is possible to prevent the reserved memory from being accidentally cleared by setting a new set value in the pachinko gaming machine 1.

(Modification 4)
In this embodiment, the display monitor 109SG029 is provided with five display portions from the first display portion 109SG029A to the fifth display portion 109SG029E, and the first display portion 109SG029A has the second display portion 109SG029B to the fifth display portion 109SG029E. However, the present invention is not limited to this, and as a fourth modification, as shown in FIG. 20-34 (A). The display monitor does not need to be provided with a display unit for displaying the displayed ratio, role ratio, and base set value. In this case, as shown in FIG. 20-34 (B), the connection ratio, role ratio, and base at the setting value 1 are red, the connection ratio, role ratio, and base at the setting value 2 are green, By displaying the connection ratio, role ratio, and base at the set value 3 in blue, it is possible to grasp which set value is the connection ratio, role ratio, and base being displayed on the display monitor 109SG029. It may be easy.

  Further, in the present embodiment and the fourth modification, the display monitor 109SG029 can switch and display the connection ratio, role ratio, and base at the set value 1 every 5 seconds, and the display changeover switch 109SG030 is operated. For each of these setting values 1, the connection ratio, role ratio, and base switching display at 5 second intervals are displayed. At the setting value 2, the connection ratio, role ratio, base switching display at 5 second intervals, the connection ratio at setting value 3, Although the form which can be changed to the change display of the ratio and the base at intervals of 5 seconds is illustrated, the present invention is not limited to this. For example, the connection ratio at the set value 1, the connection ratio at the set value 2, Switch display at 5 second intervals of continuous ratio at set value 3, role ratio at set value 1, role ratio at set value 2, switch display of role ratio at set value 3 at 5 second intervals, and at set value 1 Base, setting value In the base, and a switching display in 5 second intervals of the base in the setting value 3, it may be switched for each operation of the display switch 109SG030 a.

(Modification 5)
In this embodiment, the security cover 109SG500A is fixed to the outer frame 109SG001a. However, the present invention is not limited to this, and the security cover is provided on the gaming machine frame 109SG003 side. Also good. Specifically, as shown in FIGS. 20-35 (A) and 20-35 (B) as a modified example 5, a security cover 109SG500B composed of a short piece 109SG500Ba and a long piece 109SG500Bb is attached to, for example, a substrate case 109SG201. Thus, the right end portion of the long piece 109SG500Bb slides in the left-right direction between the covering position covering the right side portion of the substrate case 109SG201 including the lock switch 109SG051 and the setting changeover switch 109SG052 and the covering release position on the right side of the covering position. Provide to be movable.

  On the other hand, when the gaming machine frame 109SG003 is opened, the security cover 109SG500B is slid to the right with respect to the board case 109SG201, thereby locking through the through-hole 109SG500Bc formed in the left part of the long piece 109SG500Bb. The switch 109SG051 and the setting changeover switch 109SG052 may be operable. That is, in the first modification, when the gaming machine frame 109SG003 is closed, the security cover 109SG500B (long piece 109SG500Bb) covers the lock switch 109SG051 and the setting changeover switch 109SG052 in the left-right direction. The pachinko gaming machine 1 is maintained in the restricted state by restricting the sliding movement to. On the other hand, when the gaming machine frame 109SG003 is opened, the security cover 109SG500B is slid rightward with respect to the board case 109SG201 to release the state where the lock switch 109SG051 and the setting changeover switch 109SG052 are covered. The pachinko gaming machine 1 can be released from the restricted state (can be changed to an allowable state).

  More specifically, as shown in FIGS. 20-35 (A) and 20-35 (B), when the gaming machine frame 109SG003 is closed, the protruding dimension of the security cover 109SG500B from the substrate case 109SG201 is the length L1. On the other hand, when the gaming machine frame 109SG003 is opened, the projecting dimension of the security cover 109SG500B from the board case 109SG201 is extended to a length L2 by sliding the security cover 109SG500B with respect to the board case 109SG201. (L2> L1).

  That is, as shown in FIG. 20-36 (A), when the gaming machine frame 109SG003 is rotated about a predetermined rotation axis and opened, the security cover 109SG500B has a protruding dimension from the substrate case 109SG201. By sliding the board case 109SG201 until it reaches the length L2 (the pachinko gaming machine 1 is allowed), a game clerk or the like operates the lock switch 109SG051 or the setting changeover switch 109SG052 to play a pachinko game. The set value of the machine 1 can be changed. On the other hand, when the pachinko gaming machine 1 is in an allowable state, as shown in FIG. 20-36 (B), the security cover 109SG500B is moved to the board case 109SG201 until the protruding dimension from the board case 109SG201 becomes the length L1. On the other hand, if it is not slid (if the pachinko gaming machine 1 is not changed to the restricted state), the security cover 109SG500B comes into contact with the front end of the outer frame 109SG001a, and it is impossible to close the gaming machine frame 109SG003. It has become.

  For this reason, in the first modification, it is possible to prevent the gaming machine frame 109SG003 from being closed while the pachinko gaming machine 1 is in an allowable state, and therefore, the setting with the lock switch 109SG051 by the security cover 109SG500B is possible. Forgetting to cover the changeover switch 109SG052, that is, closing the gaming machine frame 109SG003 without restricting the operation on the operation unit can be prevented, and the security can be improved.

  In the state where the gaming machine frame 109SG003 is closed, the front end of the short piece 109SG500Ba is disposed between the outer frame 109SG001a and the gaming machine frame 109SG003, so that movement in the left-right direction from the covering position is restricted. However, the security cover 109SG500B may be moved in the left-right direction as long as the state in which the lock switch 109SG051 and the setting changeover switch 109SG052 are covered by the security cover 109SG500B is maintained. .

(Modification 6)
Furthermore, as a form in which the security cover is provided on the gaming machine frame 109SG003 side, as shown in FIGS. 20-37 (A) and 20-38 (B) as a modified example 6, the left end of the security cover 109SG500C is attached to the gaming machine. Around the pivot 109SG500Cd that is provided on the back side of the frame 109SG003 and faces the up-and-down direction, the covering position that covers the right side of the substrate case 109SG201 including the lock switch 109SG051 and the setting changeover switch 109SG052 is rotated from the covering position. You may be pivotally supported between the covering release positions. In such a case, when the gaming machine frame 109SG003 is closed, the front end portion of the short piece 109SG500Ca is locked to the locking portion 109SG500Cc provided on the right side of the outer frame 109SG001a, and the long piece 109SG500Cb is switched to the lock switch 109SG051. The rotation from the state where the switch 109SG052 is covered from the back side to the back side may be restricted.

  When the gaming machine frame 109SG003 is opened, the lock switch 109SG051 and the setting changeover switch 109SG052 are rotated by rotating the security cover 109SG500C around the pivot 109SG500Cd (counterclockwise in plan view) with respect to the substrate case 109SG201. What is necessary is just to cancel | release the state which coat | covered and to enable operation. That is, in the sixth modification, when the gaming machine frame 109SG003 is closed, the rotation is restricted with the security cover 109SG500C (long piece 109SG500Cb) covering the lock switch 109SG051 and the setting changeover switch 109SG052. As a result, the pachinko gaming machine 1 is maintained in a regulated state. On the other hand, when the gaming machine frame 109SG003 is opened, the security cover 109SG500C is rotated around the pivot 109SG500Cd (counterclockwise in plan view) with respect to the board case 109SG201, and the lock switch 109SG051 and the setting changeover switch 109SG052 are turned on. By releasing the covered state, the pachinko gaming machine 1 can be released from the restricted state (can be changed to an allowable state).

  More specifically, as shown in FIG. 20-38 (A), the security cover 109SG500C in the present modification 6 is rotated around the pivot 109SG500Cd (the pachinko gaming machine 1 is allowed), so that A store clerk or the like can change the set value of the pachinko gaming machine 1 by operating the lock switch 109SG051 or the setting changeover switch 109SG052. On the other hand, when the pachinko gaming machine 1 is in an allowable state, the security cover 109SG500C is rotated clockwise in plan view as shown in FIG. If the 109SG051 and the setting changeover switch 109SG052 are not covered (if the pachinko gaming machine 1 is not changed to the restricted state), the security cover 109SG500C comes into contact with the front end portion of the outer frame 109SG001a, and the gaming machine frame 109SG003 is closed. It is impossible.

  For this reason, in the sixth modification, it is possible to prevent the gaming machine frame 109SG003 from being closed while the pachinko gaming machine 1 is in an allowable state, and therefore, it is set with the lock switch 109SG051 by the security cover 109SG500C. Forgetting to cover the changeover switch 109SG052, that is, closing the gaming machine frame 109SG003 without restricting the operation of the operation unit can be prevented, and the security can be improved.

(Modification 7)
Moreover, in the said embodiment, although the form which can change the setting value of the pachinko gaming machine 1 by opening the gaming machine frame 109SG003 is illustrated, the present invention is not limited to this, and the glass door frame The set value of the pachinko gaming machine 1 may be changeable by opening 109SG003a. When the set value of the pachinko gaming machine 1 can be changed by opening the glass door frame 109SG003a in this way, the modified example 7 is shown in FIGS. 20-39 (A) to 20-39 (C). In this way, the through-hole 109SG003b is formed in the lower part of the gaming machine frame 109SG003, and the lock switch 109SG051 and the setting changeover switch 109SG052 can be operated via the through-hole 109SG003b.

  When the lock switch 109SG051 and the setting changeover switch 109SG052 can be operated through the through-hole 109SG003b as described above, the door body 109SG003c that can open and close the through-hole 109SG003b is provided, and the door body 109SG003c is closed. Thus, the operation of the lock switch 109SG051 and the setting changeover switch 109SG052 may be regulated. 20-39 (B) and 20-39 (C), when the door body 109SG003c is provided on the front side of the gaming machine frame 109SG003, the door body is closed by closing the glass door frame 109SG003a. Since 109SG003c is sandwiched between the glass door frame 109SG003a and the gaming machine frame 109SG003 so that the glass door frame 109SG003a is closed, the lock switch 109SG051 and the setting changeover switch 109SG052 are illegally operated. Can be strongly prevented and security can be improved.

(Explanation regarding the characteristic part 2 of this embodiment)
Next, the characteristic part 2 of this Embodiment is demonstrated. First, in the gaming machine in which the set value can be changed, such as the pachinko gaming machine 1 of the present embodiment, for example, the setting information (setting value (Value) may be stored. However, in such a case, when the setting information is stored in the RAM 122 without any processing or when the command including the setting information that is not processed at all on the effect control board 12 is output from the main board 11 side, the pachinko gaming machine When the set value of 1 is “1” and when the set value of the pachinko gaming machine 1 is “2” or “3”, the contents of the RAM 122 and the command output from the main board 11 to the effect control board 12 are compared. As a result, the setting value is easily analyzed. Therefore, in the present embodiment, the CPU 103 converts the set value into a set secret value described later, outputs a command including the set secret value to the effect control board 12, and the effect control CPU 120 By converting the setting value specified from the command into a setting corresponding value described later and storing it, it is difficult to specify the setting value set in the pachinko gaming machine 1.

  Hereinafter, the characteristic part 2 in this Embodiment is demonstrated. As shown in FIG. 20-40, as a production control command, a setting value designation command (designated value) for designating the production control board 12 with a setting value (changed new setting value) stored in the backup area of the RAM 102. Command D1XXH) is provided. In the set value designation command, different EXT data is set according to the set secret value after the set value is changed.

  In the setting value changing process (see FIGS. 20-21), the CPU 103 executes a setting value conversion process for changing the setting value stored in the backup area of the RAM 102 to the setting secret value. In the setting value conversion processing shown in FIG. 20-41, the CPU 103 first specifies a new setting value (setting value stored in the backup area of the RAM 102) (109SGS301). Next, the CPU 103 converts the specified setting value into a setting value concealment value (109SGS302).

  In the processing of 109 SGS 302, for example, the CPU 103 may convert the specified setting value into a secret value using a conversion table as shown in FIGS. 20-42 (1) and 20-42 (2). . FIG. 20-42 (1) is a diagram showing the conversion table A in which a value of 1 having no regularity is set for each set value. When converting the setting value into the secret value using the conversion table A, for example, when the setting value identified in the processing of 109 SGS301 is “1”, the setting value is converted into the setting secret value “150”. , 109SGS301 is converted to the set secret value "41" when the set value specified in the process of 109SGS301, and the set value specified in 109SGS301 is set to "3". Is converted to the set secret value “34”.

  20-42 (2) is a diagram showing the conversion table B in which a value of 1 having specific regularity is set for each set value. When converting the setting value to the setting secret value using the conversion table B, for example, when the setting value specified in the processing of 109 SGS301 is “1”, the setting value is converted to the setting secret value “4”. If the set value specified in the 109 SGS 301 process is “2”, the set value is converted to a set secret value “5”. If the set value specified in the 109 SGS 301 process is “3”, The value is converted to the set secret value “6”. In other words, the conversion table B is a conversion table in which a value obtained by adding “3” to the set value stored in the backup storage area of the RAM 102 is used as the set secret value.

  In the process of 110SG302, when the set value is converted to the set secret value using the conversion table A, each set value is converted to a value having no regularity (set secret value). When a set value specifying command including the effect control board 12 is output, it is possible to make it difficult to analyze and tamper with the set value (the set value stored in the backup area of the RAM 102). On the other hand, when the set value is converted into the set secret value using the conversion table B in the process of 109 SGS 302, the set value is converted into a value having a restriction for each set value (set secret value). In the update process (see FIG. 20-45), it is possible to reduce the processing load when the set value is specified from the set value secret value.

  Further, in the processing of 109 SGS302, as shown in FIG. 20-42 (3), the specified set value is set to a predetermined conversion coefficient (for example, a common multiple of the set values “1”, “2”, “3”). Arithmetic conversion in which a value obtained by multiplication (calculation A) or division (calculation B) by “6”, “12”, or the like) is set as a secret value may be executed.

  Further, in the processing of 109 SGS 302, as shown in FIG. 20-42 (4), a numerical shift in which a value obtained by adding (shift A) or subtracting (shift B) a predetermined numerical value to the specified setting value is used as the setting secret value. Conversion may be performed.

  In the numerical value shift conversion in the shift A, for example, when the set value specified in the 109 SGS 301 process is “1”, the set value is converted into the set secret value “12” and the set value specified in the 109 SGS 301 process. When the setting value is “2”, the set value is converted into the set secret value “13”, and when the set value specified in the processing of 109 SGS 301 is “3”, the set value is converted into the set secret value “14”. That is, a value obtained by shifting +11 with respect to the set value may be set as the set secret value. In the numerical value shift conversion in shift B, for example, when the setting value specified in 109 SGS301 processing is “1”, the setting value is converted into the setting secret value “0”, and the setting value specified in 109 SGS301 processing. When the setting value is “2”, the set value is converted into the set secret value “1”, and when the set value specified in the processing of 109 SGS 301 is “3”, the set value is converted into the set secret value “2”. That is, a value obtained by shifting −1 with respect to the set value may be set as the set secret value.

  In the processing of 109SGS302, as shown in FIG. 20-42 (4), among the consecutive 8-digit bits (00000000), the bit corresponding to the specified set value is raised (changed from 0 to 1). ) Bit position conversion using the value as the set value secret value may be executed. Specifically, when the set value identified in the 109 SGS 301 process is “1”, the set value is converted into a set secret value “00000001”, and the set value identified in the 109 SGS 301 process is “2”. May convert the set value into a set secret value “00000001”, and if the set value identified in the processing of 109 SGS301 is “3”, the set value may be converted into a set secret value “00000100” (position A) When the setting value identified in the 109 SGS 301 process is “1”, the setting value is converted to a set secret value “10000000”, and when the setting value identified in the 109 SGS 301 process is “2”, The set value is converted into the set secret value “01000000”, and the set value specified in the processing of 109 SGS 301 is “3”. Some cases may be converted to a set confidential value set value "00100000" (Position B).

  As described above, after the setting value is converted into the setting secret value by any of the methods shown in FIGS. 20-42 in the processing of 109 SGS 302, the CPU 103 sets the transmission of the setting value designation command including the converted setting secret value. To complete the set value conversion process (S109SGS303). The setting value designation command for which transmission setting has been performed in S109SGS303 is output to the effect control board 12 when the CPU 103 executes command control processing (S27). As shown in FIG. 20-43, the setting value conversion process is executed at the timing when a game shop clerk or the like pushes the lock switch 109SG051, that is, when a new setting value is stored in the backup area of the RAM 102. do it.

  Next, an aspect when the production control board 12 receives a set value designation command will be described. 20-44 is a flowchart showing command analysis processing. In the command analysis processing shown in FIG. 20-44, the effect control CPU 120 first receives from the main board 11 transmitted via the relay board 15 by confirming the storage contents of the effect control command reception buffer. It is determined whether there is a command (109SGS221). At this time, if there is no received command (109SGS221; N), the command analysis processing is terminated.

  If there is a reception command in 109 SGS 221 (109 SGS 221; Y), for example, by checking the MODE data of the reception command, it is determined whether or not the reception command is the first start opening prize designation command (109 SGS 222). ). When it is the first start opening winning designation command (109SGS222; Y), the first reserved storage number notification waiting time is set (109SGS223). For example, in the processing of 109 SGS 223, a timer initial value determined in advance corresponding to the reception waiting time of the first pending storage number notification command may be set in the command reception control timer provided in the effect control timer setting unit. .

  If the received command is not the first start opening prize designation command at 109 SGS222 (109SGS222; N), it is determined whether or not the received command is the second start opening prize designation command (109SGS224). When it is the second start opening winning designation command (109SGS224; Y), the second reserved storage number notification waiting time is set (109SGS225). For example, in the processing of 109 SGS 225, a timer initial value determined in advance corresponding to the reception waiting time of the second reserved storage number notification command may be set in the command reception control timer.

  If the received command is not the second start opening winning designation command in 109SGS224 (109SGS224; N), it is determined whether or not the received command is a symbol designation command (109SGS226). If the received command is not a symbol designation command at 109 SGS 226 (109 SGS 226; N), it is determined whether the received command is a variable category command (109 SGS 227). If the received command is not a variable category command in 109 SGS 227 (109 SGS 227; N), it is determined whether or not the received command is a first pending storage number notification command (109 SGS 228). When the command is the first pending storage count notification command (109SGS228; Y), the first pending storage count notification waiting time is cleared (109SGS229) by, for example, initializing the timing operation by the command reception control timer.

  If the received command is not the first reserved memory number notification command at 109 SGS228 (109SGS228; N), it is determined whether the received command is the second reserved memory number notification command (109SGS230). When the command is the second pending storage count notification command (109SGS230; Y), the second pending storage count notification waiting time is cleared by, for example, initializing the time counting operation by the command reception control timer (109SGS231).

  Then, after executing one of the processes of 109SGS229 and 109SGS231, “1” indicating that the pending display mode is undecided is set in the display undecided flag of the stored entry (109SGS232).

  When the received command is a symbol designation command at 109SGS226 (109SGS226; Y), when the received command is a variable category command at 109SGS227 (S227; Y), or the processing of 109SGS223, 109SGS225, 109SGS232 is executed. After that, the received command is stored at the head of the empty area in the start winning received command buffer 194A (not shown) (109SGS233), and the process returns to 109SGS221.

  In addition, when the pending storage number notification command (first pending storage number notification command or second pending storage number notification command) is received together with the variation start command (first variation start command or second variation start command), the pending storage is performed. The number notification command may not be stored in the start winning reception command buffer 194A. That is, it is only necessary that the effect control commands received in response to the occurrence of the start winning can be sequentially stored from the top of the empty area in the start winning receiving command buffer 194A.

  If the received command is not the second reserved storage number notification command at 109 SGS230 (109SGS230; N), it is determined whether the received command is a set value designation command (109SGS232). If the received command is a set value designation command (109SGS232; Y), a set value update process is executed to store the set value specified from the set value designation command in the RAM 122 mounted on the effect control board 12 (S109SGS233). ), Return to 109 SGS21. If the received command is not a set value designation command in 109SGS232 (109SGS232; N), settings corresponding to other received commands are made (109SGS234), and the process returns to 109SGS221.

  FIG. 20-45 is a flowchart illustrating the setting value update process in the command analysis process. In the setting value update processing, the effect control CPU 120 first specifies a setting value (setting value stored in the backup area of the RAM 102) from the received setting value designation command (110SGS311). In the process of 110 SGS 311, the CPU 120 for effect control specifies the set secret value from the received set value designation command, and in the method corresponding to the method in which the CPU 103 converts the set value to the set value secret value, the set value The set value may be specified from the secret value.

  For example, when the CPU 103 converts the setting value to the setting secret value using the conversion table A, if the setting secret value identified from the setting value designation command is “150”, the setting value is identified as “1”. If the set secret value specified from the set value specifying command is “41”, the set value is specified as “2”, and if the set secret value specified from the set value specifying command is “34”, the set value is set to “3”. You may specify. When the CPU 103 converts the setting value to the setting secret value using the conversion table B, if the setting secret value identified from the setting value designation command is “4”, the setting value is identified as “1”. If the set secret value specified from the set value specifying command is “5”, the set value is specified as “2”, and if the set secret value specified from the set value specifying command is “6”, the set value is set to “3”. You may specify.

  When the CPU 103 converts the set value to the set secret value using calculation A as the calculation conversion, the value obtained by dividing the set secret value specified from the set value specifying command by the predetermined conversion coefficient is specified as the set value. That's fine. When the CPU 103 converts the set value to the set secret value using the calculation B as the calculation conversion, the value obtained by multiplying the set secret value specified from the set value specifying command by a predetermined conversion coefficient is specified as the set value. That's fine.

  Further, when the CPU 103 converts the set value to the set secret value using the shift A as the numerical value shift conversion, if the set secret value specified from the set value specifying command is “12”, the set value is specified as “1”. If the set secret value specified from the set value specifying command is “13”, the set value is specified as “2”. If the set secret value specified from the set value specifying command is “14”, the set value is set to “2”. 3 ”may be specified. Further, when the CPU 103 converts the set value to the set secret value using the shift B as the numerical value shift conversion, if the set secret value specified from the set value specifying command is “0”, the set value is specified as “1”. If the set secret value specified from the set value specifying command is “1”, the set value is specified as “2”. If the set secret value specified from the set value specifying command is “2”, the set value is set to “2”. 3 ”may be specified.

  When the CPU 103 converts the set value to the set secret value using the position A as the bit position conversion, if the set secret value specified from the set value specifying command is “00000001”, the set value is specified as “1”. If the set secret value specified from the set value specifying command is “00000010”, the set value is specified as “2”. If the set secret value specified from the set value specifying command is “00000100”, the set value is set to “2”. 3 ”may be specified. Further, when the CPU 103 converts the set value to the set secret value using the position B as the bit position conversion, if the set secret value specified from the set value specifying command is “10000000”, the set value is specified as “1”. If the set secret value identified from the set value designation command is “01000000”, the set value is identified as “2”. If the set secret value identified from the set value designation command is “00100000”, the set value is “ 3 ”may be specified.

  Next, the effect control CPU 120 converts the setting value specified in 110SGS311 into one setting corresponding value corresponding to the specified setting value (110SGS312), and converts the setting corresponding value stored in the RAM 122 into the converted setting corresponding value. The value is updated and stored, and the setting value update process is terminated (110SGS313).

  In the processing of 110 SGS 312 and 110 SGS 313, the effect control CPU 120 sets the set value using, for example, a conversion table, arithmetic conversion, numerical shift conversion, bit position conversion, etc. shown in FIG. It may be converted into a different value (setting corresponding value) and updated and stored in the RAM 122. In this way, the effect control CPU 120 converts the set value specified from the set value designation command received from the main board 11 into the setting corresponding value without updating and storing the set value or the set secret value in the RAM 122. Then, by updating and storing in the RAM 122, it is possible to reduce the possibility that the set value of the pachinko gaming machine 1 is analyzed and that the value different from the set value is updated and stored in the RAM 122.

  Note that the method in which the effect control CPU 120 converts the setting value into the setting corresponding value in 110 SGS 312 may be the same as the method in which the CPU 103 converts the setting value into the setting secret value in the processing of 110 SGS 302 of the setting value conversion processing. , May be different.

  Furthermore, when the value (setting corresponding value) according to the set setting value is updated and stored in the RAM 122 as described above, the effect control CPU 120 changes the setting value set in the pachinko gaming machine 1. It is possible to execute a set value suggesting effect that suggests a set value set in the pachinko gaming machine 1 over a predetermined period (for example, until 100 times of change display is executed or 1 hour elapses). Also good. Specifically, as shown in FIG. 20-46, according to the setting corresponding value stored in the RAM 122, the image display device 5 is supplied to the image display device 5 for a predetermined period after the power is turned on to the pachinko gaming machine 1. What is necessary is just to perform the morning ichi background effect (setting value suggestion effect) which displays the background image of spring, summer, and winter as a background image in a different ratio.

  For example, the effect control CPU 120 determines an image to be displayed as a background image on the image display device 5 as the set value suggestion effect as a set value suggestion effect after the power source is input to the pachinko gaming machine 1, either spring, summer, or winter. At this time, when the setting correspondence value stored in the RAM 122 is a value corresponding to the setting value “1”, the effect control CPU 120 determines the image to be displayed as the background image as a winter image at a rate of 80%. The image is determined to be a spring image at a rate of 15% and is determined to be a summer image at a rate of 5%. If the setting correspondence value stored in the RAM 122 is a value corresponding to the setting value “2”, the image to be displayed as the background image is determined as a winter image at a rate of 60%, and at a rate of 30%. A spring image is determined, and a summer image is determined at a rate of 10%. When the setting correspondence value stored in the RAM 122 is a value corresponding to the setting value “3”, the image to be displayed as the background image is determined as a winter image at a rate of 40%, and at a rate of 45%. A spring image is determined, and a summer image is determined at a rate of 15%.

  In the present embodiment, since the setting value 1 is the most advantageous setting value for the player and the setting value 3 is the most unfavorable setting value for the player, the pachinko gaming machine 1 is turned on. Since the player can be focused on the image displayed as the background image of the image display device 5 until the predetermined period elapses, the gaming interest can be improved.

  In the present embodiment, an example in which the image displayed as the background image of the image display device 5 is different as the setting value suggesting effect is illustrated, but the present invention is not limited to this, and the setting value suggesting As an effect, a pachinko game is displayed by displaying a specific character, a line, etc. on the image display device 5 during the variable display, during the big hit game, at the end timing of the big hit game, during the variable display after a specific number of times (for example, 500 times), etc. An effect suggesting a set value set in the machine 1 may be used. Further, in the present embodiment, the setting value suggesting effect is executed until a predetermined period elapses after the power is turned on to the pachinko gaming machine 1, but the present invention is limited to this. Instead, the set value suggestion effect may be an effect that can be executed regardless of the period after the power is turned on to the pachinko gaming machine 1.

  In the present embodiment, the CPU 103 sets the set value set in the pachinko gaming machine 1 to the set secret value using a conversion table, arithmetic conversion, numerical shift conversion, bit position conversion, or the like in the set value conversion process. Although the form to convert is illustrated, this invention is not limited to this, In setting value conversion processing, the setting value set to the pachinko gaming machine 1 is converted into these conversion tables, arithmetic conversion, and numerical shift conversion. The method may be converted into a set secret value using a method other than bit position conversion, or the set value set in the pachinko gaming machine 1 may be converted into a set secret value using two or more methods.

  In the present embodiment, the production control CPU 120 uses the conversion table, calculation conversion, numerical shift conversion, bit position conversion, or the like to convert the setting value specified from the setting value designation command in the setting value update processing. Although the form to convert to the setting corresponding value is illustrated, the present invention is not limited to this, and in the setting value update processing, the setting value specified from the setting value designation command is converted into these conversion table or arithmetic conversion. , Conversion to a setting corresponding value using a method other than numerical shift conversion and bit position conversion, or a setting value identified from a setting value designation command may be converted to a setting corresponding value using two or more methods. Good.

  In the present embodiment, when a new set value is set in the pachinko gaming machine 1, the CPU 103 outputs a set value designation command including a set secret value obtained by converting the set value to the effect control board 12. Then, although the CPU 120 for effect control has exemplified the form in which the setting value specified from the setting value designation command is converted into the setting corresponding value and stored in the RAM 122, the present invention is not limited to this, and the pachinko gaming machine When a new setting value is set to 1, only one of the conversion of the setting value to the setting secret value by the CPU 103 and the conversion of the setting value to the setting corresponding value by the effect control CPU 120 is executed. Also good. If the CPU 103 does not execute conversion of the set value to the set secret value, the CPU 103 outputs a set value specifying command including the set value to the effect control board 12, and the effect control CPU 120 specifies the set value. The setting value specified from the command may be converted into a setting corresponding value and stored in the RAM 122. Further, when the change to the setting corresponding value of the set value by the effect control CPU 120 is not executed, the CPU 103 outputs a set value designation command including the set secret value obtained by converting the set value to the effect control board 12, The control CPU 120 may store the set value specified from the set value specifying command in the RAM 122 as it is.

  As described above, in the pachinko gaming machine 1 according to the present embodiment, as shown in FIG. 9H, the effect control CPU 120 performs the reach effect of the super reach A and the super reach B as the first suggestion effect, and the second effect. Super Reach C and Super Reach D reach directing can be performed as suggestives, and when Super Reach C or Super Reach D reach directing is performed, the reach of Super Reach C or Super Reach D Since the title 31AK007 corresponding to the reach effect of the super reach C or super reach D is notified from the start of the effect, the notification of the title 31AK007 corresponding to the reach effect can be executed, and the effect of the effect can be improved.

  Further, in the pachinko gaming machine 1 according to the present embodiment, in the introduction part of the super reach A and the super reach B, a super reach effect (for example, an enemy character is displayed or an enemy character is displayed in a manner related to the title to be notified later). By performing an effect that suggests a character), the effect of the effect is improved, and the player can be focused on the effect.

The present embodiment also includes the second invention described below. That is, conventionally, as a pachinko gaming machine with a setting function, for example, there is one described in JP 2010-200902 A. However, in the gaming machine described in Japanese Patent Application Laid-Open No. 2010-200902, a setting value designation command that can specify a setting value is transmitted to an effect control board that performs an effect, and the setting value is transmitted to the effect control board. The setting suggestion effect is controlled by notification, and the effect control board that controls the setting suggestion effect is a board that controls the effect rather than controlling the progress of the game, thereby controlling the progress of the game. Since it is easier to take out the board from the case etc. and analyze it than the game control board to perform, if the setting value stored in the production control board is tampered with, an inappropriate setting suggestion production is performed There was a problem that there was a drowning. Therefore, when paying attention to the problem, as a gaming machine of means 1 of the second invention for solving the problem,
A gaming machine (for example, a pachinko gaming machine 1) that can be controlled in an advantageous state (for example, a big hit gaming state) advantageous to a player,
A setting means (for example, a portion where the CPU 103 executes the setting change process shown in FIG. 20-21) capable of setting any one of a plurality of setting values (for example, setting values 1 to 3);
Game control means (for example, a portion where the CPU 103 executes process control processing shown in FIG. 5) capable of executing the control of the advantageous state based on the set value set by the setting means;
Effect control means for controlling the effect based on the control information transmitted from the game control means (for example, the portion where the effect control CPU 120 executes the morning background effect (setting value suggestion effect) shown in FIG. 20-46) When,
With
The game control means, as the control information capable of specifying the setting value, is set value control information including a secret value obtained by converting the setting value, which is a numerical value different from the setting value set by the setting means (for example, , A set value designation command) (for example, a portion in which the CPU 103 executes the command control process (S27) after executing the process 110SG303 of the set value conversion process),
The effect control means stores a secret value included in the set value control information transmitted from the game control means (for example, the effect control CPU 120 performs the process of 110SG313 of the set value update process shown in FIG. 20-45). And the effect related to the set value specified from the secret value can be executed (for example, 100 times of fluctuation display is executed until one hour has passed since the power was turned on to the pachinko gaming machine 1) The part that executes the background effect (setting value suggestion effect) until morning)
A gaming machine having the above characteristics is described, and according to this characteristic, it is possible to prevent the stored setting value from being falsified.

Furthermore, as a gaming machine of means 2 of the second invention,
The game control means executes the conversion using a conversion table in which the setting value and the secret value are associated (for example, in the processing of 110SGS302 in the setting value conversion processing shown in FIG. 20-41 by the CPU 103). The part which converts a set value into a set secret value using the conversion table A shown in FIG. 20-42 (1) and the conversion table B shown in FIG. 20-42 (2))
According to this feature, the setting value can be prevented from being tampered with while reducing the processing load of conversion.

Furthermore, as a gaming machine of means 3 of the second invention,
The game control means performs the conversion by performing a calculation with a predetermined conversion coefficient on the set value (for example, in the processing of 110SGS302 in the set value conversion process shown in FIG. 20-41 by the CPU 103). (The part which converts a setting value into a setting secret value using calculation conversion (calculation A or calculation B) shown in FIG. 20-42 (3))
According to this feature, it is possible to prevent the setting value from being tampered with while reducing the data capacity necessary for the conversion.

Furthermore, as a gaming machine of means 4 of the second invention,
The game control means performs the conversion by setting a specific bit value corresponding to the set value to 1 (for example, in the processing of 110SGS302 of the set value conversion process shown in FIG. -A part that converts a set value into a set secret value using bit position conversion (position A or position B) shown in (42))
According to this feature, it is possible to prevent the setting value from being tampered with while reducing the data capacity necessary for the conversion.

Furthermore, as a gaming machine of means 5 of the second invention,
The game control means performs the conversion by shifting the set value by a predetermined number (for example, in the processing of 110SGS302 of the set value conversion process shown in FIG. 20-41 by the CPU 103, FIG. 20-42 (4) (The part which converts a setting value into a setting secret value using numerical shift conversion (shift A or shift B))
According to this feature, it is possible to prevent the setting value from being tampered with while reducing the data capacity necessary for the conversion.

The present embodiment also includes a third invention described below. That is, conventionally, as a pachinko gaming machine with a setting function, for example, there is one described in JP 2010-200902 A. However, in the gaming machine described in Japanese Patent Application Laid-Open No. 2010-200902, a setting value designation command that can specify a setting value is transmitted to an effect control board that performs an effect, and the setting value is transmitted to the effect control board. The setting suggestion effect is controlled by notification, and the effect control board that controls the setting suggestion effect is a board that controls the effect rather than controlling the progress of the game, thereby controlling the progress of the game. Since it is easier to take out the board from the case etc. and analyze it than the game control board to perform, if the setting value stored in the production control board is tampered with, an inappropriate setting suggestion production is performed There was a problem that there was a drowning. Therefore, when paying attention to the problem, as a gaming machine of means 1 of the third invention for solving the problem,
A gaming machine (for example, a pachinko gaming machine 1) that can be controlled in an advantageous state (for example, a big hit gaming state) advantageous to a player,
A setting means (for example, a portion where the CPU 103 executes the setting change process shown in FIG. 20-21) capable of setting any one of a plurality of setting values (for example, setting values 1 to 3);
Game control means (for example, a portion where the CPU 103 executes process control processing shown in FIG. 5) capable of executing the control of the advantageous state based on the set value set by the setting means;
Effect control means (for example, a portion where the CPU 103 executes the process control process shown in FIG. 5) for effect control based on control information transmitted from the game control means;
With
The game control means can transmit setting value control information (for example, a setting value designation command) including the setting value as the control information (for example, the command after the CPU 103 executes processing of 110SG303 of setting value conversion processing) Part for executing the control process (S27)),
The effect control means converts the setting value included in the setting value control information transmitted from the game control means into a secret value that is a numerical value different from the setting value and stores it (for example, the CPU 120 for effect control). In the processing of 110SG313 of the setting value update processing shown in FIG. 20-45, the setting value specified from the stored secret value is stored together with the setting value specified from the setting value designation command converted into a setting corresponding value and stored. (For example, a background effect (setting value suggestion effect) until one hour has elapsed since the power was turned on to the pachinko gaming machine 1 or until 100 fluctuation displays have been executed) Part to execute)
A gaming machine having the above characteristics is described, and according to this characteristic, it is possible to prevent the stored setting value from being falsified.

Furthermore, as a gaming machine of means 2 of the third invention,
The game control means executes the conversion using a conversion table in which the setting value and the secret value are associated (for example, in the processing of 110SGS302 in the setting value conversion processing shown in FIG. 20-41 by the CPU 103). The part which converts a set value into a set secret value using the conversion table A shown in FIG. 20-42 (1) and the conversion table B shown in FIG. 20-42 (2))
According to this feature, the setting value can be prevented from being tampered with while reducing the processing load of conversion.

Furthermore, as a gaming machine of means 3 of the third invention,
The game control means performs the conversion by performing a calculation with a predetermined conversion coefficient on the set value (for example, in the processing of 110SGS302 in the set value conversion process shown in FIG. 20-41 by the CPU 103). (The part which converts a setting value into a setting secret value using calculation conversion (calculation A or calculation B) shown in FIG. 20-42 (3))
According to this feature, it is possible to prevent the setting value from being tampered with while reducing the data capacity necessary for the conversion.

Furthermore, as a gaming machine of means 4 of the third invention,
The game control means performs the conversion by setting a specific bit value corresponding to the set value to 1 (for example, in the processing of 110SGS302 of the set value conversion process shown in FIG. -A part that converts a set value into a set secret value using bit position conversion (position A or position B) shown in (42))
According to this feature, it is possible to prevent the setting value from being tampered with while reducing the data capacity necessary for the conversion.

Furthermore, as a gaming machine of means 5 of the third invention,
The game control means performs the conversion by shifting the set value by a predetermined number (for example, in the processing of 110SGS302 of the set value conversion process shown in FIG. 20-41 by the CPU 103, FIG. 20-42 (4) (The part which converts a setting value into a setting secret value using numerical shift conversion (shift A or shift B))
According to this feature, it is possible to prevent the setting value from being tampered with while reducing the data capacity necessary for the conversion.

  Although the embodiments of the present invention have been described with reference to the drawings, the specific configuration is not limited to these examples, and the present invention can be modified or added without departing from the scope of the present invention. included.

  For example, in the above-described embodiment, an example in which the gaming machine frame 109SG003 that can open and close the opening of the outer frame 109SG001a or the glass door frame 109SG003a that can open and close the front surface of the gaming machine frame 109SG003 is applied as the opening and closing body. The present invention is not limited to this, and includes, for example, a front door that can open and close the front opening of the housing, such as a slot machine. Moreover, not only the thing which can be opened and closed by rotation but the thing which opens and closes by a slide or attachment or detachment may be used.

  Moreover, in the said embodiment, although the form which applied lock switch 109SG051 and the setting switch 109SG052 as an operation part was illustrated, this invention is not limited to this, Of lock switch 109SG051 and setting switch 109SG052, Only one of them may be used, or other operation units such as other switches, buttons, levers, dials, touch sensors, and the like having different operation modes (for example, pulling operation, pushing operation, rotation operation, etc.) may be used.

  Moreover, in the said embodiment, although the form which applied security cover 109SG500A, 109SG500B, 109SG500C as a control member was illustrated, this invention is not limited to this, An operation part is used for such a plate-shaped member. Even if it is not a member to be covered, the shape, size, material, and the like can be variously changed as long as the operation of the operation unit can be restricted. Specifically, for example, instead of covering the operation unit, the operation unit may be regulated by contacting the operation unit.

  Moreover, in the said embodiment, the security cover 109SG500A, 109SG500B, 109SG500C as a restricting member should just be in a state where operation is difficult by covering an operation part in the restriction state of an operation part, and operation is not necessarily possible It doesn't have to be.

  Moreover, in the said embodiment, although the setting switching main-body part which has operation parts, such as the lock switch 109SG051 and the setting changeover switch 109SG052, was illustrated in the main board | substrate 11, this invention is not limited to this. The main substrate 11 may be provided on a separate substrate, may be accommodated in a case other than the substrate case 109SG201, or may not be accommodated in the substrate case 109SG201.

  In the modified examples 5 and 6, the security covers 109SG500B and 109SG500C as the restricting members exemplify a form in which the gaming machine frame 109SG003 cannot be closed at the covering release position, but the present invention is limited to this. Instead of closing the gaming machine frame 109SG003, for example, an interlocking mechanism that interlocks with the closing operation of the gaming machine frame 109SG003 is provided so that the security covers 109SG500B and 109SG500C return from the coating release position to the coating position. Also good.

  Moreover, in the said embodiment, although the board | substrate case 109SG201 provided with the lock switch 109SG051 and the setting changeover switch 109SG052 was illustrated in the back surface of the pachinko gaming machine 1, the present invention is not limited to this. If the game machine frame 109SG003 is not closed and is provided at a position where the operation is difficult, a glass door frame at a place other than the back of the pachinko game machine 1 (for example, the front of the game machine frame 109SG003). 109SG003a, a position closed by 109SG003a, or an outer frame 109SG001a).

  Moreover, in the said embodiment, based on the fact that both the clear switch (see FIG. 3) and the lock switch 109SG051 are ON, the set value set in the pachinko gaming machine 1 can be changed (setting change processing is performed). However, the present invention is not limited to this, and other processing may be executed according to the combination of ON / OFF of the clear switch and the lock switch 109SG051. For example, when the clear switch is OFF and the lock switch 109SG051 is ON, the setting value set in the pachinko gaming machine 1 can be confirmed (setting confirmation processing is executed), and the clear switch is ON. When the lock switch 109SG051 is OFF, the data stored in the RAM 122 is cleared, and when both the clear switch and the lock switch 109SG051 are OFF, recovery processing from power interruption (recovery processing shown in FIG. 3). Should be executed. During execution of the setting change processing and setting confirmation processing described above, special symbol variation display, game ball launch, whether or not the variation display result is a big hit, various lotteries such as jackpot type, prize ball payout, etc. It is only necessary to be controlled in a game stop state in which no processing is performed.

  In the above embodiment, a pachinko gaming machine is applied as an example of a gaming machine. However, for example, a game can be started by setting a predetermined number of bets for one game using a gaming value. In addition, one game is completed by deriving a variation display result to an image display device capable of variably displaying a plurality of types of symbols each identifiable, and according to the variation display result derived to the image display device The present invention can also be applied to a slot machine in which a winning can be generated.

(Explanation regarding the characteristic part 3 of this embodiment)
Next, the characteristic part 3 of this Embodiment is demonstrated. In addition, since the front view of the pachinko gaming machine 1 in the characteristic part 3 of the present embodiment is the same as the characteristic part 31AK described above, a description thereof will be omitted. As shown in FIGS. 21A and 21B, the main board 11 in the characteristic part 3 of the present embodiment is housed in a board case 122SG201 configured to be openable by the first member and the second member. It is mounted on the back of the pachinko gaming machine 1 in a state. Further, the main board 11 has a lock switch 122SG051 for switching to a setting change state in which the setting value of the pachinko gaming machine 1 can be changed or a setting confirmation state in which the setting value set in the pachinko gaming machine 1 can be confirmed. In addition, a setting changeover switch 122SG052 that functions as a setting switch for changing a setting value such as a jackpot winning probability (outtake rate) described later in the setting change state is provided.

  The setting switching main body provided with an operation unit that can be operated by the player, such as the lock switch 122SG051 and the setting changeover switch 122SG052, is housed in the board case 122SG201 together with the main board 11, and the lock switch 122SG051 and the setting changeover switch 122SG052. Is exposed to the back side through an opening formed in the left side of the back surface of the substrate case 122SG201 so that it can be operated without opening the substrate case 122SG201.

  Since the board case 122SG201 having the lock switch 122SG051 and the setting changeover switch 122SG052 is provided on the back surface of the pachinko gaming machine 1, the operation is extremely difficult when the gaming machine frame 3 is closed, and a predetermined door key is pressed. The operation can be performed by opening the gaming machine frame 3. Further, since the lock switch 122SG051 requires operation of a setting key owned by a store clerk or the like of the game hall, only the store clerk possessing the setting key can be operated. Further, the lock switch 122SG051 is a switch that can execute an ON / OFF switching operation, which will be described later, and an operation (for example, a pushing operation) different from the switching operation by using a setting key. In addition, in the characteristic part 3 of this Embodiment, although the door key and the setting key illustrated the form which is a separate key, these may be shared by 1 key.

  Since the main board 11 is not visible when the gaming machine frame 122SG003 is not opened, the front when the main board 11 is viewed is the back side of the gaming board 2 with the gaming machine frame 122SG003 opened. It is the front when visually recognizing and is different from the front of the pachinko gaming machine 1. However, the front when viewing the main board 11 and the front of the pachinko gaming machine 1 may be made common.

  A control signal transmitted from the main board 11 toward the effect control board 12 is relayed by the relay board 15. The control command transmitted from the main board 11 to the effect control board 12 via the relay board 15 is, for example, an effect control command transmitted and received as an electric signal. The effect control command includes, for example, a display control command used for controlling an image display operation in the image display device 5, a voice control command used for controlling sound output from the speakers 8L and 8R, and a game effect lamp 9. LED control commands used for controlling the lighting operation of the decoration LED and the like.

  FIG. 21-3 (A) is an explanatory diagram showing an example of the contents of the effect control command used in the feature section 3 in the present embodiment. The effect control command has, for example, a 2-byte structure, and the first byte indicates MODE (command classification), and the second byte indicates EXT (command type). The first bit (bit 7) of the MODE data is always “1”, and the first bit of the EXT data is “0”. It should be noted that the command form shown in FIG. 21-3 (A) is an example, and other command forms may be used. In this example, the control command is composed of two control signals. However, the number of control signals constituting the control command may be one or a plurality of three or more.

  In the example shown in FIG. 21-3 (A), the command 8001H is a first change start command for designating the start of change in a special figure game using the first special figure in the first special symbol display device 4A. Command 8002H is a second variation start command for designating the start of variation in a special symbol game using the second special symbol in second special symbol display device 4B. The command 81XXH is a decoration that is variably displayed in the “left”, “middle”, and “right” decoration symbol display areas 5L, 5C, and 5R in the image display device 5 in response to the special symbol variation display in the special symbol game. This is a variation pattern designation command for designating a variation pattern (variation time) such as a symbol. Here, XXH indicates an unspecified hexadecimal number, and may be a value arbitrarily set according to the instruction content by the effect control command. In the variation pattern designation command, different EXT data is set according to the variation pattern to be designated.

  Command 8CXXH is a change display result notification command, and is an effect control command for designating a change display result such as a special symbol or a decorative symbol. In the variable display result notification command, for example, as shown in FIG. 21-3 (B), a determination result (predetermined result) whether the variable display result is “lost”, “big hit”, or “small hit”. ) Or different EXT data is set in accordance with a determination result (a jackpot type determination result) as to which of a plurality of jackpot types when the variation display result is “big hit”.

  In the variable display result notification command, for example, as shown in FIG. 21-3 (B), the command 8C00H is a first variable display result designation command indicating a pre-determined result indicating that the variable display result is “lost”. The command 8C01H is a second variable display result designation command for notifying the advance determination result and the big hit type determination result that the fluctuation display result is “big hit” and the big hit type is “big hit A”. The command 8C02H is a third variable display result designation command for notifying the advance determination result and the big hit type determination result that the fluctuation display result is “big hit” and the big hit type is “big hit B”. The command 8C03H is a fourth variable display result designation command for notifying a pre-determined result and a big hit type determination result that the fluctuation display result is “big hit” and the big hit type is “big hit C”. Command 8C04H is a fifth variable display result designation command for notifying a predetermined result indicating that the variable display result is “small hit”.

  The command 8F00H is a symbol confirmation command for designating stoppage (decision) of the decorative symbols in the decorative symbol display areas 5L, 5C, and 5R of the “left”, “middle”, and “right” in the image display device 5. The command 95XXH is a gaming state designation command for designating the current gaming state in the pachinko gaming machine 1. In the gaming state designation command, for example, different EXT data is set according to the current gaming state in the pachinko gaming machine 1. As a specific example, the command 9500H is a first gaming state designation command corresponding to a gaming state in which time reduction control is not performed (low base state, normal state), and the command 9501H is a gaming state in which time reduction control is performed (high base state) , The second gaming state designation command corresponding to the short time state).

  The command 96XXH is an error (abnormality) designation command that designates the occurrence of an error (abnormality) in the pachinko gaming machine 1 and the type of the error (abnormality) that has occurred. In the error (abnormality) designation command, for example, EXT data corresponding to each error (abnormality) is set, thereby specifying which error (abnormality) has been determined on the production control board 12 side. The occurrence of the specified error (abnormality) can be notified by an error notification process described later.

  The command A0XXH is a hit start designation command (also referred to as “fanfare command”) for designating display of an effect image indicating the start of the big hit gaming state or the small hit gaming state. The command A1XXH is a big winning opening releasing notification command for notifying that the big winning opening is a period in the big hit gaming state or the small hit gaming state. The command A2XXH is a notification command after opening the big winning opening that notifies that the big winning opening has changed from the open state to the closed state in the big hit gaming state or the small hit gaming state. The command A3XXH is a hit end designation command for designating display of an effect image at the end of the big hit gaming state or the small hit gaming state.

  In the hit start designation command and the hit end designation command, for example, EXT data similar to that of the variable display result notification command is set, so that different EXT data may be set in accordance with the predetermined determination result or the big hit type determination result. . Alternatively, in the hit start designation command or the hit end designation command, the correspondence relationship between the pre-determined result and the big hit type determination result and the set EXT data may be different from the correspondence relationship in the variable display result notification command. . In the big winning mouth opening notification command and the big winning mouth opening notification command, different EXT data is set corresponding to the number of rounds executed in the big hit gaming state or the small hit gaming state (for example, “1” to “15”). Is done.

  The command B100H is based on the fact that the game ball that has passed (entered) the first start winning opening formed by the winning ball apparatus 6A is detected by the first start opening switch 22A and a start winning (first start winning) has occurred. This is a first start opening prize designation command for notifying that the first start condition for executing the special figure game using the first special figure in the first special symbol display device 4A is established. The command B200H is based on the fact that the game ball that has passed (entered) the second start winning opening formed by the variable winning ball apparatus 6B is detected by the second start opening switch 22B and a start winning (second start winning) has occurred. The second start opening prize designation command for notifying that the second start condition for executing the special figure game using the second special figure in the second special symbol display device 4B is established.

  The command C1XXH is a first reserved memory number notification command for notifying the first special figure reserved memory number so that the special figure reserved memory number can be specified on the image display device 5 or the like. The command C2XXH is a second reserved memory number notification command for notifying the second special figure reserved memory number so that the special figure reserved memory number can be specified on the image display device 5 or the like. The first reserved memory number notification command is, for example, when the first start opening winning designation command is transmitted based on the fact that the game ball passes (enters) the first starting winning opening and the first start condition is satisfied. , Transmitted from the main board 11 to the effect control board 12. The second reserved memory number notification command is, for example, when the second start opening winning designation command is transmitted based on the fact that the game ball passes (enters) the second start winning opening and the second start condition is satisfied. , Transmitted from the main board 11 to the effect control board 12. In addition, the first reserved memory number notification command and the second reserved memory number notification command are used when the first start condition or the second start condition is satisfied (when the reserved memory number decreases). It may be transmitted in response to the start of execution.

  Instead of the first reserved memory number notification command and the second reserved memory number notification command, a total reserved memory number notification command for notifying the total reserved memory number may be transmitted. That is, a total pending storage number notification command for notifying an increase (or decrease) in the total pending storage number may be used.

  Command D0XXH is a setting value designation command for designating a newly set setting value from main board 11 to effect control board 12 (effect control CPU 120). The command E101H is a hot start notification command for notifying that the pachinko gaming machine 1 is started without clearing the contents of the RAM 102 (it is also called a power failure recovery, also called hot start). The command E102H is a cold start notification command for notifying that the pachinko gaming machine 1 has been started by clearing the contents of the RAM 102 (cold start). The command E103H is a setting value change start notification command for notifying that the pachinko gaming machine 1 has started a setting value changing operation (the pachinko gaming machine 1 has been started in the setting changing state). The command E104H is a setting value change end notification command for notifying that the setting value changing operation of the pachinko gaming machine 1 has ended. The command E105H is a setting value confirmation start notification command for notifying that the setting value confirmation operation of the pachinko gaming machine 1 has been started (the pachinko gaming machine 1 has been activated in the setting change state). The command E106H is a setting value confirmation end notification command for notifying that the setting value confirmation operation of the pachinko gaming machine 1 has been completed.

  The game control microcomputer 100 mounted on the main board 11 is, for example, a one-chip microcomputer, and includes a ROM (Read Only Memory) 101 for storing a game control program, fixed data, and the like, and a game control work. A RAM (Random Access Memory) 102 that provides an area, a CPU (Central Processing Unit) 103 that executes a control program by executing a game control program, and updates numeric data indicating random values independently of the CPU 103 A random number circuit 104 to be performed, an input / output port (I / O) 105, and a real-time clock (RTC) 106 capable of outputting time information are configured.

  As an example, in the game control microcomputer 100, a process for controlling the progress of the game in the pachinko gaming machine 1 is executed by the CPU 103 executing a program read from the ROM 101. At this time, the CPU 103 reads fixed data from the ROM 101, the CPU 103 writes various fluctuation data to the RAM 102 and temporarily stores the fluctuation data, and the CPU 103 temporarily stores the various fluctuation data. The CPU 103 receives the input of various signals from outside the game control microcomputer 100 via the I / O 105, and the CPU 103 goes outside the game control microcomputer 100 via the I / O 105. A transmission operation for outputting various signals is also performed.

  FIG. 21D is an explanatory diagram illustrating random numbers counted on the main board 11 side. As shown in FIG. 21-4, in the feature part 3 of this embodiment, on the main board 11 side, in addition to the random value MR1 for determining the special figure display result, the random value MR2 for determining the big hit type, the fluctuation pattern Numerical data indicating the random number value MR3 for determination, the random value MR4 for determining the normal display result, and the random value MR5 for determining the initial value of the MR4 are controlled to be countable. In addition, in order to improve a game effect, random numbers other than these may be used. These random numbers MR1 to MR5 may be counted by updating by software using a different random counter in the CPU 103, or may be updated by the random number circuit 104. The random number circuit 104 may be built in the game control microcomputer 100 or may be configured as a random number circuit chip different from the game control microcomputer 100. Such random numbers used to control the progress of the game are also referred to as game random numbers.

  In this embodiment, each random number value MR1 to MR5 is exemplified as a value in the range shown in FIG. 21-4. However, the present invention is not limited to this, and each of these random number values is used. The range of MR1 to MR5 may be varied according to the set value set in the pachinko gaming machine 1.

  FIG. 21-5 shows the variation pattern in the present embodiment. In the present embodiment, among the cases where the variation display result is “losing”, the variation display mode of the decorative symbol is “non-reach” and “reach”, respectively, Corresponding to the case where the display result is “big hit”, a plurality of variation patterns are prepared in advance. Further, one variation pattern is prepared in advance in response to a case where the variation display result is “small hit”. The variation pattern corresponding to the case where the variation display result is “losing” and the variation display mode of the decorative symbol is “non-reach” is called a non-reach variation pattern (also referred to as “non-reach loss variation pattern”). The variation pattern corresponding to the case where the display result is “losing” and the decorative symbol variation display mode is “reach” is referred to as a reach variation pattern (also referred to as “reach loss variation pattern”). Further, the non-reach variation pattern and the reach variation pattern are included in the loss variation pattern corresponding to the case where the variation display result is “lost”. A variation pattern corresponding to the case where the variation display result is “big hit” is referred to as a big hit variation pattern. A variation pattern corresponding to the case where the variation display result is “small hit” is referred to as a small hit variation pattern.

  The big hit variation pattern and the reach variation pattern include a normal reach variation pattern in which a normal reach reach effect is executed and a super reach change pattern in which a super reach reach effect such as super reach α and super reach β is executed. In the present embodiment, only one type of normal reach variation pattern is provided, but the present invention is not limited to this, and as in the case of super reach, normal reach α, normal reach β,... A plurality of normal reach fluctuation patterns may be provided. Also, in the super reach variation pattern, three or more super reach variation patterns such as super reach γ... In addition to super reach α and super reach β may be provided.

  As shown in FIG. 21-5, the special reach variation pattern of the normal reach variation pattern in which the normal reach reach effect is performed in the characteristic part 3 of the present embodiment is represented by the super reach variation pattern super reach α and super reach β. Is set shorter. In addition, regarding the special figure variation time of the super reach variation pattern in which the super reach reach effect such as super reach α and super reach β in the present embodiment is executed, the change pattern in which the super reach effect of the super reach β is executed However, the special figure variation time is set longer than the variation pattern in which the super reach production of the super reach α is executed.

  In the present embodiment, as described above, since the variation display result is set to “hit” in the order of super reach β, super reach α, and normal reach, the big hit expectation is set higher. In the super reach variation pattern, the longer the variation time, the higher the expectation of jackpot.

  In the feature section 3 of the present embodiment, as will be described later, these fluctuation patterns are classified into, for example, non-reach type, normal reach type, super reach type, etc. Instead of determining the variation pattern to be executed from the variation pattern belonging to the variation pattern belonging to the determined type after the determination first, only the random value MR3 for variation pattern determination is determined without determining these types. However, the present invention is not limited to this. For example, in addition to the random value MR3 for determining the variation pattern, a random number value for determining the variation pattern type is provided, and these variations are determined. After the variation pattern type is first determined from the random number for pattern type determination, the variation pattern belonging to the variation pattern belonging to the determined type is It may be determined variation pattern.

  Moreover, in the characteristic part 3 of this Embodiment, as shown to FIGS. 21-5, although the fluctuation | variation content (effect content) is previously determined for every fluctuation | variation pattern, this invention illustrates this. The present invention is not limited, and the variation content (effect content) may be different even for the same variation pattern according to the set value that has been set. For example, in the case of the normal reach loss variation pattern PA2-1, if the set value is 1, the variation pattern is a normal reach loss, and if the set value is 2, the pseudo-continuous effect is displayed. If the set value is 3 as a variation pattern that is executed twice and becomes non-reach loss, the pseudo-continuous effect is executed three times to obtain a change pattern that results in super reach loss.

  In the game control microcomputer 100, the CPU 103 executes a program read from the ROM 101, and uses the RAM 102 as a work area, thereby executing various processes for controlling the progress of the game in the pachinko gaming machine 1. Further, the CPU 103 can generate all of various random numbers used on the main board 11 side by executing a random number generation program.

  In addition to the game control program, the ROM 101 included in the game control microcomputer 100 stores various table data used for controlling the progress of the game. For example, the ROM 101 stores table data constituting a plurality of determination tables shown in FIG. 21-6 and FIG. 21-7 prepared for the CPU 103 to make various determinations and determinations. The ROM 101 also has table data constituting a plurality of control pattern tables used for the CPU 103 to output various control signals from the main board 11, and a variation mode of each symbol in a variation display such as a special symbol or a normal symbol. A variation pattern table for storing a plurality of types of variation patterns is stored.

  The determination table stored in the ROM 101 includes, for example, a display result determination table (setting value 1) shown in FIG. 21-6 (A), a display result determination table (setting value 2) shown in FIG. 21-6 (B), and FIG. -6 (C) display result determination table (set value 3), jackpot type determination table (for the first special symbol) shown in FIG. 21-7 (A), jackpot type determination shown in FIG. 21-7 (B) In addition to a table (for the second special symbol), a big hit variation pattern determination table, a small hit variation pattern determination table, a loss variation pattern determination table, a general diagram display result determination table (not shown), a general diagram variation pattern determination table (not shown) ) Etc. are included.

  The pachinko gaming machine 1 of the characteristic part 3 of the present embodiment is configured such that the winning probabilities (outtake ratio) for big hits and small hits change according to the set value. Specifically, in the special symbol normal processing of the special symbol process described later, the winning probability (the winning rate) for the big hit and the small hit is changed by using a display result determination table (winning probability) according to the set value. It has become. The set value consists of three stages of 1 to 3, with 1 being the highest payout rate, and the higher the value in the order of 1, 2 and 3, the lower the payout rate. In other words, when 1 is set as the set value, the player has the highest advantage, and as the value increases in order of 2, 3, the advantage decreases stepwise. In other words, the set value is 1 that is the smallest value that is the most unfavorable to the game hall side, and the larger the value in the order of 2 and 3, the more advantageous the value is for the game hall side.

  FIG. 21-6 (A) to FIG. 21-6 (C) are explanatory diagrams showing display result determination tables corresponding to the set values. The display result determination table is a collection of data stored in the ROM 101 and is a table in which a hit determination value to be compared with MR1 is set. In the feature unit 3 of the present embodiment, a common display result determination table is used as the display result determination table for the first special figure and the second special figure, but the present invention is not limited to this. Separate display result determination tables may be used for the first special figure and the second special figure.

  As shown in FIG. 21-6 (A) to FIG. 21-6, in each display result determination table, when the gaming state is the probability variation state (high probability state), the normal state or the short time state (low probability state) More judgment values are assigned to the special jackpot display result of “big hit” than in the case of. As a result, in the probability variation state (high probability state) in which the probability variation control is performed in the pachinko gaming machine 1, when the normal state or the short time state (low probability state), the special figure display result is controlled as the big hit gaming state. Then, the probability is determined (in the feature unit 3 of the present embodiment, 1/99 when the setting value is 1, 1/150 when the setting value is 2, and 1/200 when the setting value is 3). In comparison, the probability that it is determined that the special figure display result is “big hit” and the game is controlled to the big hit gaming state is higher (in the characteristic part 3 of the present embodiment, the set value is 1/50, the set value is 1/99 for 2 and 1/150 for a set value of 3). That is, in each display result determination table, when the gaming state in the pachinko gaming machine 1 is a probability variation state (high probability state), the probability that it is determined to control to the big hit gaming state as compared to the normal state or the short time state The determination value is assigned to the determination result as to whether or not to control the jackpot gaming state.

  In each display result determination table, the special figure display result is “small hit” depending on whether the gaming state is a normal state or a short time state (low probability state) or a probability variation state (high probability state). The determination value is assigned so that the probability determined to be controlled by the small hit game is the same (for example, 1/50 when the setting value is 1, 1/99 when the setting value is 2, the setting value) If 1/2 is 3, 1/200).

  Further, as described above, in each gaming state, when the set value set in the pachinko gaming machine 1 is 1, the special figure display result is “big hit” or “small hit” and the big hit gaming state or small hit The probability of being determined to be controlled in the gaming state is high, and when the setting value set in the pachinko gaming machine 1 is 3, the special figure display result is “big hit” or “small hit” and the big hit gaming state or the small hit game Determination values are assigned so that the probability determined when the state is controlled is reduced (big hit probability and small hit probability: set value 1> set value 2> set value 3).

  That is, the CPU 103 refers to the display result determination table corresponding to the set value set at that time, and the MR1 value corresponds to the big hit shown in FIGS. 21-6 (A) to 21-6 (C). If it matches one of the hit determination values, it is determined that the special symbol is a big hit (big hit A to big hit C). Further, when MR1 matches any hit determination value corresponding to the small hits shown in FIGS. 21-6 (A) to 21-6 (C), it is determined that the special symbol is to be the small hit. That is, the winning of the big hit and the small hit is determined with a probability according to the set value. The “probabilities” shown in FIGS. 21-6 (A) to 21-6 (C) indicate the probability (proportion) of being a big hit and the probability (proportion) of being a small hit. Further, deciding whether or not to win a jackpot means deciding whether or not to control the jackpot gaming state, but the stop symbol in the first special symbol display device 4A or the second special symbol display device 4B is determined. It also means deciding whether or not to make a jackpot symbol. Further, determining whether or not to make a small hit means determining whether or not to control to the small hit gaming state, but stop in the first special symbol display device 4A or the second special symbol display device 4B It also means determining whether or not the symbol is to be a small hit symbol.

  In addition, in the characteristic part 3 of this Embodiment, in each display result determination table shown to FIGS. 21-6 (A)-FIG. 21-6 (C), the form which makes the winning probability of small hits different is illustrated. However, the present invention is not limited to this, and even if any display result determination table is used (regardless of the setting value set in the pachinko gaming machine 1), the winning probability per same is the same. It is good.

  Moreover, in the characteristic part 3 of the present embodiment, the CPU 103 determines whether to make a big hit or a small hit using the display result determination table shown in FIGS. 21-6 (A) to 21-6 (C). However, for each set value, a big hit judgment table and a small hit judgment table are provided separately, and it is individually judged whether the variation display result is a big hit or not. Also good. Further, as shown in FIGS. 21-6 (A) to 21-6 (C), a determination value is assigned to each display result determination table, but it is shown in FIG. 21-6 (C). In the display result determination table (display result determination table referred to when the set value set in the pachinko gaming machine 1 is 3), the determination value may not be assigned to the small hit. That is, the fact that the ratio of the small hit probability varies depending on the set value includes that the small hit probability is 0%.

  In this embodiment, a total of three set values of 1 to 3 are provided as set values that can be set in the pachinko gaming machine 1, but the present invention is not limited to this, and the pachinko gaming machine The set value that can be set to 1 may be two or four or more.

  FIGS. 21-7 (A) and 21-7 (B) are explanatory diagrams showing a jackpot type determination table (for the first special symbol) and a jackpot type determination table (for the second special symbol) stored in the ROM 101. FIG. It is. Of these, FIG. 21-7 (A) uses jackpot storage based on the fact that the game ball has won the first start winning opening (that is, when the variable display of the first special symbol is performed) to determine the jackpot type It is a table when doing. Also, FIG. 21-7 (B) determines the jackpot type by using the holding memory based on the fact that the game ball has won the second start winning opening (that is, when the second special symbol is displayed in a variable manner). Table.

  The big hit type determination table is one of the big hit types A to C based on the random number for determining the hit type (MR2) when it is determined that the variable display result is a big hit symbol. It is a table that is referred to in order to determine.

  Here, the jackpot type in the characteristic part 3 of the present embodiment will be described with reference to FIG. 21-8. In the characteristic part 3 of the present embodiment, as a big hit type, a big hit A (also referred to as a non-probable variable big hit) in which only the time-shortening control is executed after the big hit gaming state is finished and a low probability high base state is entered, The big hit B and big hit C (also referred to as a probable big hit) are set in which high-accuracy control and time-shortening control are executed after the process is finished and the high-accuracy high-base state is entered.

  The big hit gaming state by “hit A” is a normal open big hit that is repeatedly executed five times (so-called five rounds) to change the special variable winning ball apparatus 7 to the first state advantageous to the player. The big hit game state by “B” is a normal open big hit that is repeatedly executed 10 times (so-called 10 rounds) to change the special variable winning ball apparatus 7 to the first state advantageous to the player. Furthermore, the big hit game state by “big hit C” is a normal open big hit that is repeatedly executed 15 times (so-called 15 rounds) in which the special variable winning ball apparatus 7 is changed to the first state advantageous to the player.

  The time-saving control executed after the end of the big hit gaming state by the “big hit A” is that a predetermined number of times (100 in the characteristic part 3 of the present embodiment) the special figure game is executed or the predetermined number of special times is executed. The game ends when the big hit gaming state is entered before the game is executed.

  On the other hand, the high-accuracy control and the time-saving control executed after the big hit game state of the big hit B or the big hit C is continuously executed until the big hit occurs again after the big hit game state is ended. Therefore, when the big hit that is generated again is the big hit B or big hit C, since the high-accuracy control and the short-time control are executed again after the big hit gaming state is finished, the big hit gaming state is continuously performed without going through the normal state. The so-called villa state occurs.

  In addition, in the characteristic part 3 of this Embodiment, although the form which provides three types of big hit A-big hit C as a big hit type is illustrated, this invention is not limited to this, The big hit type is 2 You may provide below or four types or more.

  Also, as shown in FIG. 21-7 (A), in the jackpot type determination table (for the first special symbol), when the set value is “1”, the MR2 determination value ranges from 0 to 299. 0 to 99 are assigned to the jackpot A, 100 to 149 are assigned to the jackpot B, and 150 to 299 are assigned to the jackpot C. When the set value is “2”, out of the MR2 determination value range 0 to 299, 0 to 99 are assigned to the big hit A, and 100 to 199 are assigned to the big hit B. , 200 to 299 are assigned to the big hit C. When the set value is “3”, 0 to 99 are assigned to the jackpot A in the range 0 to 299 of the MR2 determination value, and 100 to 249 are assigned to the jackpot B. , 250 to 299 are assigned to the big hit C.

  In this way, when a big hit occurs in the special symbol game of the first special symbol, the ratio for determining the big hit A in which only the short time control is executed after the big hit game ends is the same, while the short time control after the big hit game ends. Of the big hits B and big hits C for which both of the probability variation control are executed, the ratio of determining the big hit C decreases in the order of the setting values 1, 2, and 3. That is, when the variation special chart is the first special symbol, the setting value set in the pachinko gaming machine 1 is highest when the setting value set in the pachinko gaming machine 1 is 1, and the setting value set in the pachinko gaming machine 1 When the number is 3, the payout rate is the lowest.

  On the other hand, as shown in FIG. 21-7 (B), in the jackpot type determination table (for the second special symbol), when the set value is “1”, the MR2 determination value ranges from 0 to 299. Of these, 0 to 99 are assigned to jackpot A, and 100 to 299 are assigned to jackpot C (the jackpot B is not assigned a determination value). When the set value is “2”, out of the MR2 determination value range 0 to 299, 0 to 99 are assigned to the big hit A, and 100 to 149 are assigned to the big hit B. , 150 to 299 are assigned to the big hit C. When the set value is “3”, out of the MR2 determination value range 0 to 299, 0 to 99 are assigned to the jackpot A, and 100 to 199 are assigned to the jackpot B. , 200 to 299 are assigned to the big hit C.

  In this way, when a big hit occurs in the special symbol game of the second special symbol, the ratio for determining the big hit A in which only the short time control is executed after the big hit game ends is the same, while the short time control after the big hit game ends. Of the big hits B and big hits C for which both of the probability variation control are executed, the ratio of determining the big hit C decreases in the order of the setting values 1, 2, and 3. That is, when the variation special figure is the second special symbol, the setting value set in the pachinko gaming machine 1 is the highest when the setting value set in the pachinko gaming machine 1 is 1, and the setting value set in the pachinko gaming machine 1 When the number is 3, the payout rate is the lowest.

  In the feature part 3 of the present embodiment, the big hit type is determined to be the big hit B when the fluctuation special figure is the second special figure and the set value set in the pachinko gaming machine 1 is 1. The form that does not do is illustrated, that is, that the determination ratio of the jackpot type differs according to the set value, it means that any jackpot type is not determined (the determination ratio is 0%) Although it is included, the case where the big hit type is determined as the big hit B may be provided even when the variation special figure is the second special figure and the set value set in the pachinko gaming machine 1 is 1. .

  As described above, in the characteristic section 3 of the present embodiment, the determination ratio of the jackpot type when the variable display result becomes a jackpot differs according to the set value that has been set, so that the game entertainment can be improved. It has become.

  In the feature unit 3 of the present embodiment, the jackpot type is determined using MR2, which is a random value for determining the jackpot type, but the present invention is not limited to this, and the jackpot type is: You may determine using MR1 which is a random value for special figure display result determination.

  Further, in the characteristic part 3 of the present embodiment, the smaller the set value set in the pachinko gaming machine 1 is, the more advantageous for the player (the big hit probability or the small hit probability is increased, or the big hit C as the big hit type is determined). However, the present invention is not limited to this, and the larger the set value set in the pachinko gaming machine 1, the more advantageous it may be for the player. .

  Moreover, in the characteristic part 3 of this Embodiment, while the big hit probability and the small hit probability change according to the setting value set to the pachinko gaming machine 1, the form in which the game nature itself does not change is illustrated. The present invention is not limited to this, and the gaming property may be changed according to the set value set in the pachinko gaming machine 1.

  For example, when the set value set in the pachinko gaming machine 1 is 1, the game probability that loops at a rate of 1/320 in the normal state and 65% in the probability variation state (so-called probability variation loop type), When the set value set in the pachinko gaming machine 1 is 2, the big hit probability in the normal state is 1/200, and the game ball is provided in the special variable winning ball apparatus 7 during the big hit game. The game state after the end of the big hit game is controlled to be a probable change state based on passing through the game, while the game balls having different proportions of the game balls passing through the predetermined switch during the big hit game according to the fluctuation figure (so-called V If the set value set in the pachinko gaming machine 1 is 3, the big hit probability is 1/320 and the small hit probability is 1/50, and the game is in the high base (during short-time control). Specially variable ball A predetermined switch provided in the sphere device 7 may be a game of (so-called one two-kind mixed type) which controls the jackpot gaming state based on passing. Further, the set values set in the pachinko gaming machine 1 are the same as 1 to 3, and the gameability is the same. Thus, a setting may be provided in which the number of prize balls that can be acquired during the big hit game is small (for example, when the set value set in the pachinko gaming machine 1 is 4).

  Further, in this way, when the gameability is changed according to the set value, a common switch may be used for different purposes. Specifically, in the above-described example, when the set value is 1 or 4, a predetermined switch provided in the special variable winning ball apparatus 7 is used as an effect switch (every game ball passes a predetermined area). When the set value is 2 or 3, the predetermined switch is used as a game switch (the game state is changed based on the fact that the game ball has passed the predetermined switch) It may be used as a switch for controlling to the big hit gaming state.

  The ROM 101 also stores a variation pattern determination table for determining a variation pattern based on the random value MR3 for variation pattern determination. The variation pattern is selected from among the above-described plural types according to the predetermined determination result. Determine one of the fluctuation patterns.

  Specifically, as the fluctuation pattern determination table, a big hit fluctuation pattern determination table used when it is determined in advance that the fluctuation display result is “big hit”, and the fluctuation display result is “small hit”. Are prepared in advance, and a variation pattern determination table for loss used when it is determined in advance that the variation display result is “lost”. ing.

  In the big hit variation pattern determination table, variation patterns of normal reach big hit variation pattern (PB1-1), super reach α big hit variation pattern (PB1-2), super reach β big hit variation pattern (PB1-3) On the other hand, a predetermined random number value is assigned as a determination value in a range that can be taken by the random number value MR3 for determining the variation pattern.

  As shown in FIGS. 21-9 (A) and 21-9 (B), the big hit variation pattern determination table is a big hit variation pattern determination table (big hit A) used when the big hit type is big hit A. And a big hit variation pattern judgment table (for big hit B and big hit C) that are used when the big hit type is for big hit B and big hit C are prepared in advance. A) and the big hit variation pattern judgment table (for big hit B and big hit C), the variation pattern for normal reach big hit (PB1-1), the fluctuation pattern for super reach α big hit (PB1-2), and the big hit for super reach β big hit For each variation pattern of the variation pattern (PB1-3), a predetermined value out of a range that can be taken by the random number MR3 for variation pattern determination A random value is assigned as a judgment value.

  As shown in FIG. 21-9 (A), in the big hit variation pattern determination table (for big hit A), when the set value is “1”, the MR3 determination value ranges from 0 to 997. Up to 300 is assigned to the fluctuation pattern (PB1-1) for the normal reach big hit, 301 to 800 are assigned to the fluctuation pattern (PB1-2) for the super reach α big hit, and 801 to 997 are assigned to the super reach β. It is assigned to the big hit variation pattern (PB1-3). When the set value is “2”, in the MR3 determination value range 0 to 997, 0 to 350 are assigned to the fluctuation pattern (PB1-1) for the normal reach big hit, and 351 to 825 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 826 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big. When the set value is “3”, in the MR3 determination value range 0 to 997, 0 to 400 are assigned to the fluctuation pattern (PB1-1) for normal reach big hit, and 401 to 850 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 851 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big.

  As shown in FIG. 21-9 (B), in the big hit variation pattern judgment table (for big hit B, big hit C), when the set value is “1”, the MR3 judgment value ranges 0 to 997 0 to 100 are allocated to the fluctuation pattern (PB1-1) for normal reach big hit, 101 to 350 are assigned to the fluctuation pattern (PB1-2) for super reach α big hit, and 351 to 997 are assigned. It is assigned to the fluctuation pattern (PB1-3) per super reach β big hit. When the set value is “2”, 0 to 150 of the MR3 determination value range 0 to 997 is assigned to the fluctuation pattern (PB1-1) of the normal reach big hit, and 151 to 450 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 451 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big. When the set value is “3”, 0 to 200 of the MR3 determination value range 0 to 997 is assigned to the fluctuation pattern (PB1-1) for the normal reach big hit, and 201 to 550 are assigned. It is assigned to the fluctuation pattern (PB1-2) per super reach α big, and 551 to 997 are assigned to the fluctuation pattern (PB1-3) per super reach β big.

  Thus, when the big hit A is won in the special figure game, the ratio of determining the fluctuation pattern (PB1-2) of the super reach α big hit is the ratio of determining the fluctuation pattern (PB1-3) of the super reach β big hit Higher and lower in the order of setting values 1, 2, and 3. Further, when the big hit B or big hit C is won in the special figure game, the ratio of determining the fluctuation pattern (PB1-3) for the super reach β big hit determines the fluctuation pattern (PB1-2) for the super reach α big hit. It is higher than the ratio and decreases in the order of setting values 1, 2, and 3.

  That is, in the present embodiment, when these determination values are the big hit type “big hit B” or “big hit C”, the super reach β is easily determined, and the big hit type is “big hit A”. In such a case, since the super reach α is assigned so as to be easily determined, when the fluctuation pattern of the super reach β is executed, the player who may be “big hit B” or “big hit C”. Can raise the sense of expectation.

  Further, in the variation pattern determination table for small hits, a predetermined random value out of a range that can be taken by the random value MR3 for variation pattern determination with respect to the variation pattern of the variation pattern (PC1-1) for small hits is a determination value. Assigned as. Specifically, as shown in FIG. 21-9 (C), in the variation pattern determination table for small hits, even if the set value is any one of “1”, “2”, and “3”, Of the judgment value ranges 0 to 997, 0 to 997 are assigned to the small hit variation pattern (PC1-1). Although only PC1-1 is provided as the small hit variation pattern in the present embodiment, the present invention is not limited to this, and two or more variation patterns are provided as the small hit variation pattern. The small hit variation pattern may be determined from the plurality of variation patterns at different ratios with the setting values “1”, “2”, and “3”.

  The loss variation pattern determination table includes a loss variation pattern determination table A that is used when the number of reserved memories is 1 or less in a low base state in which the game state is not subjected to time reduction control, and a low base Loss variation pattern determination table B used when the total number of reserved memories is 2 to 4 in the state, and loss variation used when the total number of reserved memories is 5 to 8 in the low base state A pattern determination table C and a loss variation pattern determination table D that is used when the gaming state is a high base state in which time-shortening control is performed are prepared in advance.

  In the variation pattern determination table A for loss, the non-reach loss variation pattern (PA1-1) without reduction, the normal reach loss variation pattern (PA2-1), the super reach α loss variation pattern (PA2-2), and the super reach. A predetermined random number value is assigned as a determination value to the variation pattern (PA2-3) of β loss in a range that the random value MR3 for determining the variation pattern can take.

  As shown in FIG. 21-10 (A), in the variation pattern determination table A for loss (for one or less low-base total sum storage number), when the set value is “1”, the MR3 determination value Of the range 0-997, 0 to 350 are assigned to the non-reach loss variation pattern (PA1-1), and 351 to 700 are assigned to the normal reach loss variation pattern (PA2-1). Up to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and 901 to 997 are assigned to the fluctuation pattern (PA2-3) of the super reach β loss. When the set value is “2”, in the MR3 determination value range 0 to 997, 0 to 400 are assigned to the non-reach loss variation pattern (PA1-1), and 401 to 700 are included. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3). When the set value is “3”, 0 to 450 in the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 451 to 700 are included. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3).

  Also, in the variation pattern determination table B for loss, the shortened non-reach loss variation pattern (PA1-2), the normal reach loss variation pattern (PA2-1), and the super reach corresponding to the total number of reserved memories of 2 to 4. A predetermined random value is assigned as a determination value to a variation pattern determining random value MR3 for the α loss variation pattern (PA2-2) and the super reach β loss variation pattern (PA2-3). ing.

  As shown in FIG. 21-10 (B), in the variation pattern determination table B for loss (for 2 to 4 low-base medium total pending storage numbers), when the set value is “1”, the MR3 determination value In the range 0 to 997, 0 to 400 are assigned to the non-reach loss variation pattern (PA1-1), and 401 to 700 are assigned to the normal reach loss variation pattern (PA2-1). 701 to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and 901 to 997 are assigned to the fluctuation pattern (PA2-3) of the super reach β loss. When the set value is “2”, 0 to 450 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 451 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3). When the set value is “3”, 0 to 500 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 501 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3).

  Further, in the variation pattern determination table C for loss, the shortened non-reach loss variation pattern (PA1-3), the normal reach loss variation pattern (PA2-1), and the super reach corresponding to the total reserved memory number of 5 to 8. A predetermined random value is assigned as a determination value to a variation pattern determining random value MR3 for the α loss variation pattern (PA2-2) and the super reach β loss variation pattern (PA2-3). ing.

  As shown in FIG. 21-10 (C), in the variation pattern determination table C for loss (for 5 or more low-based medium sum storages), when the set value is “1”, the MR3 determination value Of the range 0-997, 0 to 450 are assigned to the non-reach loss variation pattern (PA1-1), and 451 to 700 are assigned to the normal reach loss variation pattern (PA2-1). Up to 900 are assigned to the fluctuation pattern (PA2-2) of the super reach α loss, and 901 to 997 are assigned to the fluctuation pattern (PA2-3) of the super reach β loss. When the set value is “2”, 0 to 500 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 501 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3). When the set value is “3”, 0 to 550 are assigned to the non-reach loss variation pattern (PA1-1) in the MR3 determination value range 0 to 997, and 551 to 700 are included. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3).

  Further, in the variation pattern determination table D for loss, the variation pattern of the shortened non-reach loss (PA1-4), the variation pattern of the normal reach loss (PA2-1), the variation pattern of the super reach α loss (corresponding to the time reduction control) ( PA2-2), a predetermined random number value is assigned as a determination value in a range that the random value MR3 for determining the variation pattern can take for the variation pattern (PA2-3) of the super reach β loss.

  As shown in FIG. 21-10 (D), in the variation pattern determination table D for loss (for medium high base), when the set value is “1”, the MR3 determination value ranges 0 to 997, 0 to 450 are assigned to the non-reach loss variation pattern (PA1-1), 451 to 700 are assigned to the normal reach loss variation pattern (PA2-1), and 701 to 900 are super reach α. It is assigned to the fluctuation pattern (PA2-2) of the loss, and 901 to 997 are assigned to the fluctuation pattern (PA2-3) of the super reach β loss. When the set value is “2”, 0 to 500 of the MR3 determination value range 0 to 997 are assigned to the non-reach loss variation pattern (PA1-1), and 501 to 700 are assigned. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3). When the set value is “3”, 0 to 550 are assigned to the non-reach loss variation pattern (PA1-1) in the MR3 determination value range 0 to 997, and 551 to 700 are included. Normal reach loss pattern (PA2-1) is assigned, 701 to 900 are assigned to the super reach α loss pattern (PA2-2), and 901 to 997 are the super reach β change pattern ( PA2-3).

  Thus, when using the variation pattern determination tables A to D for loss, the ratio for determining the non-reach variation pattern or the normal reach variation pattern is higher than that for determining the super reach variation pattern, and the set values 1, 2, It becomes lower in order of 3. Further, when using the variation pattern determination tables A to D for losing, regardless of the variation pattern determining table, among the determination values, 701 to 900 are the variation pattern of the super reach α loss, and 901 to 997 are the variation pattern of the super reach β loss. If the fluctuation pattern is assigned to each fluctuation pattern, that is, if the fluctuation display result is lost, the fluctuation pattern of the super reach is determined by a common determination ratio regardless of the set value. It is possible to prevent the effect of the presentation from being lowered due to the fact that the variable display by is not executed.

  Note that the “common determination ratio” in the characteristic section 3 of the present embodiment is the same as the determination ratio at the different setting values (this embodiment), and the determination ratio at different setting values. Are the same (for example, between the set value 1 and the set value 3, the determination ratio of the super reach variation pattern differs by about 1%).

  In the present embodiment, when the variation display result is a loss, the embodiment in which the determination ratio of the variation pattern of the super reach is the same regardless of the set value is set. However, the present invention is not limited to this, and when the variation display result is lost, the determination ratio of all variation patterns of non-reach, normal reach, and super reach may be the same regardless of the set value. In addition, only the determination ratio of the variation pattern of either non-reach or normal reach may be the same.

  Also, in this embodiment, when the fluctuation display result is a loss, both the determination ratio of the fluctuation pattern of the super reach α loss and the determination ratio of the fluctuation pattern of the super reach β loss regardless of the set value that has been set. However, the present invention is not limited to this, and when the variation display result is a loss, the variation pattern of the super reach α loss is illustrated. The determination ratio of only one of the determination ratio of the super-reach β loss variation pattern may be the same regardless of the set value.

  In the present embodiment, when the variation display result is a loss, both the determination ratio of the variation pattern of the super reach α loss and the determination ratio of the variation pattern of the super reach β loss regardless of the set value that has been set. However, the present invention is not limited to this, and the set value that is set even when the variable display result is a big hit. Regardless of the set value, the determination ratio of the variation pattern per super reach jackpot may be the same.

  In the present embodiment, when the variation display result is lost, the non-reach and normal reach variation patterns are determined in different proportions according to the set value. Depending on the set value, there may be one or more undecided variation patterns among the non-reach variation pattern and the normal reach variation pattern. In other words, the fact that the determination ratio of the variation pattern varies depending on the set value is that any variation pattern is not determined (the determination proportion is 0%) or a specific variation pattern is 100%. It is also included to determine at a rate of

  Note that the non-reach loss variation pattern (PA1-2) has a shorter variation time than the non-reach loss variation pattern (PA1-1) without shortening, and the non-reach loss variation more than the variation pattern (PA1-2). The pattern (PA1-3) has a shorter variation time (see FIG. 21-5). Therefore, when the number of reserved memories increases, the non-reach loss variation pattern with a short variation time is determined, so that the reserved memories are easily digested, and the number of reserved memories reaches the upper limit number of 4. Occasionally, the winning prize makes it difficult to generate useless starting prizes that are not reserved, and when the number of reserved memories decreases, the fluctuation pattern of non-reach loss without shortening with a long fluctuation time ( By determining PA1-1), it becomes possible to prevent a decrease in the interest of the game due to the fact that the variable display is not executed by increasing the time of the variable display.

  Moreover, in the characteristic part 3 of this Embodiment, as shown to FIGS. 21-10 (A)-FIG. 21-10 (C), it fluctuates using the variation pattern determination table for loss which changes according to the total number of pending storage. Although the form which determines a pattern is illustrated, this invention is not limited to this, The number of holding | maintenance memory | storage in the special symbol of change object (For example, when performing the variable display of a 1st special symbol, it is 1st. The variation pattern may be determined using a variation pattern determination table for losing that varies depending on the number of special symbols reserved and the variation display of the second special symbol.

  Moreover, in each variation pattern determination table for loss of the feature part 3 of the present embodiment, even if the set value set in the pachinko gaming machine 1 is any numerical value of 1 to 3, the variation pattern of the super reach loss The ranges of random number values assigned to (PA2-2 and PA2-3) are the same. However, since the jackpot probability and the loss probability differ depending on the set value set in the pachinko gaming machine 1, the rate at which the change display is actually executed in the change pattern of the super reach loss (the change pattern of the super reach loss) (Appearance rate) varies depending on the set value set in the pachinko gaming machine 1. In addition, in the characteristic part 3 of the present embodiment, the mode in which the change display is executed in the change pattern of the super reach lose according to the set value set in the pachinko gaming machine 1 is exemplified. The present invention is not limited to this, taking into consideration the jackpot probability and the loss probability for each set value, the variable display of the super-reach loser at the same rate regardless of the set value set in the pachinko gaming machine 1 It may be executed in a variation pattern.

  The RAM 102 included in the game control microcomputer 100 illustrated in FIG. 21A may be a backup RAM that is partially or entirely backed up by a backup power source created on a predetermined power supply board. That is, even if the power supply to the pachinko gaming machine 1 is stopped, a part or all of the contents of the RAM 102 is stored for a predetermined period (until the capacitor as the backup power supply is discharged and the backup power supply cannot be supplied). The In particular, at least data corresponding to the game state, that is, the control state of the game control means (such as a special figure process flag) and data indicating the number of unpaid prize balls may be stored in the backup RAM. The data corresponding to the control state of the game control means is data necessary for restoring the control state before the occurrence of a power failure or the like based on the data when the power is restored after a power failure or the like. Further, data corresponding to the control state and data indicating the number of unpaid prize balls are defined as data indicating the progress state of the game.

  The RAM 102 is provided with a game control data holding area (not shown) as an area for holding various data used for controlling the progress of the game in the pachinko gaming machine 1. The game control data holding area includes a first special figure hold storage unit, a second special figure hold storage unit, a general figure hold storage unit, a game control flag setting unit, a game control timer setting unit, and a game control counter. A setting unit and a game control buffer setting unit are provided.

  The first special figure holding storage unit has received a start prize (first start prize) after the game ball has passed (entered) the first start prize opening formed by the winning ball apparatus 6A, but has not yet started. Hold data of a game (a special game using the first special figure in the first special symbol display device 4A) is stored. As an example, the first special figure hold storage unit establishes the first start condition in the passage (entrance) of the game ball in association with the hold number in the order of winning (game ball detection order) to the first start winning opening. The random number value MR1 for variation display result determination, the random number value MR2 for jackpot type determination, the numerical data indicating the random value MR3 for variation pattern extraction extracted from the random number circuit 104 or the like by the CPU 103 based on the This is stored until the number of memories reaches a predetermined upper limit (for example, “4”). The hold data stored in the first special figure hold storage unit in this way indicates that the execution of the special figure game using the first special figure is suspended, and the fluctuation display result (special figure display result) in this special figure game. ) To hold information that makes it possible to determine whether or not to win a big hit.

  The second special figure holding storage unit has a start prize (second start prize) that has not yet started even though the game ball has passed (entered) through the second start prize port formed by the variable prize ball device 6B. The holding data of the figure game (the special figure game using the second special figure in the second special symbol display device 4B) is stored. As an example, the second special figure holding storage unit establishes the second start condition in the passage (entrance) of the game ball in association with the hold number in the order of winning (game ball detection order) to the second start winning opening. The random number value MR1 for variation display result determination, the random number value MR2 for jackpot type determination, the numerical data indicating the random value MR3 for variation pattern extraction extracted from the random number circuit 104 or the like by the CPU 103 based on the The number is stored until a predetermined upper limit value (for example, “4”) is reached. The hold data stored in the second special figure holding storage unit in this way indicates that the execution of the special figure game using the second special figure is being held, and the fluctuation display result (special figure display result) in this special figure game. ) To hold information that makes it possible to determine whether or not to win a big hit.

  In addition, the holding information (first holding information) based on the establishment of the first starting condition by the game ball passing (entering) through the first starting winning opening, and the game ball passing (entering) through the second starting winning opening. Thus, the hold information (second hold information) based on the establishment of the second start winning prize may be stored in association with the hold number in the common hold storage unit. In this case, the start port data indicating whether the game ball has passed (entered) through the first start winning port or the second start winning port may be included in the hold information and stored in association with the hold number. .

  The usual figure holding storage unit stores the holding information of the usual figure game that has not yet been started by the normal symbol display 20 even though the game ball that has passed through the passing gate is detected by the gate switch 21. For example, the general figure hold storage unit associates with the hold numbers in the order in which the game balls pass through the passing gate, and is used for determining the general figure display result extracted from the random number circuit 104 or the like by the CPU 103 based on the passage of the game balls. The numerical data indicating the random value MR4 is stored as pending data until the number reaches a predetermined upper limit (for example, “4”).

  The game control flag setting unit is provided with a plurality of types of flags that can be updated in accordance with the progress of the game in the pachinko gaming machine 1. For example, the game control flag setting unit stores data indicating a flag value and data indicating an on state or an off state for each of a plurality of types of flags.

  The game control timer setting unit is provided with various timers used for controlling the progress of the game in the pachinko gaming machine 1. For example, the game control timer setting unit stores data indicating timer values in each of a plurality of types of timers.

  The game control counter setting unit is provided with a plurality of types of counters for counting count values used for controlling the progress of the game in the pachinko gaming machine 1. For example, the game control counter setting unit stores data indicating the count value in each of a plurality of types of counters. Here, the game control counter setting unit may be provided with a random counter for the CPU 103 to count part or all of the game random numbers so as to be updatable by software.

  In the random counter of the game control counter setting unit, random number values that are not generated by the random number circuit 104, for example, numerical data indicating the random number values MR1 to MR4 are stored as random count values. Numerical data indicating each random value is updated periodically or irregularly. The software executed by the CPU 103 to update the random count value may be for updating the random count value separately from the numerical data update operation in the random number circuit 104, or may be extracted from the random number circuit 104. The random count value may be updated by performing predetermined processing such as scramble processing or arithmetic processing on all or part of the numerical data.

  The game control buffer setting unit is provided with various buffers for temporarily storing data used for controlling the progress of the game in the pachinko gaming machine 1. For example, the game control buffer setting unit stores data indicating buffer values in each of a plurality of types of buffers.

  Next, the game control main process in the characteristic part 3 of this Embodiment is demonstrated. FIG. 21-11 is a flowchart showing game control main processing executed by the CPU 103. In the game control main process, the CPU 103 first sets the interrupt prohibition (122SGSa001). Subsequently, necessary initial setting is performed (122SGSa0022). The initial setting includes setting of a stack pointer, register setting of a built-in device (CTC (counter / timer circuit), parallel input / output port, etc.), setting for making the RAM 102 accessible.

  Next, it is determined whether or not the clear switch is ON (122SGSa003). The clear switch is mounted on, for example, a power supply board. When the power is turned on while the clear switch is ON, an output signal (clear signal) is input to the game control microcomputer 100 via the input port. When the clear switch is ON (122SGSa003; Y), the process proceeds to 122SGSa014. If the clear switch is OFF (122SGSa003; N), it is further determined whether backup data is stored in the RAM 102 (backup RAM) (122SGSa004). When the power supply to the pachinko gaming machine 1 is stopped due to an unexpected power failure or the like (power failure), the CPU 103 executes a power supply stop process immediately before it becomes unable to operate due to the stop of the power supply. In the power supply stop process, a process for turning on a backup flag indicating that data is backed up in the RAM 102, a data protection process for the RAM 102, and the like are executed. Data protection processing includes addition of error detection codes (checksum, parity bits, etc.) and processing for backing up various data. The data to be backed up includes various data (including various flags and various timer states) for progressing the game, as well as the status of the backup flag and an error detection code. In step S4, it is determined whether or not the backup flag is ON. When the backup flag is OFF and backup data is not stored in the RAM 102 (122SGSa004; N),

  When backup data is stored in the RAM 102 (122SGSa004; Y), the CPU 103 checks the data of the backed up data (performed using an error detection code) and determines whether the data is normal (122SGSa005). . In 122SGSa005, for example, it is determined by the parity bit or checksum whether the data in the RAM 102 matches the data at the time of stopping power supply. If it is determined that they match, it is determined that the data in the RAM 102 is normal.

  When it is determined that the data in the RAM 102 is not normal (122SGSa005; N), the process proceeds to 122SGSa014.

  When it is determined that the data in the RAM 102 is normal (122SGSa005; Y), the CPU 103 sets an effect control board activation start waiting timer for waiting for the period until the effect control board 12 is activated (122SGSa006). Then, the value of the production control board activation start wait timer is decremented by -1 (122SGSa007), and it is determined whether or not the production control board activation start wait timer has timed out (122SGSa008). When the production control board activation start wait timer has not timed out (122SGSa008; N), 122SGSa007 is executed again and the production control board 12 is on standby for a period of time. When the production control board activation start wait timer has timed out (122SGSa008; Y), the CPU 103 determines whether or not the lock switch 122SG051 is ON.

  When the lock switch 122SG051 is ON (122SGSa008; Y), a setting value confirmation process for displaying the setting value set in the pachinko gaming machine 1 is executed on the display monitor 122SG029, and the store clerk of the game hall displays the setting value. By visually checking the monitor 122SG029, the set value set in the pachinko gaming machine 1 is set in a state (setting change state) that can be confirmed (122SGSa010). In addition, when the lock switch 122SG051 is OFF (122SGSa008; N) or after execution of the set value confirmation process, the process proceeds to 122SGSa011.

  In 122SGSa011, the CPU 103 performs a recovery process for returning the internal state of the main board 11 to the state when the power supply is stopped. In the restoration process, the CPU 103 sets a work area based on the storage contents of the RAM 102 (contents of backed up data). As a result, when the game state is restored when the power supply is stopped and the special symbol is changing, the change of the special symbol is resumed from the state before the recovery by executing the game control timer interrupt processing described later. Will be.

  And CPU103 transmits the command at the time of a recovery including a hot start notification command with respect to the production | presentation control board 12, assuming that the pachinko gaming machine 1 recovered in the state before the power interruption (hot start), and proceeds to 122SGSa021. (122SGSa013).

  In 122SGSa014, the CPU 103 sets an effect control board activation start waiting timer for waiting for the period until the effect control board 12 is activated. Then, the value of the production control board activation start wait timer is decremented by -1 (122SGSa015), and it is determined whether or not the production control board activation start wait timer has timed out (122SGSa016). When the production control board activation start waiting timer has not timed out (122SGSa016; N), 122SGSa015 is executed again and the production control board 12 is on standby for a period of time. In addition, when the production control board activation start waiting timer has timed out (122SGSa016; Y), the CPU 103 executes the RAM clear process (122SGSa017) for clearing the contents of the RAM 102, and then the lock switch 122SG051 is ON. It is determined whether or not there is (122SGSa019).

  When the lock switch 122SG051 is OFF (122SGSa019; N), the CPU 103 transmits a cold start notification command to the effect control board 12, assuming that the pachinko gaming machine 1 is activated by a cold start, and proceeds to 122SGSa021.

  Further, when the lock switch 122SG051 is ON (122SGSa019; Y), the CPU 103 executes a setting change process (122SGSa020) for changing the setting value set in the pachinko gaming machine 1, and proceeds to 122SGSa021.

  In 122SGSa021, the CPU 103 executes random number circuit setting processing for initial setting of the random number circuit 104. Then, a CTC register built in the game control microcomputer 100 is set so that a timer interrupt is periodically taken every predetermined time (for example, 2 ms) (122SGSa022), and an interrupt is permitted (122SGSa023). Thereafter, the loop processing is started. Thereafter, an interrupt request signal is sent from the CTC to the CPU 103 every predetermined time (for example, 2 ms), and the CPU 103 can periodically execute timer interrupt processing.

  FIG. 21-12 is a flowchart illustrating the setting value confirmation processing executed by the CPU 103. In the set value confirmation processing, the CPU 103 first transmits a set value confirmation start notification command to the effect control board 12 (122SGSa031), and is stored in the address F001 in the RAM 102 (see FIG. 21-13 (B)). The set value is displayed on the display monitor 122SG029 (122SGSa032). Then, it is determined whether or not the lock switch 122SG051 is ON (122SGSa033). When the lock switch 122SG051 is ON (122SGSa033; N), the CPU 103 waits until the lock switch 122SG051 is turned OFF by repeatedly executing 122SGSa033.

  When the lock switch 122SG051 is OFF (122SGSa051; N), the CPU 103 ends the display of the set value on the display monitor 122SG029 (122SGSa034), and sends a set value check end notification command to the effect control board 12. Then, the setting value confirmation process is completed (122SGSa035).

  In the feature unit 3 of the present embodiment, since the setting confirmation state is ended (the setting value confirmation process is ended), the state is the same as that when the normal hot start is started. The command transmitted to the effect control board 12 may be a hot start notification command.

  FIG. 21A is a flowchart illustrating a RAM clear process executed by the CPU 103. In the RAM clear process, the CPU 103 first determines whether or not the data stored in the RAM 102 is normal (122SGSa041). When the data stored in the RAM 102 is normal (122SGSa041; N), it is further determined whether backup data is stored in the RAM 102 (122SGSa042). When the backup data is stored in the RAM 102 (122SGSa042; Y), the CPU 103 designates the second address from the top in the RAM 102 and proceeds to 122SGSa045 (122SGSa043).

  On the other hand, if there is an abnormality in the RAM 102 (122SGSa041; Y) or backup data is not stored in the RAM 102 (122SGSa042; N), the head address in the RAM 102 is designated and the process proceeds to 122SGSa045 (122SGSa044).

  In 122SGSa045, the CPU 103 sets (stores) “00H” at the designated address. In particular, when there is an abnormality in the RAM 102 (122SGSa041; Y) or when there is no backup data (122SGSa042; N), “00H” is set in the address F000, so that the pachinko gaming machine 1 is automatically set to the set value. 1 is set. Then, it is determined whether or not the designated address is the last address (FXXX described later) in the RAM 102 (122SGSa046). If the designated address is not the last address in the RAM 102 (122SGSa046; N), the next address in the RAM 102 is designated and the process proceeds to 122SGSa045 (122SGSa047). If the designated address is the last address in the RAM 102 (122SGSa046) Y) terminates the RAM clear process.

  Note that the RAM 102 in the characteristic section 3 of the present embodiment is assigned addresses (F000 to FXXX) for each storage area, as shown in FIG. 21-13 (B). Among these storage areas, the setting value set in the pachinko gaming machine 1 is stored at the top address (F000) of the RAM 102, and the second address (F001) from the top of the RAM 102 will be described later. Temporary setting values are stored. In addition, other addresses (F002, F003, etc.) include clear switch backup information that can specify whether or not the clear switch was ON when the pachinko gaming machine 1 was started, as well as special figure hold memory and general figure hold. Stored are game information including memory, values of various counters, various timers, various flags, and error information generated in the pachinko gaming machine 1.

  In other words, the RAM clear process in the characteristic section 3 of the present embodiment is the address (F001 to FXXX) excluding the address (F000) where the set value is stored when there is no abnormality in the RAM 102 and there is backup data. ) Stores data other than the set value by storing “00H”. On the other hand, if there is an abnormality in the RAM 102 or there is no backup data, “00H” is stored in all addresses (F000 to FXXXX) in the RAM 102. Is stored to clear all data including the set value.

  In the feature section 3 in this embodiment, the setting value is stored at the head address F000 of the RAM 102. However, the present invention is not limited to this, and the setting value is stored at the last address of the RAM 102. Also good. When the setting value is stored at the last address of the RAM 102 in this way, when the RAM clear process shown in FIG. 21-13 (A) is executed, the data is cleared immediately before the last address of the RAM 102. And “00H” is sequentially stored from the address F000 to the immediately preceding address.

  Furthermore, in the characteristic part 3 in the present embodiment, when the pachinko gaming machine 1 is activated in a setting change state, an example of clearing data excluding the setting value of the RAM 102 is illustrated, but the present invention is not limited to this. Instead, when the pachinko gaming machine 1 is activated in the setting change state, only the game information stored at a predetermined address in the RAM 102 (address F003 in the characteristic section 3 of the present embodiment) is cleared. It may be.

  Further, in the feature unit 3 in the present embodiment, the mode of storing the clear switch backup information in the RAM 102 is exemplified, but the present invention is not limited to this, and the clear switch backup information is used for game control. Processing for storing or reading clear switch backup information in the RAM 102 by storing it in a register of the microcomputer 100 (for example, an accumulator serving as the center of calculation, a flag register for storing the accumulator state, or a general-purpose register) May be omitted so that the processing load on the CPU 103 can be reduced. When the clear switch backup information is stored in the RAM 102, the degree of freedom of the register can be improved as compared with the case where the clear switch backup information is stored in the register of the game control microcomputer 100. It is possible to prevent other information (data) from being overwritten by the processing.

  FIG. 21-14 is a flowchart illustrating setting change processing executed by the CPU 103. In the setting change process, the CPU 103 first transmits a set value change start notification command to the effect control board 12 (122SGSa051). The set value change start notification command may be transmitted immediately before starting the set value change process (at the timing when it is determined in 122SGSa018 that the lock switch 122SG051 is ON). Then, the setting value stored in the address F000 (see FIG. 21-13 (B)) in the RAM 102 is specified (122SGSa052), and the specified setting value is displayed on the display monitor 122SG029 (122SGSa053).

  Next, the CPU 103 determines whether or not the setting changeover switch 122SG052 is operated (122SGSa054). When the setting changeover switch 122SG052 is operated (122SGSa054), the contents of the address F001 in the RAM 102 are updated (122SGSa055). Specifically, when the setting value displayed on the display monitor 122SG029 is “1”, “2”, which is a one-stage disadvantageous setting value for the player than “1”, is used as a temporary setting value. When the setting value stored in the address F001 of the RAM 102 and displayed on the display monitor 122SG029 is “2”, “3”, which is a one-stage disadvantageous setting value for the player, than the “2”. The set value is stored in the address F001 of the RAM 102. When the setting value displayed on the display monitor 122SG029 is “3”, “1” may be stored as the temporary setting value at the address F001 of the RAM 102.

  The CPU 103 displays the setting value (temporary setting value) stored in the address F001 in the RAM 102 on the display monitor 122SG029 (122SGSa056), and determines whether or not the lock switch 122SG051 is ON (122SGSa057). If there is no operation of the setting changeover switch in 122SGSa054 (122SGSa054; N), the process of 122SGSa057 is executed without executing the processes of 122SGSa055 and 122SGSa056.

  When the lock switch 122SG051 is ON (122SGSa057; Y), the CPU 103 repeatedly executes the processes of 122SGSa054 to 122SGSa056 to store a new temporary setting value in the address F001 of the RAM 102, or to store it in the address F001. The process which displays the set value currently displayed on display monitor 122SG029 is performed.

  If the lock switch is OFF in 122SGSa057 (122SGSa057; N), the CPU 103 stores the setting value stored in the address F001 in the RAM 102 in the address F000. That is, the CPU 103 stores the setting value stored in the address F001 (the provisional setting value displayed in the display monitor 122SG029) in the address F000, so that the setting value stored in the address F001 is changed to the present setting value. Is stored as (the set value of the pachinko gaming machine 1 is changed). And CPU103 transmits the setting value designation | designated command according to the setting value stored in the address F000 of RAM102, and a setting value change completion notification command with respect to the production control board 12, and complete | finishes a setting change process. (122SGSa059, 122SGSa060).

  In the feature section 3 of the present embodiment, the setting value change end notification command is transmitted to the effect control board 12 in the setting change process. However, the present invention is limited to this. Instead, the setting value change end notification command may be transmitted to the effect control board 12 within the game control main process (immediately after the setting change process is ended).

  In the characteristic part 3 of the present embodiment, a new setting value is set in the pachinko gaming machine 1 by turning off the lock switch 122SG051 (a temporary setting value stored in the address F001 in the RAM 102). Is stored in the address F000), but the present invention is not limited to this. The game ball is won at the start winning opening, the clear switch is operated, the lock switch 122SG051 is pressed, etc. A new set value may be set in the pachinko gaming machine 1 by turning off the lock switch 122SG051 after performing the above operation.

  Further, in the characteristic part 3 of the present embodiment, when the pachinko gaming machine 1 is started and started in a cold start state or in a setting change state, a cold start notification command or a setting value change start to the effect control board 12 is started. Although a mode in which the RAM clear process is executed before the notification command is transmitted is illustrated, the present invention is not limited to this, and the RAM clear process is a cold start notification to the effect control board 12. It may be executed after transmitting the command or setting value change start notification command.

  Furthermore, in the characteristic part 3 of this embodiment, when the pachinko gaming machine 1 is activated in the setting change state, the RAM clear process is executed before the setting value of the pachinko gaming machine 1 is changed. Although illustrated, the present invention is not limited to this, and the RAM clear process is executed again after the setting value of the pachinko gaming machine 1 is changed (other than the setting value stored at the address F000 of the RAM 102). May be cleared). By doing in this way, malfunctions, such as starting a game with improper data memorize | stored in RAM, can be prevented.

  Furthermore, in the characteristic part 3 of the present embodiment, when the pachinko gaming machine 1 is started by a cold start and when it is started in a setting change state, the common RAM clear process (122SGSa017) is executed and then started. Although the command according to the state (a cold start notification command, a setting value change start notification command or a setting value change end notification command) is illustrated as being transmitted to the effect control board 12, the present invention is not limited thereto. It is not a thing, but when pachinko machine 1 is started with a cold start and when it is started in a setting change state, a command (cold start notification command, setting value change start notification command or setting value change) corresponding to the activated state The common RAM clear process is executed after the end notification command) is transmitted to the effect control board 12. It may be.

  Next, the game control timer interrupt process in the characteristic part 3 of the present embodiment will be described. As shown in FIG. 21-15, the CPU 103 first executes the power-off detection process (122SGS020) in the game control timer interrupt process, and then executes the process from the switch process (S21) to the command control process (S27). . As shown in FIG. 21-16, in the power-off detection process, the CPU 103 first determines whether or not there is an input of a power-off signal indicating that the power supply voltage from the power supply board (not shown) has dropped below a predetermined value. Is determined (122SGSa051). If there is no power-off signal input (122SGSa051; N), the process is terminated. If there is a power-off signal input (122SGSa051; Y), backup data including the set value stored in the RAM 102 is specified. (122SGS053), the specified backup data is stored in a backup data storage area provided in the RAM 102 (122SGS053). Then, check data used when restoring the backup data is created and stored in the backup data storage area (122SGS054), and then the process proceeds to a loop process in which no process is executed until the pachinko gaming machine 1 is disconnected.

  Next, the effect control main process in the characteristic part 3 of this Embodiment is demonstrated. FIG. 21-17 is a flowchart showing the effect control main process executed by the effect control CPU 120. In the effect control main process, the effect control CPU 120 first executes a predetermined initialization process (122SGS401a), clears the RAM 122, sets various initial values, and sets the CTC (counter / timer mounted on the effect control board 12). Circuit) register setting, etc. Further, an initial operation control process is executed (122SGS401b). In the initial operation control process, control for performing the initial operation of the movable body 32 such as control for driving the movable body 32 to return to the initial position and control for performing a predetermined operation check is executed.

  Further, the effect control CPU 120 sets a command reception waiting timer corresponding to the reception waiting period of the command transmitted from the main board 11 (122SGS402). Then, the value of the command reception waiting timer is decremented by -1 (122SGS403), and it is determined whether or not the command reception waiting timer has expired (122SGS404). When the command reception waiting timer has timed out (122SGS404; N), the processes of 122SGS403 and 122SGS404 are repeatedly executed, and the process waits until the command reception waiting timer expires.

  If the command reception waiting timer has timed out (122SGS404; Y), the effect control CPU 120 determines whether or not a hot start notification command has been received (122SGS405). When the hot start notification command is received (122SGS405; Y), that is, when the pachinko gaming machine 1 is recovered from the power interruption, the player information stored in the RAM 122 (in the player information input process described later, the player After receiving the input of information, information including the number of fluctuations, the number of jackpots, the number of superreach, etc. stored in the RAM 122 is cleared and the process proceeds to 122SGS417 (122SGS406).

  When no hot start notification command is received (122SGS405; N), the effect control CPU 120 determines whether or not a cold notification command is received (122SGS407). When the cold notification command is received (122SGS407; Y), the player information and presentation information stored in the RAM 122 (the number of fluctuations and the number of jackpots stored in the RAM 122 since the previous start of the pachinko gaming machine 1) (Information including the number of times of super-reach) (122SGS408), the information stored in the RAM 102 is cleared, and the player information and the production information stored in the RAM 122 are cleared. A RAM clear notification process for notification (execution of RAM clear notification) is executed (122SGS409). In the RAM clear notification process, the display of the image on the image display device 5, the light emission of the game effect lamp 9, the sound output from the speakers 8L and 8R, etc. are performed for a predetermined period (for example, 10 seconds), and the pachinko gaming machine 1 is activated. What is necessary is just to be able to notify that the player information and the production information stored in the RAM 122 are cleared to the store clerk or the like of the game hall. Then, after executing the RAM clear notification process, the process proceeds to 122SGS417.

  If no cold start notification command is received (122SGS407; N), the effect control CPU 120 determines whether or not a setting value change start notification command is received (122SGS410). When the setting value change start notification command is received (122SGS410; Y), that is, when the pachinko gaming machine 1 is activated in the setting change state, a notification that the setting value is being changed (notifying that the setting value is being changed) ) Is executed during execution of the setting value change (122SGS411). The state in which the pachinko gaming machine 1 is activated in the setting change state generally means that the game machine clerk or the like in which the gaming machine frame 122SG003 is opened and the setting value is changed is the main board 11. In this state, the display monitor 122SG029 mounted on the camera is visually recognized. In other words, the setting change state is a state in which an image displayed on the image display device 5 cannot be visually recognized by a store clerk or the like of the game hall that changes the setting value. From the display of the device 5, it is considered that it cannot be determined whether or not the pachinko gaming machine 1 is in the setting change state. Therefore, as a notification during the setting value change, the pachinko gaming machine 1 is activated in the setting change state to the store clerk who changes the setting value by sound output from the speakers 8L and 8R or light emission of the game effect lamp 9. It is sufficient to notify that it is.

  Further, the effect control CPU 120 determines whether or not the setting value change end notification command and the setting value designation command have been received, that is, whether or not the setting value setting value has ended (122SGS412). When the setting value change end notification command and the setting value designation command are received (122SGS412), the setting value newly set in the pachinko gaming machine 1 from the received setting value designation command (the setting stored in the address F000 of the RAM 102). Value) is specified, and the specified setting value is updated and stored in the RAM 122 as setting value information (values “1” to “3” corresponding to the setting value) (122SG413). Then, after executing the processing of 122SGS408 and 122SGS409 described above, the process proceeds to 122SGS417. If at least one of the setting value change end notification command and the setting value designation command is not received (122SGS412; N), the processes of 122SGS411 and 122SGS412 are repeatedly executed.

  In addition, in the characteristic part 3 of this Embodiment, although the form which clears RAM122 after execution of notification during a setting value change is illustrated, this invention is not limited to this, notification during a setting value change and In parallel, the RAM 122 may be cleared. If the clearing of the RAM 122 is completed during the execution of the setting value changing notification, the RAM clear notification may be executed in parallel with the setting value changing notification, or the RAM clearing may be performed after the completion of the setting value changing notification. Notification may be executed.

  Further, when the set value change start notification command is not received (122SGS410; N), the effect control CPU 120 determines whether or not the set value check start notification command is received, that is, the pachinko gaming machine 1 is in the setting check state. It is determined whether or not it has been activated (122SGS414). When the setting value confirmation start notification command is received (122SGS414; Y), a notification process during setting value confirmation for notifying that the setting confirmation state is present (the setting value can be confirmed from the display monitor 122SG029) is performed. Execute (122SGS415). In the notification process during the set value confirmation, the store clerk of the game hall that has started the pachinko gaming machine 1 by displaying an image on the image display device 5, light emission of the game effect lamp 9, sound output from the speakers 8L, 8R, and the like, What is necessary is just to be able to alert | report that it is a setting confirmation state around the pachinko gaming machine 1. If there is no reception of the set value confirmation end notification command (122SGS410; N), the effect control CPU 120 proceeds to the process of 122SGS405, and issues a hot start notification command, a cold start notification command, a setting value change start notification command, and a setting. Wait until any command of the value confirmation start notification command is received (the processes of 122SGS405, 122SGS407, 122SGS410, 122SGS414 are repeatedly executed).

  Thus, in the production control main process in the characteristic part 3 of the present embodiment, as shown in FIG. 21-18, when the pachinko gaming machine 1 is activated in a hot start or setting change state, player information ( While clearing the player information input from the RAM 122, such as the number of fluctuations, the number of jackpots, the number of super-reach, etc., from the RAM 122, the production information (the number of fluctuations, the number of jackpots since the last activation of the pachinko gaming machine 1, The super-reach frequency and the like) and set value information (any one of “1” to “3” corresponding to the set value set in the pachinko gaming machine 1) are not cleared from the RAM 122. In addition, when the pachinko gaming machine 1 is started by a cold start, the player information and the effect information are cleared from the RAM 122, while the set value information is not cleared from the RAM 122. Further, when the pachinko gaming machine 1 is activated in the setting change state, the player information and the effect information are not cleared from the RAM 122, while the setting value information is stored in the setting value information already stored in the RAM 122. Overwrite (update storage).

  That is, in the characteristic part 3 of the present embodiment, the information to be cleared from the RAM 122 differs depending on whether the pachinko gaming machine 1 is started in a hot start, a cold start, a setting confirmation state, or a setting change state.

  In the characteristic part 3 of the present embodiment, when the pachinko gaming machine 1 is activated by a cold start, the player information and the production information are cleared, and the pachinko gaming machine 1 is activated in the setting change state. Shows an example in which the player information and the production information are not cleared, but the present invention is not limited to this, and even when the pachinko gaming machine 1 is activated in the setting change state, Person information and production information may be cleared.

  Returning to FIG. 21-17, in 122SGS417, the effect control CPU 120 identifies which one of the hot start notification command, the cold start notification command, the set value change end notification command, and the set value confirmation end notification command is received, and displays the image. The device 5 starts displaying an initial symbol corresponding to the received command. Specifically, as shown in FIG. 21-19, when the received command is a hot start notification command, a setting value confirmation end notification command, or a cold start notification command, that is, the pachinko gaming machine 1 has a new setting value. If it is not set, display of decorative symbols is started with the combination of “1”, “2”, and “3” from the left on the image display device 5 as initial symbols. If the received command is a set value change end notification command, that is, if there is a possibility that a new set value has been set in the pachinko gaming machine 1, the image display device 5 will receive “ Display of decorative symbols is started with a combination of “4”, “5”, and “6”.

  In the feature part 3 in the present embodiment, when there is a possibility that a new set value is set in the pachinko gaming machine 1, “4”, “5” ”,“ 6 ”is illustrated as an example of starting the display of decorative symbols. However, the present invention is not limited to this, and a setting value (for example,“ 1 ”) advantageous to the player is provided. When set, a combination of “4”, “5”, and “6” is used as the initial symbol at a higher rate than when the setting value that is disadvantageous to the player (for example, “3”) is set. It may be displayed. By doing in this way, it can be suggested that a setting value advantageous to the player is set in the pachinko gaming machine 1, and the gaming interest can be improved.

  In the feature part 3 in the present embodiment, when there is a possibility that a new set value is set in the pachinko gaming machine 1, “4”, “5” ”,“ 6 ”is illustrated as an example of starting the display of decorative symbols. However, the present invention is not limited to this, and a setting value (for example,“ 1 ”) advantageous to the player is provided. The initial symbol displayed on the image display device 5 may be different between the case where the setting value is set and the case where the setting value unfavorable to the player is set (for example, “3”). In addition, when a setting value (for example, “1”) advantageous for the player is set and when a setting value (for example, “3”) unfavorable for the player is set, the speakers 8L and 8R You may make it vary the volume of the sound to output, the light quantity of the game effect lamp 9, etc. FIG.

  Then, returning to FIG. 21-17, the CPU 120 for effect control sets “4” in the prefetch restriction counter in order to restrict the execution of the prefetch notice effect in the first four fluctuations (122SGS418). Thereafter, the effect control CPU 120 shifts to a loop process for monitoring a timer interrupt flag (122SGS419). When the timer interrupt occurs, the effect control CPU 120 sets a timer interrupt flag in the timer interrupt process. If the timer interrupt flag is set (turned on), the effect control CPU 120 clears the flag (122SGS420) and executes the following processing.

  The effect control CPU 120 first executes an activation notification process for notifying that the pachinko gaming machine 1 has been activated (122SGS421). In the activation notification process, for example, it is determined whether or not the interruption is the first interruption from the activation of the pachinko gaming machine 1. If this is the first interruption since the start of the pachinko gaming machine 1, it is determined whether a hot start notification command, a cold start notification command, a set value change end notification command, or a set value check end notification command is received, The activation notification process table corresponding to the received command is selected, and the activation notification process timer corresponding to the received command is started. After the start notification process timer is started, the start notification process is executed at the next and subsequent interruptions to start the pachinko machine 1 based on the value of the start notification process timer and the start notification process table. What is necessary is just to perform alerting | reporting.

  In the feature part 3 in this embodiment, the command received when the pachinko gaming machine 1 is started is any one of a hot start notification command, a cold start notification command, a set value change end notification command, and a set value check end notification command. Depending on whether or not there is an activation notification mode of the pachinko gaming machine 1.

  Specifically, as shown in FIG. 21-20, when a hot start notification command or a set value confirmation end notification command is received when the pachinko gaming machine 1 is started, that is, a new one is added to the pachinko gaming machine 1. When the set value is not set, the game effect lamp 9 emits light for 60 seconds and outputs the output sound A from the speakers 8L and 8R for 30 seconds. Note that the light emission start timing for 60 seconds of these game effect lamps 9 and the output start timing of the output sound A for 30 seconds from the speakers 8L and 8R are the same. The output start timing of the output sound A from the speakers 8L and 8R for 30 seconds may be different.

  Further, when a cold start notification command is received when starting the pachinko gaming machine 1, that is, when a new setting value is not set in the pachinko gaming machine 1 and data in the RAM 102 is cleared The game effect lamp 9 emits light for 60 seconds and outputs the output sound B from the speakers 8L and 8R for 30 seconds. Note that the light emission start timing for 60 seconds of these game effect lamps 9 and the output start timing of the output sound B for 30 seconds from the speakers 8L, 8R are the same, but the light emission start timings of these game effect lamps 9 for 60 seconds are the same. The output start timing of the output sound B from the speakers 8L and 8R for 30 seconds may be different.

  In other words, the specific control in the present invention means that when the pachinko gaming machine 1 is started in a hot start or setting confirmation state, the effect control CPU 120 emits light for 60 seconds from the game effect lamp 9 and 30 seconds from the speakers 8L and 8R. When the pachinko gaming machine 1 is started with a cold start, the effect control CPU 120 emits the game effect lamp 9 for 60 seconds and the speakers 8L and 8R output sound for 30 seconds. Includes both performing the output of B.

  Further, when the set value change end notification command is received when the pachinko gaming machine 1 is activated, that is, when there is a possibility that a new set value is set in the pachinko gaming machine 1, the gaming effect Light emission of the lamp 9 for 40 seconds, output of the output sound C for 20 seconds from the speakers 8L and 8R, and display of a message image for 40 seconds (for example, a message image indicating that the setting value has been changed) on the image display device 5 Execute. It should be noted that the light emission start timing for 40 seconds of these game effect lamps 9, the output start timing of the output sound C for 20 seconds from the speakers 8L and 8R, and the display start timing of the message image on the image display device 5 are the same. The light emission start timing of the game effect lamp 9 for 40 seconds, the output start timing of the output sound C from the speakers 8L and 8R for 20 seconds, and the display start timing of the message image on the image display device 5 may be different.

  In particular, when a set value change end notification command is received when the pachinko gaming machine 1 is activated, a hot start notification command or a cold start notification command is received when the pachinko gaming machine 1 is activated. In contrast, since a message image is displayed on the image display device 5, it is easy to recognize that the set value of the pachinko gaming machine 1 has been changed.

  In other words, the special control in the present invention means that when the pachinko gaming machine 1 is activated in the setting change state, the effect control CPU 120 emits light for 40 seconds from the game effect lamp 9 and outputs sound for 20 seconds from the speakers 8L and 8R. The output of C and the display of the message image for 40 seconds on the image display device 5 are executed.

  As described above, since the light emission start timing of the game effect lamp 9, the sound output start timing of the speakers 8L and 8R, and the image display start timing of the image display device 5 are the same, these pachinko games As for the notification mode when the machine 1 is activated, the notification period is 60 seconds when the hot start notification command or the set value confirmation end notification command is received (when the pachinko gaming machine 1 is activated by hot start), the cold start notification command Is received (when the pachinko gaming machine 1 is started with a cold start), the notification period is 60 seconds, and when the set value change end notification command is received (when the pachinko gaming machine 1 is started with the setting changed state) The period is 40 seconds.

  In addition, in the characteristic part 3 of this Embodiment, although the start notification when the pachinko machine 1 starts is illustrated using the game effect lamp 9, the speakers 8L and 8R, and the image display device 5, it illustrates. However, the present invention is not limited to this, and the pachinko gaming machine 1 is provided with an external output terminal capable of outputting a signal to a management device such as a game hall management computer or each counter, and the pachinko gaming machine 1 is activated. As an activation notification at the time, a signal that can specify that the pachinko gaming machine 1 has been activated may be output from the external output terminal to the management device.

  In addition, in the characteristic part 3 of the present embodiment, a part of the device that performs the activation notification is common even when the pachinko gaming machine 1 is activated in any of the hot start, cold start, setting change state, and setting confirmation state. Although there is an example of a mode in which light emission from the game effect lamp 9 and sound output from the speakers 8L and 8R are performed in any case, the present invention is not limited to this, and the pachinko gaming machine 1 is hot. The device that performs the activation notification differs depending on whether it is activated in the start, cold start, setting change state, or setting confirmation state (for example, when the pachinko gaming machine 1 is activated by cold start, the image display device 5 If the pachinko gaming machine 1 is activated in the setting change state, a signal is output from the external output terminal to the management device, etc.) Unishi may be.

  Moreover, you may vary the alerting | reporting aspect in each apparatus which performs starting alerting | reporting according to whether the pachinko game machine 1 was started by hot start, cold start, a setting change state, or a setting confirmation state. Specifically, when the pachinko gaming machine 1 is activated by a cold start, all the game effect lamps 9 provided in the pachinko gaming machine 1 are caused to emit light, while the pachinko gaming machine 1 is activated in a setting change state. In some cases, only a part of the game effect lamps 9 provided in the pachinko gaming machine 1 may be caused to emit light.

  Further, when the pachinko gaming machine 1 is activated in the setting change state, since the gaming machine frame 122SG003 is opened, sound is output from only one of the speakers 8L and 8R (to the pachinko gaming machine 1). When three or more speakers are provided, sound is output from only some of the speakers), and when the pachinko gaming machine 1 is started by a cold start, the gaming machine frame 122SG003 is closed. Since there are many cases, sound output from all the speakers 8L and 8R may be performed. Further, when the pachinko gaming machine 1 is activated in the setting change state, the image display device 5 displays a message image indicating that the setting is being changed, such as “setting changing”, while the pachinko gaming machine 1 When starting at the start, the image display device 5 may display a message image indicating that the RAM 102 or the RAM 122 is cleared, such as “RAM is cleared”.

  Further, when the pachinko gaming machine 1 is provided with a plurality of the above-described external output terminals, the terminals that output signals to the management device may be made different according to each notification. For example, when the pachinko gaming machine 1 is activated in the setting change state, a period until the change of the set value is completed (until the setting value change end notification command or the set value designation command is received) as the setting value change notification. A signal is output from the terminal corresponding to the setting change to the management device over a period of time, and after the change of the setting value is completed, a signal is output from the terminal corresponding to the error or RAM clear to the management device as RAM clear notification. In addition, when the pachinko gaming machine 1 is activated by a cold start, it is only necessary to output a signal from the terminal corresponding to an error or RAM clear to the management device as a RAM clear notification.

  In addition, when using an external output terminal in common with each alerting | reporting, you may make it vary the timing which outputs a signal with respect to a management apparatus according to each alerting | reporting.

  As described above, in the start notification process, the form in which the start notification mode of the pachinko gaming machine 1 is different according to the received command is illustrated, but the present invention is not limited to this, and the pachinko gaming machine 1 The activation notification may be executed in one notification mode regardless of the received command. Moreover, although the activation notification of the pachinko gaming machine 1 is illustrated as being executed when any of a hot start notification command, a cold start notification command, a set value confirmation end notification command, and a set value change end notification command is received. However, the present invention is not limited to this, and any of these hot start notification commands, cold start notification commands, setting value confirmation end notification commands, and setting value change end notification commands may be received even if the pachinko gaming machine 1 is received. You may provide the command which does not perform starting alerting | reporting.

  Moreover, in the feature part 3 in the present embodiment, as an initialization effect in the present invention, activation notification in a different mode is executed according to a command received when the pachinko gaming machine 1 is activated, or the pachinko gaming machine 1 However, the present invention is not limited to this, and the present invention is not limited to this. The mode of activation notification and the combination of decorative symbols may all differ depending on the command received when the pachinko gaming machine 1 is activated, or only a part of them may be the same.

  Moreover, in the characteristic part 3 in this embodiment, when the pachinko gaming machine 1 is activated by a hot start, activated by a cold start, activated in a setting change state, or activated in a setting confirmation state However, the present invention is not limited to this, and when the pachinko gaming machine 1 is started in a hot start or in a setting confirmation state, the start notification is performed. May not be executed.

  Returning to FIG. 21-17, next, the effect control CPU 120 executes a power-off detection process (122SGS422). In the power-off detection process, as shown in FIG. 21-22, the effect control CPU 120 first receives a power-off signal indicating that the power supply voltage from the power supply board (not shown) has dropped below a predetermined value. Is determined (122SGS431). When there is no power-off signal input (122SGS431; N), the process is terminated. When there is a power-off signal input (122SGS431; Y), the setting value information and player information stored in the RAM 122 are displayed. The backup data to be included is specified (122SGS432), and the specified backup data is stored in the backup data storage area provided in the RAM 122 (122SGS433). Then, check data used when restoring the backup data is created and stored in the backup data storage area (122SGS434), and then the process shifts to a loop process in which no process is executed until the pachinko gaming machine 1 is disconnected.

  Returning to FIG. 21-17, next, the effect control CPU 120 analyzes the received effect control command and performs a process of setting a flag according to the received effect control command (command analysis process: 122SGS423). In this command analysis process, the effect control CPU 120 confirms the content of the command transmitted from the main board 11 stored in the reception command buffer. The effect control command transmitted from the game control microcomputer 100 is received by an interrupt process based on the effect control INT signal and stored in a buffer area formed in the RAM 122. In the command analysis process, it is analyzed which command (see FIG. 21-3) is the effect control command stored in the buffer area.

  Next, the effect control CPU 120 performs effect control process processing (122SGS424). In the effect control process, a process corresponding to the current control state (effect control process flag) is selected from the processes corresponding to the control state, and display control of the image display device 5 is executed.

  Next, an effect random number update process (122SGS425) for updating a counter value for generating an effect random number such as a jackpot symbol determination random number, an player information input process (122SGS426) for receiving input of player information, and a game A player information output process (122SGS427) for outputting player information and an effect information aggregating process (122SGS428) for aggregating effect information are executed. Thereafter, the process proceeds to S52.

  In the player information input process, the effect control CPU 120 operates the player by operating the stick controller 31A or the push button 31B (password generated in an external server in which the player's game information is stored in advance). The player can access the server by using a communication terminal such as a smartphone and can receive the generated password, and stores the player information specified from the password in the RAM 122. Furthermore, the CPU 120 for effect control updates and stores the number of changes, the number of big hits, the number of super reach, etc. as player information stored each time the change display, the big hit game, and the super reach are executed.

  In the player information output process, the effect control CPU 120 generates a two-dimensional code based on the player information stored in the RAM 122 by operating the stick controller 31A or the push button 31B of the player, and the two-dimensional code. Is displayed on the image display device 5. After the display of the two-dimensional code, the player information stored in the RAM 122 is cleared. Note that the player reads the two-dimensional code displayed on the image display device 5 with a mobile terminal such as a smartphone, and transmits the player information accumulated in the current game to an external server, whereby a pachinko gaming machine The accumulated player information in 1 can be stored in the server.

  In the effect information totaling process, the effect control CPU 120 updates and stores the number of changes, the number of jackpots, the number of super reach, and the like stored in the RAM 122 as effect information every time the variable display, jackpot game, and super reach are executed. To do.

  Next, the effect control process process in the characteristic part 3 of this Embodiment is demonstrated. As shown in FIG. 21-22, in the effect control process, the effect control CPU 120 first determines whether or not the value of the prefetch restriction counter is “0” (122SGS441). When the value of the prefetching restriction counter is “0” (122SGS441; Y), after executing the prefetching notice setting process (S161), any of S170 to S177 (see FIG. 7) is performed according to the effect control process flag. This process is executed.

  Further, when the value of the prefetch restriction counter is any one of “1” to “4” (122SGS441; N), it is further determined whether or not the value of the effect control process flag is “1” (122SGS442). ). When the value of the production control process flag is “0”, “2” to “7” (122SGS442; N), any one of S170 to S177 (see FIG. 7) according to the production control process flag. When the process is executed and the value of the production control process flag is “1” (122SGS442; Y), the value of the prefetching restriction counter is decremented by 1 (122SGS443), and S170 to S177 ( One of the processes is executed (see FIG. 7). By executing the processes of 122SGS441 to 122SGS443 as described above, in the pachinko gaming machine 1 immediately after startup, the execution of the pre-reading notice effect is restricted until the variable display is executed four times.

  In the feature part 3 in the present embodiment, the effect control CPU 120 executes the effect control main process and the effect control process process based on the activation of the pachinko gaming machine 1, whereby the variable display is performed four times. However, the present invention is not limited to this, and the CPU 103 determines whether or not the start winning prize determination process is performed based on the start of the pachinko gaming machine 1 (see FIG. 5) is not executed, the execution of the pre-reading notice effect may be restricted over four fluctuation displays.

  In addition, in the feature part 3 in the present embodiment, regardless of whether the pachinko gaming machine 1 is started in a cold start or in a setting change state, it is related to the progress of the game based on the fact that the game is possible. As an example of the setting, a mode of restricting the execution of the pre-reading notice effect over four variable displays is illustrated, but the present invention is not limited to this, and it is set whether the pachinko gaming machine 1 is started by a cold start. Regardless of whether or not the game is started in the changed state, the settings relating to the game progress depend on the sound volume output from the speakers 8L and 8R, the light amount of the game effect lamp 9, and the RTC. The production setting may be set to the factory default state.

  As described above, in the pachinko gaming machine 1 according to the present embodiment, as shown in FIG. 9H, the effect control CPU 120 performs the reach effect of the super reach A and the super reach B as the first suggestion effect, and the second effect. Super Reach C and Super Reach D reach directing can be performed as suggestives, and when Super Reach C or Super Reach D reach directing is performed, the reach of Super Reach C or Super Reach D Since the title 31AK007 corresponding to the reach effect of the super reach C or super reach D is notified from the start of the effect, the notification of the title 31AK007 corresponding to the reach effect can be executed, and the effect of the effect can be improved.

The present embodiment also includes the following fourth invention. That is, conventionally, as pachinko gaming machines, for example, there are those described in Japanese Patent Application Laid-Open No. 2016-42880 and those described in Japanese Patent Application Laid-Open No. 2010-200902. However, in the gaming machines described in Japanese Patent Application Laid-Open No. 2016-42880 and Japanese Patent Application Laid-Open No. 2010-200902, when the gaming machine is turned on and activated (power supply to the gaming machine is started) A command (control information) output from the main board to the effect control board (effect control means) to restore the gaming machine based on the memory in which the main board (game control board) is backed up A state in which the command output from the main board to the effect control board to clear the backed up memory regardless of the memory in which the main board is backed up, and the setting value of the gaming machine can be changed Therefore, when the command output from the main board to the effect control board is the same, when the game machine is turned on and activated, the effect control board Making it impossible perform appropriate processing according to the movement state. Therefore, when paying attention to the problem, as a gaming machine of means 1 of the fourth invention for solving the problem,
A gaming machine (for example, a pachinko gaming machine 1) that can be controlled in an advantageous state (for example, a big hit gaming state) advantageous to a player,
Setting means (for example, the CPU 103 performs setting change processing shown in FIG. 21-14) that can be set to any one of a plurality of setting values (for example, setting values 1 to 3) by a predetermined operation. Part), and
Game control means capable of controlling the progress of the game and capable of executing control to the advantageous state based on the set value set by the setting means (for example, the CPU 103 executes the process control process shown in FIG. 5) Part)
Backup storage means (e.g., RAM 102) capable of retaining stored contents for a predetermined period even when power supply to the gaming machine is stopped;
The effect control means (for example, the effect control CPU 120 shown in FIG. 21-17 clears the RAM shown in FIG. 21-17) that can control the effect based on the control information (for example, the effect control command shown in FIG. A part for performing a notification process, a notification process during a set value change, a notification process during a set value confirmation), and
With
The game control means recovers based on the stored content stored in the backup storage means as an activation state when power supply to the gaming machine is started after power supply to the gaming machine is stopped State (for example, hot start), second start state (for example, cold start) in which the stored content is erased and restored regardless of the stored content stored in the backup storage unit, and setting by the setting unit is possible And a different control information corresponding to the activated state is output to the effect control means (for example, as shown in FIGS. 21-11 and 21-14). In addition, when the pachinko gaming machine 1 is activated by hot start, the CPU 103 transmits a hot start notification command to the effect control board 12, and the pachinko machine 1 When the machine 1 is activated by a cold start, the CPU 103 transmits a cold start notification command to the effect control board 12, and when the pachinko gaming machine 1 is activated in the setting change state, the CPU 103 causes the effect control board 12 to (The part that sends the setting value change start notification command)
According to this feature, the effect control means can execute appropriate processing according to the activation state of the game control means when power supply is started. .

Furthermore, as means 2 of the fourth invention,
It includes an effect control storage means (for example, RAM 122) capable of storing information used by the effect control means,
Of the information stored in the effect control storage means, the information to be erased differs depending on whether the activation state corresponding to the control information is the second activation state or the third activation state ( For example, as shown in FIG. 21-18, information that is cleared from the RAM 102 differs depending on whether the pachinko gaming machine 1 is started in a hot start, a cold start, a setting confirmation state, or a setting change state)
According to this feature, it is possible to perform appropriate erasure according to the activated state.

Furthermore, as means 3 of the fourth invention,
The game control means can output control information (for example, a set value change end notification command) designating the end of the third activation state,
The effect control means performs special control according to the end of the third activation state based on the output of the control information designating the end of the third activation state (for example, as shown in FIG. 21-20). Thus, based on the reception of the set value change end notification command, the effect control CPU 120 emits the game effect lamp 9 for 40 seconds and outputs the output sound C for 20 seconds from the speakers 8L and 8R in the activation notification process. And a portion for executing display of a 40 second message image (for example, a message image indicating that the setting value has been changed) on the image display device 5)
According to this feature, it is possible to recognize that the third activation state in which the set value can be set has ended by special control.

Furthermore, as means 4 of the fourth invention,
When the control information corresponding to the first activation state or the second activation state is output, the effect control means performs specific control in accordance with the output (for example, as shown in FIG. Based on the reception of the start notification command or the cold start notification command, the effect control CPU 120 executes the light emission of the game effect lamp 9 and the sound output from the speakers 8L and 8R in the start notification process)
According to this feature, it is possible to recognize that the set value cannot be set by the specific control.

Furthermore, as means 5 of the fourth invention,
The effect control means performs different control depending on the activation state to which the control information corresponds (for example, as shown in FIG. 21-20, the effect control CPU 120 determines that the effect control CPU 120 has received the hot start notification command. On the basis of the fact that the game effect lamp 9 emits light for 60 seconds and the output sound A is output from the speakers 8L and 8R for 30 seconds and the cold start notification command is received in the start notification process, the effect control CPU 120 Based on the fact that the game effect lamp 9 emits light for 60 seconds and the output sound B is output from the speakers 8L, 8R for 30 seconds in the start-up notification process, and the setting value change end notification command is received. The CPU 120 emits light for 40 seconds from the game effect lamp 9 and 20 seconds from the speakers 8L and 8R in the startup notification process. A portion for executing the output sound C and a message image for 40 seconds in the image display device 5. Also, as shown in Fig. 21-19, based on the reception of the hot start notification command or the cold start notification command. Based on the display of the combination of “1”, “2”, and “3” as the initial symbol and the reception of the set value change end notification command, the decorative symbol “4”, “ 5 ”, the part displayed by the combination of“ 6 ”)
A gaming machine characterized by this is described, and according to this characteristic, it is possible to easily recognize which activated state it is.

Furthermore, as means 6 of the fourth invention,
When the setting value is changed in the third activation state, the game control means deletes the backup information stored in the backup storage means except for the specific information (for example, FIG. As shown in 21-23, the RAM clear process is executed based on the change of the set value, and the data after the address F001 excluding the set value data stored in the address F000 in the RAM 102 is cleared.
According to this feature, it is possible to appropriately erase the backup information in accordance with the change of the setting value.

Furthermore, as means 7 of the fourth invention,
The game control means includes game information storage means (for example, RAM 102) capable of storing game information used for controlling the progress of the game,
The timing at which at least a part of the game information stored in the game information storage means is erased differs between the first activation state and the second activation state (for example, as shown in Modification 11, a pachinko gaming machine When starting 1 with a cold start, RAM clear processing is executed at the timing before the cold start notification command is sent to the effect control board 12, and when starting the pachinko gaming machine 1 in the setting change state, (The part that executes the RAM clear process at the timing after transmitting the set value change start notification command to the control board 12)
According to this feature, erasing of game information can be executed at an appropriate timing according to the activated state.

The present embodiment also includes the fifth invention described below. That is, conventionally, as pachinko gaming machines, for example, there are those described in Japanese Patent Application Laid-Open No. 2016-42880 and those described in Japanese Patent Application Laid-Open No. 2010-200902. However, in the gaming machines described in Japanese Patent Application Laid-Open No. 2016-42880 and Japanese Patent Application Laid-Open No. 2010-200902, when the gaming machine is turned on and activated (power supply to the gaming machine is started) ) When clearing the backed up memory regardless of the main board being backed up (general activation state) and when changing the setting value of the gaming machine (setting activation state) If the notification mode is the same, it is difficult to identify whether the gaming machine is in the general activation state or the setting activation state, and it is difficult to find an unauthorized setting change of the gaming machine. It was. Therefore, when paying attention to the problem, as a gaming machine of means 1 of the fifth invention for solving the problem,
A gaming machine (for example, a pachinko gaming machine 1) that can be controlled in an advantageous state (for example, a big hit gaming state) advantageous to a player,
Setting means (for example, the CPU 103 performs setting change processing shown in FIG. 21-14) that can be set to any one of a plurality of setting values (for example, setting values 1 to 3) by a predetermined operation. Part), and
Game control means capable of controlling the progress of the game and capable of executing control to the advantageous state based on the set value set by the setting means (for example, the CPU 103 executes the process control process shown in FIG. 5) Part)
Backup storage means (for example, RAM 102 or RAM 122) capable of retaining the stored contents for a predetermined period even when power supply to the gaming machine is stopped;
An activation notifying means capable of notifying the activation state of the game control means when the power supply to the gaming machine is started (for example, the portion where the effect control CPU 120 executes the activation notifying process shown in FIG. 21-17);
With
The game control means includes, as the activation state, a general activation state in which the stored contents stored in the backup storage means are cleared and activated (for example, a state in which the pachinko gaming machine 1 is activated by a hot start), and the setting means A setting activation state (for example, a setting change state) in which the setting is valid;
The activation notification means performs the notification in a different manner between the general activation state and the set activation state (for example, when the pachinko gaming machine 1 is activated with a cold start as shown in FIG. 21-20). When the pachinko gaming machine 1 is activated in the setting change state after the game effect lamp is emitted and the sound is output from the speakers 8L and 8R, the game effect lamp is emitted and the sound is output from the speakers 8L and 8R. (The part which performs the display of the message image on the display device 5)
According to this feature, it is possible to easily identify whether the activation state is the general activation state or the setting activation state, so that it is possible to easily detect fraud due to the setting. .

Furthermore, as means 2 of the fifth invention,
The activation notification means can execute various notifications according to priority,
The priority of the notification of the set activation state is higher than the priority of the notification of the general activation state (for example, as shown in the modified example 12, during the execution of the high-priority setting value change notification, the priority (The part which does not execute low RAM clear notification)
According to this feature, since the notification of the setting activation state is given priority, it is possible to prevent the fraud due to the setting from being detected.

Furthermore, as means 3 of the fifth invention,
The activation notification means notifies the set activation state and the general activation state in different notification periods (for example, the notification period when the pachinko gaming machine 1 is started by a cold start is 60 seconds, the pachinko gaming machine 1 The part where the notification period is 40 seconds when is activated in the setting change state)
According to this feature, appropriate notification can be executed in a period corresponding to the activated state.

Furthermore, as means 4 of the fifth invention,
The activation notification means includes
First notification means (for example, image display device 5) and second notification means (for example, game effect lamp 9 and speakers 8L and 8R) different from the first notification means,
The setting activation state is notified by the first notification means (for example, as shown in FIG. 21-20, a message image is displayed on the image display device 5).
The general activation state is notified by the second notification means (for example, as shown in FIG. 21-20, the game effect lamp 9 emits light and the sound output from the speakers 8L and 8R is executed).
According to this feature, since activation notification is executed by different notification means, it can be easily recognized which activation state it is.

Furthermore, as means 5 of the fifth invention,
The game control means includes a game control (for example, a common setting as a setting relating to a game progress in the game available state after the set activation state and the game available state after the general activation state (for example, A game in which the CPU 103 does not execute the start winning determination process after the pachinko gaming machine 1 is activated, so that the execution of the pre-reading notice effect can be executed up to four display variations. According to this feature, it is possible to prevent the occurrence of inconvenience such as the fact that the setting has been changed by executing game control with different settings.

The present embodiment also includes a sixth invention described below. That is, conventionally, there is a gaming machine described in, for example, JP-A-2006-137351. However, in the gaming machine described in JP-A-2006-137351, if the game information is unintentionally erased due to a change in the setting value, the store or the player where the gaming machine is installed There is a risk that it will be disadvantageous. Therefore, when paying attention to the problem, as a gaming machine of means 1 of the sixth invention for solving the problem,
A gaming machine (for example, a pachinko gaming machine 1) that can be controlled in an advantageous state (for example, a big hit gaming state) advantageous to a player,
Setting means (for example, the CPU 103 performs setting change processing shown in FIG. 21-14) that can be set to any one of a plurality of setting values (for example, setting values 1 to 3) by a predetermined operation. Part), and
Game control means capable of controlling the progress of the game and capable of executing control to the advantageous state based on the set value set by the setting means (for example, the CPU 103 executes the process control process shown in FIG. 5) Part)
Game information storage means (for example, RAM 102) capable of storing game information used by the game control means to control the progress of the game;
Informing means (for example, the part where the effect control CPU 120 executes the setting value change confirmation notifying process in the modification 8) capable of informing in advance that the game information stored in the gaming information storage means will be deleted;
With
The game control means erases at least a part of the game information stored in the game information storage means when the setting value is newly set by the setting means (for example, the CPU 103 shows a modification 8). RAM clear processing part),
The predetermined operation includes a setting change start operation (for example, an operation for turning on the clear switch), a setting change operation (for example, an operation for turning on the setting changeover switch 122SG052), and a setting change completion operation (for example, turning off the lock switch 122SG051). Operation)
The setting means can perform the setting change operation by performing the setting change start operation (for example, as shown in FIGS. 21-23 as modified example 8, the CPU 103 determines that the clear switch is ON ( 122SGSa054a; Y) after which the processes of 122SGSa054d to 122SGSa056 can be executed), and the setting change completion operation is performed after the setting change operation that has become possible, and the setting changed by the setting change operation The value is set (for example, as shown in FIG. 21-23 as Modification 8), the CPU 103 determines that the lock switch is OFF (122SGSa057; N) and executes the process of 122SGSa058).
The notification means performs the notification when the setting change start operation is performed (for example, as shown in FIG. 21-24 as a modified example 8, the CPU 120 for effect control uses a first set value change start notification command). Is the part that executes the setting value change confirmation notification process based on the determination that the data has been received (122SGS410; Y))
According to this feature, it is possible to prevent game information from being erased unintentionally due to a change in a set value.

Furthermore, as means 2 of the sixth invention,
If the setting change completion operation is performed without performing the setting change operation after the setting change starting operation is performed, the game control unit displays the game information stored in the game information storage unit. Not erased (for example, as shown in FIGS. 21-23 as modification 8), after determining that the setting switch is not operated (122SGSa054d; N), the CPU 103 further determines that the lock switch 122SG051 is OFF. In this case, based on the fact that the same set value is stored in the address F000 and the address F001 of the RAM 102 (122SGSa057c; Y), the portion for ending the set value change process without executing the RAM clear process (122SGSa060) )
According to this feature, it is possible to prevent a player from being disadvantaged by erasing game information even though a set value is not changed. be able to.

Furthermore, as means 3 of the sixth invention,
The notification means can notify that the game information is not erased by the game control means when the predetermined operation is completed without the setting change completion operation (for example, FIG. As shown in -25, the part 120 where the message image 122SG005M1 is displayed on the image display device 5 when the effect control CPU 120 executes the setting value change confirmation notification process)
According to this feature, the operator can recognize the operation method for preventing the game information from being erased, so that the game information is not intended. It can be further prevented from being erased.

Furthermore, as means 4 of the sixth invention,
The game control means stores a game stored in the game information storage means when an erasure condition is satisfied and a predetermined confirmation operation is performed when power supply to the gaming machine is started. At least a part of the information is erased (for example, as shown in FIGS. 21-11, after the CPU 103 determines that the clear switch is ON in the game control main process (122SGSa003; Y), the RAM clear process (122SGSa017) is executed. Part),
The notification means also performs the notification even when the erasure condition is satisfied (for example, a portion where a message image 122SG005M2 is displayed on the image display device 5 as shown in FIG. 21-26 as Modification 9).
A gaming machine characterized by this is described, and according to this characteristic, it is possible to prevent game information from being erased unintentionally.

Furthermore, as means 5 of the sixth invention,
Production control means (for example, production control CPU 120) capable of controlling production based on control information output from the game control means;
Effect control storage means (for example, RAM 122) capable of storing information used by the effect control means;
A selection means (for example, a stick controller 31A or a push button 31B) capable of selecting whether or not to execute the deletion in the effect control storage means;
With
If the erasure condition is satisfied when the power supply to the gaming machine is started, and the selection means selects not to execute the erasure in the effect control storage means, the game information storage At least a part of the game information stored in the means is erased (for example, as shown in the modification 10, only the RAM 102 is cleared), and the erasure condition is satisfied when power supply to the gaming machine is started. And when the erasing in the effect control storage means is selected by the selection means, at least a part of the game information stored in the game information storage means is erased. Then, at least a part of the information stored in the storage device for effect control is deleted (for example, as shown in the modification 10, the RAM 102 and the RAM 122 Part to clear both)
According to this feature, whether or not to erase the storage means for effect control is executed together with the erasure in the game information storage means when the erasure condition is satisfied. Can be selected.

  As mentioned above, although the characteristic part 3 in embodiment of this invention was demonstrated with drawing, specific structure is not restricted to these embodiment, There exists a change and addition in the range which does not deviate from the summary of this invention. Is included in the present invention.

  For example, in the characteristic part 3 of the above-described embodiment, as shown in FIGS. 21-11, when the clear switch is ON when the pachinko gaming machine 1 is activated, after the RAM clear process (122SGSa017) is executed, the lock switch Although the configuration change process (122SGSa020) is executed when 122SG051 is ON (122SGSa018; Y) and a new setting value can be set in the pachinko gaming machine 1, the present invention is limited to this. If the clear switch is ON when the pachinko gaming machine 1 is activated, it is first determined whether or not the lock switch 122SG051 is ON. If the lock switch 122SG051 is ON, in the setting change process Even if the RAM clear process is executed based on the setting of a new set value in the pachinko machine 1 There.

  When the RAM clear process is executed based on the fact that a new set value has been set in the pachinko gaming machine 1 in the setting change process as described above, as shown in FIG. In the process, first, the CPU 103 transmits a first setting value change notification command indicating that the CPU 103 has started executing the setting change process to the effect control board 12 (122SGSa051). Next, the set value stored in the address F000 in the RAM 102 is specified (122SGSa052), and the specified set value is displayed on the display monitor 122SG029.

  Then, the CPU 103 determines whether or not the clear switch is ON (122SGSa054a). When the clear switch is OFF (122SGSa054a; N), it is further determined whether or not the lock switch 122SG051 is ON ( 122SGSa054b). When the lock switch 122SG051 is ON (122SGSa054b; Y), the processes of 122SGSa054a and 122SGSa054b are repeatedly executed, and the process waits until the clear switch is turned ON or the lock switch 122SG051 is turned OFF. If the lock switch 122SG051 is OFF, a setting value change end notification command is transmitted to the effect control board 12 to end the setting change process (122SGS061).

  When the clear switch is ON (122SGSa054a; Y), the CPU 103 issues a second setting value change start notification command indicating that the setting value of the pachinko gaming machine 1 can be changed by operating the setting changeover switch 122SG052. It transmits with respect to the production | presentation control board 12 (122SGSa054c), and it is determined whether there exists operation of the setting switch 122SG052 (122SGSa054d).

  When the setting changeover switch 122SG052 is operated (122SGSa054d; Y), the contents of the address F001 in the RAM 102 are updated (122SGSa055). Specifically, when the setting value displayed on the display monitor 122SG029 is “1”, “2”, which is a one-stage disadvantageous setting value for the player than “1”, is used as a temporary setting value. When the setting value stored in the address F001 of the RAM 102 and displayed on the display monitor 122SG029 is “2”, “3”, which is a one-stage disadvantageous setting value for the player, than the “2”. The set value is stored in the address F001 of the RAM 102. When the setting value displayed on the display monitor 122SG029 is “3”, “1” may be stored as the temporary setting value at the address F001 of the RAM 102.

  The CPU 103 displays the setting value (temporary setting value) stored in the address F001 in the RAM 102 on the display monitor 122SG029 (122SGSa056), and determines whether or not the lock switch 122SG051 is ON (122SGSa057). If there is no operation of the setting changeover switch in 122SGSa054 (122SGSa054; N), the process of 122SGSa057 is executed without executing the processes of 122SGSa055 and 122SGSa056.

  When the lock switch 122SG051 is ON (122SGSa057; Y), the CPU 103 repeatedly executes the processes of 122SGSa054d to 122SGSa056 to store a new temporary setting value in the address F001 of the RAM 102, or to store it in the address F001. The process which displays the set value currently displayed on display monitor 122SG029 is performed.

  When the lock switch is OFF in 122SGSa057 (122SGSa057; N), the CPU 103 determines whether or not a setting value (temporary setting value) is stored in the address 001 of the RAM 102 (122SGSa057a). If the setting value (temporary setting value) is not stored in the address 001 of the RAM 102, that is, if the lock switch 122SG051 is turned off without the setting changeover switch 122SG052 being operated, a setting value change end notification command is produced. It transmits with respect to the control board 12, and a setting change process is complete | finished (122SGS061).

  On the other hand, when a setting value (temporary setting value) is stored at address 001 of RAM 102 (122SGSa057a; Y), the setting value stored at address F000 and the setting value stored at address F001 in RAM 102 are stored. Are compared (122SGSa057b) to determine whether or not the same set value is stored in the address F000 and the address F001 in the RAM 102 (122SGSa057c). When the same setting value is stored in the address F000 and the address F001 in the RAM 102 (122SGSa057c; Y), that is, when the setting value of the pachinko gaming machine 1 is not changed, the setting value change end notification command is effected. It transmits with respect to the board | substrate 12, and a setting change process is complete | finished (122SGS061).

  Further, when different setting values are stored in the address F000 and the address F001 in the RAM 102 (122SGSa057c; N), that is, when the setting value of the pachinko gaming machine 1 is changed, it is stored in the address F001 in the RAM 102. The setting value is stored in the address F000, that is, the setting value stored in the address F001 is stored as the main setting value of the pachinko gaming machine 1 (122SGSa058).

  Then, a set value designation command corresponding to the set value stored in the address F000 in the RAM 102 (the newly set value of the pachinko gaming machine 1) is transmitted to the effect control board 12 (122SGSa059), and the RAM is cleared. The process is executed (122SGSa060). The RAM clear process (122SGSa060) executes the same process as the RAM clear process described with reference to FIG. 21-13, and data excluding the set value stored at the address F000 in the RAM 102 (stored after the address F001). Clear data). After the RAM clear process (122SGSa060) is executed, a setting value change end notification command is transmitted to the effect control board 12 to end the setting change process (122SGS061).

  FIG. 21-24 is a flowchart illustrating a part of the effect control main process in the eighth modification. In the effect control main process in the modified example 8, when the effect control CPU 120 determines that no cold start notification command has been received (122SGS407; N), as shown in FIG. It is determined whether or not a command has been received (122SGS410a). When the first setting value change start notification command is not received (122SGS410a; N), the process proceeds to 122SGS414 (see FIG. 21-17), and when the first setting value change start notification command is received (122SGS410a; Y). Then, the setting value change confirmation notification process is executed (122SGS410b), and the game information stored in the RAM 102 is cleared by changing the setting value in the image display device 5, or if the setting value is not changed, the lock is displayed. An instruction to turn off the switch 122SG051 is displayed as a message image 122SG005M1 (see FIG. 21-25 (A)).

  Then, the effect control CPU 120 determines whether or not a second set value change start notification command has been received (122SGS410c). When the second setting value change start notification command has not been received (122SGS410C; N), it is further determined whether or not a setting value change end notification command has been received (122SGS410d). If no setting value change end notification command has been received (122SGS410d; N), the processes of 122SGS410b to 122SGS410d are repeatedly executed, and the process waits until the first setting value change start notification command or the setting value change end notification command is received. When the setting value change end notification command is received (122SGS410d; Y), the process proceeds to 122SGS414 (see FIG. 21-17).

  When the second set value change start notification command is received (122SGS410c; Y), the effect control CPU 120 executes a set value change notifying process for notifying that the set value changing operation is being performed. (122SGS411), it is determined whether or not a setting value change end notification command has been received (122SGS411a). When the setting value change end notification command has not been received (122SGS411a; N), the processes of 122SG411 and 122SGS411a are repeatedly executed to wait until the setting value change end notification command is received. When the setting value change end notification command is received (122SGS411a; Y), it is determined whether or not the setting value designation command is received (122SGS411b). If no setting value designation command is received (122SGS411b; N), the process proceeds to 122SGS414 (see FIG. 21-17). If there is a setting value designation command (122SGS411b; Y), the received setting value designation command is used. A setting value newly set in the pachinko gaming machine 1 (setting value stored in the address F000 of the RAM 102) is specified, and the specified setting value is set as setting value information (“1” to “3” corresponding to the setting value). ) And updated and stored in the RAM 122 (122SG413). And it progresses to 122SGS408 (refer FIG. 21-17).

  As described above, the CPU 103 executes the setting change process, and the effect control CPU 120 executes the effect control main process, so that the game shop clerk or the like turns on the clear switch and the lock switch 122SG051 to turn on the pachinko gaming machine. When 1 is activated, as shown in FIG. 21-25 (A), in the image display device 5, by changing the setting value, game information and the like stored in the RAM 102 are cleared, or the setting value is changed. If not, an instruction to turn off the lock switch 122SG051 is displayed as a message image 122SG005M1.

  In this way, when the store clerk or the like of the game hall turns off the lock switch 122SG051 while the message image 122SG005M1 is displayed on the image display device 5, as shown in FIG. 21-25 (B), the pachinko gaming machine 1 Without changing the set value of the image and without clearing the RAM 102, the decorative symbols are displayed in the image display device 5 as initial symbols in a combination of “1”, “2”, and “3”. On the other hand, when a store clerk or the like of the game hall turns on the clear switch again while the message image 122SG005M1 is displayed on the image display device 5, as shown in FIG. 21-25 (C), the pachinko gaming machine 1 Becomes a setting change state, and it is notified that the setting value is being changed by displaying an image on the image display device 5, emitting light from the game effect lamp 9, sound output from the speakers 8L and 8R, and the like.

  In the setting change state, when the game shop clerk or the like turns off the lock switch 122SG051 without setting a new setting value, or when the game shop clerk or the like sets the new setting value, the same setting value as the original setting value is set. When the setting value is set and the lock switch 122SG051 is turned OFF, the setting value of the pachinko gaming machine 1 is not changed and the RAM 102 is cleared as shown in FIG. 21-25 (D). The decorative pattern is displayed as a combination of “1”, “2”, and “3” as an initial symbol on the image display device 5. Further, when the game shop clerk or the like sets a new setting value (changes the setting value) and turns off the lock switch 122SG051 in the setting change state, as shown in FIG. 21-25 (E), the setting value The RAM 102 is cleared based on the change, and the decorative symbols are displayed in the image display device 5 as a combination of “4”, “5”, and “6” as an initial symbol.

  In the modification 8, the game shop clerk or the like starts the pachinko gaming machine 1 with the clear switch and the lock switch 122SG051 turned on, thereby changing the set value in the image display device 5 to change the RAM 102. The game information and the like stored in the table is cleared, and when the set value is not changed, an instruction to turn off the lock switch 122SG051 is displayed as the message image 122SG005M1. It is not limited, and as shown in FIG. 21-26 as a modified example 9, a pachinko clerk or the like starts the pachinko gaming machine 1 with the clear switch turned on, so that the image display device 5 has a pachinko machine. Starting the gaming machine 1 with a cold start clears the game information stored in the RAM 102, The instruction If it does not start the machine 1 at cold start to reboot of the pachinko gaming machine 1, may be displayed as a message image 122SG005M2.

  By doing so, for example, when a game shop clerk or the like accidentally turns the clear switch ON to try to start the pachinko machine 1 by hot start, the pachinko machine 1 is started by cold start. Thus, it is possible to prevent the game information stored in the RAM 102 from being unintentionally cleared.

  Moreover, in the said modification 8 and the said modification 9, when the pachinko gaming machine 1 is activated in a setting change state or when it is activated in a cold start, the message image 122SG005M1 and the message image 122SG005M2 are displayed on the image display device 5. However, the present invention is not limited to this, and whether or not to clear the RAM 102 by displaying a message image on the image display device 5 is illustrated. The confirmation may be performed either when the pachinko gaming machine 1 is activated in the setting change state or when it is activated by a cold start, or both.

  In the modification 8, the game shop clerk or the like starts the pachinko gaming machine 1 with the clear switch and the lock switch 122SG051 turned on, thereby changing the set value in the image display device 5 to change the RAM 102. The game information and the like stored in the table is cleared, and when the set value is not changed, an instruction to turn off the lock switch 122SG051 is displayed as the message image 122SG005M1. When the RAM 102 is cleared based on the fact that the pachinko gaming machine 1 is started by a cold start or the setting value is changed, as shown in FIG. The fact that the setting values have been changed in the image display device 5 and the fact that the RAM 102 has been cleared, and that these setting values have been changed. And a message image 122SG005M3 including an option for whether or not to clear the RAM 122 in response to the RAM 102 being cleared, and accepting selection of whether or not to clear the RAM 122 by operating the push button 31B or the stick controller 31A. You may do it.

  When clearing the RAM 122 is selected by operating the push button 31B or the stick controller 31A, the presentation control CPU 120 clears other information except for the set value information in the RAM 122 by executing the RAM clear process (results). If both the RAM 102 and the RAM 122 are cleared) and the clear of the RAM 122 is not selected by the operation of the push button 31B or the stick controller 31A, the RAM 122 is not cleared (as a result, only the RAM 102 is cleared).

  Moreover, in the characteristic part 3 in the said embodiment, the case where the pachinko machine 1 is started in a cold start and the case where the pachinko machine 1 is started in a setting change state are the same timing (a cold start notification command or setting to the effect control board 12). The mode in which the RAM clear process is executed at the timing before the value change start notification command is transmitted is illustrated, but the present invention is not limited to this. For example, as a modified example 11, the pachinko gaming machine 1 is cold When starting at the start, the RAM clear process is executed at the timing before the cold start notification command is transmitted to the effect control board 12, and when the pachinko gaming machine 1 is started in the setting change state, the effect control board 12 Timing after transmitting the set value change start notification command to the stage (more specifically, the effect control board 12 On the other hand, after sending the set value change end notification command, that is, after changing the set value), the pachinko gaming machine 1 is started in a cold start and in the setting change state, such as executing a RAM clear process. The timing for clearing the RAM 102 may be different depending on the case.

  Moreover, in the characteristic part 3 in the embodiment, as shown in FIG. 21-17, the RAM 102 and the RAM 122 are always cleared when the pachinko gaming machine 1 is started in a cold start and when it is started in a setting change state. However, the present invention is not limited to this, and as a twelfth modification, a pachinko gaming machine 1 is illustrated. Is activated in the setting change state to notify that the setting value of the pachinko gaming machine 1 is being changed (execution of the setting value changing notification), priority is given to each notification, such as not executing the RAM clear notification. When a high priority is set (for example, a setting value change notification is being executed), a low priority notification (for example, RAM clear notification) is not executed. It may be.

  Thus, when providing priority to each alerting | reporting, you may perform alerting | reporting with low priority after execution of alerting | reporting with high priority. In this case, the low-priority notification is executed in a shorter period than when the high-priority notification is not executed, so that the notification execution period is prevented from becoming long. May be.

  Moreover, in the characteristic part 3 in the said embodiment, although the setting with respect to the movable body 32 is not performed at the time of starting of the pachinko gaming machine 1, this invention is not limited to this, and starting of the pachinko gaming machine 1 At the time, the confirmation operation as to whether or not the movable body 32 operates normally may be executed in parallel with the above-described RAM clear notification, notification during setting value change notification, notification during setting value confirmation, and various activation notifications. . Note that when the pachinko gaming machine 1 is activated by a hot start or a cold start, the activation notification for 60 seconds is executed, so that the confirmation operation of the movable body 32 can be executed during the activation notification. In addition, when the pachinko gaming machine 1 is activated in the setting change state, since the setting value is changed in addition to the activation notification for 40 seconds, the movable body 32 is being changed during the change of these setting values and the activation notification for 40 seconds. The confirmation operation can be executed.

  Note that the confirmation operation of the movable body 32 may be executed from the time when power is supplied to the pachinko gaming machine 1 regardless of the activation mode of the pachinko gaming machine 1, or a hot start notification command, a cold start notification command, The set value change start notification command, the set value change end notification command, the set value check start notification command, the set value check end notification command, and the like may be executed from the time when the effect control CPU 120 (effect control board 12) receives the effect. Further, when the production control CPU 120 executes the confirmation operation of the movable body 32 from the time when the set value change start notification command is received, that is, during the change of the set value of the pachinko gaming machine 1, the confirmation operation of the movable body 32 is executed. In this case, even if an error in the confirmation operation occurs, priority may be given to the notification during the setting value change, and the error notification in the confirmation operation may not be performed.

  Moreover, in the characteristic part 3 of the embodiment, when the pachinko gaming machine 1 is activated in the setting change state, the new setting value is reflected in the game as it is by setting a new setting value in the pachinko gaming machine 1. However, the present invention is not limited to this, and when a new setting value is set in the pachinko gaming machine 1 in the setting change state, the pachinko gaming machine 1 is once restarted (pachinko gaming). A new set value may be reflected in the game by activating the machine 1 by hot start). In addition, when a new set value is reflected in the game by restarting the pachinko gaming machine 1 in this way, when the pachinko gaming machine 1 is started in the setting change state, the confirmation operation of the movable body 32 is performed. After the movable body 32 is slightly moved from the origin position toward the effect position, a confirmation operation that can be performed in a relatively short period of time, such as moving the movable body 32 to the origin position again, is performed. When the operation is restarted, as a confirmation operation of the movable body 32, after confirming that the movable body 32 is moved from the origin position to the effect position, the movable body 32 is moved again to the origin position. An operation may be performed. By doing in this way, the period required for the confirmation operation | movement of the movable body 32 at the time of starting the pachinko machine 1 can be shortened.

  Further, in the characteristic section 3 of the above-described embodiment, the setting value stored in the address F000 is disclosed as the specific information that is not cleared from the RAM 102. However, the present invention is not limited to this, and is cleared from the RAM 102. Specific information that is not included may include RTC settings, error history, and the like.

  Furthermore, in the characteristic part 3 of the above embodiment, a setting value as specific information that is not cleared in the RAM 102, a temporary setting value as information to be cleared, game information, and the like are illustrated. However, the present invention is not limited to this. For example, two RAMs are provided on the game control microcomputer 100, specific information such as setting values that are not cleared is stored in one RAM, and temporary setting values and games are stored in the other RAM. Information to be cleared such as information may be stored. In this way, the RAM (temporary setting value, game information, etc.) on the other side is stored depending on whether the pachinko gaming machine 1 is started in hot start, cold start, setting change state, or setting confirmation state. Whether or not to clear the RAM) can be made different. Further, an area for storing specific information that is not cleared and an area for storing information to be cleared may be provided in the RAM 102.

  Further, when two RAMs are provided on the game control microcomputer 100 as described above, an SRAM (Static Randam Access Memory) in which a RAM for storing specific information that is not cleared such as a set value is connected to a backup battery. On the other hand, by setting the RAM that stores temporary setting values, game information, etc. as FeRAM (Ferroelectric Randam Access Memory), it is possible to reliably clear data that is more important than other data such as setting values. It may be possible to memorize without storing.

  Moreover, in the characteristic part 3 of the said embodiment, although the clear switch is illustrated in the form mounted in the power supply board, this invention is not limited to this, The clear switch is the main board 11. May be installed. By doing in this way, since it becomes unnecessary to newly attach a clear switch with respect to the existing power supply board, the manufacturing cost of the pachinko gaming machine 1 can be suppressed.

  Moreover, in the characteristic part 3 in the above embodiment, the display monitor 122SG051 for displaying the set value on the main board 11 is exemplified. However, the present invention is not limited to this, and the main board is not limited thereto. 11, a display monitor 122SG051 may be provided in the vicinity of the setting changeover switch 122SG052 so that a setting value changing operation can be easily performed.

  Moreover, in the characteristic part 3 in the said embodiment, although the form which mounts the display monitor 122SG051 for displaying a setting value on the main board | substrate 11 was illustrated, this invention is not limited to this, Pachinko game In the case where it is possible to calculate the accessory ratio, continuous accessory ratio, and the like in the machine 1, the calculated accessory ratio and continuous accessory ratio may be displayed on the display monitor 122SG051.

  Moreover, in the characteristic part 3 in the said embodiment, although the display monitor 122SG051 and the setting changeover switch 122SG052 are provided in the main board | substrate 11, the form which can change the setting value of the pachinko gaming machine 1 is illustrated. The present invention is not limited to this. For example, the set value of the pachinko gaming machine 1 may be changed using a monitor (7-segment monitor), a reset button, or the like mounted on the payout control board.

  Moreover, in the characteristic part 3 in the said embodiment, when starting the pachinko machine 1 in a setting change state, CPU103 transmits the setting value change start notification command with respect to the production control board 12, and has illustrated the form. However, the present invention is not limited to this, and as shown in FIGS. 21-11, when the pachinko gaming machine 1 is started in the setting change state, it is the same as when the pachinko gaming machine 1 is started by a cold start. Since the RAM clear process (122SGSa017) is executed, both the set value change start notification command and the cold start notification command may be transmitted to the effect control board 12.

  Further, in the feature unit 3 in the embodiment, the setting value 1 is the most advantageous setting value for the player, and the setting value 3 is the most unfavorable setting value for the player (the setting value 1 is the most unfavorable for the game hall). However, the present invention is not limited to this, and the setting value 1 is the most disadvantageous for the player. A setting value may be used, and setting value 3 may be a setting value that is most advantageous to the player.

  In particular, in the feature part 3, when there is an abnormality in the RAM 102 (122SGSa041; Y) or when there is no backup data (122SGSa042; N), the pachinko gaming machine 1 is set by setting “00H” to the address F000. The state in which the set value 1 is automatically set, that is, the pachinko gaming machine 1 is in the most advantageous state for the player. For this reason, some players cause the pachinko gaming machine 1 to improperly set the set value 1 by causing the CPU 103 to execute the RAM clearing process (see FIG. 21-13 (A)) after causing an abnormality in the RAM 102. It is assumed to set. Therefore, as described above, by setting the setting value 1 as the most unfavorable setting value for the player, the pachinko gaming machine 1 can play the game based on the CPU 103 executing the RAM clearing process when the RAM 102 has an abnormality. It becomes possible to prevent the player from being in an advantageous state, and the security of the pachinko gaming machine 1 can be improved.

  Moreover, in the characteristic part 3 of the said embodiment, the special control and specific control which CPU120 for effect control performs, the lighting period of the game effect lamp 9, the sound and output period output from the speakers 8L and 8R, an image Although an example in which whether or not an image is displayed on the display device 5 is different (the control related to notification at startup is different) is illustrated, the present invention is not limited to this, and these special control and specific control In addition to the above-described control related to the start-up notification, the initial symbol (see FIGS. 21-19), the background image, the character displayed on the image display device 5 after the pachinko gaming machine 1 is ready to play. Controls related to effects such as differences (such as differences in the effect mode and effect after the game is possible in the pachinko gaming machine 1), and confirmation operation of the movable body 32 Whether rows, aspects and execution period of the confirmation operations may include control surrounding confirmation operation, such as different. In other words, the special control and the specific control in the present invention may be any control in which at least a part of the target controlled by the CPU 120 for effect control, the control mode of the CPU 120 for effect control, the control period of the CPU 120 for effect control, and the like are different. .

  Further, in the characteristic part 3 in the above embodiment, a pachinko gaming machine is applied as an example of a gaming machine. For example, by setting a predetermined number of bets for one game using a gaming value, Can be started, and one game is completed by deriving a variation display result to an image display device capable of variably displaying a plurality of types of symbols that can be identified, and the variation display derived to the image display device The present invention can also be applied to a slot machine in which a winning can be generated according to the result.

  In the embodiment, the title corresponding to the super-reach reach effect is displayed from the start of the reach effect of super-reach (characteristic portion 31AK in FIGS. 1 to 19), the lock switch 109SG051 and the setting changeover switch 109SG052. Is operated, any one of a plurality of set values can be set in the pachinko gaming machine 1, and the lock switch 109SG051 and the setting changeover switch 109SG052 are opened and closed by opening and closing the gaming machine frame 109SG003 and the glass door frame 109SG003a. A form that can be switched between an operable state and an inoperable state (characteristic part of FIGS. 20-1 to 20-39), any of a plurality of set values in the pachinko gaming machine 1 in the main board 11 (CPU 103). Can be set, and the setting secrecy converted from the set value Are stored in the RAM 102, and on the side of the production control board 12 (production control CPU 120), a suggestion production (morning background production) suggesting the set value that has been set can be executed (FIGS. 20-40 to 20-). 46, the pachinko gaming machine 1 transmits different commands from the main board 11 (CPU 103) to the presentation control board 12 (production control CPU 120) according to the activated state of the pachinko gaming machine 1. A mode of notifying that the RAM 102 is cleared when the setting value of the pachinko gaming machine 1 is changed can be executed in a different manner depending on whether it is started in a cold start or in a setting change state. (Characteristic part 3 of FIG. 21-1 to FIG. 21-27) has been disclosed, but a plurality of characteristic parts among these characteristic parts may be applied to the pachinko gaming machine 1. There.

  For example, when applying the characteristic part 31AK of FIGS. 1-19 and the characteristic part 2 of FIGS. 20-40 to 20-46 to the pachinko gaming machine 1, as a suggestion effect that suggests a set value, You may make it change the aspect of the title corresponding to the reach production of a super reach according to the set value set. In addition, when the feature 2 in FIGS. 20-40 to 20-46 and the feature 3 in FIGS. 21-1 to 21-27 are applied to the pachinko gaming machine 1, the setting value is changed to the address F000 in the RAM 102. The set secret value may be stored.

(Description of the characteristic part 4 of this Embodiment)
Next, the characteristic part 4 of this Embodiment is demonstrated. FIG. 22-1 is a front view of the pachinko gaming machine 1 according to the present embodiment and shows an arrangement layout of main members. The first movable body 116SG032L is disposed on the left side of the image display device 5 in the pachinko gaming machine 1, and the second movable body 116SG032R is disposed on the right side of the image display device 5. The third movable body 116SG032U is disposed above the image display device 5, and the fourth movable body 116SG032D is disposed below the image display device 5.

  22-2, the effect control board 12 includes a first movable body unit 116SG131 for operating the first movable body 116SG032L, a second movable body unit 116SG132 for operating the second movable body 116SG032R, and a third. A third movable body unit 116SG133 for operating the movable body 116SG032U and a fourth movable body unit 116SG134 for operating the fourth movable body 116SG032D are respectively connected.

  In the first movable body unit 116SG131, the drive motor 116SG131a for operating the first movable body 116SG032L and the first movable body 116SG032L are at the origin position (the left side position of the image display device 5 shown in FIG. 22-4 (A)). That the origin position sensor 116SG131b and the first movable body 116SG032L are arranged at the effect position (the front position of the image display device 5 shown in FIG. 22-4 (A)). And an effect position sensor 116SG131c for detection.

  In the second movable body unit 116SG132, the drive motor 116SG132a for operating the second movable body 116SG032R and the second movable body 116SG032R are the origin positions (the right side position of the image display device 5 shown in FIG. 22-4 (A)). The origin position sensor 116SG132b and the second movable body 116SG032R for detecting that they are disposed at the production position (the front position of the image display device 5 shown in FIG. 22-4 (A)). And an effect position sensor 116SG132c for detection.

  For this reason, as shown to FIG. 22-4 (A), 1st movable body 116SG032L and 2nd movable body 116SG032R move to each production position from each origin position, and are in front of the image display apparatus 5. The tip ends.

  In the third movable body unit 116SG133, the drive motor 116SG133a for operating the third movable body 116SG032U and the third movable body 116SG032U are at the origin position (the upper position of the image display device 5 shown in FIG. 22-4 (B)). The origin position sensor 116SG133b for detecting the arrangement and the third movable body 116SG032U are arranged at the effect position (the front upper position of the image display device 5 shown in FIG. 22-4 (B)). And an effect position sensor 116SG133c for detection.

  The fourth movable body unit 116SG134 has a drive motor 116SG134a for operating the fourth movable body 116SG032D and the fourth movable body 116SG032D at the origin position (a position below the image display device 5 shown in FIG. 22-4 (B)). The origin position sensor 116SG134b for detecting the arrangement and the fourth movable body 116SG032D are arranged at the effect position (the front lower position of the image display device 5 shown in FIG. 22-4 (B)). And an effect position sensor 116SG134c for detection.

  For this reason, as shown to FIG. 22-4 (B), 3rd movable body 116SG032U and 4th movable body 116SG032D move the image display apparatus 5 from a player by moving to each production | presentation position from each origin position. It functions as a shutter to hide.

  Note that the CPU 120 for effect control in the characteristic part 4 of the present embodiment performs the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116SG032U, the fourth in the variable display effect process, the big hit effect process, and the like. As a movable body operation effect for operating the movable body 116SG032D, the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116SG032U, and the fourth movable body 116SG032D can be individually operated.

  The effect control CPU 120 executes the movable body motion effect in the variable display effect process and the big hit effect process, suggesting that the variable display result is a big hit, notifying the number of rounds during the big hit game, and the big hit game What is necessary is just to be able to perform notification of being controlled to a certain variation state after the end.

  As shown in FIG. 22-2, the effect control board 12 is connected to the VDP 116SG500. The effect control CPU 120 can cause the VDP 116 SG 500 to execute image display control in the image display device 5 by transmitting a predetermined command to the VDP 116 SG 500.

  FIG. 22C is an explanatory diagram of an example of the contents of the effect control command used in the feature unit 4 of the present embodiment. The effect control command has, for example, a 2-byte structure, and the first byte indicates MODE (command classification), and the second byte indicates EXT (command type). The first bit (bit 7) of the MODE data is always “1”, and the first bit of the EXT data is “0”. Note that the command form shown in FIG. 22-3 is an example, and other command forms may be used. In this example, the control command is composed of two control signals. However, the number of control signals constituting the control command may be one or a plurality of three or more.

  In the example shown in FIG. 22C, the command 8001H is a first change start command that specifies the start of change in the special figure game using the first special figure in the first special symbol display device 4A. Command 8002H is a second variation start command for designating the start of variation in a special symbol game using the second special symbol in second special symbol display device 4B. The command 81XXH is a decoration that is variably displayed in the “left”, “middle”, and “right” decoration symbol display areas 5L, 5C, and 5R in the image display device 5 in response to the special symbol variation display in the special symbol game. This is a variation pattern designation command for designating a variation pattern (variation time) such as a symbol. Here, XXH indicates an unspecified hexadecimal number, and may be a value arbitrarily set according to the instruction content by the effect control command. In the variation pattern designation command, different EXT data is set according to the variation pattern to be designated.

  Command 8CXXH is a change display result notification command, and is an effect control command for designating a change display result such as a special symbol or a decorative symbol. In the variable display result notification command, for example, a determination result (predetermined result) whether the variable display result is “losing”, “big hit” or “small hit”, and the variable display result is “big hit”. In this case, different EXT data is set in accordance with a determination result (a jackpot type determination result) as to which of a plurality of types the jackpot type is.

  The command 8F00H is a symbol confirmation command for designating stoppage (decision) of the decorative symbols in the decorative symbol display areas 5L, 5C, and 5R of the “left”, “middle”, and “right” in the image display device 5. The command 95XXH is a gaming state designation command for designating the current gaming state in the pachinko gaming machine 1. In the gaming state designation command, for example, different EXT data is set according to the current gaming state in the pachinko gaming machine 1. As a specific example, the command 9500H is a first gaming state designation command corresponding to a gaming state in which time reduction control is not performed (low probability low base state, normal state), and command 9501H is a gaming state in which time reduction control is performed (low The second gaming state designation command corresponding to the high-precision base state, the short-time state), and the third gaming state designation corresponding to the gaming state (the high-precision high-base state, the certain variation state) in which the time-shortening control and the certainty-variable control are performed. It is a command.

  The command 96XXH is an error (abnormality) designation command that designates the occurrence of an error (abnormality) in the pachinko gaming machine 1 and the type of the error (abnormality) that has occurred. In the error (abnormality) designation command, for example, EXT data corresponding to each error (abnormality) is set, thereby specifying which error (abnormality) has been determined on the production control board 12 side. be able to.

  The command A0XXH is a hit start designation command (also referred to as “fanfare command”) for designating display of an effect image indicating the start of the big hit gaming state or the small hit gaming state. The command A1XXH is a big winning opening releasing notification command for notifying that the big winning opening is a period in the big hit gaming state or the small hit gaming state. The command A2XXH is a notification command after opening the big winning opening that notifies that the big winning opening has changed from the open state to the closed state in the big hit gaming state or the small hit gaming state. The command A3XXH is a hit end designation command for designating display of an effect image at the end of the big hit gaming state or the small hit gaming state.

  In the hit start designation command and the hit end designation command, for example, EXT data similar to that of the variable display result notification command is set, so that different EXT data may be set in accordance with the predetermined determination result or the big hit type determination result. . Alternatively, in the hit start designation command or the hit end designation command, the correspondence relationship between the pre-determined result and the big hit type determination result and the set EXT data may be different from the correspondence relationship in the variable display result notification command. . In the big winning mouth opening notification command and the big winning mouth opening notification command, different EXT data is set corresponding to the number of rounds executed in the big hit gaming state or the small hit gaming state (for example, “1” to “15”). Is done.

  The command B100H is based on the fact that the game ball that has passed (entered) the first start winning opening formed by the winning ball apparatus 6A is detected by the first start opening switch 22A and a start winning (first start winning) has occurred. This is a first start opening prize designation command for notifying that the first start condition for executing the special figure game using the first special figure in the first special symbol display device 4A is established. The command B200H is based on the fact that the game ball that has passed (entered) the second start winning opening formed by the variable winning ball apparatus 6B is detected by the second start opening switch 22B and a start winning (second start winning) has occurred. The second start opening prize designation command for notifying that the second start condition for executing the special figure game using the second special figure in the second special symbol display device 4B is established.

  The command C1XXH is a first reserved memory number notification command for notifying the first special figure reserved memory number so that the special figure reserved memory number can be specified. The command C2XXH is a second reserved memory number notification command for notifying the second special figure reserved memory number so that the special figure reserved memory number can be specified. The first reserved memory number notification command is, for example, when the first start opening winning designation command is transmitted based on the fact that the game ball passes (enters) the first starting winning opening and the first start condition is satisfied. , Transmitted from the main board 11 to the effect control board 12. The second reserved memory number notification command is, for example, when the second start opening winning designation command is transmitted based on the fact that the game ball passes (enters) the second start winning opening and the second start condition is satisfied. , Transmitted from the main board 11 to the effect control board 12. In addition, the first reserved memory number notification command and the second reserved memory number notification command are used when the first start condition or the second start condition is satisfied (when the reserved memory number decreases). It may be transmitted in response to the start of execution.

  Instead of the first reserved memory number notification command and the second reserved memory number notification command, a total reserved memory number notification command for notifying the total reserved memory number may be transmitted. That is, a total pending storage number notification command for notifying an increase (or decrease) in the total pending storage number may be used.

  The command F1XXH is a model ID notification command for notifying a model ID stored in the ROM 101 or the like as identification information that can identify the model of the pachinko gaming machine 1.

  Also, as shown in FIG. 22-2, the effect control board 12 is connected to a setting changeover switch 116SG400 for switching various settings in the pachinko gaming machine 1.

  As shown in FIG. 22-5, the setting changeover switch 116SG400 is provided on the effect control board 12, and can be operated in a state in which the gaming machine frame 3 is opened. As shown in FIG. 22-6, the setting changeover switch 116SG400 has a total of 16 channels from “0” to “F”, and these channels are switched by rotating the knob 1116SG401. It is a switch. In the feature unit 4 of the present embodiment, for example, the volume output from the speakers 8L and 8R can be changed by switching the channel to any one of “0” to “9”. In addition, for example, by switching the channel to any one of “A” to “F”, or by performing a specific operation after switching the channel, the power consumption of the pachinko gaming machine 1 can be reduced (to enter the power saving mode). Transition), each movable body (first movable body 116SG032L, second movable body 116SG032R, third movable body 116SG032U, fourth movable body 116SG032D), push button 31B, stick controller 31A, etc. can be checked. .

  Next, the operation of the pachinko gaming machine 1 in the characteristic part 4 of the present embodiment will be described. FIG. 22-7 is a flowchart illustrating an example of the game control main process in the feature unit 4 of the present embodiment. In the game control main process, the CPU 103 first executes the processes of S1 to S9 as in the game control main process shown in FIG. When the restoration command is transmitted to the effect control board 12 in the process of S7, or when the initialization designation command is transmitted to the effect control board 12 in the process of S9, a model ID notification command is further transmitted to the effect control board 12. (116SGSa009a). And the process of S10-S12 is performed similarly to the game control main process shown in FIG.

  FIG. 22-8 is a flowchart illustrating an example of the effect control main process. In the effect control main process, the effect control CPU 120 first executes the processes of S71 and S72 in the same manner as the effect control main process shown in FIG. Then, it is determined whether or not a model ID notification command has been received (116SGSa072a). If the model ID notification command has not been received (116SGSa072a; N), the process of 116SGSa072a is repeatedly executed to wait until the model ID notification command is received. If the model ID notification command is received (116SGSa072a; Y), the model ID specified from the received model ID notification command is stored in the RAM 122. And after performing the process of S73-S77 similarly to the production | presentation control main process shown in FIG. 6, the setting change switch related process (116SGS78) is performed, and it progresses to S73.

  FIG. 22-9 is a flowchart illustrating an example of a process executed in 116SGS078 in FIG. 22-8 as the setting switch related process. In the setting changeover-related process, the effect control CPU 120 first determines whether or not an origin return operation execution flag, which will be described later, is set (116SGS200). When the origin return operation execution flag is not set (116SGS200; N), it is further determined whether or not a confirmation operation execution flag described later is set (116SGS201). When the confirmation operation execution flag is not set (116SGS201; N), it is further determined whether or not a confirmation operation waiting flag described later is set (116SGS202).

  When the confirmation operation waiting flag is not set (116SGS202; N), it is further determined whether or not the channel of the setting changeover switch 116SG400 is set to “0” (116SGS203). When the channel of the setting changeover switch 116SG400 is set to “0” (116SGS203; Y), the volume and light quantity change setting, the transition setting to the power saving mode, each movable body, the push button 31B, the stick controller 31A, etc. The setting switch related processing is terminated assuming that the state confirmation is not executed.

  When the channel of setting changeover switch 116SG400 is not set to “0” (116SGS203; N), effect control CPU 120 determines whether or not the channel of setting changeover switch 116SG400 is set to “C”. (116SGS204). When the channel of the setting changeover switch 116SG400 is not set to “C” (116SGS204; N), that is, the channels of the setting changeover switch 116SG400 are “1” to “9”, “A”, “B”, “D”. If it is set to any one of “F”, the process corresponding to the set channel is executed (116SGS205), and the setting changeover switch related process is terminated.

  When the channel of the setting changeover switch 116SG400 is set to “C” (116SGS204; Y), the effect control CPU 120 uses each movable body (first movable body 116SG032L, second movable body 116SG032R, third movable body). The operation waiting flag for confirmation indicating that the body 116SG032U, the fourth movable body 116SG032D), the push button 31B, the stick controller 31A, and the like are in a standby state for performing a confirmation operation. 116SGS206), the push button operation counter is further set to 0 (116SGS207), and the setting changeover switch related process is terminated.

  When the confirmation operation waiting flag is set in 116SGS202 (116SGS202; Y), it is determined whether or not the channel of setting changeover switch 116SG400 is set to "C" (116SGS208). When the channel of the setting changeover switch 116SG400 is not set to “C” (116SGS208; N), that is, when the channel of the setting changeover switch 116SG400 is once set to “C” but is reset to another channel. Clears the operation waiting flag for confirmation (116SGS209) and ends the setting switch related processing.

  When the channel of the setting changeover switch 116SG400 is set to “C” (116SGS208; Y), it is determined whether or not the push button is operated (116SGS210). When there is no push button operation (116SGS210; N), the setting changeover switch related processing is terminated. When there is a push button operation (116SGS210; Y), the value of the push button operation number counter is incremented by 1 (116SGS211). Further, whether or not the push button operation number counter has reached “5”, that is, after the channel of the setting changeover switch 116SGS400 is set to “C”, the push button 31B is operated five times without switching the channel. It is determined whether or not it has been done. (116SGS212). When the push button operation number counter is not 5 (116SGS212; N), the setting switch related processing is terminated.

  When the push button operation frequency counter is 5 (116SGS212; Y), after the channel of the setting changeover switch 116SGS400 is set to “C”, the push button 31B is operated 5 times without switching the channel. Based on that, the confirmation operation waiting flag is cleared (116SGS213), and each movable body (first movable body 116SG032L, second movable body 116SG032R, third movable body 116SG032U, fourth movable body 116SG032D) and push button The confirmation operation execution flag indicating that the confirmation operation for confirming the state of 31B, stick controller 31A, etc. is being executed is set (116SGS214), and the setting changeover switch related processing is terminated.

  When the checking operation execution flag is set in 116SGS201 (116SGS201; Y), the moving body operation rechecking flag indicating that the moving body operation rechecking process described later is being executed is set. It is determined whether or not (116SGS215). When the movable body operation rechecking flag is set (116SGS215; Y), the process proceeds to 116SGS225, and when the movable body operation rechecking flag is not set (116SGS215; N), a movable body operation check process described later is performed. It is determined whether or not a movable body operation checking flag indicating that the process is being executed is set (116SGS216).

  If the movable body operation checking flag is set (116SGS216; Y), the process proceeds to 1167SGS22. If the movable body operation checking flag is not set (116SGS216; N), the model ID stored in the RAM 122 or the like is stored. To specify the character color of the operation check result image (116SGS217), and output to the operation check result image display start designation command for starting the operation check result image display corresponding to the specified character color to the VDP 116SG500. Setting is performed (116SGS218), and the process proceeds to 116SGS219.

  That is, when an operation check result image display start designation command corresponding to the model ID is input from the effect control CPU 120, the VDP 116SG500 displays an operation check result image with the character color specified from the operation check result image display start designation command. It is displayed on the display device 5. In particular, in the characterizing portion 4 in this embodiment, as shown in FIG. 22-15, the character color of the operation check result screen is different for each model ID. Can identify the model of the pachinko gaming machine 1 from the character color of the operation check result screen, and when the pachinko gaming machine 1 is installed in the amusement hall Installation mistakes can be prevented.

  Next, in 116SGS219, the effect control CPU 120 specifies the state of the controller sensor unit 35A (116SGS219) and specifies the state of the push sensor 35B (116SGS220). Further, the operation check result image is updated according to the states of the controller sensor unit 35A and the push sensor 35B specified in the processing of 116SGS219 and 116SGS220 (116SGS221).

  Specifically, the CPU 120 for effect control displays the operation displayed on the image display device 5 when the state of the controller sensor unit 35A is normal (for example, when the controller sensor unit 35A is normally energized). When “◯” is displayed in the controller sensor unit 35A column of the check result image and the state of the controller sensor unit 35A is abnormal (for example, when the controller sensor unit 35A is not normally energized), the image display device “×” is displayed in the field of the controller sensor unit 35A of the operation check result image displayed in FIG.

  Further, when the state of the push sensor 35B is normal (for example, when the push sensor 35B is normally energized), “push sensor 35B” of the operation check result image displayed on the image display device 5 displays “ "" Is displayed, and when the state of the push sensor 35B is abnormal (for example, when the push sensor 35B is not normally energized), the push sensor 35B of the operation check result image displayed on the image display device 5 is displayed. “×” is displayed in the column of. After execution of 116SGS221, CPU 120 for effect control sets a movable body operation check flag (116SGS221a), and proceeds to 116SGS222.

  In 116SGS222, the effect control CPU 120 executes a movable body operation check process for checking the operation of each movable body (first movable body 116SG032L, second movable body 116SG032R, third movable body 116SG032U, fourth movable body 116SG032D). (116SGS222). Then, it is determined whether or not the operation check of all the movable bodies has been completed in the movable body operation check process (116SGS223). When the operation check of all the movable bodies is not completed (116SGS223; N), the setting changeover switch related process is terminated, and when the operation check of all the movable bodies is completed (116SGS223; Y), it is movable. The body operation check in progress flag is cleared (116SGS223a) whether or not the operation check failure flag corresponding to any of the movable bodies is set, that is, the movable body in which the operation check has not ended normally in the movable body operation check process It is determined whether or not there is (116SGS224).

  When the operation check failure flag corresponding to any movable body is not set (116SGS224; N), the setting switch related processing is ended, and the operation check failure flag corresponding to any movable body is set. In the case (116SGS224; Y), the movable body operation rechecking flag is set (116SGS224a), and the process proceeds to 116SGS225.

  Then, in 116 SGS 225, the production control CPU 120 performs a movable body operation recheck process for performing a motion check again on the movable body for which the motion check has not ended normally in the movable body motion check process (116 SGS 225), and a setting changeover switch. The related process is terminated.

  If the origin return operation execution flag is set in 116SGS200 (116SGS200; Y), a movable body origin return operation process (116SGS230) for moving each movable body toward each origin position is performed and set. The changeover switch related process is terminated.

  FIGS. 22-10 and 22-11 are flowcharts illustrating an example of processing executed by the 116SGS 222 of FIG. 22-9 as the movable body operation check processing. In the movable body operation check process, the effect control CPU 120 first determines whether or not the channel of the setting changeover switch 116SG400 is set to “C” (116SGS231). When the channel of the setting changeover switch 116SG400 is set to “C” (116SGS231; Y), it is determined whether or not the return path process timer of any movable body is operating (116SGS232).

  When the process timer for the return path of any movable body is not operating (116SGS232; N), it is further determined whether the process timer for the outbound path of any movable body is operating (116SGS233). When the process timer for the forward path of any movable body is not in operation (116SGS233; N), it is further determined whether the process timer for return to origin of any movable body is in operation (116SGS234). When the origin return process timer of any movable body is not in operation (116SGS234; N), whether or not there is a movable body subject to an operation check based on the setting data stored in the RAM 122 or the like, that is, the operation is still in progress. It is determined whether there is a movable body that has not been checked (116SGS235).

  When there is no movable body subject to the operation check (116SGS235; N), the movable body operation check process is terminated. When there is a movable body subject to the operation check (116SGS235; Y), the setting data stored in the RAM 122 or the like is stored. Based on this, the movable body to be the operation check target is specified (116SGS236). In the process of 116 SGS 236, when the operation check of any movable body has not been executed yet, the first movable body 116 SG 032 L is specified as the operation check target, and after the operation check of the first movable body 116 SG 032 L is executed, After the second movable body 116SG032R is identified as the operation check target, and after the operation check of the second movable body 116SG032R is performed, the third movable body 116SG032U is identified as the operation check target, and after the operation check of the third movable body 116SG032U is performed. Specifies the fourth movable body 116SG032D as an operation check target. That is, in the characteristic part 4 of the present embodiment, the operation check is executed in the order of the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116032U, and the fourth movable body 116SG032D.

  In the characteristic part 4 of the present embodiment, an example in which the operation check is executed in the order of the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116032U, and the fourth movable body 116SG032D is illustrated. However, the present invention is not limited to this. Among these four movable bodies, the operation check of a plurality of movable bodies may be executed simultaneously, and the operation check of each movable body is different. You may execute in order.

  Next, in 116 SGS 237, the production control CPU 120 determines whether or not the origin position sensor corresponding to the movable body (the movable body to be checked) identified in 116 SGS 236 is ON, that is, the movable body to be checked is the movable body. It is determined whether or not it is located at the origin position (116SGS237). When the origin position sensor corresponding to the movable body to be checked is OFF (116SGS237; N), the origin return process table corresponding to the movable body to be checked (process table for moving the movable body to the origin position) Is read and set (116SGS238), the origin return process timer in the process data 1 of the set origin return process table is started and the routine proceeds to 116SGS242 (116SGS239).

  If the origin position sensor corresponding to the movable body (the movable body to be checked) identified in 116SGS236 is ON (116SGS237; Y), the forward path process table (movable body as the origin) corresponding to the movable body to be checked. The process table for moving from the position to the effect position) is read and set (116SGS240), and then the forward process timer in the process data 1 of the set forward process table is started and the process proceeds to 116SGS242 (116SGS241). . In the feature unit 4 of the present embodiment, a forward path process table corresponding to each movable body is stored in the RAM 122 in advance.

  In 116 SGS242, the production control CPU 120 determines the drive motor (check target movable body) corresponding to the check target movable body according to the contents of the first process data of the set process table (origin return process table or forward path process table). If the movable body to be checked is the second movable body 116SG032R, the driving motor 116SG132a is checked. If the movable body to be checked is the third movable body 116SG032U, the driving motor 116SG133a is checked. If the target movable body is the fourth movable body 116SG032DL, the drive motor 116SG134a) is driven to end the movable body operation check process (116SGS242).

  As shown in FIG. 22-16, when the CPU 120 for effect control executes the processes of 116SGS238, 116SGS239, and 116SGS242, it moves the movable body toward the origin position by executing the processes of 116SGS244 to 116SGS250 described later. When non-detection operation control is performed and the processes of 116SGS240 to 116SGS242 are performed, the movable body is reciprocated between the origin position and the effect position by executing processes of 116SGS255 to 116SGS261 and 116SGS271 to 116SGS280 described later. Execute actual operation check operation control.

  As shown in FIGS. 22-17 (A) and 22-17 (B), when performing the operation control for actual operation confirmation, the effect control CPU 120 decelerates the effect after accelerating the movable body from the origin position. Control is performed to stop at the position, and after decelerating from the effect position, decelerate and stop at the origin position. That is, in the operation control for actual operation confirmation for confirming that the movable body can operate normally, the control speed of the movable body is changed in the order of low speed → high speed → low speed between the origin position and the effect position. .

  On the other hand, when performing the non-detection operation control, the effect control CPU 120 performs control so that the movable body always operates at the minimum speed in the actual operation check operation control during the period in which the movable body is moved to the origin position. To do. As described above, the effect control CPU 120 executes the operation control for actual operation confirmation and the operation control at the time of non-detection, so that the movable body always has the lowest speed in the operation control for actual operation confirmation at the time of the operation control at the time of non-detection. Since the operation can be stopped at any timing, the movable body can be positioned at the origin position without fear of being damaged by a collision or the like.

  Returning to FIG. 22-10, when the origin return process timer is operating in 116SGS234 (116SGS234; Y), the effect control CPU 120 determines whether the origin position sensor corresponding to the movable body to be checked is ON. Is determined (116SGS243). When the origin position sensor corresponding to the movable body to be checked is ON (116SGS243; Y), the processing of 116SGS240 to 116SGS242 is executed, and when the origin position sensor corresponding to the movable body to be checked is OFF (116SGS243). N) decrements the value of the origin return process timer by 1 (116SGS244). Then, it is determined whether the origin return process timer has timed out (116SGS245).

  If the origin return process timer has not timed out (166SGS245; N), the movable body is driven by driving the drive motor corresponding to the movable body subject to the operation check according to the contents of the process data corresponding to the origin return process timer. The operation check process is terminated (116 SGS246). If the home return process timer has timed out (116SGS245; Y), it is determined whether the timed out home return process timer is the last home return process timer (116SGS247).

  When the origin-returning process timer that has timed out is not the last origin-returning process timer (116SGS247; N), process data is switched (116SGS248). That is, the origin return process timer is started again by setting the process timer set value set next in the origin return process table in the origin return process timer (116SGS249). Further, the driving motor is driven according to the movable body whose operation is to be checked in accordance with the origin return process data set next, and the movable body operation check process is terminated (116SGS250).

  Further, when the last origin return process timer expires in 116SGS247 (116SGS247; Y), it is determined whether the origin position sensor corresponding to the movable body to be checked for operation is ON (116SGS251). When the origin position sensor corresponding to the movable body subject to the operation check is ON (116SGS251; Y), the operation check result image is updated and displayed according to the origin position sensor being ON (check in the operation check image). “O” is displayed in the column of the origin position sensor of the target movable body) (116SGS252), and the processing of 116SGS240 to 116SGS242 is executed.

  Further, when the origin position sensor corresponding to the movable body subject to the operation check is OFF (116SGS251; N), the operation check result image is updated and displayed according to the origin position sensor being OFF (operation check image). In the column of the origin position sensor of the movable body to be checked, “△” indicating that the operation check of the movable body has not been completed normally is displayed (116SGS253), and the operation check according to the movable body to be checked has failed. A flag is set and a movable body operation | movement check process is complete | finished (116SGS254).

  When the forward process timer is operating in 116SGS233 (116SGS233; Y), the value of the forward process timer is decremented by 1 (116SGS255), and it is determined whether or not the forward process timer has timed out. (116SGS256).

  If the forward process timer has not timed out (166SGS256; N), the movable body operation check is performed by driving the drive motor corresponding to the movable body subject to the operation check according to the contents of the process data corresponding to the forward process timer. The process ends (116 SGS257). If the forward process timer has timed out (116SGS256; Y), it is determined whether or not the timed out forward process timer is the last forward process timer (116SGS258).

  If the forward process timer that has timed out is not the last forward process timer (116SGS258; N), the process data is switched (116SGS259). That is, the process timer for the forward path is started again by setting the process timer setting value set next in the forward path process table in the forward path process timer (116SGS260). Further, the driving motor is driven according to the movable body subject to the operation check in accordance with the forward process data set next, and the movable body operation checking process is terminated (116SGS261).

  If the last forward process timer has timed out in 116SGS258 (116SGS258; Y), it is determined whether or not the effect position sensor corresponding to the movable body to be checked for operation is ON (116SGS262). When the effect position sensor corresponding to the movable body subject to the operation check is ON (116SGS262; Y), the operation check result image is updated and displayed according to the effect position sensor being ON (check in the operation check image). “◯” is displayed in the column of the effect position sensor of the target movable body) (116SGS263), and the process of 116SGS271 is executed.

  When the effect position sensor corresponding to the movable body subject to the operation check is OFF (116SGS262; N), the operation check result image is updated and displayed according to the effect position sensor being OFF (operation check image). (“△” is displayed in the column of the effect position sensor of the movable body to be checked) (116SGS264), the operation check failure flag corresponding to the movable body to be checked is set, and the movable body operation check process is terminated (116SGS265). ).

  Further, in 116SGS271, the effect control CPU 120 reads and sets the return path process table (process table for moving the movable object from the effect position toward the origin position) corresponding to the movable object to be checked (116SGS271). Then, the return path process timer in the process data 1 of the set return path process table is started (116SGS272). In the feature unit 4 of the present embodiment, a return path process table corresponding to each movable body is stored in the RAM 122 in advance.

  Then, in 116SGS273, the effect control CPU 120 drives the drive motor corresponding to the movable body to be checked according to the content of the first process data in the set return path process table, and ends the movable body operation check process (116SGS273). ).

  Further, when the return path process timer is operating in 116SGS232 (116SGS232; Y), the value of the return path process timer is decremented by 1 (116SGS274), and it is determined whether or not the return path process timer has timed out. (116SGS275).

  If the return path process timer has not timed out (166SGS275; N), the movable body operation check is performed by driving the drive motor corresponding to the movable body subject to the operation check according to the contents of the process data corresponding to the return path process timer. The process ends (116 SGS276). If the return process timer has timed out (116SGS276; Y), it is determined whether or not the timed out return process timer is the last return process timer (116SGS277).

  If the time-out return process timer is not the last return process timer (116SGS277; N), the process data is switched (116SGS278). That is, the process timer for the return path is started again by setting the process timer setting value set next in the process table for the return path in the process timer for the return path (116SGS279). Further, the driving motor is driven in accordance with the movable body whose operation is to be checked in accordance with the return path process data set next, and the movable body operation check process is terminated (116SGS280).

  Further, when the last return path process timer expires in 116SGS277 (116SGS277; Y), it is determined whether or not the origin position sensor corresponding to the movable body to be checked for operation is ON (116SGS281). When the origin position sensor corresponding to the movable body subject to the operation check is ON (116SGS281; Y), the operation check result image is updated and displayed according to the origin position sensor being ON (check in the operation check image). "O" is displayed in the column of the origin position sensor of the target movable body) (116SGS282), and the movable body operation check process is terminated.

  When the origin position sensor corresponding to the movable body subject to the operation check is OFF (116SGS281; N), the operation check result image is updated and displayed according to the origin position sensor being OFF (operation check image). (“△” is displayed in the column of the origin position sensor of the movable body to be checked) in (116SGS283), the operation check failure flag corresponding to the movable body to be checked is set, and the movable body operation check process is terminated (116SGS284). ).

  When the channel of the setting changeover switch 116SG400 is set to any one of “1” to “9”, “A”, “B”, “D” to “F” in 116SGS231 (116SGS231; N), While the confirmation operation execution flag and the movable body operation check flag are cleared (116SGS285, 116SGS286), the origin return operation execution flag is set (116SGS287). Further, the display of the operation check image on the image display device 5 is terminated (116SGS288), and the movable body operation check process is terminated.

  FIGS. 22-12 and 22-13 are flowcharts illustrating an example of processing executed by the 116SGS225 in FIG. 22-9 as the movable body operation recheck processing. In the movable body operation recheck process, the effect control CPU 120 first determines whether or not the channel of the setting changeover switch 116SG400 is set to “C” (116SGS301). When the channel of the setting changeover switch 116SG400 is set to “C” (116SGS301; Y), it is determined whether or not the return path process timer of any movable body is in operation (116SGS302).

  When the process timer for the return path of any movable body is not in operation (116SGS302; N), it is further determined whether the process timer for the outbound path of any movable body is in operation (116SGS303). If the process timer for the forward path of any movable body is not in operation (116SGS303; N), it is further determined whether the process timer for return to origin of any movable body is in operation (116SGS304). If the process timer for returning to origin of any movable body is not in operation (116SGS304; N), the movable body to be subject to the operation check first is specified based on the operation check failure flag (116SGS306).

  In the process of 116SGS306, when the operation check failure flag corresponding to the first movable body 116SG032L is set, the first movable body 116SG032L is specified as the operation check target, and the operation corresponding to the second movable body 116SG032R. When the check failure flag is set, the second movable body 116SG032R is specified as the operation check target, and when the operation check failure flag corresponding to the third movable body 116SG032U is set, the third check is performed as the operation check target. When the movable body 116SG032U is specified and the operation check failure flag corresponding to the fourth movable body 116SG032D is set, the fourth movable body 116SG032D is specified as the operation check target. That is, in the characteristic part 4 of the present embodiment, the operation check (operation recheck) is performed in the order of the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 1116032U, and the fourth movable body 116SG032D. It has become.

  In the characteristic part 4 of the present embodiment, an example in which the operation recheck is executed in the order of the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 1116032U, and the fourth movable body 116SG032D is illustrated. However, the present invention is not limited to this, and among these four movable bodies, the operation recheck of a plurality of movable bodies may be executed at the same time. Checks may be performed in a different order.

  Next, in 116 SGS 307, the effect control CPU 120 clears the operation check failure flag corresponding to the movable body to be checked (116 SGS 307). Further, whether or not the origin position sensor corresponding to the movable body (recheck target movable body) specified in 116SGS306 is ON, that is, whether or not the recheck target movable body is arranged at the origin position of the movable body. It is determined whether or not (116SGS308). When the origin position sensor corresponding to the movable body to be rechecked is OFF (116SGS308; N), the origin return process table corresponding to the movable body to be rechecked (process for moving the movable body to the origin position) After the table is read and set (116SGS309), the origin return process timer in the process data 1 of the set origin return process table is started and the process proceeds to 116SGS313 (116SGS310).

  Further, when the origin position sensor corresponding to the movable body (recheck target movable body) identified in 116SGS306 is ON (116SGS308; Y), the forward path process table (movable body) corresponding to the recheck target movable body. Is read out and set (116SGS311), the forward process timer in the process data 1 of the set forward process table is started, and the process proceeds to 116SGS313 (step SGS313). 116SGS312).

  In 116 SGS 313, the production control CPU 120 determines the drive motor (recheck target) according to the movable body to be rechecked according to the contents of the first process data in the set process table (origin return process table or forward path process table). If the movable body is the first movable body 116SG032L, the drive motor 116SG131a is driven. If the movable body to be rechecked is the second movable body 116SG032R, the drive motor 116SG132a is driven. If the movable body to be rechecked is the third movable body 116SG032U, the drive is performed. If the motor 116SG133a and the movable body to be rechecked are the fourth movable body 116SG032DL, the drive motor 116SG134a) is driven to end the movable body operation recheck process (116SGS313).

  When the processing of 116SGS309, 116SGS310, and 116SGS313 is executed, the effect control CPU 120 executes non-detection operation control for moving the movable body toward the origin position by executing processing of 116SGS315 to 116SGS321 described later. , 116SGS311 to 116SGS313 are executed, execution of 116SGS315 to 116SGS321 and 116SGS341 to 116SGS350, which will be described later, is executed to perform actual operation confirmation operation control for reciprocating the movable body between the origin position and the effect position (see FIG. 22-16 and FIGS. 22-17).

  When the origin return process timer is operating in 116SGS304 (116SGS304; Y), the effect control CPU 120 determines whether the origin position sensor corresponding to the movable body to be rechecked is ON or not ( 116SGS314). When the origin position sensor corresponding to the movable body to be rechecked is ON (116SGS314; Y), the processing of 116SGS311 to 116SGS313 is executed, and the origin position sensor corresponding to the movable body to be rechecked is OFF (116SGS314; N) decrements the value of the process timer for return to origin (116SGS315). Then, it is determined whether or not the origin return process timer has expired (116SGS316).

  If the origin return process timer has not timed out (166SGS316; N), the movable body is driven by driving the drive motor corresponding to the movable body to be rechecked according to the contents of the process data corresponding to the origin return process timer. The operation recheck process is terminated (116SGS317). If the home return process timer has timed out (116SGS316; Y), it is determined whether the timed out home return process timer is the last home return process timer (116SGS318).

  When the origin-returning process timer that has timed out is not the last origin-returning process timer (116SGS318; N), process data is switched (116SGS319). That is, the origin return process timer is started again by setting the process timer set value set next in the origin return process table in the origin return process timer (116SGS320). Further, the driving motor is driven according to the movable body to be rechecked in accordance with the origin return process data set next, and the movable body operation rechecking process is terminated (116SGS321).

  When the last home position return process timer expires in 116 SGS 318 (116 SGS 318; Y), it is determined whether the home position sensor corresponding to the movable body to be rechecked is ON (116 SGS 322). When the origin position sensor corresponding to the movable body to be rechecked is ON (116SGS322; Y), the operation check result image is updated and displayed according to the origin position sensor being ON (check in the operation check image). (O is displayed in the column of the origin position sensor of the target movable body) (116SGS323), and the processing of 116SGS311 to 116SGS313 is executed.

  When the origin position sensor corresponding to the movable body to be rechecked is OFF (116SGS322; N), the operation check result image is updated and displayed according to the origin position sensor being OFF (operation check image). ("X" is displayed in the column of the origin position sensor of the movable body to be checked) in (SGS324) and proceeds to 116SGS354.

  If the forward process timer is operating in 116SGS303 (116SGS303; Y), the value of the forward process timer is decremented by 1 (116SGS331), and it is determined whether or not the forward process timer has timed out. (116SGS332).

  When the forward process timer has not timed out (166SGS332; N), the drive motor corresponding to the movable body to be rechecked is driven according to the content of the process data corresponding to the forward process timer to restart the movable body operation. The check process is terminated (116 SGS333). If the forward process timer has timed out (116SGS332; Y), it is determined whether the timed out forward process timer is the last forward process timer (116SGS334).

  If the forward process timer that has timed out is not the last forward process timer (116SGS334; N), the process data is switched (116SGS335). In other words, the forward process timer is started again by setting the process timer set value set next in the forward process table in the forward process timer (116SGS336). Further, the driving motor is driven according to the movable body to be rechecked in accordance with the forward process data set next, and the movable body operation rechecking process is terminated (116SGS337).

  When the last forward process timer has timed out in 116 SGS 334 (116 SGS 334; Y), it is determined whether or not the effect position sensor corresponding to the movable body to be rechecked is ON (116 SGS 338). When the effect position sensor corresponding to the movable body to be rechecked is ON (116SGS338; Y), the operation check result image is updated and displayed (re-display in the operation check image) in response to the effect position sensor being ON. “◯” is displayed in the column of the effect position sensor of the movable body to be checked) (116SGS339). Then, after returning and setting the return path process table (process table for moving the movable body from the production position to the origin position) corresponding to the movable body to be rechecked (116SGS341), the set return path process A return pass process timer in process data 1 of the table is started (116SGS342). Furthermore, in 116 SGS 343, the effect control CPU 120 drives the drive motor according to the movable body to be rechecked according to the content of the first process data in the set return path process table, and ends the movable body operation recheck process. (116SGS343).

  If the effect position sensor corresponding to the movable body to be rechecked is OFF in 116SGS338 (116SGS338; N), an operation check result image is updated and displayed according to the effect position sensor being OFF (operation “×” is displayed in the column of the effect position sensor of the movable body to be rechecked in the check image) (116SGS340), and the process proceeds to 116SGS354.

  Further, when the return path process timer is operating in 116SGS302 (116SGS302; Y), the value of the return path process timer is decremented by 1 (116SGS344), and it is determined whether or not the return path process timer has timed out. (116SGS345).

  When the return path process timer has not timed out (166SGS345; N), the drive motor corresponding to the movable body to be rechecked is driven according to the content of the process data corresponding to the return path process timer to restart the movable body operation. The check process is terminated (116 SGS346). If the return process timer has timed out (116SGS345; Y), it is determined whether or not the timed out return process timer is the last return process timer (116SGS347).

  If the time-out return process timer is not the last return process timer (116SGS347; N), process data is switched (116SGS348). That is, by setting the next set process timer set value in the return path process table in the return path process timer, the return path process timer is started again (116SGS49). Further, the driving motor is driven according to the movable body to be rechecked in accordance with the return path process data set next, and the movable body operation rechecking process is terminated (116SGS350).

  Further, when the last return path process timer expires in 116SGS347 (116SGS347; Y), it is determined whether the origin position sensor corresponding to the movable body to be rechecked is ON (116SGS351). When the origin position sensor corresponding to the movable body to be rechecked is OFF (116SGS351; N), the operation check result image is updated and displayed according to the origin position sensor being OFF (the operation check image is displayed again). "X" is displayed in the column of the origin position sensor of the movable body to be checked) (116SGS352), and the process proceeds to 116SGS354.

  When the origin position sensor corresponding to the movable body to be rechecked is turned on in 116SGS351 (116SGS351; Y), the operation check result image is updated and displayed according to the origin position sensor being turned on (operation check image). ”Is displayed in the column of the origin position sensor of the movable body to be rechecked in () (116SGS353), and the process proceeds to 116SGS354.

  In 116 SGS 354, the effect control CPU 120 determines whether or not the operation check failure flag corresponding to any of the movable bodies is set, that is, the movable body for which the operation check has not ended normally in the movable body operation check process. It is determined whether it still remains (116SGS354). When the operation check failure flag corresponding to any one of the movable bodies is set (116SGS354; Y), the movable body operation recheck process is terminated, and the operation check failure flag corresponding to any of the movable bodies is not set. In the case (116SGS354; N), the confirmation operation executing flag or the fuselage operation rechecking flag is cleared (116SGS355, 116SGS356), and the movable body operation recheck process is terminated.

  When the channel of the setting changeover switch 116SG400 is set to any one of “1” to “9”, “A”, “B”, “D” to “F” in 116SGS301 (116SGS301; N), While the confirmation operation execution flag and the movable body operation rechecking flag are cleared (116SGS357, 116SGS358), the origin return operation execution flag is set (116SGS359). Furthermore, the display of the operation check image on the image display device 5 is terminated (116SGS460), and the movable body operation recheck process is terminated.

  FIG. 22-14 is a flowchart illustrating an example of processing executed in 116SGS230 of FIG. 22-9 as the movable body origin return operation processing. In the movable body origin return operation processing, the effect control CPU 120 first determines whether or not any of the movable body origin return process timers is operating (116SGS361). If the origin return process timer of any movable body is not in operation (116SGS361; N), the movable body that is the target of the origin return operation is specified based on the setting data stored in the RAM 122 or the like (116SGS362). In the process of 116SGS362, when the origin return operation of any movable body has not been executed yet, the first movable body 116SG032L is specified as the origin return operation target, and the origin return operation of the first movable body 116SG032L is executed. Thereafter, the second movable body 116SG032R is identified as the origin return operation target, and after the origin return operation of the second movable body 116SG032R is performed, the third movable body 116SG032U is identified as the origin return operation target, and the third movable body 116SG032U is identified. After the origin return operation is executed, the fourth movable body 116SG032D is specified as the origin return operation target. That is, in the characteristic part 4 of the present embodiment, the origin return operation is executed in the order of the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 1116032U, and the fourth movable body 116SG032D. .

  In the characteristic part 4 of the present embodiment, an example in which the origin return operation is executed in the order of the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116032U, and the fourth movable body 116SG032D is illustrated. However, the present invention is not limited to this. Of these four movable bodies, the origin return operation of a plurality of movable bodies may be executed simultaneously, and the origin return of each movable body may be performed. Operations may be performed in a different order.

  Next, in 116 SGS 363, the production control CPU 120 determines whether or not the origin position sensor corresponding to the movable body (movable body targeted for origin return operation) specified in 116 SGS 362 is ON, that is, the movable body subject to origin return operation is determined. It is determined whether or not the movable body is located at the origin position (116SGS363). When the origin position sensor corresponding to the movable body subject to the origin return operation is OFF (116SGS363; N), the process table for origin return corresponding to the movable body subject to the origin return operation is read and set (116SGS364). The origin return process timer in the process data 1 of the set origin return process table is started (116SGS365). The origin return process table set in 116SGS364 is the same process table as the origin return process table set in 116SGS238 process of the movable body operation check process and 116SGS309 process of the movable body operation recheck process. Also good.

  Then, in 116 SGS 366, the production control CPU 120 performs driving of the movable body origin return operation process by driving the drive motor in accordance with the movable object of the origin return operation target in accordance with the contents of the first process data of the set origin return process table. The process ends (116 SGS366).

  When the processing of 116SGS364 to 116SGS366 is executed, the effect control CPU 120 executes non-detection operation control for moving the movable body toward the origin position by executing the processing of 116SGS368 to 116SGS374 described later (FIG. 22-16 and FIGS. 22-17).

  In addition, when the origin position sensor corresponding to the movable body (movable body of origin return operation | movement object) specified in 116SGS362 is ON (116SGS363; Y), it progresses to 116SGS376.

  When the origin return process timer is operating in 116SGS361 (116SGS361; Y), the effect control CPU 120 determines whether the origin position sensor corresponding to the movable body that is the origin return operation target is ON. (116SGS367). When the origin position sensor corresponding to the movable body subject to the origin return operation is ON (116SGS367; Y), the process proceeds to 116SGS376, and when the origin position sensor corresponding to the movable body subject to the origin return operation is OFF (116SGS367; N) decrements the value of the return-to-origin process timer by 116 (116SGS368). Then, it is determined whether or not the origin return process timer has timed out (116SGS369).

  If the origin return process timer has not timed out (166SGS369; N), the drive motor corresponding to the movable body subject to the origin return operation is driven in accordance with the contents of the process data corresponding to the origin return process timer. The body origin return operation process is terminated (116SGS370). If the home return process timer has timed out (116SGS369; Y), it is determined whether the time-out home return process timer is the last home return process timer (116SGS371).

  When the origin-returning process timer that has timed out is not the last origin-returning process timer (116SGS371; N), the process data is switched (116SGS372). That is, the origin return process timer is started again by setting the process timer set value set next in the origin return process table in the origin return process timer (116SGS373). In addition, the drive motor is driven according to the movable body that is the object of the origin return operation in accordance with the origin return process data that is set next, and the movable body origin return operation process is terminated (116SGS374).

  If the last home position return process timer expires in 116 SGS 371 (116 SGS 371; Y), it is determined whether or not the home position sensor corresponding to the movable body to be returned to the home position is ON (116 SGS 375). When the origin position sensor corresponding to the movable body subject to the origin return operation is ON (116SGS375; Y), the process proceeds to 116SGS376, and when the origin position sensor corresponding to the movable body subject to the origin return operation is OFF (116SGS375; N) ends the movable body origin return operation processing.

  Then, in 116SGS376, the effect control CPU 120 determines whether or not there is a movable body that has not performed the origin return operation (116SGS376). When there is a movable body that has not performed the origin return operation (116SGS376; Y), the movable body origin return operation process is terminated, and when there is no movable body that has not performed the origin return operation (116SGS376; Y), The origin return operation execution flag is cleared (116SGS377), and the movable body origin return operation process is terminated.

  As described above, as illustrated in FIGS. 22-9 to 22-14, in the feature unit 4 of the present embodiment, the push button 31B is operated five times after the channel of the setting changeover switch 116SG400 is switched to “C”. Thus, the operation check of each movable body and the operation recheck of each movable body can be executed, and the operation check of each movable body and the operation check displayed on the image display device 5 are the results of the operation recheck of each movable body. It can be confirmed from the result image. In particular, in the operation check result image, the state of the origin position sensor and the production position sensor corresponding to each movable body, “◯” indicating that each movable body was detected normally, and each movable body were not detected. In other words, since “×” indicating that some abnormality has occurred, the game shop clerk, etc. from each of “○” and “×” displays abnormality in each movable body (each movable body unit). It is possible to clearly grasp whether or not this occurs.

  Further, when the channel of the setting changeover switch 116SG400 is changed to other than “C” during the operation check and the operation recheck of each movable body, the operation check and the operation recheck of each movable body are interrupted, The movable body moves to the corresponding origin position.

  In the feature section 4 of the present embodiment, if the operation check of the movable body is not normally completed in the movable body operation check process (the movable body was not normally detected by the origin position sensor or the effect position sensor). In the case of the movable body operation recheck process, the movable body operation check (operation recheck) is executed again. However, the present invention is not limited to this. The operation check of the movable body was executed a plurality of times (for example, three times), and the plurality of operation checks did not end normally (the movable body is normal for the origin position sensor or the effect position sensor in all the three operation checks). The movable body operation recheck process may be executed for the movable body on the condition that the movable body operation is not detected.

  Next, a display mode in the image display device 5 when the channel of the setting changeover switch 166SG400 is set to “C” will be described with reference to FIGS.

  First, as shown in FIG. 22-18 (A), a game shop clerk or the like opens the gaming machine frame 3 in a state where decorative symbols are displayed on the image display device 5, and operates the setting changeover switch 116SG400. I do. At this time, if a store clerk or the like of the game hall operates the push button 31B five times after setting the channel of the setting changeover switch 116SG400 to “C”, the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116SG032U, The operation check of each movable body is executed in the order of the fourth movable body 116SG032D.

  On the other hand, as shown in FIGS. 22-18 (B) and 22-18 (C), an operation check result image is displayed on the image display device 5, and an origin position sensor or "○" or "△" is sequentially entered in the column of the production position sensor. That is, it corresponds to the column of the origin position sensor 116SG131b and the effect position sensor 116SG131c corresponding to the first movable body 116SG032L, the column of the origin position sensor 116SG132b and the effect position sensor 116SG132c corresponding to the second movable body 116SG032R, and the third movable body 116SG032U. “O” or “Δ” is entered (displayed) in the order of the origin position sensor 116SG133b and the effect position sensor 116SG133c, and the origin position sensor 116SG134b and the effect position sensor 116SG134c corresponding to the fourth movable body 116SG032D. .

  Then, as shown in FIG. 22-18 (D), for all the movable bodies for which “Δ” is displayed in the column of the origin position sensor or the effect position sensor when all the operation checks of each movable body are completed, An operation check (operation recheck) is executed, and “O” or “X” is entered in the column of the origin position sensor and the effect position sensor corresponding to the movable body that is the object of the operation recheck.

  As described above, in the feature part 4 of the present embodiment, the effect control CPU 120 executes the movable body operation check process and the movable body operation recheck process based on the fact that the channel of the setting changeover switch 116SG400 is set to “C”. As a result, the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116SG032U, and the fourth movable body 116SG032D are operated, and the first movable body 116SG032D is displayed in the operation check result image displayed on the image display device 5. Corresponding to the column of the origin position sensor 116SG131b and the effect position sensor 116SG131c corresponding to the body 116SG032L, the column of the origin position sensor 116SG132b and the effect position sensor 116SG132c corresponding to the second movable body 116SG032R, and corresponding to the third movable body 116SG032U. "O", "△", "X", etc. are displayed in the order of the origin position sensor 116SG133b and the effect position sensor 116SG133c, the origin position sensor 116SG134b corresponding to the fourth movable body 116SG032D, and the effect position sensor 116SG134c. Accordingly, the store clerk or the like of the game hall can grasp which movable body is operating normally by visually checking the operation check result image.

  Further, the effect control CPU 120 operates the first movable body 116SG032L, the second movable body 116SG032R, the third movable body 116SG032U, and the fourth movable body 116SG032D in order in the movable body operation check process and the movable body operation recheck process. In the operation check result image, “O”, “△”, and “X” are sequentially displayed in the column of the origin position sensor and the effect position sensor corresponding to the moving body in operation. A clerk or the like can easily recognize which movable body is currently informed of the operation state by visually checking the operation check result image and the movable body in operation.

  In addition, in the characteristic part 4 of this Embodiment, although the operation check result image is updated sequentially according to the detection condition of an origin position sensor or an effect position sensor during the operation check of each movable body, it illustrates. The present invention is not limited to this, and the operation check result image may be updated only at a specific timing such as a timing when the operation check of all the movable bodies is completed.

  In addition, the effect control CPU 120 performs the origin position sensor and origin corresponding to the movable body subject to the operation check at the time when the last set process timer expires in the movable body operation check process and the movable body operation recheck process. When the position sensor is OFF (when determined to be N in the processing of 116SGS251, 116SGS262, 116SGS281), “△” is displayed in the column of the origin position sensor and the effect position sensor of the movable body subject to the operation check in the operation check result image. When the origin position sensor or origin position sensor corresponding to the movable body subject to the operation check is OFF at the time when the part to be displayed or the last process timer set in the movable body operation recheck process has timed out (116SGS322, 116SGS338, 116SGS3 1), “×” is displayed in the column of the origin position sensor and the effect position sensor of the movable body subject to the motion check in the motion check result image. By visually recognizing the display of “Δ” or “×”, it can be quickly and accurately determined that the moving movable body is not operating normally.

  In the present embodiment, in the movable body operation check process and the movable body operation recheck process, the origin position sensor and origin corresponding to the movable body subject to the operation check when the last set process timer expires. When the position sensor is OFF, a game shop clerk or the like operates by displaying “△” or “×” in the column of the origin position sensor or effect position sensor of the movable body subject to the operation check in the operation check result image. The mode in which it is possible to quickly and accurately determine that the movable body inside is not operating normally is illustrated, but the present invention is not limited to this, and the movable body operation check process and the movable body operation recheck are performed. In processing, the origin position sensor or origin position corresponding to the movable object whose operation is to be checked when the last set process timer expires When the sensor is OFF, a sound is output from the speakers 8L and 8R, a light is emitted from the game effect lamp 9, and the like, so that a clerk at the game hall is informed that the moving movable body is not operating normally. May be.

  When the channel of the setting changeover switch 116SG400 is set to a channel other than “C” during the execution of the movable body operation check process and the movable body operation recheck process, the effect control CPU 120 performs the movable body origin return operation process. Therefore, regardless of the position of each movable body, all the movable bodies can be reliably positioned at the origin position corresponding to each movable body.

  Further, the effect control CPU 120 displays “O”, “Δ”, “X”, etc. in the column of the origin position sensor and the effect position sensor corresponding to each movable body in the operation check result image displayed on the image display device 5. Since it can be displayed at the same time, a store clerk or the like of the game hall can quickly confirm whether or not the plurality of movable bodies are operating normally.

  As mentioned above, although the characteristic part 4 in embodiment of this invention was demonstrated with drawing, specific structure is not restricted to these, Even if there is a change and addition in the range which does not deviate from the summary of this invention, Included in the invention.

  For example, in the characteristic part 4 of the above embodiment, the operation check of each movable body can be executed by setting the channel of the setting changeover switch 116SG400 to “C” regardless of the gaming state of the pachinko gaming machine 1. Although illustrated, the present invention is not limited to this, and in the state where each movable body may operate such as during the special symbol variation display or during the big hit game, the channel of the setting changeover switch 116SG400 is set to “C”. Even if it is set to “”, the operation check of each movable body may not be executed.

  Further, in the characteristic part 4 of the above-described embodiment, the operation check of each movable body is sequentially executed by setting the channel of the setting changeover switch 116SG400 to “C” in a state where power is supplied to the pachinko gaming machine 1. Although the possible form was illustrated, this invention is not limited to this, As shown in FIGS. 22-19 as modification 13, the state where electric power is not supplied to the pachinko gaming machine 1 (during power interruption) The channel of the setting changeover switch 116SG400 is set to “C” in advance, and the channel of the setting changeover switch 116SG400 is set to “C” when power supply to the pachinko gaming machine 1 is started (when the power is turned on). It is possible to sequentially execute the operation check of each movable body on the condition that By doing in this way, even if the channel of the setting changeover switch 116SG400 is set to “C” after the pachinko gaming machine 1 is turned on, the operation check (and operation recheck) of each movable body is executed. Can be prevented.

  In addition, the operation check of each movable body is performed on the condition that the channel of the setting changeover switch 116SG400 is set to “C” when the supply of power to the pachinko gaming machine 1 is started (when the power is turned on). In the case where the sequential execution is possible, the setting changeover switch 116SG400 is set to “C” and a predetermined period (for example, 10 seconds) after the power supply to the pachinko gaming machine 1 is started. You may make it perform the operation | movement check of each movable body sequentially based on the push button 31B being operated predetermined times (for example, 5 times). By doing in this way, even if the channel of the setting changeover switch 116SG400 is erroneously set to “C” when the pachinko gaming machine 1 is turned on, operation check (and operation recheck) of each movable body is performed. Can be prevented from being executed sequentially.

  Further, in the characteristic part 4 of the above embodiment, a mode is illustrated in which it is possible to confirm whether or not each movable body operates normally by setting the channel of the setting changeover switch 116SG400 to “C”. The present invention is not limited to this, and the data stored in the ROM 121 and RAM 122 mounted on the effect control board 12 by setting the channel of the setting changeover switch 116SG400 to a channel other than “C”. It may be possible to check the consistency of the game machine, check whether the model-specific function of the pachinko gaming machine 1 operates normally, check whether the production information is normally backed up when a power interruption occurs, etc. . Further, when an RTC (real time clock) is mounted on the effect control board 12, whether or not the RTC is operating normally is set by setting the channel of the setting changeover switch 116SG400 to a channel other than “C”. Confirmation may be executable.

  In the embodiment, the title corresponding to the super-reach reach effect is displayed from the start of the reach effect of super-reach (characteristic portion 31AK in FIGS. 1 to 19), the lock switch 109SG051 and the setting changeover switch 109SG052. Is operated, any one of a plurality of set values can be set in the pachinko gaming machine 1, and the lock switch 109SG051 and the setting changeover switch 109SG052 are opened and closed by opening and closing the gaming machine frame 109SG003 and the glass door frame 109SG003a. A form that can be switched between an operable state and an inoperable state (characteristic part of FIGS. 20-1 to 20-39), any of a plurality of set values in the pachinko gaming machine 1 in the main board 11 (CPU 103). Can be set, and the setting secrecy converted from the set value Are stored in the RAM 102, and on the side of the production control board 12 (production control CPU 120), a suggestion production (morning background production) suggesting the set value that has been set can be executed (FIGS. 20-40 to 20-). 46, the pachinko gaming machine 1 transmits different commands from the main board 11 (CPU 103) to the presentation control board 12 (production control CPU 120) according to the activated state of the pachinko gaming machine 1. A mode of notifying that the RAM 102 is cleared when the setting value of the pachinko gaming machine 1 is changed can be executed in a different manner depending on whether it is started in a cold start or in a setting change state. (Characteristic 3 of FIGS. 21-1 to 21-27), by setting the channel of the setting changeover switch 116SG400 to “C” Although the movable body is operated and the operation result can be confirmed from the operation check result image in the image display device 5 (characteristic part 4 in FIGS. 22-1 to 22-19) has been disclosed, the pachinko gaming machine 1 May apply a plurality of features among these features.

  In particular, when the feature 3 in FIGS. 21-1 to 21-27 and the feature 4 in FIGS. 22-1 to 22-19 are applied to the pachinko gaming machine 1, the setting change displayed on the image display device 5 is changed. Priorities may be provided for related images (for example, message image 122SG005M1 shown in FIG. 21-25 and message image 122SG005M3 shown in FIG. 21-27) and operation check result images. In this way, when the message image 122SG005M1 or the message image 122SG005M3 having a high priority is displayed on the image display device 5, the channel of the setting changeover switch 116SG400 is set to “C”, and the push button 31B is set to 5 Even if it is operated once, it is possible to prevent the operation check result image from being displayed on the image display device 5 and the display of the message image 122SG005M1 and the message image 122SG005M3 from being blocked.

  Furthermore, when applying the characteristic part 3 of FIGS. 21-1 to 21-27 and the characteristic part 4 of FIGS. 22-1 to 22-19 in the pachinko gaming machine 1, set value confirmation processing (FIG. 21-12). At the time of execution), a setting value confirmation image including the setting value set in the pachinko gaming machine 1 is displayed on the image display device 5 or when the setting value changing process (see FIG. 21-14) is executed. A setting value change image including setting values to be set in the machine 1 may be displayed on the image display device 5. In the case where the setting value confirmation image and the setting value change image can be displayed on the image display device 5 in this way, the setting value confirmation image, the setting value change image, and the operation check result image may be prioritized. Good. In this way, the channel of the setting changeover switch 116SG400 is set to “C” and the push button 31B when the setting value confirmation image and the setting value change image with high priority are displayed on the image display device 5. Is operated five times, it is possible to prevent the operation check result image from being displayed on the image display device 5 and the display of the setting value confirmation image and the setting value change image from being blocked.

DESCRIPTION OF SYMBOLS 1 Pachinko machine 2 Game board 4A 1st special symbol display apparatus 4B 2nd special symbol display apparatus 5 Image display apparatus 11 Main board 12 Production control board 103 CPU
120 CPU for effect control

Claims (1)

A gaming machine capable of playing a game,
A plurality of movable bodies;
Movable body control means capable of individually controlling the operation of the movable body;
Special notification means capable of executing special notification based on the establishment of the predetermined condition;
With
The game machine characterized in that the special notification means is capable of executing a notification capable of confirming whether or not each of the movable bodies is operating normally as the special notification.

Images