JP7367801B2 - gaming machine - Google Patents

Description

The present invention relates to a gaming machine.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various perspectives such as structure, control, and presentation, with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly (for example, Patent Document 1). ).

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

JP2011-172988A

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

The present invention has been made to solve at least part of the above-mentioned problems, and can be realized as the following forms.

[form]
special information acquisition means for acquiring special information when an acquisition opportunity based on a gaming operation occurs ;
a lottery determination means for executing a win/fail determination with a predetermined probability using the special information;
Setting value determining means for selecting and determining a setting value of the predetermined probability used for the validity determination from among a plurality of stages within a predetermined range;
means for storing predetermined setting information in a predetermined storage area based on the predetermined setting value being determined ;
Judgment reference information, which is information corresponding to the predetermined setting information and is referred to when judging the validity of the special information by the lottery judging means , using the predetermined setting information stored based on the determination of the setting value. means for determining and remembering the
A gaming machine comprising:
The lottery determination means refers to the reference information at the time of determination and determines the special information before starting the variation of symbols based on the occurrence of the acquisition opportunity ,
The gaming machine further includes:
Setting range determining means for determining whether the predetermined setting information is included in a value within the predetermined range;
an abnormality response processing means that determines that there is an abnormality and executes an abnormality response process when it is determined that the predetermined setting information is not included in the value within the predetermined range;
Equipped with
The determination by the setting range determining means as to whether or not the predetermined setting information is included in a value within the predetermined range is also performed at a stage after the progress of the game is started;
The gaming machine further includes:
storage content determining means for determining whether or not the storage content of the game storage area including the predetermined storage area is normal;
initializing means for initializing a predetermined range of the game storage area when the setting value determining means newly determines the setting value;
Equipped with
If the storage content determining means determines that the storage content of the game storage area is not normal, the game cannot proceed unless initialization is performed by the initialization means.
A gaming machine characterized by:

According to the above embodiment, it is possible to suppress fraud against gaming machines.

It is a perspective view of the Pachinko machine in a 1st embodiment. It is a rear view of the pachinko machine. It is a front view of a game board. It is an explanatory diagram showing a pattern and a display surface which are variably displayed on a pattern display device. It is a block diagram showing the electrical configuration of a pachinko machine. It is an explanatory diagram showing contents of various counters used for a winning lottery and the like. It is an explanatory diagram showing the contents of a validity table. It is an explanatory diagram showing the contents of a distribution table. It is an explanatory view showing the contents of the success/failure table for electric accessories opening lottery. FIG. 2 is a block diagram showing in detail the configuration of a main control device and the configuration of an inspection machine. FIG. 2 is an explanatory diagram schematically showing the contents of processing in a game history management chip and an inspection machine. 3 is a flowchart showing main processing executed by the main MPU. 3 is a flowchart showing timer interrupt processing executed by the main MPU. FIG. 2 is an explanatory diagram illustrating the configuration of an input port provided in the main MPU. FIG. 3 is an explanatory diagram illustrating ball entry detection processing executed by the main MPU. 12 is a flowchart showing a ball entry determination process executed by the main MPU. FIG. 3 is an explanatory diagram illustrating how the presence or absence of a ball entering the ball is detected. It is a flowchart showing the main processing executed by the CPU of the game history management chip. It is a block diagram showing in detail the composition of the main control device and the composition of the inspection machine which the pachinko machine of aspect 6 of a 1st embodiment is provided with. It is an explanatory view showing typically the contents of processing in a gaming history management chip and an inspection machine of aspect 6 of a 1st embodiment. It is a block diagram showing in detail the composition of the main control device and the composition of the inspection machine which the pachinko machine of aspect 7 of a 1st embodiment is provided with. FIG. 7 is an explanatory diagram schematically showing an outline of processing in the gaming history management chip and the inspection machine according to aspect 7 of the first embodiment. It is a block diagram showing the electrical composition of the pachinko machine in aspect 11 of a 1st embodiment. FIG. 7 is an explanatory diagram schematically showing an outline of processing in the main MPU in aspect 11 of the first embodiment. It is a block diagram showing the electrical composition of the pachinko machine in aspect 12 of a 1st embodiment. It is a block diagram showing the electrical composition of the pachinko machine in aspect 23 of a 1st embodiment. 12 is a flowchart showing timer interrupt processing executed by the main MPU (main CPU) according to aspect 23 of the first embodiment. It is a flowchart which shows the ball entry detection process performed by the main side MPU (main side CPU) of aspect 23 of 1st Embodiment. It is a flowchart showing the game history processing executed by the main side MPU (main side CPU) of aspect 23 of the first embodiment. FIG. 12 is an explanatory diagram showing an example of a specific process executed by the main MPU (main CPU) according to aspect 23 of the first embodiment. It is a block diagram showing the electrical composition of the pachinko machine in aspect 37 of a 1st embodiment. 12 is a flowchart illustrating an example of main processing executed by the main MPU (main CPU) according to aspect 46 of the first embodiment. It is an explanatory view showing typically a part of electrical composition of the Pachinko machine in aspect 50 of a 1st embodiment. 12 is a flowchart illustrating an example of main processing executed by the main MPU (main CPU) in aspect 56 of the first embodiment. FIG. 2 is an explanatory diagram showing the configuration of an information display section. It is an explanatory view showing how game history information is displayed on the information display section. FIG. 6 is an explanatory diagram showing how setting information is displayed on the information display section during a setting change mode. FIG. 6 is an explanatory diagram showing how setting information is displayed on the information display section during a setting change mode. FIG. 6 is an explanatory diagram showing how setting information is displayed on the information display section during a setting change mode. FIG. 6 is an explanatory diagram showing how setting information is displayed on the information display section during a setting change mode. FIG. 6 is an explanatory diagram showing how setting information is displayed on the information display section during a setting change mode. It is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 74 of the first embodiment. FIG. 2 is an explanatory diagram showing the configuration of a main side ROM. FIG. 2 is an explanatory diagram showing the configuration of a main side RAM. FIG. 3 is a schematic diagram showing an example of a memory map of the main controller. 12 is a flowchart showing timer interrupt processing executed by the main CPU in aspect 74 of the first embodiment. 13 is a flowchart showing timer interrupt processing executed by the main CPU according to aspect 75 of the first embodiment. 12 is a flowchart showing timer interrupt processing executed by the main CPU in aspect 76 of the first embodiment. It is a process diagram showing a work process when an administrator changes lottery settings of a pachinko machine. It is a process diagram showing the work process when the administrator confirms the lottery setting of the pachinko machine. 12 is a flowchart showing part of the main processing executed by the main MPU (main CPU) in aspect 87 of the first embodiment when the power is turned on. 12 is a flowchart showing a setting change process executed by the main MPU (main CPU) in aspect 87 of the first embodiment. 12 is a flowchart showing a setting confirmation process executed by the main MPU (main CPU) in aspect 87 of the first embodiment. 12 is a flowchart showing part of the main processing executed by the main MPU (main CPU) in aspect 88 of the first embodiment when the power is turned on. 12 is a flowchart showing part of the main processing executed by the main MPU (main CPU) in aspect 89 of the first embodiment when the power is turned on. 12 is a flowchart showing part of the main processing executed by the main MPU (main CPU) in aspect 90 of the first embodiment when the power is turned on. 12 is a flowchart showing a setting change process executed by the main MPU (main CPU) in aspect 91 of the first embodiment. 5 is a time chart showing an example of a change in the display mode of an information display section. 12 is a time chart showing an example of a change in the display mode of the information display section when the number of particles passing through the discharge passage during measurement reaches 60,000. 12 is a time chart showing an example of a change in the display mode of the information display section when the number of particles passing through the discharge passage during measurement reaches 60,000. 12 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 97 of the first embodiment when the power is turned on. 12 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 97 of the first embodiment when the power is turned on. 12 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 98 of the first embodiment when the power is turned on. 12 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 98 of the first embodiment when the power is turned on. 7 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 100 of the first embodiment when the power is turned on. 7 is a flowchart showing a setting change process executed by the main MPU (main CPU) in aspect 100 of the first embodiment. 7 is a flowchart showing a setting confirmation process executed by the main MPU (main CPU) in aspect 100 of the first embodiment. 10 is a flowchart showing timer interrupt processing executed by the main MPU (main CPU) in aspect 100 of the first embodiment. FIG. 3 is a block diagram mainly showing the electrical configurations of an audio emission control device 90 and a display control device 100 according to aspect 101 of the first embodiment. 11 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 101 of the first embodiment when the power is turned on. 10 is a flowchart showing a setting change process executed by the main MPU (main CPU) in aspect 101 of the first embodiment. 10 is a flowchart showing a setting confirmation process executed by the main MPU (main CPU) in aspect 101 of the first embodiment. 10 is a flowchart showing timer interrupt processing executed by the main MPU (main CPU) in aspect 101 of the first embodiment. It is a flowchart which shows the main processing which the sound-light side MPU (sound-light side CPU) performs the aspect 101 of 1st Embodiment. It is a flowchart which shows the starting date and time information acquisition process which the sound-light side MPU (sound-light side CPU) performs the aspect 101 of 1st Embodiment. It is a flowchart which shows the activation type notification process which the sound-light side MPU (sound-light side CPU) performs the aspect 101 of 1st Embodiment. It is a flowchart which shows the timer interrupt process which the sound-light side MPU (sound-light side CPU) performs the aspect 101 of 1st Embodiment. It is a flowchart which shows the process for RTC effects which the sound-light side MPU (sound-light side CPU) performs the aspect 101 of 1st Embodiment. It is an explanatory diagram explaining an RTC performance execution judgment table. It is a flowchart which shows the starting date and time information acquisition process which the sound-light side MPU (sound-light side CPU) performs the aspect 102 of 1st Embodiment. 10 is a flowchart showing timer interrupt processing executed by the main MPU (main CPU) in aspect 103 of the first embodiment. It is a flowchart which shows the entry process for the starting hole which the main side MPU (main side CPU) of aspect 103 of 1st Embodiment performs. 10 is a flowchart showing destination determination processing executed by the main MPU (main CPU) in aspect 103 of the first embodiment. It is a flowchart which shows the ball entry process for through gates performed by the main side MPU (main side CPU) of aspect 103 of 1st Embodiment. It is a flowchart showing the game time control process executed by the main side MPU (main side CPU) in aspect 103 of the first embodiment. 10 is a flowchart showing data setting processing executed by the main MPU (main CPU) in aspect 103 of the first embodiment. 10 is a flowchart showing a variation start process executed by the main MPU (main CPU) in aspect 103 of the first embodiment. It is a flowchart which shows the hit determination process which the main side MPU (main side CPU) of aspect 103 of 1st Embodiment performs. 11 is a flowchart showing a variable time setting process executed by the main MPU (main CPU) in aspect 103 of the first embodiment. It is a flowchart showing the gaming state transition process executed by the main side MPU (main side CPU) in aspect 103 of the first embodiment. It is a flowchart showing the big winning a prize opening/closing process executed by the main side MPU (main side CPU) in aspect 103 of the first embodiment. 10 is a flowchart showing transition processing at the end of an ending period, which is executed by the main MPU (main CPU) in aspect 103 of the first embodiment. It is a flowchart which shows the process for electric role support which the main side MPU (main side CPU) of aspect 103 of 1st Embodiment performs. It is a flowchart which shows the electrical role opening/closing control process which the main side MPU (main side CPU) of aspect 103 of 1st Embodiment performs. It is a flowchart which shows the timer interrupt process which the sound-light side MPU (sound-light side CPU) performs the aspect 102 of 1st Embodiment. It is a flowchart which shows the process for hold effects which the sound and light side MPU (sound and light side CPU) executes in aspect 102 of the first embodiment. It is a flowchart which shows the ball entrance process for the starting opening which the main side MPU (main side CPU) of aspect 104 of 1st Embodiment performs. 11 is a flowchart showing a variation start process executed by the main MPU (main CPU) in aspect 104 of the first embodiment. It is a flowchart which shows the ball entry process for the starting opening performed by the main side MPU (main side CPU) of aspect 105 of 1st Embodiment. 11 is a flowchart showing a variation start process executed by the main MPU (main CPU) in aspect 105 of the first embodiment. It is a flowchart which shows the ball entrance process for the starting opening which the main side MPU (main side CPU) of aspect 106 of 1st Embodiment performs. 11 is a flowchart showing a variation start process executed by the main MPU (main CPU) in aspect 106 of the first embodiment. 11 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 110 of the first embodiment when the power is turned on. 11 is a flowchart showing timer interrupt processing executed by the main MPU in aspect 110 of the first embodiment. It is a flowchart which shows the entry process for the starting opening performed by the main side MPU of aspect 110 of 1st Embodiment. 11 is a flowchart showing destination determination processing executed by the main MPU in aspect 110 of the first embodiment. It is a flowchart showing the game time control process executed by the main side MPU in aspect 110 of the first embodiment. 11 is a flowchart showing a variation start process executed by the main MPU in aspect 110 of the first embodiment. It is a flowchart which shows the hit determination process performed by the main side MPU of aspect 110 of 1st Embodiment. FIG. 7 is an explanatory diagram showing how setting information is displayed on the information display section in aspect 111 of the first embodiment. 11 is a flowchart showing a setting change process executed by the main MPU (main CPU) in aspect 111 of the first embodiment. 11 is a flowchart showing a setting confirmation process executed by the main MPU (main CPU) in aspect 111 of the first embodiment. It is a front view of the game board in aspect 112 of the first embodiment. It is a block diagram showing the electrical configuration of the pachinko machine in aspect 112 of the first embodiment. 12 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 112 of the first embodiment when the power is turned on. It is a block diagram showing the electrical configuration of the pachinko machine in aspect 118 of the first embodiment. FIG. 12 is an explanatory diagram showing how an error code is displayed on the information display section in aspect 119 of the first embodiment. 5 is a timing chart illustrating an example of a processing flow when RAM clear processing is executed after power is turned on. 7 is a timing chart illustrating an example of a process flow when a setting change mode is executed after power is turned on and setting information is not changed in the setting change mode. 7 is a timing chart illustrating an example of a process flow when a setting change mode is executed after power is turned on and setting information is changed in the setting change mode. 12 is a timing chart illustrating an example of a process flow when a setting confirmation mode is executed after power is turned on. 12 is a flowchart showing main processing executed by the main MPU (main CPU) in aspect 121 of the first embodiment when the power is turned on. 12 is a flowchart showing a setting change process executed by the main MPU (main CPU) in aspect 121 of the first embodiment. 12 is a flowchart showing a setting confirmation process executed by the main MPU (main CPU) in aspect 121 of the first embodiment. 12 is a flowchart showing timer interrupt processing executed by the main MPU in aspect 121 of the first embodiment. It is a flowchart which shows door monitoring processing. It is a flowchart which shows the timer interruption process performed by audio-light side MPU. It is a flowchart which shows various processing for notification. It is a flowchart which shows the setting change mode notification process. It is a flowchart which shows the setting confirmation mode notification process. It is a flowchart which shows RAM clear notification processing. It is a flowchart which shows RAM abnormality notification processing. It is a flowchart which shows the door open notification process.

Embodiments of the gaming machine according to the present invention will be described in the following order with reference to the drawings.
A. First embodiment:
B. Application to other configurations:
C. Regarding inventions extracted from each of the above embodiments, etc.:

A. First embodiment:
A1. Structure of gaming machine:
FIG. 1 is a perspective view of a pachinko game machine (hereinafter also referred to as a "pachinko machine") in a first embodiment. The pachinko machine 10 includes a wooden outer frame 11 assembled into a substantially rectangular shape. When the pachinko machine 10 is installed in a game hall, this outer frame 11 is fixed to the island equipment of the game hall. Further, the pachinko machine 10 includes a pachinko machine main body 12 rotatably supported by an outer frame 11. The pachinko machine main body 12 includes an inner frame 13 and a front door frame 14 arranged in front of the inner frame 13. The inner frame 13 is rotatably supported by a metal hinge 15 with respect to the outer frame 11. The front door frame 14 is rotatably supported by a metal hinge 16 with respect to the inner frame 13. On the back side of the inner frame 13, control devices for controlling the pachinko machine main body 12, such as a main control device, a sound emission control device, and a display control device, are arranged. Details of these control devices will be described later. Furthermore, the pachinko machine 10 is provided with a cylinder lock 17. The cylinder lock 17 has a function of locking the inner frame 13 to the outer frame 11 so that it cannot be opened, and a function of locking the front door frame 14 to the inner frame 13 so that it cannot be opened. Each lock is unlocked by performing a predetermined operation on the cylinder lock 17 using a dedicated key.

An open window portion 18 is formed approximately in the center of the front door frame 14. Around the window portion 18 of the front door frame 14, resin parts and illumination parts for decorating the pachinko machine 10 are provided. The illumination parts are constituted by light emitting means consisting of various lamps such as LEDs. The light emitting means serves to enhance the performance effect by lighting up or blinking each game played by the pachinko machine 10, when a jackpot is won, when a reach occurs, and the like. Further, a glass unit 19 made of two sheets of glass is arranged on the back side of the front door frame 14, and the opened window portion 18 is sealed by the glass unit 19. A game board, which will be described later, is removably attached to the inner frame 13, and a player of the pachinko machine 10 can view the game board from the front of the pachinko machine 10 through the glass unit 19. Details of the game board will be described later.

The front door frame 14 is provided with an upper tray 20 and a lower tray 21 for storing game balls. The upper tray 20 is formed into a box shape with an open top surface, and stores game balls such as rental balls lent from a rental machine (not shown) and prize balls ejected from the pachinko machine main body 12. The game balls stored in the upper tray 20 are supplied to a game ball firing mechanism provided in the pachinko machine main body 12. The game ball firing mechanism is driven by the player's operation of the operating handle 25, and fires the game balls supplied from the upper tray 20 onto the front surface of the game board. The lower plate 21 is arranged below the upper plate 20, and is formed into a box shape with an open top surface. The lower tray 21 stores game balls that cannot be stored in the upper tray 20. A discharge port 22 for discharging game balls stored in the lower tray 21 is formed on the bottom surface of the lower tray 21. A lever 23 is provided below the outlet 22, and by operating the lever 23, the player can switch the outlet 22 between a closed state and an open state. When the player operates the lever 23 to open the discharge port 22, the game balls fall from the discharge port 22 and are discharged from the lower tray 21 to the outside.

A performance operation button 24 serving as an operation receiving means is provided in front of the peripheral edge of the upper plate 20. The performance operation button 24 is an operation section through which a player performs an input operation for a game performance performed by the pachinko machine 10. When the player operates the performance operation button 24 at a predetermined timing prepared by the pachinko machine 10, the pachinko machine 10 performs a game performance that reflects the operation.

Further, on the right side of the front door frame 14 when viewed from the front, an operating handle 25 is provided for the player to operate. When the player operates the operation handle 25, a game ball is fired from the game ball firing mechanism to the front of the game board in conjunction with the operation. Inside the operating handle 25, there is a touch sensor 25a for permitting the driving of the game ball firing mechanism, a weight button 25b for stopping the firing of game balls by the game ball firing mechanism when pressed by the player, and the operating handle 25. A variable resistor 25c is provided for detecting the amount of rotational operation by a change in electrical resistance. When the player grasps the operation handle 25, the touch sensor 25a is turned on, and when the player rotates the operation handle 25 clockwise, the resistance value of the variable resistor 25c changes in accordance with the amount of rotation operation. Then, the game ball is fired from the game ball firing mechanism to the front of the game board with a strength corresponding to the resistance value of the variable resistor 25c.

Next, the configuration of the back side of the pachinko machine 10 will be explained. Control equipment for controlling the operation of the pachinko machine 10 is arranged on the back of the pachinko machine 10.

FIG. 2 is a rear view of the pachinko machine 10. As illustrated, the pachinko machine 10 includes a first control unit 51, a second control unit 52, and a third control unit 53. Specifically, these mechanical parts are provided on the back surface of the inner frame 13.

The first control unit 51 includes a main controller 60 . The main control device 60 has a main control board that has a function of controlling the main control of the game and a function of monitoring the power supply. The main control board is housed in a board box made of transparent resin material. This board box is configured to leave traces of opening and closing (also referred to as opening traces or unsealing traces). For example, a seal is affixed to an openable/closable location, and when the board box is opened, the words "opened" appear.

The second control unit 52 includes an audio emission control device 90 and a display control device 100. The audio light emission control device 90 controls light emission means such as a speaker and various lamps provided on the front of the pachinko machine 10 based on commands sent from the main control device 60. The display control device 100 controls the symbol display device based on commands sent from the audio emission control device 90. The symbol display device includes a liquid crystal display that displays symbols and images for presentation.

The third control unit 53 includes a payout control device 70 and a firing control device 80. The payout control device 70 performs payout control for paying out prize balls. The firing control device 80 controls the game so that when an instruction to fire a game ball is input from the main control device 60, the game ball is fired with a strength corresponding to the amount of rotation operation of the operating handle 25 by the player. Controls the ball firing mechanism. In addition, on the back of the inner frame 13, there is a tank 54 that is sequentially replenished with game balls supplied from the island equipment of the game hall, and a slope that is connected to the lower part of the tank 54 and gently sloped so that the game balls flow downstream. A tank rail 55 having a tank rail 55, a case rail 56 vertically connected to the downstream side of the tank rail 55, receiving game balls from the case rail 56 and paying out a predetermined number of game balls according to instructions from a payout control device 70. A plurality of devices necessary for the operation of the pachinko machine 10, such as a payout device 71, are provided.

Next, the game board will be explained. The game board is detachably attached to the front surface of the inner frame 13.

FIG. 3 is a front view of the game board 30. The game board 30 is made of plywood, and a game area PA is formed on the front surface thereof. An inner rail portion 31a and an outer rail portion 31b are attached to the game board 30 so as to partition a part of the outer edge of the game area PA. A guide rail 31 for guiding game balls is formed between the inner rail portion 31a and the outer rail portion 31b. The game ball fired from the game ball firing mechanism is guided by the guide rail 31 and released to the upper part of the game area PA, and then flows down the game area PA. In the game area PA, a plurality of nails 42 are planted substantially perpendicularly to the game board 30, and various accessories such as a windmill are arranged. These nails 42 and windmills disperse and organize the falling direction of the game balls flowing down the game area PA.

The game board 30 is provided with a general winning port 32, a first starting port 33, a second starting port 34, a through gate 35, and a variable winning device 36. Furthermore, the game board 30 is provided with a variable display unit 40 and a main display section 45. The main display section 45 includes a special figure unit 37, a regular figure unit 38, and a round display section 39.

The general prize opening 32 is a ball entrance into which game balls can enter, and a plurality of them are provided on the game board 30. In this embodiment, when game balls enter the general winning hole 32, ten game balls are paid out from the payout device 71 as prize balls. In this embodiment, three general winning holes 32a, 32b, and 32c are provided as the general winning holes 32. Below, the general winning hole 32a is also referred to as the first winning hole 32a, the general winning hole 32b as the second winning hole 32b, and the general winning hole 32c as the third winning hole 32c.

The first starting port 33 is a ball entry port into which game balls can enter. The first starting port 33 is provided below the center of the game board 30. In this embodiment, when game balls enter the first starting port 33, three game balls are paid out as prize balls, and a winning lottery described later is executed.

The second starting port 34 is a ball entry port into which a game ball can enter, and is provided on the right side of the game board 30. In this embodiment, when game balls enter the second starting port 34, three game balls are paid out as prize balls, and a winning lottery described later is executed. Further, the second starting port 34 is provided with an electric accessory 34a as a normal electric accessory.

The through gate 35 includes a through hole that penetrates in the vertical direction. The through gate 35 is a through gate that serves as an opportunity to perform a lottery to open the electric accessory 34a. Specifically, when the game ball passes through the through gate 35, the main control device 60 uses the passage as a trigger to perform an internal lottery (electric accessory release lottery). As a result of the internal lottery, if an electric role release is won, the electric role accessory 34a shifts to an electric role release state in which it becomes an open state in a predetermined manner. Since the through gate 35 is arranged upstream of the second starting port 34 with respect to the downstream direction of the game ball, the game ball that has passed through the through gate 35 flows down the gaming area PA after passing through and enters the second starting port 34. It is possible for the ball to enter the starting port 34. In addition, in this embodiment, even if the game ball passes through the through gate 35, the payout of the prize ball is not executed.

The variable winning device 36 includes a big winning hole 36a that leads to the back side of the game board 30, and an opening/closing door 36b that opens and closes the big winning hole 36a. The opening/closing door 36b is normally in a closed state in which game balls cannot enter the big prize opening 36a. When a game ball enters the first starting port 33 or the second starting port 34, the main control device 60 executes a winning lottery (internal lottery). If a jackpot or small jackpot is won as a result of the winning lottery, the pachinko machine 10 shifts to the opening/closing execution mode. The opening/closing execution mode is a mode in which opening/closing processing of the opening/closing door 36b of the variable prize winning device 36 is executed. Specifically, when the opening/closing door 36b of the variable prize winning device 36 shifts to the opening/closing execution mode, it transitions from a closed state in which game balls cannot enter into an open state in which game balls can enter, and a predetermined condition is satisfied. After that, it transitions to the closed state again. In this embodiment, when a game ball enters the big winning hole 36a of the variable winning device 36, the payout device 71 pays out 15 game balls as prize balls.

Further, an out port 43 is provided at the bottom of the game board 30, and game balls that have not entered the various ball entry ports are discharged from the game area PA through the out port 43.

In addition, in this embodiment, the game in which the ball entered the first starting hole 33, the second starting hole 34, the first winning hole 32a, the second winning hole 32b, the third winning hole 32c, the big winning hole 36a, and the out hole 43 The balls are configured to merge into a discharge passage provided on the back side of the game board 30, and the discharge passage is provided with a discharge passage detection sensor that detects the game balls. As will be described later, in this embodiment, the number of game balls fired onto the game board 30 can be determined by detecting the game balls with the discharge path detection sensor.

The special figure unit 37 includes a first symbol display section 37a and a second symbol display section 37b. The first symbol display section 37a and the second symbol display section 37b are each constituted by a segment display in which a plurality of segment light emitting sections are arranged in a predetermined manner.

The first symbol display section 37a is a display section for displaying the first symbol. The first symbol refers to a symbol that is displayed variably or statically based on a winning lottery triggered by the entry of a game ball into the first starting port 33. The first symbol display section 37a is configured as a display mode until the segment display displays a display corresponding to the lottery result when a winning lottery is performed triggered by the entry of a game ball into the first starting port 33. , the first symbol is displayed in a variable manner or in a predetermined manner. When the lottery ends, the first symbol display section 37a causes the segment display to stop display the first symbol corresponding to the lottery result. Hereinafter, a game round in which a winning lottery is executed triggered by the entry of a game ball into the first starting hole 33 will also be referred to as a first starting hole game round.

The second symbol display section 37b is a display section for displaying a second symbol. The second symbol refers to a symbol that is variably displayed or statically displayed based on a winning lottery triggered by the entry of a game ball into the second starting port 34. The second symbol display section 37b is configured as a display mode until the segment display displays a display corresponding to the lottery result when a winning lottery is performed triggered by the entry of a game ball into the second starting port 34. , a variable display or a predetermined display of the second symbol is performed. When the lottery ends, the second symbol display section 37b causes the segment display to stop display the second symbol corresponding to the lottery result. Hereinafter, a game round in which a winning lottery is executed triggered by the entry of a game ball into the second starting opening 34 will also be referred to as a second starting opening game round.

Here, the time period from when the first symbol displayed on the first symbol display section 37a or the second symbol displayed on the second symbol display section 37b starts to be displayed in a variable manner until it is stopped and displayed. Also called variable time. Specifically, the time from the start of the variable display of the first symbol displayed on the first symbol display section 37a until the time when the first symbol is stopped and displayed is also called the first variation time, and The time period from the start of the variable display of the second symbol to the time it is stopped and displayed is also referred to as the second variable time.

The special figure unit 37 further includes a first reservation display section 37c and a second reservation display section 37d, which are made of LED lamps, at positions adjacent to the first symbol display section 37a and the second symbol display section 37b.

The first reservation display section 37c displays the number of reservations at the first starting port 33 by the color and combination of LED lamps to be lit. In this embodiment, up to four game balls that have entered the first starting port 33 are held.

The second reservation display section 37d displays the number of reservations at the second starting port 34 by the color and combination of LED lamps to be lit. In this embodiment, up to four game balls that have entered the second starting port 34 are held.

The general figure unit 38 is constituted by a light emitting display section in which a plurality of LED lamps are arranged in a predetermined manner. When the electric accessory opening lottery is held triggered by passing through the through gate 35, the common figure unit 38 causes the light-emitting display to display a lighting display, a blinking display, or a predetermined display mode. When the electric accessory opening lottery ends, the common map unit 38 displays a predetermined mode corresponding to the lottery result.

The round display section 39 is constituted by a light emitting display section in which a plurality of LED lamps are arranged in a predetermined manner, and displays the number of round games that occur in the opening/closing execution mode, or displays corresponding thereto. A round game is a game that is opened and closed until either the predetermined upper limit duration time elapses or the predetermined upper limit number of game balls enters the variable winning device 36. This is a game in which the door 36b remains open. The number of round games varies depending on the type of jackpot winning that triggered the transition. The round display section 39 starts displaying the number of round games when the opening/closing execution mode is started, and ends when the opening/closing execution mode ends.

Note that the special figure unit 37, the general figure unit 38, and the round display section 39 are not limited to being constituted by a segment display or a light emitting display using an LED lamp, and may be, for example, a liquid crystal display device, an organic EL display device, It may be constituted by various display devices such as a CRT or a dot matrix display capable of showing the drawing process and the drawing results.

The variable display unit 40 is arranged approximately at the center of the gaming area PA. The variable display unit 40 includes a symbol display device 41. The symbol display device 41 includes a liquid crystal display. The display content of the symbol display device 41 is controlled by the display control device 100. Note that the configuration of the display device included in the variable display unit 40 is not limited to the symbol display device 41, and may be configured by various display devices such as a plasma display device, an organic EL display device, or a CRT.

When the first symbol display section 37a displays a variable display or a predetermined display based on the entry of a game ball into the first starting port 33, the symbol display device 41 displays a variable display or a predetermined display of symbols in accordance with the variable display or a predetermined display. I do. Further, when the second symbol display section 37b displays a variable display or a predetermined display based on the entry of a game ball into the second starting port 34, the symbol display device 41 displays a variable display of the symbol or a predetermined display according to the variable display or a predetermined display. will be displayed. The symbol display device 41 is not limited to displaying a variable symbol or a predetermined display triggered by the entry of a game ball into the first starting port 33 or the second starting port 34, but also when a jackpot is won. It also displays effects during the transition to the opening/closing execution mode. The details of the symbol display device 41 will be explained below.

FIG. 4 is an explanatory diagram showing symbols that are variably displayed on the symbol display device 41 and the display surface 41a. FIG. 4(a) is an explanatory diagram showing symbols that are variably displayed on the symbol display device 41. As shown in FIG. 4(a), symbols representing numbers 1 to 8 are displayed in a variable manner on the symbol display device 41. In addition, as the symbols to be displayed in a variable manner, a symbol in which a character or other image is attached to each symbol representing the numbers 1 to 8 may be used.

FIG. 4(b) is an explanatory diagram showing the display surface 41a of the symbol display device 41. As shown in the figure, three symbol rows Z1, Z2, and Z3 on the left, middle, and right are displayed on the display surface 41a. In each symbol row Z1 to Z3, the symbols numbered 1 to 8 shown in FIG. A fluctuating display that scrolls upwards is displayed. As shown in FIG. 4(b), after the variable display by scrolling, one symbol for each symbol row is displayed in a stopped state on the active line L. Specifically, when a game ball enters the first starting hole 33 or the second starting hole 34, a variable display in which the symbols of each symbol row Z1 to Z3 periodically scroll in a predetermined direction is started. Then, each of the scrolling symbols switches from a variable display to a standby display in the order of symbol row Z1, symbol row Z3, and symbol row Z2, and finally, a predetermined symbol is stopped and displayed in each symbol row Z1 to Z3. . When the fluctuating display of symbols is finished and the display is stopped, if the result of the winning lottery by the main controller 60 is a jackpot, a predetermined combination of symbols will be on the active line L. It is formed. For example, a combination of the same symbols is formed on the active line L. Note that the mode of variable display of symbols in the symbol display device 41 is not limited to the above-mentioned mode, but may vary depending on the number of symbol rows, the number of active lines, the direction of fluctuating display of symbols in the symbol rows, and the symbols of each symbol row. Various modes can be adopted for displaying the symbols such as numbers in a variable manner.

Here, a game round is a unit of processing for notifying the player of the lottery result of the winning lottery regarding the special information obtained based on the winning of either the first starting port 33 or the second starting port 34. It is. In other words, the pachinko machine 10 notifies the player of the lottery result of one winning lottery for one piece of special information every game. When the pachinko machine 10 of the present embodiment acquires special information based on a winning in either the first starting port 33 or the second starting port 34, the first result display section 37a or the second result On either one of the display sections 37b, after the segment display is displayed in a variable manner, the segment display is stopped and displayed so that the display corresponds to the lottery result of the acquired special information. Furthermore, when the pachinko machine 10 of the present embodiment acquires special information based on a winning in either the first starting port 33 or the second starting port 34, a predetermined information is displayed on the symbol display device 41 for each game. After the symbol row is displayed in a variable manner, the symbol row is stopped and displayed so that the display corresponds to the lottery result of the acquired special information. Further, the time required for one game round is also called unit game time. The unit gaming time consists of a variable time, which is the time from when the variable display starts until the predetermined lottery result is stopped and displayed, and a stop time, which is the time during which the predetermined lottery result is stopped and displayed. There is.

Furthermore, as shown in FIG. 4(b), a first reservation display area Ds1 and a second reservation display area Ds2 are displayed on the display surface 41a of the symbol display device 41. In the first reservation display area Ds1, the number of reservations based on winnings in the first start opening 33 is displayed. In the second reservation display area Ds2, the number of reservations based on winnings in the second start opening 34 is displayed. In addition, in this embodiment, as mentioned above, the number of reserved game balls that have won in the first starting port 33 and the second starting port 34 is up to four each.

A2. Electrical configuration of gaming machine:
Next, the electrical configuration of the pachinko machine 10 will be explained. In this description, the electrical configuration of the pachinko machine 10 will be explained using a block diagram.

FIG. 5 is a block diagram showing the electrical configuration of the pachinko machine 10 of the first embodiment. The pachinko machine 10 is mainly configured around a main control device 60, and also includes a sound emission control device 90 and a display control device 100.

The main control device 60 includes a main control board 61 that controls the main control of the game. The main control board 61 includes an MPU 62 that includes elements having multiple functions. The MPU 62 includes a CPU 62x that executes various control programs, a ROM 63 that records various control programs and fixed value data, and a ROM 63 that temporarily stores various data when the CPU 62x executes the programs recorded in the ROM 63. RAM 64, which is a memory, and an input/output port 62a. The MPU 62 further includes a game history management chip 300 and a testing terminal 65.

The game history management chip 300 calculates various types of game history information, which will be described later, based on the information of the game ball entering the starting hole, winning hole, and gate (hereinafter also collectively referred to as "ball entrance hole"). do. The test terminal 65 is a terminal for transmitting game history information stored in the game history management chip 300 to a test machine described later. Details of the game history management chip 300 and the test terminal 65 will be described later.

The MPU 62 also includes an interrupt circuit, a timer circuit, a data input/output circuit, and a counter circuit as a random number generator. In addition, another element may be provided with some of the functions that the MPU 62 has.

A payout control device 70 and a power failure monitoring circuit 86 provided in a power supply device 85 are connected to the input side of the MPU 62. The main control board 61 receives stable 24 V DC power from the power supply device 85 via the power failure monitoring circuit 86 . The power supply device 85 is connected to a commercial power source as an external power source, and converts the external power supplied from the commercial power source into operating power necessary for the main control device 60, payout control device 70, etc., and supplies it to each device. Supply electricity. Further, in this embodiment, the power supply device 85 includes a capacitor 87, and continues to supply power to each device for a predetermined period when a power outage occurs or the power switch is turned off.

Furthermore, a ball entry detection sensor provided at each ball entry opening is connected to the input side of the MPU 62. Specifically, a big winning opening detection sensor 44a that detects the game ball that has entered the big winning opening 36a, a first starting opening detection sensor 44b that detects the gaming ball that has entered the first starting opening 33, and a first starting opening detection sensor 44b that detects the gaming ball that has entered the first starting opening 33. A second starting opening detection sensor 44c that detects a game ball that has entered the second starting opening 34, a first winning opening detection sensor 44d that detects a gaming ball that has entered the first winning opening 32a, and a second winning opening 32b. A second winning hole detection sensor 44e that detects the game ball that has entered the ball, a third winning hole detection sensor 44f that detects the game ball that has entered the third winning hole 32c, and a game ball that has passed through the through gate 35. A through gate detection sensor 44g for detection and a discharge passage detection sensor 44h for detecting game balls that have passed through the discharge passage described above are connected. Based on the signals from these detection sensors, the MPU 62 determines whether or not the game ball flowing down the game area PA has entered the starting port or winning port, and whether the game ball has passed through the through gate or discharge path. Determine whether or not. Furthermore, the MPU 62 executes a winning lottery based on the entry of game balls into the first starting port 33 and the second starting port 34.

On the output side of the MPU 62, there is a variable winning drive unit 36c that opens and closes the door 36b of the variable winning device 36, an electric accessory drive unit 34b that opens and closes the electric accessory 34a of the second starting port 34, and a main display. 45 is connected. The main control board 61 is provided with various driver circuits, and the MPU 62 executes drive control of various drive units through the driver circuits.

Specifically, in the opening/closing execution mode, the MPU 62 executes drive control of the variable prize winning drive unit 36c so that the opening/closing door 36b is opened and closed. Further, if the electric accessory opening lottery is won, the MPU 62 executes drive control of the electric accessory drive unit 44b so that the electric accessory 34a is released. Furthermore, in each game round, the MPU 62 executes display control of the first symbol display section 37a or the second symbol display section 37b in the main display section 45, and in the opening/closing execution mode, the MPU 62 performs round display on the main display section 45. Display control of section 39 is executed.

Further, a payout control device 70 and a sound emission control device 90 are connected to the transmission side of the MPU 62. For example, a prize ball command is transmitted to the payout control device 70 from the main control device 60 based on the ball entry determination result. When the main control device 60 transmits a prize ball command, the MPU 62 of the main control board 61 refers to the command information storage area of the ROM 63. Specifically, when the entry of a game ball into the general prize opening 32 is identified, a prize ball command corresponding to the payout of 10 game balls is transmitted from the main control device 60 to the first starting opening 33. When the entry of game balls into the second starting port 34 is identified, a prize ball command corresponding to the payout of three game balls is transmitted from the main control device 60, and when the entry of game balls into the second starting port 34 is identified. A prize ball command corresponding to the payout of one game ball is transmitted from the main control device 60. The payout control device 70 controls the payout device 71 to pay out prize balls based on the prize ball command received from the main control device 60.

A firing control device 80 is connected to the dispensing control device 70 . The launch control device 80 controls the launch of the game ball launch mechanism 81. The game ball firing mechanism 81 is driven when predetermined firing conditions are met. Further, the operation handle 25 is connected to the launch control device 80 . As described above, the operating handle 25 includes a touch sensor 25a, a weight button 25b, and a variable resistor 25c. When the player grips the operating handle 25, the touch sensor 25a is turned on, and when the player rotates the operating handle 25, the resistance value of the variable resistor 25c changes in accordance with the amount of rotational operation. A game ball is fired from the game ball firing mechanism to the front of the game board with a strength corresponding to the resistance value of the variable resistor 25c.

The audio emission control device 90 receives various commands transmitted from the main control device 60, and executes processing corresponding to the received various commands. Specifically, the audio light emission control device 90 controls the drive of various lamps 47 made of light emitting means such as LEDs arranged in the front door frame 14 and the speaker 46 based on various commands received from the main control device 60. The display control device 100 is also controlled. Further, a performance operation button 24 is connected to the sound emission control device 90, and when the performance operation button 24 is operated by a player at a predetermined timing, a game performance that reflects the operation is performed. It controls various lamps 47, speakers 46, display control device 100, etc.

The display control device 100 executes display control of the symbol display device 41 based on various commands received from the audio emission control device 90. Specifically, the display control device 100 grasps the fluctuation time of the symbols on the symbol display device 41 and the type of combination of symbols to be finally stopped and displayed based on various commands received from the audio emission control device 90. , the presence or absence of a reach, the contents of the reach effect, and the contents of the effect executed while the first liquid crystal symbol and the second liquid crystal symbol are being displayed in a variable manner are grasped. In addition, in this embodiment, the stop time which is the time when the 1st liquid crystal pattern or the 2nd liquid crystal pattern is stopped and displayed is fixed. Therefore, by determining the variable time, the unit game time, which is the time required for one game, is uniquely determined. The electrical configuration of the pachinko machine 10 has been described above.

FIG. 6 is an explanatory diagram showing the contents of various counters used for winning lottery and the like. Various counters are provided in various counter areas of the RAM 64, and are used when the MPU 62 performs the winning lottery, setting the display on the main display section 45, setting the symbol display on the symbol display device 41, and the like. Specifically, a jackpot random number counter C1 is used for the winning lottery. A jackpot type counter C2 is used when sorting the jackpot types. A reach random number counter C3 is used to determine whether or not to generate a reach when the symbol row displayed on the symbol display device 41 is changed.

A random number initial value counter CINI is used to set the initial value of the jackpot random number counter C1. Further, when determining the fluctuation time in the first symbol display section 37a and the second symbol display section 37b of the main display section 45 and the symbol display device 41, a variation type counter CS is used. Further, an electric accessory opening counter C4 is used for an electric accessory release lottery to decide whether or not to open the electric accessory 34a of the second starting port 34.

Each of the counters C1 to C3, CINI, CS, and C4 is a loop counter in which 1 is added to the counter value each time the counter value is updated, and returns to 0 after reaching the maximum value. Each counter is updated at short intervals, and the updated value is appropriately stored in a lottery counter buffer 64a set in a predetermined area of the RAM 64.

Further, the RAM 64 is provided with a pending information storage area 64b and a determination processing execution area 64c. The reservation information storage area 64b is provided with a first reservation area Ra and a second reservation area Rb. In this embodiment, when a game ball enters the first starting port 33, each value of the jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, and fluctuation type counter CS at the timing of ball entry is stored in the pending information storage area. 64b is stored in the first reservation area Ra in chronological order. Further, when a game ball enters the second starting port 34, each value of the jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, and fluctuation type counter CS at the timing of ball entry is set to the number 1 in the pending information storage area 64b. 2 storage area Rb in chronological order.

Details of the jackpot random number counter C1 will be explained. The jackpot random number counter C1 is used for the winning lottery as described above. For example, the jackpot random number counter C1 is configured to increment sequentially by 1 within the range of 0 to 1199, and return to 0 after reaching the maximum value. Further, when the jackpot random number counter C1 makes one round, the value of the random number initial value counter CINI at that time is read as the initial value of the jackpot random number counter C1. Note that the random number initial value counter CINI is a loop counter similar to the jackpot random number counter C1 (value=0 to 1199).

The jackpot random number counter C1 is updated regularly, and the updated value is stored in the first holding area Ra of the holding information storage area 64b at the timing of the ball entering the first starting port 33. When a game ball enters the second starting port 34, it is stored in the second holding area Rb of the holding information storage area 64b at the timing of the ball entering.

The value of the jackpot random number counter C1 stored in the first holding area Ra is moved to the execution area AE of the determination process execution area 64c, and is compared with the win/fail table stored in the win/fail table storage area of the ROM 63, resulting in a jackpot. It is determined whether or not. In addition, the value of the jackpot random number counter C1 stored in the second holding area Rb is moved to the execution area AE of the determination process execution area 64c, and is compared with the win/fail table stored in the win/fail table storage area of the ROM 63, and the jackpot is determined. It is determined whether or not.

In the pachinko machine 10 of this embodiment, the value of the jackpot random number counter C1 stored in the first holding area Ra or the second holding area Rb is determined by the value of the game ball entering the first starting port 33 or the second starting port 34. As a result, the execution areas AE of the determination processing execution area 64c are moved in the order in which they were acquired. Then, the jackpot random number counter C1 moved to the execution area AE is compared with the win/fail table stored in the win/fail table storage area of the ROM 63, and it is determined whether or not there is a jackpot.

Next, details of the jackpot type counter C2 will be explained. The jackpot type counter C2 is used when determining the jackpot type. The jackpot type counter C2 is configured to be sequentially incremented by 1 within the range of 0 to 39, and return to 0 after reaching the maximum value.

The jackpot type counter C2 is updated regularly, and when a game ball enters the first starting port 33, the updated value is stored in the first holding area Ra of the holding information storage area 64b at the timing of the ball entering. When a game ball enters the second starting port 34, it is stored in the second holding area Rb of the holding information storage area 64b at the timing of the ball entering.

As described above, the MPU 62 performs a winning lottery using the value of the jackpot random number counter C1 stored in the determination processing execution area 64c, and when the result of the winning lottery is a jackpot, the MPU 62 performs a winning lottery using the value of the jackpot random number counter C1 stored in the determination processing execution area 64c. The jackpot type is determined using the value of the jackpot type counter C2 stored in the jackpot type counter C2. Furthermore, the MPU 62 uses the value of the jackpot random number counter C1 and the value of the jackpot type counter C2 to determine the display mode of the segment display to be stopped and displayed on the first symbol display section 37a and the second symbol display section 37b. . In making this determination, the stop result table stored in the stop result table storage area of the ROM 63 is referred to.

Next, details of the reach random number counter C3 will be explained. The reach random number counter C3 is used to determine whether or not a reach occurs when the result of the winning lottery is not a jackpot. The reach random number counter C3 is configured to increment sequentially by 1 within the range of 0 to 238, for example, and return to 0 after reaching the maximum value.

The reach random number counter C3 is updated regularly, and the updated value is stored in the first holding area Ra of the holding information storage area 64b at the timing when a game ball enters the first starting port 33, and the updated value is stored in the first holding area Ra of the holding information storage area 64b. The game ball is stored in the second holding area Rb of the holding information storage area 64b at the timing when the game ball enters the ball. After moving to the determination processing execution area 64c, the value of the reach random number counter C3 stored in the first holding area Ra is compared with the reach determination table stored in the reach determination table storage area of the ROM 63, and the reach is determined. It is determined whether or not this occurs. After moving to the determination processing execution area 64c, the value of the reach random number counter C3 stored in the second holding area Rb is compared with the reach determination table stored in the reach determination table storage area of the ROM 63, and the reach is determined. It is determined whether or not this occurs. However, when the result of the winning lottery is a jackpot and the mode is shifted to the opening/closing execution mode, the MPU 62 determines that the reach is generated regardless of the value of the reach random number counter C3.

Reach means that some combinations of symbols that have the possibility of forming a combination of symbols that correspond to a jackpot are stopped for some of the multiple symbol arrays displayed on the display screen of the symbol display device 41. It refers to a display state in which symbols are displayed and in that state, symbols are displayed variably in the remaining symbol rows. In addition, in the pachinko machine 10 of this embodiment, the combination of symbols that corresponds to a jackpot refers to a combination of the same symbols on a predetermined active line. As a specific example, in the main display area MA of the display surface 41a in FIG. 4(b), a symbol is first stopped and displayed in the symbol row Z1, and then the same symbol as Z1 is stopped and displayed in the symbol row Z3. A reach line is formed, and in a situation where the reach line is formed, a variable display of symbols is performed in the symbol row Z2, resulting in a reach state. When a jackpot occurs, the same symbols as those forming the reach line are stopped and displayed in the symbol row Z2.

In addition, in the reach, the reach line is formed, and the remaining symbol rows are displayed with fluctuating symbols, and a predetermined character or the like is displayed as a video on the background screen to create a reach effect. This includes a method in which a combination of symbols in which a reach line is formed is displayed in a reduced size or hidden, and a predetermined character or the like is displayed as a moving image on substantially the entire display surface 41a to perform a reach effect. In addition, when a reach effect is being performed or before a reach display, a decision is made as to whether or not to display a preview using a predetermined image such as a predetermined character using the reach random number counter C3 or other counters. It's okay.

Next, details of the variation type counter CS will be explained. The variation type counter CS is used when the MPU 62 determines the variation time in the first symbol display section 37a and the second symbol display section 37b and the symbol variation time in the symbol display device 41. The variation type counter CS is configured to be incremented one by one within the range of 0 to 198, for example, and return to 0 after reaching the maximum value.

The variation type counter CS is updated once every time a normal process (described later) is executed once, and is repeatedly updated within the remaining time within the normal process. Then, the buffer value of the variation type counter CS is acquired when determining the variation pattern at the start of the variation display on the first symbol display section 37a or the second symbol display section 37b and at the time the symbol display device 41 starts variation of the symbol. When determining the fluctuation time in the first symbol display section 37a and the second symbol display section 37b, a fluctuation time table stored in the fluctuation time table storage area of the ROM 63 is used.

Next, details of the electric accessory opening counter C4 will be explained. The electric accessory opening counter C4 is configured to increment sequentially by 1 within the range of 0 to 465, for example, and return to 0 after reaching the maximum value. The electric accessory release counter C4 is updated regularly and is stored in the electric role holding area 64d of the RAM 64 at the timing when a game ball enters the through gate 35. Then, at a predetermined timing, after the value of the electric accessory opening counter C4 stored in the electric accessory holding area 64d moves to the electric accessory execution area 64e, the electric accessory is released in the electric accessory execution area 64e. A lottery is held using the value of the counter C4 to determine whether or not to control the electric accessory 34a to the open state. For example, if C4=0 or 1, the electric accessory 34a is controlled to be in the open state, and if C4=2 to 465, the electric accessory 34a is maintained in the closed state.

Note that at least one of the acquired value of the jackpot random number counter C1, the value of the jackpot type counter C2, the value of the reach random number counter C3, the value of the electric accessory release counter C4, and the value of the fluctuation type counter CS is special information in the present invention. corresponds to In addition, at least one of the value of the jackpot random number counter C1, the value of the jackpot type counter C2, the value of the reach random number counter C3, and the value of the fluctuation type counter CS stored in the first holding area Ra and the second holding area Rb is held. Also called information.

Next, the validity table will be explained. The win/fail table is table data for comparing with the jackpot random number counter C1 when performing a winning lottery based on the jackpot random number counter C1. The pachinko machine 10 is set to a low probability mode and a high probability mode as the lottery modes for winning lots, and when drawing a winning lottery in the low probability mode, the win/fail table for the low probability mode is referred to, and the winning lottery mode is set to a low probability mode and a high probability mode. When drawing a winning lottery in the probability mode, the winning/failure table for the high probability mode is referred to.

FIG. 7 is an explanatory diagram showing the contents of the validity table. FIG. 7(a) shows a success/failure table for low probability mode (for low probability mode), and FIG. 7(b) shows a success/failure table for high probability mode.

As shown in FIG. 7(a), five values from 0 to 4 are set in the low probability mode win/fail table as the value of the jackpot random number counter C1 that is a jackpot. Among the values from 0 to 1199, values other than the five values from 0 to 4 (5 to 1199) are outliers. On the other hand, as shown in FIG. 7(b), in the high probability mode win/fail table, 16 values from 0 to 15 are set as the value of the jackpot random number counter C1 that is a jackpot. Among the values from 0 to 1199, values other than the 16 values from 0 to 15 are outliers. In this way, the high probability mode has a higher probability of winning a jackpot in the winning lottery than the low probability mode.

In addition, in this embodiment, the value group of the jackpot random number counter C1 set as a jackpot in the win/fail table for the low probability mode is the value group of the jackpot random number counter C1 set as a jackpot in the win/fail table for the high probability mode. included in the group. However, as long as the probability of a jackpot is higher in the high probability mode than in the low probability mode as a result of the winning lottery, the number and value of random numbers set as a jackpot are arbitrary.

Although not adopted in the win/fail table in this embodiment, a "small win" may be provided as a result of the winning lottery.

A "small win" is a win/fail result that triggers a transition to the opening/closing execution mode in which the variable winning device 36 is opened/closed, but does not trigger a transition to both the lottery mode and the support mode. On the other hand, "losing" is a win/fail result that does not trigger a transition to the opening/closing execution mode, and also does not trigger a transition to the lottery mode or support mode.

Next, the jackpot type will be explained. A plurality of types of jackpots can be set in the pachinko machine 10. Specifically, for example, by providing differences in the following three aspects or modes, it is possible to set a plurality of types of jackpots.
(1) Number of times the opening/closing door 36b of the variable prize winning device 36 is opened/closed in the opening/closing execution mode (number of rounds)
(2) Aspects of opening/closing control of the variable prize winning device 36 in opening/closing execution mode (3) Lottery mode for winning lottery after completion of opening/closing execution mode (low probability mode or high probability mode)

As an aspect of the opening/closing control of the variable winning device 36 in the above (2) opening/closing execution mode, the occurrence of a game ball entering the variable winning device 36 (winning) between the start and end of the opening/closing execution mode. A high-frequency winning mode and a low-frequency winning mode can be set so that the frequencies are relatively high or low. For example, in the high-frequency winning mode, one opening of the opening/closing door 36b in the opening/closing execution mode is set to continue until 30 seconds have elapsed or until the number of game balls entering the opening/closing door 36b reaches 10. can do. On the other hand, in the low-frequency winning mode, the opening/closing door 36b is set to continue opening once in the opening/closing execution mode until 1.6 seconds have elapsed or until the number of balls entering the opening/closing door 36b reaches 10. I can do it.

The opening limit time for one opening of the opening/closing door 36b and the opening limit number for one opening are based on the frequency of occurrence of balls entering the variable prize winning device 36 from the start to the end of the opening/closing execution mode. As long as the winnings in the high-frequency winning mode are higher than in the low-frequency winning mode, the door 36b can be opened in any manner. Specifically, it is only necessary that the high-frequency winning mode has a longer opening time limit for one opening or a larger opening limit number for one opening than the low-frequency winning mode. In order to clarify the difference between the high-frequency winning mode and the low-frequency winning mode, a configuration may be adopted in which winnings to the variable winning device 36 do not substantially occur in the opening/closing execution mode of the low-frequency winning mode.

In addition, in this embodiment, multiple types of winning modes are not provided as the opening/closing execution mode, and during the opening/closing execution mode, the above-mentioned high frequency winning mode is used. That is, one opening of the opening/closing door 36b in the opening/closing execution mode is set to continue until 30 seconds pass or until the number of game balls entering the opening/closing door 36b reaches 10.

In this embodiment, when a jackpot is obtained as a result of the winning lottery, the jackpot type is sorted using the jackpot type counter C2. The distribution of the jackpot type corresponding to the value of the jackpot type counter C2 is stored as a distribution table in the distribution table storage area of the ROM 63.

FIG. 8 is an explanatory diagram showing the contents of the distribution table. FIG. 8(a) shows a distribution table for the first starting port, and FIG. 8(b) shows a distribution table for the second starting port. The distribution table for the first starting port is referred to during a winning lottery based on the entry of game balls into the first starting port 33, and the distribution table for the second starting port is referred to when drawing a winning lottery based on the entry of game balls into the first starting port 33. It is referred to when drawing a winning lottery based on the number of game balls that enter the game.

As shown in the allocation table for the first starting opening in FIG. 8(a), in the pachinko machine 10 of the present embodiment, the jackpot types based on the first starting opening 33 are 16R probability variable jackpot, 8R probability variation jackpot, and 16R normal jackpot. A jackpot and an 8R normal jackpot are set.

In the 16R probability variable jackpot and 8R probability variable jackpot, the mode of opening/closing control of the variable winning device 36 in the opening/closing execution mode is the high frequency winning mode, the win/fail lottery mode after the end of the opening/closing execution mode is the high probability mode, and the opening/closing execution mode is It is a jackpot that the support mode after the end of is the high-frequency support mode.

In the 16R normal jackpot and 8R normal jackpot, the mode of opening/closing control of the variable winning device 36 in the opening/closing execution mode is the high frequency winning mode, the win/fail lottery mode after the opening/closing execution mode is the low probability mode, and the opening/closing execution mode is It is a jackpot that the support mode after the end of is the high-frequency support mode.

In the distribution table for the first starting opening, among the values of the jackpot type counter C2 of "0 to 39", "0 to 13" correspond to the 16R probability variable jackpot, and "14 to 27" correspond to the 8R normal jackpot. "28-33" corresponds to the 16R regular jackpot, and "34-39" corresponds to the 8R regular jackpot.

As described above, in the pachinko machine 10 of this embodiment, four types of jackpots are set as jackpot types. Therefore, the aspects of jackpots are diversified. When these four types of jackpots are compared, the degree of advantage for the player is the highest for the 16R probability variable jackpot, followed by the 8R probability variable jackpot, the next highest, the 16R regular jackpot, and finally the 8R regular jackpot. By setting a plurality of types of jackpots with different degrees of advantage for the player in this way, it is possible to prevent the game from becoming monotonous and to increase the degree of attention to the game.

As shown in the distribution table for the second starting opening in FIG. 8(b), in the pachinko machine 10 of the present embodiment, 16R certain variable jackpot and 8R normal jackpot are set as jackpot types based on the second starting opening 34. ing. In the distribution table for the second starting opening, among the values of the jackpot type counter C2 of "0 to 39", "0 to 27" correspond to the 16R probability variable jackpot, and "28 to 39" correspond to the 8R normal jackpot. It corresponds to

In this way, in the pachinko machine 10 of the present embodiment, the distribution of the jackpot type in the case of a jackpot is as follows: This is different from the case where a jackpot is achieved based on the entry of a game ball into the second starting hole 34, and there is a clear difference in the advantage for the player.

As described above, the MPU 62 performs a winning lottery using the value of the jackpot random number counter C1 stored in the execution area AE, and also determines the jackpot type using the value of the jackpot type counter C2 stored in the execution area AE. Furthermore, the MPU 62 uses the values of the jackpot random number counter C1 and the jackpot type counter C2 to determine the segment display to be stopped and displayed on the first result display section 37a and the second result display section 37b. Decide the display mode. In making this determination, the stop result table stored in the stop result table storage area of the ROM 63 is referred to.

In the pachinko machine 10, as an aspect of the support mode of the electric accessory 34a of the second starting port 34 after the above-mentioned (3) opening/closing execution mode ends, the firing of game balls into the gaming area PA continues in the same manner. When compared in the situation where can be set.

Specifically, in the pachinko machine 10 according to the present embodiment, the probability of winning the electric role opening in the electric role-playing object opening lottery using the electric role-playing object opening counter C4 is different between the high-frequency support mode and the low-frequency support mode. . In the high-frequency support mode, the probability of winning the electric role-playing role in the electric role-playing object lottery is made higher than in the low-frequency support mode. Furthermore, in the high-frequency support mode, the time for one opening of the electric accessory 34a is set longer than in the low-frequency support mode when the electric role is won.

Although not adopted in this embodiment, in the case where the electric role is won in the high-frequency support mode and the electric role is opened several times, the electric role is opened several times. The closing time until the open state starts may be set shorter than the opening time for one time. Furthermore, in the high-frequency support mode, the time secured from when one electric accessory lottery is held until the next electric accessory lottery is held is set to be relatively shorter than in the low-frequency support mode. It's okay.

As described above, in the high-frequency support mode, the probability that a game ball will enter the second starting port 34 is higher than in the low-frequency support mode. That is, the high frequency support mode functions as an auxiliary game state that assists in fulfilling the special information acquisition condition.

FIG. 9 is an explanatory diagram showing the contents of a win/fail table (win/fail table for electric accessory lottery) used when executing the electric accessory lottery.

FIG. 9A shows a winning/failure table (for low-frequency support mode) for electric accessory opening lottery used in low-frequency support mode. As shown in FIG. 9(a), the winning/failure table for electric accessory opening lottery (for low-frequency support mode) has two values of 0 and 1 as the value of electric accessory opening counter C4, which is the winning of electric accessory opening. Value is set. 464 values from 2 to 465 are set as the value of the electric accessory opening counter C4 that is a failure. That is, when the game ball passes through the through gate 35 during the low-frequency support mode and the electric role opening lottery is executed, the electric role opening lottery will be won with a probability of 1/233. In the pachinko machine 10 of this embodiment, when an electric role opening win occurs during the low-frequency support mode, the electric role model 34a is opened once, and the opening time is 1.4 seconds.

FIG. 9(b) shows a win/fail table (for high-frequency support mode) for electric accessory opening lottery used in high-frequency support mode. As shown in FIG. 9(b), the winning/failure table for electric accessory opening lottery (for high-frequency support mode) contains 462 values from 0 to 461 as the value of the electric accessory opening counter C4 that is the winning electric accessory. Value is set. Four values from 462 to 465 are set as the value of the electric accessory release counter C4 that is a failure. That is, when the game ball passes through the through gate 35 during the high-frequency support mode and the electric role opening lottery is executed, the electric role opening lottery will be won with a probability of 231/233. In the pachinko machine 10 of the present embodiment, when an electric role opening win occurs during the high-frequency support mode, the electric role accessory 34a is opened once, and the opening time is 1.6 seconds.

In this way, the probability of a game ball entering the second starting port 34 is set to be higher in the high-frequency support mode than in the low-frequency support mode by the electric accessory opening lottery table. .

FIG. 10 is a block diagram showing in detail the configuration of the main controller 60 and the inspection machine 320 included in the pachinko machine 10 of the first embodiment. Below, MPU62, CPU62x, ROM63, and RAM64 are also called main side MPU62, main side CPU62x, main side ROM63, and main side RAM64, respectively.

The main side ROM 63 of the main side MPU 62 is provided with a prize ball number data storage area and a calculation execution condition storage area.

The prize ball number data storage area stores the number of game balls (prize ball number data) that are paid out as prize balls when a game ball enters each ball entrance. In this embodiment, the following prize ball number data is stored in the prize ball number data storage area.
- Number of game balls paid out as prize balls when a game ball enters the first starting port 33 (first starting port prize ball number P ₁ ): 3
- Number of game balls paid out as prize balls when game balls enter the second starting port 34 (second starting port prize ball number P ₂ ): 3
- Number of game balls paid out as prize balls when a game ball enters the first winning hole 32a (first winning hole prize ball number P _N1 ): 10
- Number of game balls paid out as prize balls when a game ball enters the second winning hole 32b (second winning hole prize ball number P _N2 ): 10
・Number of game balls paid out as prize balls when a game ball enters the third winning hole 32c (third winning hole prize ball number P _N3 ): 10
・Number of game balls that are paid out as prize balls when a game ball enters the big winning hole 36a (big winning hole prize ball number P _S ): 15

By referring to the prize ball number data stored in the prize ball number data storage area of the main side ROM 63, the main side MPU 62 pays out game balls as prize balls when the game ball enters each ball entrance. Determine the number of pieces.

Furthermore, in this embodiment, the prize ball number data stored in the main side ROM 63 is transmitted to the game history management chip 300 in the initial setting process executed after the power of the pachinko machine 10 is turned on. This allows the game history management chip 300 to grasp the prize ball number data set in the pachinko machine 10.

The calculation execution condition storage area stores calculation execution conditions that are conditions for the game history management chip 300 to start calculations for calculating game history information. In this embodiment, it is stored as a calculation execution condition that the number of game balls that have passed through the discharge passage reaches 500. The calculation execution conditions stored in the main ROM 63 are transmitted to the game history management chip 300 in an initial setting process executed after the power of the pachinko machine 10 is turned on. This allows the game history management chip 300 to grasp the calculation execution conditions set in the pachinko machine 10.

The game history management chip 300 is a semiconductor chip that calculates various types of game history information based on information on the entry of game balls into each ball entrance, and stores the calculated game history information. The game history management chip 300 includes a buffer 302 that acquires information about how game balls enter each ball entrance from the CPU 62x, a register 304 that stores the number of game balls that enter each ball entrance, and a main side ROM 63. A prize ball number data storage memory 306 that stores the prize ball number data acquired from the main side ROM 63, a calculation execution condition storage memory 307 that stores the calculation execution conditions acquired from the main side ROM 63, and overall control of the game history management chip 300. and a CPU 308 that calculates game history information based on the number of game balls entering each ball entrance and the number of prize balls set for each ball entrance, triggered by the establishment of calculation execution conditions; and a calculation result storage memory 309 for storing game history information.

The inspection terminal 65 is a terminal for connecting the inspection machine 320 and the pachinko machine 10. In this embodiment, the game history information stored in the calculation result storage memory 309 is transmitted to the testing machine 320 via the testing terminal 65.

The inspection machine 320 includes a CPU 321 that executes various control programs, a ROM 324 that records various control programs and fixed value data, a RAM 326 that is a memory for temporarily storing various data, and a gaming history management chip 300. It includes a display section 328 for displaying received game history information, and a connection cable 329 for connecting to the inspection terminal 65 of the pachinko machine 10.

FIG. 11 is an explanatory diagram schematically showing the contents of processing in the game history management chip 300 and the inspection machine 320.

The buffer 302 is provided between the CPU 62x of the main MPU 62 and the register 304, and acquires ball entry information at each ball entry port from the CPU 62x. Specifically, the buffer 302 is provided with a plurality of bits corresponding to each ball entrance, and the CPU 62x turns ON (“1 ”). For example, when the CPU 62x determines that a game ball has entered the first starting port 33, it turns ON (“1”) the bit corresponding to the first starting port 33 in the buffer 302.

Further, the buffer 302 is also provided with bits for grasping the game mode and the state of the pachinko machine 10 (hereinafter also referred to as the game state) when the game ball enters each ball entrance. In this embodiment, a bit for determining whether the mode is in normal mode (not in high probability mode, not in high frequency support mode, not in opening/closing execution mode) and a bit for determining whether or not the mode is in high probability mode is used. a bit to determine whether or not it is in high-frequency support mode, a bit to determine whether it is in open/close execution mode, and a bit to determine whether the first pending number is the upper limit. A bit for determining whether or not the period is in a certain value, a bit for determining whether or not in a period in which the second pending number is the upper limit value, and a bit in which the front door frame 14 is open. There are provided a bit for determining whether or not there is a problem, and a bit for determining whether or not the pachinko machine 10 is in an error state where a trouble such as a failure has occurred. For example, if the CPU 62x determines that the game ball is in the normal mode at the timing when the game ball enters the first starting port 33, it turns ON (“1”) a bit in the buffer 302 for determining whether or not the game ball is in the normal mode. ”).

The register 304 stores the number of game balls that have entered each ball entrance. Specifically, the register 304 is composed of a plurality of counters corresponding to each ball entry port, and when it is determined that there is ball entry information in the bit of the buffer 302 (that is, when the bit is turned ON), ), 1 is added to the value of the counter corresponding to the bit determined to have entry information. Note that in this embodiment, the register 304 is constituted by a nonvolatile register that can retain memory even if the power supply is cut off.

In this embodiment, the register 304 stores the following values using each counter corresponding to each ball entrance.
・Number of game balls that entered the grand prize opening 36a = Number of balls that entered the grand prize opening N _S
・Number of game balls that entered the first starting port 33 = Number of balls that entered the first starting port N ₁
・Number of game balls that entered the second starting port 34 = Number of balls that entered the second starting port N ₂
・Number of game balls that entered the first winning slot 32a = Number of balls that entered the first winning slot N _N1
・Number of game balls that entered the second winning hole 32b = Number of balls that entered the second winning hole N _N2
・Number of game balls that entered the third winning hole 32c = Number of balls that entered the third winning hole N _N3
・Number of game balls that passed through the through gate 35 = Number of game balls that passed through the through gate N _G
・Number of game balls that passed through the discharge passage = Number of balls that passed through the discharge passage N _OUT
Note that, as described above, the number of balls passing through the discharge passage N _OUT matches the number of game balls fired onto the game board 30 .

Furthermore, in this embodiment, the register 304 stores the number of game balls that have entered each ball entry hole for each game state.
・Number of game balls that entered each ball entrance during normal mode ・Number of game balls that entered each ball entrance during high probability mode ・Number of game balls that entered each ball entrance during high frequency support mode Number of game balls - Number of game balls that entered each ball entrance during the opening/closing execution mode - Game balls that entered the first starting port 33 during the normal mode and during the period when the first pending number was the upper limit value The number of game balls that entered the second starting port 34 during the normal mode and the period when the second pending number is the upper limit.The number of game balls that entered each ball entry port while the front door frame 14 was open. Number of balls/Number of game balls that entered each ball entrance during the error

For example, it is determined that there is ball entry information in the bit corresponding to the first starting port 33 of the buffer 302 (the bit is turned ON), and there is information in the bit that determines whether or not the mode is in normal mode. If it is determined that the bit is ON, the value of the first starting port number counter, which is a counter that stores the number of game balls that entered the first starting port 33, is set to 1. is added, and 1 is added to the value of the number of game balls entering the first starting port 33 during the normal mode, which is a counter that stores the number of game balls that entered the first starting port 33 during the normal mode. Ru.

The prize ball number data storage memory 306 is a memory for storing prize ball number data set in the pachinko machine 10. In this embodiment, when the power of the pachinko machine 10 is turned on, the prize ball number data stored in the main side ROM 63 is transmitted to the game history management chip 300 and stored in the prize ball number data storage memory 306. . Therefore, the contents of the prize ball number data stored in the prize ball number data storage memory 306 are the same as the contents of the prize ball number data stored in the main side ROM 63.

The calculation execution condition storage memory 307 is a memory for storing calculation execution conditions set in the pachinko machine 10. As described above, the calculation execution condition is a condition for starting the calculation for calculating game history information. The pachinko machine 10 of this embodiment is set to start calculation for calculating game history information every time the number of game balls that have passed through the discharge passage reaches 500. When the power of the pachinko machine 10 is turned on, the calculation execution conditions stored in the main side ROM 63 are transmitted by the CPU 62x to the game history management chip 300 and stored in the calculation execution condition storage memory 307. Therefore, the contents of the calculation execution conditions stored in the calculation execution condition storage memory 307 are the same as the contents of the calculation execution conditions stored in the main ROM 63. In addition, as a calculation execution condition, the number of game balls that passed through or entered other than the discharge path may be stored as a reference, or a number other than 500 may be stored as a reference.

The CPU 308 determines whether or not the calculation execution conditions stored in the calculation execution condition storage memory 307 are satisfied, and if it is determined that the calculation execution conditions are satisfied, the CPU 308 stores the prize ball number data storage memory 306. Various game history information is calculated based on the prize ball number data stored in the register 304 and the number of game balls entered into each ball entry hole stored in the register 304. In this embodiment, the CPU 308 calculates the following value as game history information every time the value of the number N _OUT of items passing through the discharge passage stored in the register 304 reaches 500.

・Accessory object ratio = Number of game balls paid out as prize balls by actuation of the object (number of prize balls) / Total number of game balls paid out as prize balls (total number of prize balls)
=(N ₂ ×P ₂ +N _S ×P _S )/(N _N1 ×P _N1 +N _N2 ×P _N2 +N _N3 ×P _N3 +N ₁ ×P ₁ +N ₂ ×P ₂ +N _S ×P _S )
・Continuous role object ratio = Number of game balls paid out as prize balls by continuous role object operation (number of consecutive role object prize balls) / Total number of game balls paid out as prize balls (total number of prize balls)
= (N _S × P _S ) / (N _N1 × P _N1 + N _N2 × P _N2 + N _N3 × P _N3 + N ₁ × P ₁ + N ₂ × P ₂ + N _S × P _S )
・Ball roll rate (total)
=Total number of game balls paid out as prize balls (total number of prize balls)/Number of game balls fired onto the game board 30 =(N _N1 ×P _N1 +N _N2 ×P _N2 +N _N3 ×P _N3 +N ₁ ×P ₁ +N ₂ ×P ₂ +N _S ×P _S )/N _OUT

The basis for calculating the above values is as follows.
・Number of game balls paid out as prize balls by actuation of accessory (number of prize balls)
= Number of game balls paid out as prize balls by operating the electric accessory 34a as a normal electric accessory and the variable winning device 36 as a special electric accessory = To the second starting opening 34 and the big winning opening 36a The number of game balls paid out as prize balls based on the number of game balls entered = N ₂ × P ₂ + N _S × P _S
・Number of game balls paid out as prize balls due to continuous role object activation (number of consecutive role object prize balls)
= The number of game balls paid out as prize balls by the operation of the variable winning device 36 as a special electric accessory = The game paid out as prize balls based on the entry of game balls into the grand prize opening 36a Number of balls = N _S × P _S
・Number of game balls paid out as prize balls based on the game balls entering the first to third prize openings 32a to 32c =N _N1 ×P _N1 +N _N2 ×P _N2 +N _N3 ×P _N3
・Total number of game balls paid out as prize balls (total number of prize balls)
=The number of game balls paid out as prize balls based on the balls entering the first to third winning holes 32a to 32c, the first starting hole 33, the second starting hole 34, and the big winning hole 36a = N _N1 ×P _N1 +N _N2 ×P _N2 +N _N3 ×P _N3 +N ₁ ×P ₁ +N ₂ ×P ₂ +N _S ×P _S

Furthermore, in this embodiment, the following game history information is calculated based on the number of game balls entering each ball entrance port counted for each game state.

・Payout ratio (during normal mode)
= Number of game balls paid out as prize balls based on the entry of game balls into the first starting port 33 during the normal mode/Based on the entry of game balls into the first starting port 33 during the normal mode The number of game balls paid out as prize balls + the number/output of game balls paid out as prize balls based on the entry of game balls into the first to third winning ports 32a to 32c during the normal mode. Ball rate (during normal mode)
= Total number of game balls paid out as prize balls during normal mode / Number of game balls fired onto the game board 30 during normal mode / Ball output rate (during high-frequency support mode)
=Total number of game balls paid out as prize balls during high frequency support mode/Number of game balls fired onto game board 30 during high frequency support mode BY (during normal mode)
= The number of game balls paid out as prize balls based on the entry of game balls into the first to third prize openings 32a to 32c during the normal mode + the first pending number during the normal mode is the upper limit value. The number of game balls paid out as prize balls based on the entry of game balls into the first starting port 33 during the period + the second starting port during the period when the normal mode and the second pending number is the upper limit. Number of game balls paid out as prize balls based on game balls entering the game board 34/Number of game balls fired onto the game board 30 during normal mode BY _MIN (during normal mode)
= Number of game balls paid out as prize balls based on the entry of game balls into the first to third prize openings 32a to 32c during the normal mode/Game balls fired onto the game board 30 during the normal mode Number of balls entering the front door frame while the front door frame is open = Number of game balls that entered each ball entrance while the front door frame 14 was open/Number of game balls fired onto the game board 30 / Ball entering rate with error =Number of game balls that entered each ball entrance during the error/Number of game balls fired onto the game board 30 The above game history information is an example, and the configuration calculates game history information other than these. You can also use it as

After calculating the above various game history information, the CPU 308 stores the calculated various game history information in the calculation result storage memory 309, and resets the value of each counter in the register 304 to "0". Note that, hereinafter, various types of game history information calculated every time 500 game balls are fired onto the game board 30 are collectively referred to as a "short-term game history information group."

The calculation result storage memory 309 is a memory that stores game history information calculated by the CPU 308, and in this embodiment, it is configured with a nonvolatile memory that can retain the memory even if the power supply is cut off. has been done. The calculation result storage memory 309 also stores information regarding the order in which the short-term game history information group was written, and when there is no free area to write the calculated short-term game history information group, the CPU 308 executes the calculation. The short-term game history information group written in the short-term game history information group is stored in an area where the short-term game history information group written in the oldest order is stored. That is, the calculation result storage memory 309 is configured to be overwritten in order from the oldest short-term game history information group (first-in, first-out method), and the most recent short-term game history information group is always stored. It becomes a state of being.

In this embodiment, the calculation result storage memory 309 has a capacity capable of storing 1200 short-term game history information groups calculated every time 500 game balls are fired onto the game board 30. are doing. For example, if game balls are fired for 10 consecutive hours in a day, 60,000 game balls will be fired in a day, so 120 short-term game history information groups will be calculated in a day. The results will be stored in the result storage memory 309. Therefore, the calculation result storage memory 309 can store a group of short-term game history information for the most recent 10 days.

When the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, it transmits a transmission request command requesting transmission of gaming history information to the gaming history management chip 300. Upon receiving the transmission request command from the testing machine 320, the CPU 308 of the gaming history management chip 300 transmits the gaming history information stored in the calculation result storage memory 309 to the testing machine 320 via the testing terminal 65. Thereby, the inspection machine 320 acquires the game history information stored in the calculation result storage memory 309 and causes the display unit 328 to display the acquired game history information.

As described above, in this embodiment, each time the number of game balls that have passed through the discharge passage reaches 500, that is, each time 500 game balls are fired onto the game board 30, the game change, such as the ratio of accessory objects, is History information is calculated and stored in the calculation result storage memory 309. The calculated game history information is then displayed on the display section 328 of the inspection machine 320.

A3. Details of various processes executed in gaming machines:
Next, each process executed by the MPU 62 (in this embodiment, the CPU 62x) will be described. The processing of the MPU 62 can be roughly divided into main processing that is started upon power-on, and timer interrupt processing that is started periodically (in this embodiment, every 4 msec).

First, the main processing will be explained with reference to the flowchart in FIG.

FIG. 12 is a flowchart showing the main processing executed by the main MPU 62. In step S10101, initial setting processing is executed. Specifically, it initializes each control device upon power-on, determines the validity of data stored in the RAM 64, and the like. Furthermore, in this embodiment, a process of transmitting calculation data to the game history management chip 300 is executed in the initial setting process. Specifically, calculation data (prize ball number data and calculation execution conditions) stored in the main side ROM 63 is transmitted to the game history management chip 300. As described later, the game history management chip 300 that has received the calculation data stores the prize ball number data and calculation execution conditions in the prize ball number data storage memory 306 and the calculation execution condition storage memory 307, respectively. A setting completion command indicating that the setting is completed is sent to the main MPU 62. After executing step S10101, the process advances to step S10102.

In step S10102, it is determined whether a setting completion command has been received. In step S10102, if it is determined that a setting completion command has been received (S10102: YES), the process advances to step S10103, and interrupt permission is set to permit generation of timer interrupt processing. On the other hand, if it is determined in step S10102 that the setting completion command has not been received (S10102: NO), the process in step S10102 is executed again. That is, until the setting completion command is received, the process does not proceed to step S10103, and the interrupt permission setting for permitting the occurrence of timer interrupt processing is not performed.

After executing step S10103, the process proceeds to the remaining processing of steps S10104 to S10107. That is, although the main MPU 62 is configured to periodically execute timer interrupt processing as described later, there is a remaining time between one timer interrupt processing and the next timer interrupt processing. Although this remaining time will vary depending on the processing completion time of each timer interrupt process, the remaining process from step S10104 to step S10107 is repeatedly executed using such irregular time. In this respect, the remaining processing in steps S10104 to S10107 can be said to be non-regular processing that is executed non-regularly.

In the remaining processing, first, in step S10104, interrupt prohibition is set to prohibit generation of timer interrupt processing. In the subsequent step S10105, a random number initial value update process is executed to update the random number initial value counter CINI, and in step S10106, a variation counter update process is executed to update the variation type counter CS. In these update processes, the current numerical information is read from the corresponding counter in the main side RAM 64, the read numerical information is incremented by 1, and then the process of overwriting the counter from which it was read is executed. In this case, each counter value is cleared to "0" when it reaches the maximum value. Thereafter, in step S10107, interrupt permission is set to switch from a state in which generation of timer interrupt processing is prohibited to a state in which generation of timer interrupt processing is permitted. After executing the process in step S10107, the process returns to step S10104, and the processes in steps S10104 to S10107 are repeated.

Next, timer interrupt processing executed by the main MPU 62 (in this embodiment, the CPU 62x) will be described.

FIG. 13 is a flowchart showing timer interrupt processing executed in the main MPU 62. The timer interrupt process is started at a specific cycle (4 msec cycle in this embodiment).

In the timer interrupt process, first, in step S10201, random number update process for lottery is executed. In the lottery random number update process, the jackpot random number counter C1, the jackpot type counter C2, the reach random number counter C3, and the electric accessory opening counter C4 are updated. Specifically, after sequentially reading out the current numerical information from the jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, and electric accessory opening counter C4, and performing a process of adding 1 to each of the read numerical information, , executes processing to overwrite the reading source counter. In this case, each counter value is cleared to "0" when it reaches the maximum value. After that, the process advances to step S10202.

In step S10202, the random number initial value counter CINI is updated in the random number initial value update process, and the process proceeds to step S10203, where the variation type counter CS is updated in the variation type counter update process. After that, the process advances to step S10204.

In step S10204, port output processing is executed. In the port output processing, when the output information has been set in the previous timer interrupt processing, processing is executed to cause the various drive units 36c and 34b to output corresponding to the output information. For example, if information is set to switch the big winning opening 36a to the open state, output of a drive signal to the variable winning a prize drive unit 36c is started, and if information to switch the big winning opening 36a to the closed state is set, The output of the drive signal is stopped. In addition, when the information to switch the electric accessory 34a of the second starting port 34 to the open state is set, the output of the drive signal to the electric accessory drive section 34b is started, and the information to switch the electric accessory 34a to the closed state is set. If set, the output of the drive signal is stopped. After that, the process advances to step S10205.

In step S10205, reading processing is executed. In the reading process, signals other than the incoming ball signal are read, and the read information is stored for use in future processing. After that, the process advances to step S10206.

In step S10206, the signals received from each of the ball entry detection sensors 44a to 44h are read, and ball entry detection processing is executed to perform processing corresponding to the read information. The contents of the ball entry detection process will be explained in detail later. After that, the process advances to step S10207.

In step S10207, ball entry detection information is output to the bit of the buffer 302 of the game history management chip 300. Specifically, the bit corresponding to the ball entrance in which it is determined that the game ball has entered in the ball entrance detection process in step S10206 is turned ON (“1”), and the bit corresponding to the gaming state of the pachinko machine 10 is turned ON (“1”). Turn ON (“1”). After that, the process advances to step S10208.

In step S10208, timer update processing is executed to collectively update numerical information of predetermined timer counters provided in the main side RAM 64. After that, the process advances to step S10209, and output setting processing for the prize ball command is executed. After that, the process advances to step S10210.

In step S10210, ball entry processing for the starting openings is executed as the game balls enter the first starting opening 33 and the second starting opening 34. In the ball entry process for the starting port, the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 are set based on the fact that it is determined that the game ball has entered the first starting port 33 or the second starting port 34. At the same time as acquiring the value, the acquired counter value is stored in the pending information storage area 64b of the RAM 64. After executing step S10210, the process advances to step S10211.

In step S10211, ball entry processing for the through gate is executed when the game ball enters (passes through) the through gate 35. In the ball entry processing for the through gate, the value of the variable type counter CS is acquired based on the fact that it is determined that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64 as an electric controller. It is stored in the holding area 64d. After executing step S10211, the process advances to step S10212.

In step S10212, a game round control process is executed to control the game in each game round. In the game round control process, a winning lottery, display control of the first symbol display section 37a, second symbol display section 37b, etc. are performed. After executing step S10212, the process advances to step S10213.

In step S10213, a gaming state transition process for shifting the gaming state is executed. In the gaming state transition process, processing for shifting the gaming state to an opening/closing execution mode, a high probability mode, a high frequency support mode, etc. is executed. After executing step S10213, the process advances to step S10214.

In step S10214, electric utility support processing for controlling the electric accessory 34a is executed. In the electric accessory support process, it is determined whether or not the electric accessory 34a is to be in an open state (an electric accessory opening lottery), and if it is determined to be in an open state, the electric accessory 34a is drive-controlled. After executing step S10214, the process advances to step S10215.

In step S10215, game ball launch control processing is executed. In the game ball firing control process, a process for firing a game ball into the gaming area PA when the operation handle 25 is operated by the player is executed. After executing step S10215, the process advances to step S10216.

In step S10216, an external information setting process is executed to control the start and end of output of an external signal according to the processing results of various processes executed in the current timer interrupt process. After executing step S10216, this timer interrupt processing ends.

Next, the ball entry detection process executed in step S10206 of the timer interrupt process (FIG. 13) will be described.

In the ball entry detection process, a process is executed to confirm the detection results of the ball entry detection sensors 44a to 44h, and during this confirmation, the input port 62b of the input/output ports 62a of the main MPU 62 is checked. Here, prior to explaining the ball entry detection process, the configuration of the input port 62b provided in the main MPU 62 will be explained with reference to FIG.

FIG. 14 is an explanatory diagram illustrating the configuration of the input port 62b provided in the main MPU 62. The input port 62b is configured as an 8-bit parallel interface so that eight types of signals can be handled simultaneously. Areas in which information of "0" or "1" is stored in accordance with the voltage of each signal are provided in one-to-one correspondence with each terminal. In other words, the area includes the 0th bit D0 to the 7th bit D7.

In addition, more than 8 types of signals will be input to the input port 62b, but in order to limit the targets that are input at the same time to 8 types, the group of signals that are input to the input port 62b is determined by the driver IC. Switched through switching control. In the ball entry detection process, a signal group to be input to the input port 62b is set for each ball entry detection sensor 44a to 44h.

In a situation where such settings are made, the 0th bit D0 stores information corresponding to the ball entering signal from the big winning opening detection sensor 44a, and the 1st bit D1 stores information corresponding to the ball entering signal from the first starting opening detection sensor 44b. Corresponding information is stored, the second bit D2 stores information corresponding to the ball entering signal from the second starting opening detection sensor 44c, and the third bit D3 stores information corresponding to the ball entering signal from the first winning opening detection sensor 44d. Corresponding information is stored, the fourth bit D4 stores information corresponding to the ball entering signal from the second winning opening detection sensor 44e, and the fifth bit D5 stores information corresponding to the ball entering signal from the third winning opening detection sensor 44f. Corresponding information is stored, the sixth bit D6 stores information corresponding to the ball entering signal from the through gate detection sensor 44g, and the seventh bit D7 stores information corresponding to the ball entering signal from the discharge path detection sensor 44h. Stored.

In this case, each of the ball entry detection sensors 44a to 44h outputs a HI level signal indicating that the passing of the game ball is not being detected as an entry signal when the ball entry detection sensor 44a to 44h does not detect the passing of the game ball. If it is detected, it outputs a LOW level signal indicating that it is being detected as an incoming ball signal. However, the main control board 151 is provided with an inversion circuit, and the states of the signals are inverted before each of the detection signals is input to the input port 62b. When the input port 62b receives a LOW level signal through the inverting circuit, it stores "0" information (data 0 or no information) in the corresponding bit, and receives a HI level signal through the inverting circuit. If so, "1" information (data 1 or presence information) is stored in the corresponding bit.

In other words, in a situation where the passage of a game ball is not detected by the ball entry detection sensors 44a to 44h, information of "0" corresponding to information indicating that the ball is not detected is stored in the corresponding bit, and the passage of a game ball is not detected. In the situation where the detection is in progress, information of "1" corresponding to the information indicating that the detection is in progress is stored in the corresponding bit.

Each ball entry detection sensor 44a to 44h outputs a LOW level signal as an entry signal while not detecting the passage of a game ball, and outputs a HI level signal as an entry signal while detecting the passage of a game ball. It may also be configured to output a level signal. In this case, the inverting circuit may be made defective.

FIG. 15 is an explanatory diagram illustrating ball entry detection processing executed by the main MPU 62. FIG. 15A is a flowchart showing ball entry detection processing executed by the main MPU 62. FIG. FIG. 15(b) is an explanatory diagram schematically showing a ball entry determination area used in the ball entry detection process. In the ball entry detection process, as shown in the flowchart of FIG. 1. Processing for moving to ball entry determination area WA1 is executed. The first ball entry determination area WA1 is composed of 8 bits as shown in FIG. 15(b-1), and stores all of the information stored in the 0th to 7th bits D0 to D7. It has a data capacity that is possible. In this case, the storage source bits in the 0th to 7th bits D0 to D7 and the storage destination bits in the first ball entrance determination area WA1 are predetermined in a one-to-one correspondence, for example, the 0th bit Information on D0 is always stored in a predetermined bit in the first ball entry determination area WA1.

In the following step S10302, weight processing for ball entry detection is executed. In the wait process, the main MPU 62 waits without executing any process until a predetermined wait time has elapsed. In this pachinko machine 10, 10 μsec is set as the wait time, but the function and effect described later due to the setting of the wait process can be sufficiently achieved without interfering with the execution of periodic timer interrupt processing. If it is possible, the specific wait time is arbitrary, but it is preferably in the range of 2 μsec to 500 μsec, more preferably in the range of 10 μsec to 100 μsec.

Incidentally, it takes at least 1.2 μsec to execute one step of processing. Therefore, even if the process of step S10302 is not set, a forced wait time of 1.2 μsec occurs between step S10301 and step S10303. In this regard, in step S10302, not only the minimum time required to execute the process but also an additional wait time is set between the process in step S10301 and the process in step S10303.

In the subsequent step S10303, the information currently stored in the 0th to 7th bits D0 to D7 is transferred to the second ball entry determination area WA2 in the register of the main MPU 62. Incidentally, since the information at the input port 62b is updated at an interval shorter than the time from the completion of step S10301 to the start of step S10303, the 0th to 7th bits D0 to D7 are updated in step S10303. The information migrated from may be different from that in step S10301.

Like the first ball entry determination area WA1, the second ball entry determination area WA2 is composed of 8 bits as shown in FIG. 15 (b-2), and the 0th to 7th bits D0 to D7 are The data capacity is large enough to store all of the stored information. In this case, the storage source bits in the 0th to 7th bits D0 to D7 and the storage destination bits in the second ball entrance determination area WA2 are predetermined in a one-to-one correspondence, and The relationship between the bits and the storage bits is the same as in the case of the first ball entry determination area WA1.

Thereafter, in step S10304, ball entry determination processing is executed, and then the main ball entry detection processing is ended. The ball entry determination process will be described with reference to the flowchart of FIG. 16.

FIG. 16 is a flowchart showing the ball entry determination process executed by the main MPU 62. In the ball entry determination process, first in step S10401, a ball entry determination counter provided in the main side RAM 64 is set to 8. Note that the numerical information of the ball entry determination counter corresponds to the bits of each of the eight ball entry ports. Specifically, in this embodiment, "8" of the numerical information of the ball entrance determination counter is the 0th bit D0 of the big winning a prize opening 36a, "7" is the 1st bit D1 of the first starting opening 33, and "6" is the second bit D2 of the second starting opening 34, "5" is the third bit D3 of the first winning opening 32a, "4" is the fourth bit D4 of the second winning opening 32b, and "3" is the third winning opening. The fifth bit D5 of 32c, "2" corresponds to the sixth bit D6 of the through gate 35, and "1" corresponds to the seventh bit D7 of the discharge passage, respectively. In the subsequent step S10402, each bit information corresponding to the numerical information of the current ball entry determination counter in the first ball entry determination area WA1 and the second ball entry determination area WA2 is grasped. Each piece of information grasped in this case is information read from the same bit at the input port 62b.

In the following step S10403, an AND process is executed on each piece of information grasped in step S10402, and the result of the AND process is stored in a register.In step S10404, the area WA3 after the first calculation and the area WA4 after the second calculation are The result of the AND process is stored in a corresponding bit on a side different from the side where the information on the result of the AND process was stored in the ball entry detection process in the previous timer interrupt process. The first post-computation area WA3 and the second post-computation area WA4 are composed of 8 bits as shown in FIG. 15(b-3) and FIG. The data capacity is such that it is possible to store all the information of the AND processing result of each bit and each bit of the second ball entry determination area WA2. In this case, the order of the bits in the first ball entry determination area WA1 and the second ball entry determination area WA2, which were subject to the AND process, and the order of each bit in the area WA3 after the first calculation and the area WA4 after the second calculation. is uniquely defined.

Thereafter, in step S10405, in the first post-computation area WA3 and the second post-computation area WA4, the information on the result of the AND process in the ball entry determination process in the previous timer interrupt process is stored. Then, bit information corresponding to the numerical information of the current ball entry determination counter is read out. Then, in step S10406, an inversion process is performed to invert the read information between "0" and "1".

Thereafter, in step S10407, the information of the AND processing result in step S10403 and the information of the reversal processing result in step S10406 are executed, and in the subsequent step S10408, the result of the AND processing is used as ball entry detection start information. It is determined whether or not it is "1" corresponding to . If it is determined in step S10408 that the AND processing result is "1", the process advances to steps S10409 and subsequent steps.

In step S10409, it is determined whether the current numerical information of the ball entry determination counter is information indicating a bit corresponding to either the first starting port 33 or the second starting port 34. If it corresponds to either the first starting port 33 or the second starting port 34, in step S10410, the starting port entry flag provided in the main side RAM 64 is set to "1", and in step S10411 At , 1 is added to the numerical information of the 3 prize ball counter provided in the main side RAM 64.

The starting port entry ball flag specifies on the main side MPU 62 whether a game ball enters the first starting port 33 or the second starting port 34, and also specifies whether the game ball enters the first starting port 33 or the second starting port 34. This flag is used by the main MPU 62 to specify that it is in a state to execute a process corresponding to the ball entering the ball, other than the execution of the prize ball. Incidentally, since ball entry detection sensors 44b and 44c are provided in each of the first starting port 33 and the second starting port 34, it is possible to detect whether the ball enters the first starting port 33 or the second starting port 34. and may be grasped simultaneously within one timer interrupt processing. Therefore, in order to cope with this, starting ball entry flags are provided corresponding to the number of starting ports 33 and 34, and specifically, two starting ball flags are provided. Further, the 3 prize balls counter is a counter for specifying, in the main MPU 62, the number of times a 3 prize balls command that instructs the execution of 3 prize balls should be output.

If a negative determination is made in step S10409, it is determined in step S10412 whether or not the numerical information of the current ball entry determination counter is information indicating a bit corresponding to the big winning hole 36a (variable winning device 36). judge. If it is compatible with the variable winning device 36, in step S10413, the big winning hole entry flag provided in the main side RAM 64 is set to "1", and in step S10414, the large winning hole entry flag provided in the main side RAM 64 is set to "1". 1 is added to the numerical information of the 15 prize ball counters.

The big winning opening ball entry flag is a process that specifies the entry of a game ball into the variable winning device 36 by the main MPU 62, and is a process corresponding to the entry of a gaming ball into the variable winning device 36, and is a process that corresponds to the entry of a game ball into the variable winning device 36. This flag is used by the main MPU 62 to specify that a process other than execution is to be executed. Further, the 15 prize balls counter is a counter for specifying, in the main MPU 62, the number of times a 15 prize balls command that instructs execution of 15 prize balls should be output.

If a negative determination is made in step S10412, it is determined in step S10415 whether the current numerical information of the ball entry determination counter is information indicating a bit corresponding to the through gate 35. If it corresponds to the through gate 35, the through passage flag provided in the main side RAM 64 is set to "1" in step S10416.

The through passage flag specifies on the main side MPU 62 that the game ball has passed through the through gate 35, and also specifies on the main side that the process corresponding to the entry of the game ball into the through gate 35 should be executed. This is a flag for identification by the MPU 62.

If a negative determination is made in step S10415, it is determined in step S10417 that the numerical information of the current ball entry determination counter corresponds to any of the first winning hole 32a, the second winning hole 32b, and the third winning hole 32c. Determine whether the information indicates a bit. If it corresponds to any of the first winning hole 32a, the second winning hole 32b, and the third winning hole 32c, in step S10418, the general winning hole entering ball flag provided in the main side RAM 64 is set to “1”. '' is set, and in step S10419, 1 is added to the numerical information of the 3 prize ball counter provided in the main side RAM 64.

The general winning hole entrance ball flag is a flag for the main side MPU 62 to specify whether a game ball enters the first winning hole 32a, the second winning hole 32b, or the third winning hole 32c. By the way, since ball entry detection sensors 44d, 44e, and 44f are provided for each of the first winning hole 32a, the second winning hole 32b, and the third winning hole 32c, the ball entering the first winning hole 32a and the second The ball entering the winning hole 32b and the ball entering the third winning hole may be recognized at the same time within one processing time of the timer interrupt process. Therefore, in order to cope with this, the general winning hole entry flags are provided corresponding to the number of general winning holes 32a, 32b, 32c, and specifically, three flags are provided. Further, the 10 award balls counter is a counter for specifying in the main side MPU 62 the number of times a 3 award balls command that instructs execution of 10 award balls should be output.

If a negative determination is made in step S10417, it means that the current entering ball corresponds to the discharge passage, so in step SAD20, the discharge passage passage flag provided in the main side RAM 64 is set to "1". Set. The discharge passage passage flag is a flag used by the main MPU 62 to specify that the game ball has passed through the discharge passage.

If a negative determination is made in step S10408, or after any one of steps S10411, S10414, S10416, S10419, and S10420 is executed, the process advances to step S10421. In step S10421, the ball entry determination counter is decremented by 1, and then, in step S10422, it is determined whether the ball entry determination counter is "0".

If the ball entry determination counter is not "0", the processes of steps S10402 to S10420 are executed for the bit corresponding to the numerical information of the ball entry determination counter updated in step S10421. When the processes of steps S10402 to S10420 are executed for the number of numerical information set in step S10401, an affirmative determination is made in step S10422, and the main ball entry determination process ends.

Next, by executing the above-described ball hitting detection process (FIG. 15), the information is sent to the general prize opening 32, the variable prize winning device 36, the first starting opening 33, the second starting opening 34, the through gate 35, and the discharge passage. A manner in which the presence or absence of a ball entering the ball is detected will be described with reference to FIG. 17.

FIG. 17 is an explanatory diagram illustrating how the presence or absence of a ball entering the ball is detected. First, with reference to FIG. 17(A), the timing of monitoring the detection results (hereinafter also referred to as ball entry information) of the ball entry detection sensors 44a to 44h will be explained. FIG. 17(A) is a timing chart for explaining the timing of monitoring each ball entry information.

As shown in FIG. 17(A), in a configuration in which the timer interrupt process (FIG. 13) is started at a cycle of T1 (specifically, 4 msec), the process of monitoring ball entering information is performed at each processing time of the timer interrupt process. This is performed twice (step S10301, step S10303). The processing for monitoring each set of ball entry information is executed at different timings, but the processing for monitoring the ball entry information on the other side (step S10301) is executed at T2 times with respect to the timing at which the timer interrupt processing is activated. It is executed when the time has elapsed.

In this case, the ball entering detection process is executed in the timer interrupt process before the processes whose processing time is likely to fluctuate, such as the game cycle control process and the electric role support process, and the ball entering detection process is executed in the timer interrupt process. The processing executed before the detection processing is a processing whose processing time is relatively less likely to fluctuate. Therefore, in the timer interrupt process of each process, the period until the process of monitoring the ball entering information on the preceding side is started is the same, substantially the same, or the same at T2. Therefore, among the processes for monitoring one set of ball entry information included in each processing cycle of the timer interrupt process, the process for monitoring the ball entry information on the other side is periodically executed.

Furthermore, among the processing for monitoring each set of ball entry information, between the processing for monitoring the preceding ball entry information (step S10301) and the processing for monitoring the rear ball entry information (step S10303), A wait process for ball entry detection (step S10302) is executed, but the wait process simply waits until a certain wait time T3 elapses without executing any process. Therefore, among the processes for monitoring one set of ball entry information included in each processing cycle of the timer interrupt process, the process for monitoring the latter ball entry information is periodically executed.

Next, with reference to FIG. 17(B), the contents of the calculations executed when ball entry determination is performed will be described. FIG. 17(B) is an explanatory diagram for explaining the contents of calculations executed when ball entry determination is performed. Note that various operations are actually performed in units of 1 bit, but in the following explanation, the content of the operations will be explained in units of 1 byte. However, a configuration may be adopted in which calculations are actually performed in units of 1 byte as described below.

In the case of FIG. 17(B), first, in the process of monitoring the ball entering information on the far side in the n-th timer interrupt process, as shown in FIG. 17(B1), the first ball entering determination area WA1 is " is set. In this case, the ball entry information of the third winning hole detection sensor 44f among the ball entry detection sensors 44a to 44h is information indicating that a game ball is detected (hereinafter also referred to as ball entry information). The ball entry information of the other sensors is information indicating that no game balls have been detected (hereinafter also referred to as no ball entry information).

Furthermore, in the process of monitoring the rear ball entry information in the n-th timer interrupt process, "10100000" is set in the second ball entry determination area WA2, as shown in FIG. 17 (B2). In this case, among the ball entry detection sensors 44a to 44h, each of the discharge passage detection sensor 44h and the third winning opening detection sensor 44f has information that a ball has entered, and the other sensors have information that a ball has not entered. .

When the information of the first ball entry determination area WA1 and the second ball entry determination area WA2 is set as described above, the AND processing result becomes "00100000" as shown in FIG. 17 (B3), and the corresponding The information is set in the first calculation area WA3 as a result of monitoring ball entry information in the n-th timer interrupt process. Note that if the monitoring result of the ball entering information is set in area WA3 after the first calculation in the n-1st timer interrupt processing, the monitoring result of the ball entering information in the nth timer interrupt processing is set in the second calculation. It is set in rear area WA4. In addition, ball entry determination processing is executed using the monitoring results of ball entry information at the (n-1)th time and the monitoring results of ball entry information at the nth time, but the details of the calculations in this processing will be omitted here.

Next, in the process of monitoring the ball entry information on the forward side in the (n+1) time timer interrupt process, "10100110" is set in the first ball entry determination area WA1, as shown in FIG. 17 (B4). In this case, among the ball entry detection sensors 44a to 44h, each of the discharge passage detection sensor 44h, the third winning opening detection sensor 44f, the second starting opening detection sensor 44c, and the first starting opening detection sensor 44b receives ball entry information. The other sensors are showing no ball entering information.

Furthermore, in the process of monitoring the rear ball entry information in the n+1 timer interrupt process, "10100010" is set in the second ball entry determination area WA2, as shown in FIG. 17 (B5). In this case, among the ball entry detection sensors 44a to 44h, each of the discharge passage detection sensor 44h, the third winning opening detection sensor 44f, and the first starting opening detection sensor 44b has information that a ball has entered, and the other sensors The information is that there will be no pitching.

When the information of the first ball entry determination area WA1 and the second ball entry determination area WA2 is set as described above, the AND processing result becomes "10100010" as shown in FIG. 17 (B6), and the corresponding The information is set in the second post-calculation area WA4 as a result of monitoring ball entry information in the (n+1)th timer interrupt process.

After that, in the ball entering determination process (FIG. 16) in the n+1 timer interrupt process, the monitoring result of the ball entering information in the n-th timer interrupt process is first read out from the area WA3 after the first calculation, and the result is also read out. Inversion processing is performed on the information of the monitored results. Then, as shown in FIG. 17 (B7), it becomes "11011111". Then, the information resulting from the reversal process is ANDed with the monitoring result of the ball entering information in the (n+1)th timer interrupt process. This results in "10000010" as shown in FIG. 17 (B8). In this case, in the ball entry determination process, it is determined that the entry of a game ball has been detected by the discharge path detection sensor 44h, and it is determined that the entry of a game ball has been detected by the first starting port detection sensor 44b. .

In addition, as shown in FIG. 17 (B4), the second starting port detection sensor 44c indicates ball entry information in the process of monitoring the ball entry information on the forward side in the n+1 timer interrupt process. is caused by electrical noise. In this case, even if the switch from no ball entry information to ball entry information is confirmed, it is not immediately determined that a ball entry has occurred, but if the ball entry information is confirmed multiple times. This is the configuration that identifies the occurrence. Therefore, as shown in FIG. 17 (B5), in the process of monitoring the rear side ball entry information in the n+1 timer interrupt process, the second starting port detection sensor 44c has no ball entry information, and the electrical The generation of noise is not treated as the arrival of a game ball.

In addition, in the third winning a prize opening detection sensor 44f, each of the process of monitoring one set of ball entering information in the n-th timer interrupt processing and the process of monitoring one set of ball entering information in the n+1 timer interrupt processing Although it is ball presence information, this indicates a state in which game balls that have already been detected to have entered the game are being continuously detected. In this case, since the occurrence of a ball entering is specified on the condition that the monitoring result of the ball entering information in the n-th timer interrupt processing is "0", the entering of one game ball is It will not be treated as an incoming ball.

By executing the ball entry detection process as described above, the detection results of each ball entry detection sensor 44a to 44h are monitored, and if a ball entry corresponding to the provision of a game ball occurs. , an addition process is executed to the 3 award balls counter, the 10 award balls counter, and the 15 award balls counter, depending on the location where the ball enters. If any of these counters is "1" or more, the prize ball command is set in the prize ball command output setting process (step S10209) in the timer interrupt process (FIG. 13), and the setting The issued prize ball command is transmitted to the payout control device 70. In this case, the output setting of the prize ball command is performed only once in one timer interrupt process. Therefore, for example, even if the 15 prize balls counter is equal to or greater than "2", the 15 prize balls command is transmitted only once in one processing time. However, the present invention is not limited to this, and a configuration may be adopted in which a predetermined plurality (for example, two or three) of prize ball commands are transmitted in one processing time.

It is also possible that each of the 3 prize balls counter, 10 prize balls counter, and 15 prize balls counter is "1" or more, but in this case, the output of the prize ball command with a large number of prize balls is have priority. In other words, the output of the 15-ball prize command has priority over the output of the 10-ball prize command and the output of the 3-ball prize command, and the output of the 10-ball prize command has priority over the output of the 3-ball prize command. .

When the 15 prize balls counter is equal to or greater than "1" and the 15 prize balls command is set as an output target, the 15 prize balls counter is subtracted by 1. Further, when the 10 prize balls counter is equal to or greater than "1" and the 10 prize balls command is set as an output target, the 10 prize balls counter is subtracted by 1. Furthermore, when the 3-ball prize counter is equal to or greater than "1" and the 3-ball prize command is set as an output target, the 3-ball prize counter is subtracted by 1.

Next, the processing executed by the CPU 308 of the game history management chip 300 will be explained. In this embodiment, the CPU 308 of the game history management chip 300 executes the following main processing when the power of the Pachinko machine 10 is turned on.

FIG. 18 is a flowchart showing the main processing executed by the CPU 308 of the game history management chip 300.

In step S10501, it is determined whether calculation data including prize ball number data and calculation execution conditions has been received. If it is determined in step S10501 that calculation data has been received (S10501: YES), the process advances to step S10502. On the other hand, if it is determined in step S10501 that calculation data has not been received (S10501: NO), the process in step S10501 is executed again. That is, until the calculation data is received, the infinite loop continues without proceeding to the next step S10502.

In step S10502, the received prize ball number data is stored in the prize ball number data storage memory 306. Thereafter, the process advances to step S10503, and the received calculation execution conditions are stored in the calculation execution condition storage memory 307. After that, the process advances to step S10504.

In step S10504, a setting completion command is issued, which means that the storage of the prize ball number data in the prize ball number data storage memory 306 is completed, and the storage of the calculation execution conditions in the calculation execution condition storage memory 307 is completed. is sent to the main CPU 62x. After that, the process advances to step S10505.

In step S10505, it is determined whether or not the bit of the buffer 302 contains the ball entry information received from the main CPU 62x (the bit stores "1"). In step S10505, if it is determined that the incoming ball information received from the main CPU 62x exists in the bit of the buffer 302 (S10505: YES), the process advances to step S10506, and 1 is set in the counter of the register corresponding to the bit of the buffer 302. to add. Specifically, for example, if the bit corresponding to the first starting port entrance ball information in the buffer 302 is "1" and the corresponding bit in the normal mode is "1", the big prize in the register 304 is 1 is added to a counter corresponding to the number of balls entered into the mouth N _S , and 1 is added to a counter corresponding to the number of balls entered into the big winning a prize opening in the normal mode. After that, the process advances to step S10507. On the other hand, if it is determined in step S10505 that there is no incoming ball information received from the main CPU 62x in the bits of the buffer 302 (S10505: NO), the process proceeds to step S10507 without executing step S10506.

In step S10507, it is determined whether the calculation execution conditions stored in the calculation execution condition storage memory 307 are satisfied. In this embodiment, it is determined whether the value of the number of balls passing through the discharge passage _NOUT stored in the register 304 is 500, that is, whether the number of game balls fired onto the game board 30 has reached 500. judge. If it is determined in step S10507 that the calculation execution conditions stored in the calculation execution condition storage memory 307 are satisfied (S10507: YES), the process advances to step S10508.

In step S10508, various game history information is generated based on the prize ball number data stored in the prize ball number data storage memory 306 and the number of game balls entered into each ball entry hole stored in the register 304. Executes arithmetic processing to calculate . Thereafter, the process advances to step S10509, and the calculated various game history information is stored in the calculation result storage memory 309. Thereafter, the process advances to step S10510, and the number of game balls entering each ball entry port stored in the register 304 is cleared to zero. After that, the process advances to step S10511.

On the other hand, if it is determined in step S10507 that the calculation execution conditions stored in the calculation execution condition storage memory 307 are not satisfied (S10507: NO), step S10511 is executed without executing steps S10508 to S10510. Proceed to.

In step S10511, it is determined whether a transmission request command for game history information has been received from the inspection machine 320, and if it is determined that a transmission request command has been received (S10511: YES), the process advances to step S10512. , transmits the game history information stored in the calculation result storage memory 309 to the inspection machine 320. The inspection machine 320 causes the display unit 328 to display the received game history information. After executing step S10512, the process returns to step S10505 and repeats the processing from step S10505 onwards. On the other hand, if it is determined in step S10511 that the game history information transmission request command has not been received from the inspection machine 320 (S10511: NO), the process returns to step S10505 without executing the process in step S10512, and the process returns to step S10505. The processing from S10505 onwards is repeated.

As explained above, according to the present embodiment, the game history management chip 300 can calculate game history information that is information that has a correlation with the behavior of the game ball in the executed game. If the gaming machine has been illegally modified, the calculated gaming history information may become an unnatural value different from the expected value. Therefore, the person inspecting the pachinko machine 10 can determine whether or not the pachinko machine 10 has been illegally modified by checking the game history information. As a result, the soundness of the game can be improved.

Further, according to the present embodiment, the game history management chip 300 includes a calculation result storage memory 309 that stores the calculated game history information in a non-volatile manner. Since the game history information is information that has a correlation with the behavior of the game ball in the executed game, the game history information differs for each Pachinko machine 10 and is information unique to the Pachinko machine 10. That is, the game history information is information that reflects the characteristics of the pachinko machine 10. According to this embodiment, game history information, which is information that reflects the characteristics of the pachinko machine 10, is stored in the calculation result storage memory 309 of the game history management chip 300 stored inside the casing of the pachinko machine 10 main body. do. Therefore, for example, when inspecting the characteristics of the Pachinko machine 10, the characteristics of the Pachinko machine 10 can be inspected by acquiring game history information from the Pachinko machine 10 itself. When the pachinko machine 10 is installed in a game hall, information regarding the characteristics of the pachinko machine 10 can be acquired by a hall computer installed in the game hall. However, since the pachinko machine 10 is distributed from time to time, it may be placed in a state where it is not connected to the hall computer. In this case, the conventional pachinko machine 10 retains information regarding the characteristics of the pachinko machine 10. Can not do it. The pachinko machine 10 of this embodiment stores game history information, which is information that reflects the characteristics of the pachinko machine 10, in a calculation result storage memory 309 of a game history management chip 300 stored inside the casing of the pachinko machine 10 main body. Since the information is stored, even if the pachinko machine 10 is not connected to the hall computer, the game history information can be acquired from the pachinko machine 10 itself. In other words, the pachinko machine 10 of this embodiment always maintains one-to-one correspondence between the pachinko machine 10 and game history information, no matter what state the pachinko machine 10 is in (installed in a game hall or in circulation). It is possible to make the pachinko machine 10 linked, and the characteristics of the pachinko machine 10 can be managed and inspected. As a result, the soundness of the game can be improved.

Furthermore, in this embodiment, the game history management chip 300 and the main CPU 62x are both mounted on the main MPU 62, and are configured to operate using the same power source. Therefore, for example, when the pachinko machine 10 is installed in a game hall and the game history information of the pachinko machine 10 is calculated by the hall computer, a malfunction occurs in the power supply system of the hall computer. Even if a problem occurs in the processing of the hall computer, game history information can be calculated as long as power is supplied to the pachinko machine 10. If the main CPU 62x and the game history management chip 300 are operated by different power supplies, and if there is a problem with the power supply to the game history management chip 300, even if the game is being executed by the pachinko machine 10, However, a problem arises in that game history information cannot be calculated. On the other hand, according to the present embodiment, since the main CPU 62x and the game history management chip 300 are operated by the same power source, the game history information must be calculated if the game is possible. I can do it. Therefore, the reliability of game history information can be improved.

Further, according to the present embodiment, the memory 309 for storing calculation results is stored inside the board box, which is a space where traces of opening and closing (also referred to as opening traces and unsealing traces) remain. Therefore, when the calculation result storage memory 309 is physically touched, traces of opening the board box remain. Therefore, if the gaming history information stored in the calculation result storage memory 309 is altered through physical contact with the calculation result storage memory 309, the alteration can be detected from the traces on the board box. It becomes possible to do so. Therefore, unauthorized modification of game history information can be prevented. Since the pachinko machine 10 is distributed from time to time, various external contacts occur during the distribution process, but the memory 309 for storing calculation results is stored inside the board box that leaves traces of opening and closing. Therefore, even if the pachinko machine 10 is distributed from time to time, unauthorized alteration of game history information by someone can be suppressed. Furthermore, since the game history information is information acquired based on the played games, it is possible to manage and inspect the game-related characteristics of the pachinko machine 10 using the game history information. Therefore, according to the present embodiment, the pachinko machine 10 can be properly managed and inspected by preventing unauthorized modification of the game history information that reflects the game-related characteristics of the pachinko machine 10. As a result, the soundness of the game can be improved.

Further, according to the present embodiment, the game history management chip 300 acquires the prize ball number data stored in the prize ball number data storage area of the main side ROM 63, so the characteristics of the pachinko machine 10 regarding the paid out prize balls. can be calculated. Furthermore, even if different prize ball number data is set for each type (model) of pachinko machine 10, the game history management chip 300 uses the prize ball number data set for each type of pachinko machine 10 to perform correct game play. History information can be calculated. If the gaming machine has been illegally modified, the calculated gaming history information may become an unnatural value different from the expected value. Therefore, the person inspecting the pachinko machine 10 can appropriately determine whether or not the pachinko machine 10 has been illegally modified by checking the correct game history information. As a result, the soundness of the game can be improved.

Furthermore, according to the present embodiment, the main CPU 62x transmits a signal including the prize ball number data stored in the prize ball number data storage area of the main side ROM 63 to the game history management chip 300, so that the game history management chip 300 can control the game history. A configuration in which the chip 300 cannot access the prize ball number data storage area of the main side ROM 63 and a storage location of the prize ball number data stored in the prize ball number data storage area of the main side ROM 63 where the game history management chip 300 Even in a configuration in which the (memory address) cannot be grasped, the game history management chip 300 can acquire the prize ball number data stored in the prize ball number data storage area of the main side ROM 63.

Further, according to the present embodiment, in the main processing of the main CPU 62x, until the setting completion command is received, the interrupt of the timer interrupt processing is not permitted, and the game ball firing control processing included in the timer interrupt processing is not executed. The structure is as follows. That is, since the game balls are not fired until the storage of the prize ball number data in the prize ball number data storage memory 306 is completed, the game balls may not be included in the calculation of the game history information by the game history management chip 300. can be suppressed.

Furthermore, according to the present embodiment, since the game history information for each period until 500 game balls are detected by the discharge path detection sensor 44h is calculated and stored, each pachinko machine 10 can detect 500 game balls. Even if there is variation in the time until the time is detected, game history information that does not affect the variation in time can be calculated and stored. That is, even if there is a difference in the frequency with which game balls are fired, it is possible to calculate and store highly accurate game history information that is not easily influenced by the frequency. Further, the required storage capacity can be reduced compared to a configuration in which information on ball entry into each ball entry port is stored as is.

If the type (model) of the pachinko machine 10 is different, the characteristics of the game will be different, and therefore the optimal conditions for executing the calculation for calculating the game history information will also be different. Therefore, different calculation execution conditions are stored for each type (model) of pachinko machine 10. According to this embodiment, the game history management chip 300 acquires the calculation execution conditions stored in the calculation execution condition storage area of the main side ROM 63, so that the calculation execution conditions set for each type (model) of the pachinko machine 10 are When the execution conditions are satisfied, calculations for calculating game history information can be executed.

Furthermore, according to the present embodiment, after the CPU 308 of the game history management chip 300 executes the calculation for calculating the game history information, the number of game balls entered into each ball entry hole stored in the register 304 is calculated. (counter value), it becomes possible to store information regarding the number of game balls entered into the register 304 again. Therefore, the storage capacity required for register 304 can be reduced.

Further, according to the present embodiment, since the game history information of the pachinko machine 10 is transmitted to the inspection machine 320, the inspection machine 320 can display the game history information of the pachinko machine 10. The person inspecting the pachinko machine 10 can check the game history information displayed on the inspection machine 320.

A4. Other aspects of the first embodiment:
<Aspect 1>
In the first embodiment, the calculation execution condition stored in the calculation execution condition storage area of the main side ROM 63 is set that the number of game balls detected by the discharge path detection sensor 44h reaches 500. A configuration may be adopted in which a time interval for executing the calculation is set as the execution condition. For example, one hour is set as the time interval for executing the calculation, and the CPU 308 of the game history management chip 300 may be configured to calculate the game history information every hour. The inspector of the pachinko machine 10 can check detailed gaming history information calculated every hour, and can appropriately judge whether the pachinko machine 10 has been tampered with or not. Become. As a result, the soundness of the game can be improved.

Note that if the types (models) of the pachinko machine 10 are different, the characteristics of the game will also be different, and therefore the optimal conditions (time interval) for executing the calculation for calculating the game history information will also be different. Therefore, different calculation execution conditions are stored for each type (model) of pachinko machine 10. Therefore, also in this aspect 1, since the game history management chip 300 acquires the calculation execution conditions stored in the calculation execution condition storage area of the main side ROM 63, The calculation can be executed when the calculation execution condition is satisfied.

In addition, the CPU 308 of the game history management chip 300 measures the elapsed time after the calculation is executed, determines whether or not the player is playing a game, and determines that no game is being played. During this period, measurement of elapsed time may be interrupted. Specifically, for example, if a predetermined period of time (for example, 3 minutes) has elapsed without information on the bits in the buffer 302, it is determined that no game is being played, the measurement of the elapsed time is interrupted, and the buffer 302 is A configuration may also be adopted in which, when ball entry information is confirmed in the bit 302, it is determined that the game has been restarted and measurement of the elapsed time is restarted. According to this configuration, game history information can be calculated only for the period in which games are actually played.

Note that the elapsed time may be measured by using a timer counter, or by providing an RTC (Real-Time Clock) and using the date and time information of the RTC. Furthermore, a configuration may be adopted in which game history information is calculated at every predetermined time.

<Aspect 2>
In the first embodiment, the calculation execution condition stored in the calculation execution condition storage area of the main side ROM 63 is set that the number of game balls detected by the discharge path detection sensor 44h reaches 500, but the calculation It may be configured such that the execution condition is that the occurrence of a power cutoff has been detected. Specifically, when the power outage monitoring circuit 86 detects the occurrence of a power outage, it outputs a signal indicating that the power outage has occurred to the game history management chip 300. Having received the signal, the CPU 308 of the game history management chip 300 determines that a power cutoff has occurred, and calculates game history information. In this configuration, the register 304 is constituted by a volatile memory, and the information on the number of balls entered is erased. According to such a configuration, it is possible to calculate the game history information based on the number of game balls detected during the period from the start of power supply to the pachinko machine 10 until the power is cut off. can. That is, since the game history information is calculated for each period from the start to the end of the game hall's business, the game history information is calculated for each business day of the game hall. Therefore, the inspector of the pachinko machine 10 can easily grasp whether or not there has been a change in the characteristics of the gaming history information over the business days of the game hall, so that the pachinko machine 10 cannot be tampered with. It becomes possible to appropriately judge whether the As a result, the soundness of the game can be improved.

Furthermore, if the configuration is provided with a capacitor 87 that supplies power to the game history management chip 300 even after the power is cut off, the memory 309 for calculating the game history information by the CPU 308 and storing the calculation results of the game history information It is possible to reliably complete the memorization of the data.

<Aspect 3>
In the first embodiment, the main CPU 62x may be configured to be able to access the calculation result storage memory 309, and the game history information stored in the calculation result storage memory 309 may be displayed on the symbol display device 41. . According to this configuration, since the game history information is displayed on the symbol display device 41 of the pachinko machine 10, the inspector of the pachinko machine 10 can use a dedicated device (such as the inspection machine 320) to check the game history information. You can check the game history information of the pachinko machine 10 without using it. Note that the main CPU 62x is preferably configured to be able to access the calculation result storage memory 309 but not be able to change data. According to such a configuration, it is possible to prevent the game history information from being destroyed or having its contents rewritten due to noise, program bugs, or the like.

<Aspect 4>
In the first embodiment, the main CPU 62x is configured to be able to access the calculation result storage memory 309, and is notified that the game history information stored in the calculation result storage memory 309 does not satisfy a predetermined condition. A configuration may also be adopted in which an LED lamp for this purpose is provided on the front of the pachinko machine 10 (for example, at a predetermined location on the main display section 45). For example, an LED lamp may be configured to emit light when a specific value included in the game history information (for example, the ratio of accessories, the ratio of continuous accessories, or the payout ratio (during normal mode)) is no longer within a predetermined range. good. According to this configuration, a pachinko machine inspector can easily discover a pachinko machine 10 in which a specific value included in the game history information is no longer included in a predetermined range. By checking the game history information of the pachinko machine 10, it is possible to determine whether the pachinko machine 10 has been illegally modified or not. As a result, the soundness of the game can be improved. In particular, if the nails near the first starting opening 33 or the general winning openings (first to third winning openings 32a to 32c) are tampered with, the above payout ratio (during normal mode) will be lower than the pachinko machine's design. Sometimes, it deviates from the expected predetermined range (for example, 0.60 to 0.70). Therefore, by configuring the LED lamp to emit light when the payout ratio (during normal mode) is no longer within a predetermined range (for example, 0.60 to 0.70), the first starting port 33 and the general winning It can be appropriately determined whether the nails near the openings (first to third winning openings 32a to 32c) have been tampered with.

Furthermore, the light emitting mode (color) of the LED lamp is determined depending on the degree of deviation from a predetermined range of specific values (for example, role object ratio, continuous role object ratio, payout ratio (in normal mode)) included in the game history information. It may be configured to determine. For example, when the ratio of the accessory is within a predetermined range (0.70 or less), the first LED lamp emits blue light, and when the ratio of the accessory is between 0.71 and 0.80, the first LED lamp emits blue light. The first LED lamp may be configured to emit purple light, and when the accessory ratio is between 0.81 and 1.00, the first LED lamp may emit red light. When the continuous role object ratio is within a predetermined range (0.60 or less), the second LED lamp emits blue light, and when the continuous role object ratio is between 0.61 and 0.70, the second LED lamp emits light. The second LED lamp may be configured to emit purple light, and when the continuous character ratio is between 0.71 and 1.00, the second LED lamp may emit red light. Additionally, when the payout ratio (in normal mode) is within a predetermined range (0.60 to 0.70), the third LED lamp emits blue light, and the payout ratio (in normal mode) is 0.71. 0.80, the third LED lamp emits purple light, and when the payout ratio (in normal mode) is 0.81 to 1.00, the third LED lamp may emit red light. According to this configuration, the inspector of the pachinko machine 10 can easily grasp how much a specific value included in the game history information deviates from a predetermined range. Note that the main CPU 62x is preferably configured to be able to access the calculation result storage memory 309 but not be able to change data. According to such a configuration, it is possible to prevent the game history information from being destroyed or having its contents rewritten due to noise, program bugs, or the like.

<Aspect 5>
In the first embodiment described above, the calculation data (prize ball number data and calculation execution conditions) stored in the main side ROM 63 is transmitted to the game history management chip 300 in the initial setting process executed by the main side MPU 62 (CPU 62x). However, the game history management chip 300 is configured to be able to access the prize ball number data storage area and the calculation execution condition storage area of the main side ROM 63, so that the game history management chip 300 can access the game history management chip 300 immediately after the pachinko machine 10 is powered on. A configuration in which the main side ROM 63 is accessed to acquire calculation data (prize ball number data and calculation execution conditions), and the acquired calculation data is stored in the prize ball number data storage memory 306 and calculation execution condition storage memory 307. You can also use it as According to such a configuration, the processing load on the main MPU 62 can be reduced.

<Aspect 6>
In the first embodiment, the game history management chip 300 calculates game history information such as the ratio of accessories, but the number of balls entered every 500 stored in the register is stored as is, and the inspection machine 320 It may also be configured to calculate game history information. According to such a configuration, the processing load on the game history management chip 300 can be reduced. Details of aspect 6 will be described below, focusing on the differences from the first embodiment.

FIG. 19 is a block diagram showing in detail the configuration of the main control device 60 and the configuration of the inspection machine 320 included in the pachinko machine 10 of aspect 6 of the first embodiment.

The main side ROM 63 of the main side MPU 62 is provided with a prize ball number data storage area and a storage execution condition storage area.

The prize ball number data storage area stores the number of game balls that are paid out as prize balls (prize ball number data) when a game ball enters each ball entry hole, as in the first embodiment. There is. In addition, similarly to the first embodiment, the prize ball number data stored in the main side ROM 63 is transmitted to the game history management chip 300 in the initial setting process executed after the power of the pachinko machine 10 is turned on. be done. This allows the game history management chip 300 to grasp the prize ball number data set in the pachinko machine 10.

The storage execution condition storage area stores storage execution conditions that are conditions for the game history management chip 300 to execute storage processing, which will be described later. In this sixth aspect, it is stored as a storage execution condition that the number of game balls that have passed through the discharge passage reaches 500. The storage execution conditions stored in the main side ROM 63 are transmitted to the game history management chip 300 in an initial setting process executed after the power of the pachinko machine 10 is turned on. This allows the game history management chip 300 to grasp the storage execution conditions set in the pachinko machine 10.

The game history management chip 300 includes a buffer 302 that acquires information about how game balls enter each ball entrance from the CPU 62x, a register 304 that stores the number of game balls that enter each ball entrance, and a main side ROM 63. A prize ball number data storage memory 306 that stores the prize ball number data acquired from the main side ROM 63, a storage execution condition storage memory 307a that stores the storage execution conditions acquired from the main side ROM 63, and overall control of the game history management chip 300. and a memory 309a for storing the number of game balls entered into each ball entry hole, which is stored in the register 304 and sequentially stores the number of game balls entered into each ball entry hole. The above-mentioned storage process is a process of storing the number of game balls entering each ball entry hole, which is stored in the register 304, in the memory 309a for storing the number of entering balls.

The inspection terminal 65 is a terminal for connecting the inspection machine 320 and the pachinko machine 10. In this sixth aspect, the entering ball number information stored in the entering ball number storage memory 309a and the winning ball number data stored in the winning ball number data storage memory 306 are transmitted to the inspection machine 320 via the inspection terminal 65. be done.

The inspection machine 320 includes a CPU 321 that executes various control programs, a ROM 324 that records various control programs and fixed value data, a RAM 326 that is a memory for temporarily storing various data, and a display that displays various information. 328 and a connection cable 329 for connecting to the inspection terminal 65 of the pachinko machine 10.

In this aspect 6, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, it sends a transmission request command to the game history management chip 300 to request transmission of input ball number information and prize ball number data. Send to. When the CPU 308 of the game history management chip 300 receives the transmission request command from the inspection machine 320, the CPU 308 transmits the input ball number information stored in the input ball number storage memory 309a and the prize ball number data storage via the inspection terminal 65. The prize ball count data stored in the memory 306 is transmitted to the inspection machine 320. Then, the inspection machine 320 calculates game history information based on the received ball number information and prize ball number data, and causes the display unit 328 to display the calculated game history information.

FIG. 20 is an explanatory diagram schematically showing the contents of processing in the game history management chip 300 and the inspection machine 320 of aspect 6 of the first embodiment.

The contents of the processing in the buffer 302 and the register 304 are the same as in the first embodiment described above, and therefore the description thereof will be omitted.

The prize ball number data storage memory 306 is a memory for storing prize ball number data set in the pachinko machine 10. In this sixth aspect, when the power of the pachinko machine 10 is turned on, the prize ball number data stored in the main side ROM 63 is transmitted to the game history management chip 300 and stored in the prize ball number data storage memory 306. . Therefore, the contents of the prize ball number data stored in the prize ball number data storage memory 306 are the same as the contents of the prize ball number data stored in the main side ROM 63.

The storage execution condition storage memory 307a is a memory for storing storage execution conditions set in the pachinko machine 10. When the power of the pachinko machine 10 is turned on, the storage execution conditions stored in the main side ROM 63 are transmitted by the CPU 62x to the game history management chip 300 and stored in the storage execution condition storage memory 307a. Therefore, the contents of the storage execution condition stored in the storage execution condition storage memory 307a are the same as the contents of the storage execution condition stored in the main ROM 63.

The CPU 308 determines whether or not the storage execution condition stored in the storage execution condition storage memory 307a is satisfied, and if it is determined that the storage execution condition is satisfied, the CPU 308 stores each input stored in the register 304. Information regarding the number of game balls entering the ball mouth is stored in the memory 309a for storing the number of entering balls, and the values of each counter in the register 304 are reset to "0". In this sixth aspect, each time the value of the number of balls passing through the discharge passage _NOUT stored in the register 304 reaches 500, the CPU 308 determines the number of game balls entering each ball entry port stored in the register 304. The information is stored in the memory 309a for storing the number of balls entered. Note that, hereinafter, the information regarding the number of game balls entering each ball entry port, which is counted while 500 game balls are fired onto the game board 30, will also be referred to as a "short-term entry ball number information group."

The memory 309a for storing the number of entering balls is a memory that sequentially stores information regarding the number of entering balls (short-term entering ball number information group) stored in the register 304, and in this embodiment, even if the power supply is cut off, the memory 309a It is made up of non-volatile memory that can hold. The memory 309a for storing the number of entering balls also stores information regarding the order in which the short-term entering ball number information group is written, and the CPU 308, when there is no free area for writing the short-term entering ball number information group, A short-term entering ball number information group is stored in an area where the short-term entering ball number information group having the oldest written order is stored. That is, the memory 309a for storing the number of entering balls is configured to be overwritten in order from the oldest short-term entering ball number information group (first-in, first-out method), and the most recent short-term entering ball number information group is always overwritten. It will be in a memorized state.

In this aspect 6, the memory 309a for storing the number of entering balls stores short-term entry information that is information about the number of game balls entered into each ball entry port counted while 500 game balls are fired onto the game board 30. It has a capacity capable of storing 1200 ball number information groups. For example, if game balls are fired continuously for 10 hours in a day, 60,000 game balls will be fired in a day, so 120 short-term ball number information groups will be collected in a day. This will be stored in the memory 309a for storing the number of balls entered. Therefore, the memory 309a for storing the number of balls entered can store the short-term number of balls entered information group for the most recent 10 days.

As described above, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, it transmits a transmission request command to the game history management chip 300. When the CPU 308 of the game history management chip 300 receives the transmission request command from the inspection machine 320, it transmits the short-term entry ball count information group and prize ball count data to the inspection machine 320 via the inspection terminal 65. Then, the inspection machine 320 calculates game history information such as the accessory ratio based on the short-term entry ball number information group and the prize ball number data, and causes the display unit 328 to display the calculated game history information.

Specifically, in this sixth aspect, the inspection machine 320 can calculate one short-term game history information group for one short-term entered ball number information group, similar to the CPU 308 of the first embodiment described above. If possible, add the number of game balls entering each ball entrance stored in each of the plurality of short-term entering ball number information groups, and use the added number of entering balls to generate long-term game history information. (long-term gaming history information group). In other words, the inspection machine 320 of the sixth embodiment not only collects a group of short-term game history information based on the number of balls entering each ball entrance in a short period of time when 500 game balls are fired, but also collects, for example, 600,000 balls (approximately It is possible to calculate a long-term game history information group based on the number of balls that entered each ball entry port over a long period of time during which game balls (10 days' worth) were fired.

Note that in this sixth aspect, the following configuration may be adopted.

The inspection machine 320 may be configured to be able to display the received short-term entry number information group on the display unit 328. Furthermore, the inspection machine 320 may be configured to receive each counter value stored in the register 304 and to display each received counter value on the display unit 328.

Also, instead of the configuration in which the game history management chip 300 transmits the prize ball number data stored in the prize ball number data storage memory 306 to the inspection machine 320, the main CPU 62x transmits the prize ball number data stored in the main side ROM 63. A configuration may also be adopted in which pitch count data is transmitted to the inspection machine 320. According to such a configuration, the memory 306 for storing prize ball number data can be omitted, and the manufacturing cost of the game history management chip 300 can be reduced.

Further, a configuration may be adopted in which a time interval for executing the storage process is set as the storage execution condition stored in the storage execution condition storage area of the main side ROM 63. For example, one hour is set as the time interval for executing the storage process, and the CPU 308 of the game history management chip 300 may be configured to execute the storage process every hour.

Furthermore, a configuration may be adopted in which the storage execution condition stored in the storage execution condition storage area of the main ROM 63 is that the occurrence of power cutoff has been detected. Specifically, when the power outage monitoring circuit 86 detects the occurrence of a power outage, it outputs a signal indicating that the power outage has occurred to the gaming history management chip 300, and the gaming history management chip 300 that has received the signal The CPU 308 of the computer 300 may be configured to determine that a power cutoff has occurred and execute storage processing.

Further, in the sixth embodiment, the CPU 321 of the inspection machine 320 executes the calculation for calculating the game history information, but the CPU 308 of the game history management chip 300 executes part or all of the calculation, and the calculation The configuration may be such that game history information, which is the result of the above, is transmitted to the inspection machine 320.

<Aspect 7>
In the first embodiment, the game history management chip 300 calculates the game history information such as the ratio of accessories, but the ball entry information in the buffer is stored as is, and the inspection machine 320 uses the ball entry information as it is. It may also be configured to calculate game history information. According to such a configuration, the processing load on the game history management chip 300 can be reduced. Details of aspect 7 will be described below, focusing on the differences from the first embodiment.

FIG. 21 is a block diagram showing in detail the configuration of the main control device 60 and the configuration of the inspection machine 320 included in the pachinko machine 10 of aspect 7 of the first embodiment.

In this seventh aspect, the main MPU 62 is provided with an RTC 96 (RTC: Real-Time Clock) that outputs date information and time information to the game history management chip 300. The RTC 96 is equipped with a backup power source and can update the date information and time information even when the power to the pachinko machine 10 is cut off.

The main side ROM 63 of the main side MPU 62 is provided with a prize ball number data storage area. Note that in this seventh aspect, no calculation start condition storage area is provided.

The prize ball number data storage area stores the number of game balls that are paid out as prize balls (prize ball number data) when a game ball enters each ball entry hole, as in the first embodiment. There is. In addition, similarly to the first embodiment, the prize ball number data stored in the main side ROM 63 is transmitted to the game history management chip 300 in the initial setting process executed after the power of the pachinko machine 10 is turned on. be done. This allows the game history management chip 300 to grasp the prize ball number data set in the pachinko machine 10.

The game history management chip 300 includes a buffer 302 that acquires information on the entry of game balls into each ball entrance from the CPU 62x, and a memory 306 for storing prize ball number data that stores prize ball number data acquired from the main side ROM 63. , a CPU 308 that controls the entire gaming history management chip 300, and a ball entry information storage memory 309b that sequentially stores information on entering the game ball into each ball entry hole, etc. stored in the buffer 302. .

The inspection terminal 65 is a terminal for connecting the inspection machine 320 and the pachinko machine 10. In this aspect 7, when the inspection machine 320 is connected to the inspection terminal 65, the entering ball information etc. stored in the entering ball information storage memory 309b and the prize ball number stored in the prize ball number data storage memory 306 The data is sent to inspection machine 320.

The inspection machine 320 includes a CPU 321 that executes various control programs, a ROM 324 that records various control programs and fixed value data, a RAM 326 that is a memory for temporarily storing various data, and a display that displays various information. 328 and a connection cable 329 for connecting to the inspection terminal 65 of the pachinko machine 10.

In this aspect 7, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, it sends a transmission request command to the gaming history management chip 300 to request transmission of ball entry information, etc. and prize ball number data. Send to. When the CPU 308 of the game history management chip 300 receives the transmission request command from the inspection machine 320, the CPU 308 transmits the ball entry information etc. stored in the ball entry information storage memory 309b via the inspection terminal 65 and the prize ball number data storage. The prize ball count data stored in the memory 306 is transmitted to the inspection machine 320. Then, the inspection machine 320 calculates game history information based on the received ball entry information and the prize ball number data, and causes the display unit 328 to display the calculated game history information.

FIG. 22 is an explanatory diagram schematically showing an outline of processing in the game history management chip 300 and the inspection machine 320 of aspect 7 of the first embodiment.

The contents of the processing in the buffer 302 are the same as those in the first embodiment described above, so the explanation will be omitted.

The ball entering information storage memory 309b is a memory that sequentially stores the ball entering information stored in the buffer 302 and information regarding the gaming state when the game ball enters the ball. It is made up of non-volatile memory that can retain data even when stored. Furthermore, in this embodiment, when the ball entry information and the information regarding the gaming state are stored, the date and time information when the game ball entered each ball entry hole is added and stored. The ball entry information storage memory 309b also stores information regarding the order in which the ball entry information, etc. are written, and if there is no free area for writing the ball entry information, etc., the CPU 308 stores the ball entry information, etc. Information, etc. is stored in an area where ball entering information, etc. written in the oldest order is stored. That is, the ball entry information storage memory 309b is configured to be overwritten in order starting from the oldest ball entry information (first-in, first-out method), and always stores the latest ball entry information, etc. state.

The prize ball number data storage memory 306 is a memory for storing prize ball number data set in the pachinko machine 10. In this aspect 7, when the power of the pachinko machine 10 is turned on, the prize ball number data stored in the main side ROM 63 is transmitted to the game history management chip 300 and stored in the prize ball number data storage memory 306. . Therefore, the contents of the prize ball number data stored in the prize ball number data storage memory 306 are the same as the contents of the prize ball number data stored in the main side ROM 63. Furthermore, in this seventh aspect, when the inspection machine 320 is connected to the inspection terminal 65, the prize ball number data stored in the prize ball number data storage memory 306 is transmitted to the inspection machine 320.

As described above, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, it sends a transmission request command to the gaming history management chip 300 to request transmission of ball entry information and prize ball count data. Send to. When the CPU 308 of the game history management chip 300 receives the transmission request command from the inspection machine 320, the CPU 308 transmits the ball entry information, information regarding the gaming state, and date and time information stored in the ball entry information storage memory 309b via the inspection terminal 65. , and the prize ball number data stored in the prize ball number data storage memory 306 to the inspection machine 320. Then, the inspection machine 320 calculates game history information based on the received information, and causes the display unit 328 to display the calculated game history information.

Specifically, the inspection machine 320 of this aspect 7 calculates game history information (short-term game history information group) based on the number of balls that entered each ball entrance in a short period when 500 game balls were fired. In addition to calculating, for example, game history information (long-term game history information group) based on the number of balls entering each ball entrance over a long period of time when 600,000 game balls (about 10 days worth) were fired. It is possible to do so. That is, it is possible to calculate game history information for any period.

Furthermore, in this aspect 7, since date and time information (date information and time information) is added to the received ball entry information, etc., the inspection machine 320 can detect the range of the date and time information added to the received ball entry information, etc. It is also possible to calculate game history information by specifying a date and time range for which game history information is to be calculated. Therefore, the person inspecting the pachinko machine 10 can perform a detailed inspection based on the game history information specifying the date and time range.

Note that in this aspect 7, the following configuration may be adopted.

The inspection machine 320 may be configured to be able to display received ball entry information and the like on the display unit 328. According to such a configuration, the person inspecting the pachinko machine 10 can also grasp the date and time when a game ball was detected by each ball entry detection sensor.

Also, instead of the configuration in which the game history management chip 300 transmits the prize ball number data stored in the prize ball number data storage memory 306 to the inspection machine 320, the main CPU 62x transmits the prize ball number data stored in the main side ROM 63. A configuration may also be adopted in which pitch count data is transmitted to the inspection machine 320. According to such a configuration, the memory 306 for storing prize ball number data can be omitted, and the manufacturing cost of the game history management chip 300 can be reduced.

In addition, in aspect 7, the CPU 321 of the inspection machine 320 executes the calculation for calculating the game history information, but the CPU 308 of the game history management chip 300 executes part or all of the calculation. The configuration may be such that game history information, which is the result of the above, is transmitted to the inspection machine 320.

<Aspect 8>
In the first embodiment and other aspects described above, the calculation execution conditions or the storage execution conditions are stored in the main side ROM 63, and the game history management chip 300 acquires these conditions from the main side ROM 63. , the game history management chip 300 may be configured to store these conditions in a non-volatile memory from the beginning. According to this configuration, it is possible to suppress the occurrence of a situation where inappropriate calculation execution conditions or storage execution conditions are stored in the main side ROM 63, and game history information or ball count information cannot be appropriately stored. can. For example, an extremely short period of time (for example, the number of balls passing through the discharge passage N _OUT =5) is stored as the calculation execution condition or storage execution condition, and the calculation result storage memory 309 or the input ball number storage memory 309a It is possible to suppress the occurrence of a situation in which only game history information or ball count information for an extremely short period (for example, about one hour) is stored.

<Aspect 9>
In the first embodiment and the other aspects described above, there is a function to store the number of game balls entering each ball entrance, a function to calculate game history information such as the ratio of accessories, and a function to calculate the calculated game history information. Although the game history management chip 300 has the storage function, the main CPU 62x (the main MPU 62 excluding the game history management chip 300) may have some of these functions. Alternatively, the game history management chip 300 may not be provided, and the main CPU 62x (the main MPU 62 excluding the game history management chip 300) may have all of these functions. According to such a configuration, there is no need to separately provide the game history management chip 300, so that manufacturing costs can be reduced. However, according to the configuration in which the game history management chip 300 is provided, the processing load on the main CPU 62x can be reduced.

<Aspect 10>
In the first embodiment and other aspects described above, the game history management chip 300 is configured to include some or all of the functions provided by functional units other than the game history management chip 300 (for example, the inspection machine 320 and the main CPU 62x). Alternatively, some or all of the functions of the game history management chip 300 may be provided in a functional section other than the game history management chip 300. For example, if the game history management chip 300 includes some of the functions of the inspection machine 320, the processing load and manufacturing cost of the inspection machine 320 can be further reduced, and the functions of the game history management chip 300 can be reduced. If a part of the inspection machine 320 is provided, the processing load and manufacturing cost of the game history management chip 300 can be further reduced.

<Aspect 11>
In the first embodiment, the game history management chip 300 calculates the game history information such as the ratio of accessories, but the game history management chip 300 is not provided and the main CPU 62x calculates the game history information. Good too. Details of aspect 11 will be described below, focusing on the differences from the first embodiment.

FIG. 23 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 11 of the first embodiment. This aspect 11 is different from the first embodiment (FIG. 5) in that the game history management chip 300 is not provided and that the main side RAM 64 is provided with an area for storing the number of balls entered and an area for storing calculation results. It's different.

The main CPU 62x updates the number of game balls entering each ball entrance, which is stored in the number of entering balls storage area of the main RAM 64, based on the entry information of game balls received from the input/output port 62a. do. When the calculation execution condition stored in the calculation execution condition storage area of the main side ROM 63 is satisfied, the prize ball number data stored in the prize ball number data storage area of the main side ROM 63 and the number of prize balls stored in the main side RAM 64 The game history information is calculated by performing calculations based on the number of game balls entered at each ball entrance stored in the number of balls entered storage area, and the game history information is stored in the main side RAM 64 as a result of the calculation. Store in area. This will be explained in detail below.

FIG. 24 is an explanatory diagram schematically showing an outline of processing in the main MPU 62 in aspect 11 of the first embodiment. The main CPU 62x determines whether the calculation execution conditions stored in the calculation execution condition storage area of the main ROM 63 are satisfied, and if it is determined that the calculation execution conditions are satisfied, the main CPU 62x Information regarding the number of game balls entering each ball entry hole stored in the cache is stored in the number of entering balls storage area of the main side RAM 64. In this aspect 11, the main CPU 62x receives information regarding the number of game balls entering each ball entrance every time the value of the number of balls passing through the discharge passage _NOUT stored in the cache of the main CPU 62x reaches 500. , is stored in the incoming ball number storage area of the main side RAM 64. As mentioned above, the information regarding the number of game balls entering each ball entry port counted while 500 game balls are fired onto the game board 30 is also referred to as the "short-term entry number information group". .

The entering ball number storage area of the main side RAM 64 is an area that sequentially stores information regarding the number of entering balls (short-term entering ball number information group). The main side RAM 64's entering ball number storage area also stores information regarding the order in which the short-term entering ball number information group is written, and the main side CPU 62x has no free area for writing the short-term entering ball number information group. In this case, the short-term entering ball count information group that has become a new writing target is stored in the area where the short-term entering ball number information group written the earliest is stored. That is, the input ball count storage area of the main side RAM 64 is configured to be overwritten in order from the oldest short-term input ball count information group (first-in, first-out method), and the most recent short-term input ball count information is always stored. The group is now memorized.

In this aspect 11, the number-of-entering-balls storage area of the main side RAM 64 is information regarding the number of game balls entering each ball entry port, which is counted while 500 game balls are fired onto the game board 30. It has a capacity capable of storing 1200 short-term entry number information groups. For example, if game balls are fired continuously for 10 hours in a day, 60,000 game balls will be fired in a day, so 120 short-term ball number information groups will be collected in a day. This will be stored in the number of balls entered storage area of the main side RAM 64. Therefore, the number-of-entering-balls storage area of the main side RAM 64 can store the short-term number-of-entering-balls information group for the most recent 10 days.

Then, the main CPU 62x newly calculates one short-term game history information group for one newly stored short-term ball entry number information group every time the calculation execution condition is satisfied. Furthermore, each time the calculation execution condition is satisfied, the main CPU 62x executes a game to each entry hole stored in each of a plurality of short-term entry number information groups including a newly stored short-term entry number information group. The number of balls entered is added, and long-term game history information (long-term game history information group) is calculated using the added number of balls entered. That is, the main side CPU 62x of this aspect 11 not only collects short-term game history information based on the number of balls entered into each ball entrance in a short period of time when 500 game balls were fired, but also collects, for example, 600,000 game balls (approximately It is possible to calculate a long-term game history information group based on the number of balls that entered each ball entry port over a long period of time during which game balls (10 days' worth) were fired. Then, the calculated game history information is stored in the calculation result storage area of the main side RAM 64.

The calculation result storage area of the main side RAM 64 is composed of an area for sequentially storing a group of short-term game history information and an area for storing a group of long-term game history information. The area for sequentially storing the short-term game history information group also stores information regarding the order in which the short-term game history information group was written, and the main CPU 62 In this step, the newly calculated short-term game history information group is stored in the area where the short-term game history information group written in the earliest order is stored. In other words, the area in the main RAM 64 that sequentially stores the short-term gaming history information group is configured to be overwritten in order from the oldest short-term gaming history information group (first-in, first-out method), and the most recent short-term gaming history information group is always overwritten. The game history information group is now stored. The area for storing the long-term game history information group is overwritten with a newly calculated long-term game history information group every time the calculation execution condition is satisfied. That is, in the area for storing the long-term game history information group, the latest long-term game history information group calculated based on a plurality of short-term input ball number information groups including the latest short-term input ball number information group is stored. become.

When the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65, it transmits a transmission request command to the main CPU 62x. Upon receiving the transmission request command from the inspection machine 320, the main CPU 62x transmits the game history information stored in the main RAM 64 to the inspection machine 320. Then, the inspection machine 320 causes the display unit 328 to display the received game history information.

In addition, in this aspect 11, when a predetermined operation for displaying the game history information on the symbol display device 41 is executed, the game history information stored in the main side RAM 64 is transmitted through the input/output port 62x to control the sound emission. It is output to the device 90 and displayed on the symbol display device 41.

In addition, in this aspect 11, even if the power supply to the pachinko machine 10 is cut off, the backup power supplied from the capacitor 87 allows the short-term input ball number information group and game history information stored in the main side RAM 64 to be It is configured to be retained for days.

According to such a configuration, the main side CPU 62x, which is a single processing unit, executes processing for progressing the game such as winning lottery processing and processing for calculating and storing game history information, so that the game There is no need to provide a dedicated game history management chip 300 for calculating and storing history information, and the manufacturing cost of the pachinko machine 10 can be reduced.

Furthermore, a short-term entry ball number information group, which is information regarding the number of game balls entered into each ball entry port counted while 500 game balls were fired onto the game board 30, is stored in the main side RAM 64. Therefore, there is a configuration in which the ball entering information of the game ball is stored in the same format as it is (for example, a configuration in which the ball entering information is stored in the format of the ball entering information stored in the ball entering information storage memory 309b in FIG. 22). In comparison, it becomes possible to calculate the most recent short-term game history information group and long-term game history information group while significantly reducing the memory capacity required for the main side RAM 64.

Note that the main CPU 62x is not limited to the configuration that calculates both the short-term game history information group and the long-term game history information group as the game history information, but may be configured to calculate only one of them.

<Aspect 12>
FIG. 25 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 12 of the first embodiment. The difference from Embodiment 11 (FIG. 23) described above is that the main MPU 62 is provided with a flash memory 64x, which is a nonvolatile memory that is rewritable and can retain memory even if the power supply is cut off. This is the point that This flash memory 64x includes a ball entering number storage area for storing the short-term entering ball number information group in the above-mentioned aspect 11, and for storing the short-term playing history information group and the long-term playing history information group in the above-mentioned aspect 11. A calculation result storage area is provided.

The main CPU 62x of this twelfth aspect is configured to store the short-term entered ball number information group and the calculated game history information in the flash memory 64x each time the calculation execution condition is satisfied.

According to such a configuration, the manufacturing cost of the pachinko machine 10 can be reduced compared to a configuration including the game history management chip 300. Furthermore, even if the power supply to the pachinko machine 10 is cut off for a long period of time, the short-term input ball number information group and the game history information are retained, so no matter what state the pachinko machine 10 is in (for example, if the pachinko machine Even if the pachinko machine 10 is placed in a distribution state where power is not supplied to the pachinko machine 10, the game history information can always be linked one-to-one, and the characteristics of the pachinko machine 10 can be managed. , can be inspected.

In addition, since there is no need to provide an area for storing the short-term input ball number information group and game history information in the main side RAM 64, the storage capacity of the main side RAM 64 can be suppressed, and the manufacturing cost of the pachinko machine 10 is reduced. can do.

<Aspect 13>
In the first embodiment and other aspects described above, the main control device 60 transmits a game mode, which is a mode in which a game progress process, which is a process for progressing a game, can be executed, and game history information to the inspection machine 320. It may be configured such that it can be executed by switching between the inspection mode which is the output mode. The game progress process is a process executed based on the detection of a game ball by the entering ball detection sensors 44a to 44h, and includes a winning lottery process, an electric winning lottery process, a prize ball payout process, and a main display section. 45, opening/closing processing of the opening/closing door 36b and electric accessories 34a, etc. are included.

In the inspection mode, even if the game ball passes through the area detected by the ball entry detection sensors 44a to 44h, the game progress process may not be executed.

Specifically, for example, when shifting to the inspection mode, an inspection mode flag for determining whether or not the main controller 60 is in the inspection mode is turned ON. Then, the main control device 60 determines whether or not the inspection mode flag is ON, and if it is determined that the inspection mode flag is ON, the main controller 60 does not proceed to the processing flow for executing the normal game progress processing. , proceed to the processing flow for inspection mode. As a result, even if the main control device 60 receives a signal indicating that a game ball has been detected from the ball entry detection sensors 44a to 44h, the main control device 60 performs processing based on the reception of the signal (for example, a jackpot random number It is configured not to execute the processing for acquiring the value of the counter C1, the processing for paying out prize balls, the processing for transmitting commands to the sound emission control device 90, etc.).

According to such a configuration, it is possible to execute in the inspection mode a process that is not preferable to be executed in parallel with the game progress process, a process that is likely to cause a problem when executed in parallel with the game progress process, etc. . In addition, according to such a configuration, since the game progress process is not executed in the test mode, when developing a program for the process to be executed in the test mode, it is necessary to take measures against the case where the game progress process is executed in parallel. Since there is no need to take this into account, it is possible to greatly improve the efficiency of developing a program for processing executed in the inspection mode.

Further, the game history information is information whose contents change when a game ball is detected and a game progress process is executed. Therefore, if a configuration is adopted in which the process of outputting game history information is executed in parallel with the game progress process, while the inspector of the pachinko machine 10 is inspecting the characteristics of the pachinko machine 10 based on the game history information, As the game progress process is executed, the contents of the game history information change from time to time, which may make it difficult to carry out the inspection smoothly. On the other hand, according to the configuration of this aspect 13, even if the game ball passes through a predetermined area, the game history information is output in the inspection mode in which the game progress process is not executed, so the game history information is output. It is possible to prevent the contents of the game history information from changing while the game is being played. As a result, the person inspecting the pachinko machine 10 can smoothly carry out the inspection.

Note that the manner in which the game history information is output in the inspection mode is not limited to the manner in which the game history information is output to the inspection machine 320 and displayed, but may be in other manners. For example, the game history information may be output to the symbol display device 41 and displayed.

Furthermore, the information output in the test mode is not limited to game history information, but may be other information. For example, it may be other information based on the detection of game balls by the ball entry detection sensors 44a to 44h, such as information on entering game balls or information on the number of balls entering.

<Aspect 14>
Among the first embodiment and other aspects described above, in a configuration in which the main control device 60 can switch between the game mode and the inspection mode and execute the execution, the main controller 60 switches from the game mode to the inspection mode while executing the game progress process in the game mode. When the examiner executes a predetermined operation (hereinafter also referred to as a "mode switching operation") to shift to a mode, the game progress is completed at a predetermined stage. It may also be configured to shift from mode to inspection mode.

Specifically, for example, if a mode switching operation of pressing the power button while pressing the mode switching button is performed while the game progress processing of the game mode is being executed, each game progress processing ( Up to a predetermined processing stage for each (winning lottery process, electric role opening lottery process, prize ball payout process, pattern fluctuation display process on the main display section 45, opening/closing process of the opening/closing door 36b and the electric accessory 34a, etc.) Complete the process. Then, when the game progress processing is completed up to a predetermined processing stage, the processing after the processing stage is not executed and enters a standby state. Then, at the timing when all of the game progress processes being executed have been completed up to a predetermined processing stage, the game mode is shifted to the test mode.

According to such a configuration, the game mode is switched from the game mode to the inspection mode at the timing immediately after the mode switching operation is executed, regardless of whether or not the game progress process being executed has been completed to a predetermined processing stage. Compared to a configuration in which the mode is shifted, it is possible to suppress the occurrence of processing problems when shifting to the inspection mode.

For example, it is possible to create a configuration in which the game mode shifts from the game mode to the inspection mode immediately after the mode switching operation is executed, regardless of whether the game progress process being executed has completed to a predetermined processing stage or not. In this case, if the mode switching operation is performed during the period in which the symbol fluctuation display process on the main display section 45 is being executed as the game progress process in the game mode, the symbol change on the main display section 45 will change. The system will shift to the inspection mode in the middle of the fluctuating display, making it difficult to control the timing of stopping the symbols and the period of time the symbols fluctuate. On the other hand, according to the configuration of this aspect 14, for example, if the mode switching operation is executed during a period in which the symbol variable display process is being executed in the gaming mode, the symbol variable display process is executed. The test mode is entered at the timing when the processing is completed up to the processing stage where the symbols are stopped. Therefore, it is possible to suppress the occurrence of processing problems such as difficulty in controlling the timing of stopping the symbols, the fluctuation time of the symbols, etc.

In addition, when shifting (returning) from the test mode to the game mode, a configuration may be adopted in which the remaining processing stages of the game progress processing that were scheduled to be executed before shifting to the test mode are executed. According to such a configuration, it is possible to prevent the player from feeling uncomfortable that the expected game progress process ends in an incomplete state.

In addition, if a mode switching operation is executed while the game progress process is being executed in the game mode, the game mode is configured to shift to the inspection mode at the timing when all the processes of each game progress process that are being executed are completed. You can also use it as According to such a configuration, it is possible to suppress the occurrence of processing problems when restarting the game progress processing.

In addition, if a mode switching operation is executed during execution of game progress processing in the game mode, the game execution processing is interrupted and information that enables restart of the interrupted game progress processing is stored in the main side RAM 64. The configuration may be such that the game mode is stored and the game mode is shifted to the test mode at the timing when the storage is completed. According to such a configuration, the pachinko machine 10 quickly shifts from the gaming mode to the inspection mode, so it is possible to inspect many pachinko machines 10 in a short period of time.

Further, the mode switching operation for shifting from the game mode to the inspection mode is not limited to the operation of pressing the power button while pressing the mode switching button, but may be other modes. For example, it may be a single operation of pressing a mode switching button. Furthermore, a configuration may be adopted in which when the inspection device 320 is connected to the inspection terminal 65, the same process as when the mode switching operation is executed.

<Aspect 15>
In the first embodiment and the other aspects described above, in a configuration in which the main controller 60 can switch between the gaming mode and the inspection mode and perform the execution, during the inspection mode, 10 minutes from the time when the mode shifts to the inspection mode is If the automatic return condition that the test mode has elapsed is met, and the predetermined operation for transitioning from the inspection mode to the game mode (for example, pressing the power button while pressing the mode switching button) is not performed. However, the configuration may be such that the mode shifts from the test mode to the game mode.

According to such a configuration, if 10 minutes have passed since the transition to the inspection mode, even if the predetermined operation for transitioning from the inspection mode to the game mode has not been performed, the inspection mode will be changed. Since the mode is configured such that the mode is shifted to the game mode from the start, it is possible to reliably prevent the game mode from returning to the game mode without executing a predetermined operation. For example, even if the person inspecting the pachinko machine 10 forgets to perform a predetermined operation after inspecting the characteristics of the pachinko machine 10 based on the gaming history information output in the inspection mode, Since the game mode is returned to after 10 minutes have passed from the time of transition, a situation may occur in which the player is unable to play with the pachinko machine 10 without returning to the game mode in which the pachinko machine 10 can execute game progress processing. can be suppressed.

Note that the automatic return condition is not limited to the condition that 10 minutes have passed since the transition to the inspection mode, but may be other conditions. For example, the condition may be that 5 minutes have passed since the transition to the inspection mode, or the condition that 10 minutes have passed since the inspection device 320 was removed from the inspection terminal 65.

Further, the predetermined operation for transitioning from the test mode to the game mode is not limited to the operation of pressing the power button while pressing the mode switching button, but may be other forms. For example, it may be a single operation of pressing a mode switching button.

<Aspect 16>
In the first embodiment and other aspects described above, the main controller 60 is provided with a RAM clear button for initializing the main side RAM 64, and the operation of pressing the power button while pressing the RAM clear button (hereinafter, The information stored in the main RAM 64 may be erased (initialized) when an "erase operation" (also referred to as "erase operation") is executed.

Furthermore, a configuration may be adopted in which the main controller 60 can switch between the game mode and the test mode. In a state after shifting to the inspection mode but before shifting to the game mode, for example, in a state in the inspection mode or a state where the power is turned off after shifting to the inspection mode, while pressing the RAM clear button, A configuration may also be adopted in which the information stored in the main RAM 64 is not erased even if an erasing operation of pressing the power button is performed.

According to such a configuration, in a state after shifting to the inspection mode but before shifting to the gaming mode, there is no possibility that an erasing operation for erasing information stored in the main side RAM 64 is performed. However, since the information stored in the main RAM 64 is not erased even if the information is stored in the main side RAM 64, it is possible that the erasing operation is mistakenly executed in an attempt to shift to the gaming mode after shifting to the inspection mode but before shifting to the gaming mode. Even if the information is accidentally deleted, it is possible to prevent the information from being deleted by mistake.

For example, the erasing operation for erasing information stored in the main side RAM 64 is an operation of pressing the power button while pressing the RAM clear button, and the mode is shifted between the gaming mode and the inspection mode. In a configuration where the operation for switching is to press the power button while holding down the mode switching button, if you intend to press the power button while holding down the mode switching button in order to shift from inspection mode to gaming mode, you may accidentally press the power button while holding down the mode switching button. There is a risk of pressing the power button while pressing the RAM clear button. However, according to the configuration of aspect 16, after the transition to the inspection mode but before the transition to the game mode, an erasing operation such as pressing the power button while pressing the RAM clear button is mistakenly performed. Even if the information is accidentally deleted, it is possible to prevent the information from being deleted by mistake.

More specifically, for example, when transitioning from the game mode to the test mode, the game progress process that was being executed in the game mode is temporarily stopped, and the stopped game progress process is returned to the test mode. When a configuration is adopted in which information for restarting later is stored in the main RAM 64, when the user intends to press the power button while pressing the mode switching button in order to return from the inspection mode to the game mode, he accidentally presses the RAM clear button. If you press the power button while pressing , the information for restarting the game progress process will be erased, and you will not be able to restart the game progress process after returning to inspection mode, causing the player to There is a risk that it may be disadvantageous. On the other hand, according to the configuration of this aspect 16, in a state after transitioning to the inspection mode but before transitioning to the gaming mode, the power button is pressed while accidentally pressing the RAM clear button while trying to transition to the gaming mode. Even if the player presses the button, it is possible to prevent the information stored in the main RAM 64 from being erased by mistake, thereby preventing the player from being disadvantaged. I can do it.

Note that the main side RAM 64 may be configured to store game history information. According to such a configuration, there is no need to separately provide a dedicated memory for storing game history information, so the manufacturing cost of the pachinko machine 10 can be reduced.

In addition, when the deletion operation is executed, the game history stored in the main RAM 64 is deleted regardless of the status of the pachinko machine 10 (power on/off status, gaming mode or inspection mode, etc.). It may be configured such that the information is not erased, but only information other than the game history information stored in the main side RAM 64 (information stored for restarting the game progress process, etc.) is erased (initialized). . According to such a configuration, it is possible to prevent game history information that deviates from a predetermined range from being intentionally deleted.

Note that the erasing operation is not limited to the operation of pressing the power button while pressing the RAM clear button, but may be performed in other manners. For example, it may be a single operation of pressing a RAM clear button.

<Aspect 17>
Among the first embodiment and other aspects described above, in a configuration in which the main controller 60 can switch between the gaming mode and the inspection mode, when the main controller 60 shifts from the gaming mode to the inspection mode, , transmits a game stop command, which is a command indicating that the game progress process will be temporarily stopped by shifting to the test mode, to the audio emission control device 90, and also changes the game progress process that was being executed to the test mode. It may also be configured to temporarily stop. Specifically, for example, if the main display section 45 shifts to the inspection mode while the symbol fluctuation display is being executed, the display on the main display section 45 is turned off, and the symbol fluctuation time on the main display section 45 is counted. stop. Furthermore, when the main control device 60 shifts from the inspection mode to the game mode, it transmits a game restart command to the audio emission control device 90, which is a command indicating that the main control device 60 shifts to the game mode and resumes the game progress process. It is also possible to have a configuration in which

Then, when the audio emission control device 90 receives the game stop command, it temporarily stops the performance that is being executed, and then, when it receives the game restart command, the audio emission control device 90 temporarily stops the performance that has been temporarily stopped. The configuration is such that it restarts. According to such a configuration, even when the main control device 60 shifts between the game mode and the inspection mode, the game progress processing executed by the main control device 60 (for example, the display of the symbols on the main display section 45 This makes it possible to synchronize the effect (fluctuation display processing) and the effect controlled by the sound emission control device 90 (e.g., the symbol variation display processing in the symbol display device 41), and prevents players from feeling strange after transitioning to the gaming mode. It is possible to prevent this from happening.

Note that the audio emission control device 90 may be configured not to stop the performance that is being executed even when a game stop command is received. Specifically, for example, if a game stop command is received while the symbol display device 41 is displaying fluctuating symbols, the layer of the fluctuating symbol display continues to be controlled. A layer of another image (for example, a black image) is displayed on top of the image. However, since the control of the variable display of the symbols in the symbol display device 41 continues, the variable display of the symbols continues under the black image layer. Then, when the symbol variation time on the symbol display device 41 has elapsed, the variable display of the symbol ends under the black image layer, but the symbol does not stop but oscillates slightly.

When a game restart command is received from the main control device 60, the black image layer displayed above the variable symbol display layer is removed and the symbol layer is displayed again. At this time, the main control device 60 shifts (returns) from the inspection mode to the game mode, and resumes the stopped game progression process (variable display of symbols on the main display section 45).

Then, the main controller 60 restarts the display of the symbol variation on the main display section 45 that had stopped counting the variation time, and when the remaining variation time has elapsed, that is, the variation display of the symbol on the main display section 45 is resumed. When the timing to stop comes, a symbol stop command is transmitted to the audio light emission control device 90. The audio emission control device 90 that received the symbol stop command transmits the symbol stop command to the display control device 100, and the display control device 100 causes the symbol display device 41 to display the symbol that was being displayed in a slightly shaking manner. stop it completely.

According to such a configuration, when the main controller 60 is in the inspection mode, the display on the main display section 45 is turned off, and the display on the symbol display device 41 becomes a black image. Then, when the main controller 60 shifts from the inspection mode to the game mode, the variable display of the symbols on the main display section 45, which had stopped counting the variation time, is resumed, and the symbols on the symbol display device 41 are displayed in a variable manner. It becomes a display mode in which the display mode or the display mode is slightly swaying. Then, at the timing when the symbols on the main display section 45 stop, the symbols on the symbol display device 41 also stop. That is, it becomes possible to synchronize the fluctuating display of symbols on the main display section 45 and the fluctuating display of symbols on the symbol display device 41. Further, even if a game stop command is received, the control of the performance being executed is not stopped, so it is possible to suppress the occurrence of problems caused by temporarily stopping the control of the performance being executed. For example, if the control of the effect is restarted after temporarily stopping the control of the effect, there may be a difference in the timing of the multiple effects if multiple effects are being executed, or the symbol display device may For example, a discrepancy may occur between the moving image displayed on the speaker 41 and the audio output from the speaker 46.

Note that if a configuration is adopted in which the main controller 60 does not send a symbol stop command to the audio emission control device 90 even when the timing to stop the fluctuation of the symbol on the main display section 45 is reached, the symbol The fluctuating display of the symbols on the display device 41 continues in a slightly swaying manner, and the fluctuation command transmitted from the main controller 60 after that or the standby command transmitted when no hold information is stored. By receiving this, the symbols on the symbol display device 41 will stop.

<Aspect 18>
In the first embodiment and the other aspects described above, the game history information stored in the pachinko machine 10 may be displayed on the symbol display device 41 upon reaching a predetermined time. Specifically, for example, the system may be configured to shift from the game mode to the inspection mode at 11:10 p.m., and display the game history information of the pachinko machine 10 on the symbol display device 41. According to such a configuration, the game history information of each pachinko machine 10 is displayed on the symbol display device 41 at around 11:10 p.m. after the game hall closes, so that the pachinko machine 10 can be inspected. A person can quickly inspect and confirm the game history information of many pachinko machines 10 after closing a game hall without taking the trouble of shifting each pachinko machine 10 from a game mode to an inspection mode.

Alternatively, the game history information stored in the pachinko machine 10 may be displayed on the symbol display device 41 upon reception of a predetermined signal from the hall computer. According to such a configuration, for example, all the pachinko machines 10 installed in the game hall can be simultaneously shifted to the inspection mode, and the game history information of each pachinko machine 10 can be displayed on the respective symbol display devices 41. Therefore, the person inspecting the pachinko machines 10 can quickly inspect and confirm the gaming history information of many pachinko machines 10 without having to take the trouble of shifting each pachinko machine 10 from the gaming mode to the inspection mode. becomes.

<Aspect 19>
In the first embodiment and other aspects described above, a configuration may be adopted in which game history information is always displayed on the symbol display device 41. According to such a configuration, players and inspectors can always check the gaming history information, so if an abnormality occurs such as the gaming history information deviating from a predetermined range, they can immediately take action. It is possible to notice changes. As a result, it becomes possible to quickly ensure the soundness of the game.

<Aspect 20>
In the first embodiment and other aspects described above, a 7-segment display configured by seven light emitting diodes is provided on the back of the pachinko machine 10, and the 7-segment display displays the games stored in the pachinko machine 10. It may also be configured to display information related to history information. For example, when the main controller 60 shifts from the above-mentioned gaming mode to the inspection mode, whether the accessory ratio, payout ratio (in normal mode), etc. stored in the pachinko machine 10 is within a predetermined range. It may also be configured to display this on a 7-segment display.

More specifically, for example, when the main controller 60 shifts from the game mode to the inspection mode, "1" indicating that the ratio of the accessory is displayed on the 7-segment display, and then the ratio of the accessory is displayed. is within a predetermined range (specifically, when the accessory ratio is 0.700 or less), "O" meaning OK is displayed on the 7-segment display; If the value is not within a predetermined range, "E" indicating an error may be displayed on the 7-segment display. After displaying the ratio of accessories, "2" indicating that the ratio of continuous accessories will be displayed is displayed on the 7-segment display, and if the ratio of continuous accessories is within a predetermined range (specifically (If the continuous accessory ratio is 0.600 or less), "O" meaning OK is displayed on the 7-segment display; on the other hand, if the continuous accessory ratio is not within the predetermined range, , "E" indicating an error may be displayed on the 7-segment display. After displaying the continuous role ratio, "2" indicating that the payout ratio (in normal mode) will be displayed is displayed on the 7-segment display, and the payout ratio (in normal mode) is within the predetermined range. (Specifically, when the payout ratio (in normal mode) is within the range of 0.60 to 0.70), "O" meaning OK is displayed on the 7-segment display, On the other hand, if the payout ratio (in normal mode) is not within a predetermined range, "E" indicating an error may be displayed on the 7-segment display.

According to such a configuration, it becomes possible to easily and quickly inspect game history information such as accessory ratios. In addition, since the 7-segment display consumes less power, even if the power of the pachinko machine 10 is off, the game history information can be checked using only a small amount of power from the capacitors and batteries installed inside the pachinko machine 10. It becomes possible to do so.

Further, the configuration may be such that information related to game history information stored in the pachinko machine 10 is always displayed on the 7-segment display. According to such a configuration, it becomes possible to simply and quickly inspect game history information such as accessory ratio without switching from gaming mode to inspection mode. Furthermore, even in the pachinko machine 10 that does not have an inspection mode, it is possible to simply and quickly inspect game history information such as the ratio of accessories. Furthermore, if the 7-segment display is provided on the back of the pachinko machine 10, the 7-segment display will not come into the player's field of vision, so the player will not be aware of the display on the 7-segment display. This can prevent the player from becoming unable to concentrate on the game. On the other hand, when the inspector of the pachinko machine 10 inspects the game history information of the pachinko machine 10, he rotates the pachinko machine main body 12 supported by the hinge 15 toward him, and Since it is only necessary to check the display on the 7-segment display, it is possible to easily and quickly inspect game history information such as the ratio of accessories. Note that instead of the 7-segment display, another display capable of displaying game history information in a recognizable manner, such as a segment display composed of a number of light emitting diodes other than seven, may be employed.

<Aspect 21>
In the first embodiment and other aspects described above, the audio emission control device 90 may be configured to calculate game history information. Specifically, for example, the main side CPU 62x of the main control device 60 transmits a signal including prize ball number data stored in the prize ball number data storage area of the main side ROM 63 to the audio emission control device 90 in the initial setting process. The audio emission control device 90 calculates game history information based on the acquired prize ball number data and the game ball entry information transmitted from the main control device 60, and It is also possible to have a configuration in which the symbol display device 41 displays this.

According to such a configuration, the audio emission control device 90 cannot access the prize ball number data storage area of the main side ROM 63, or the audio emission control device 90 cannot access the prize ball number data storage area of the main side ROM 63. Even if the configuration is such that the storage location (memory address) of the stored prize ball number data cannot be grasped, the audio emission control device 90 can retrieve the prize balls stored in the prize ball number data storage area of the main side ROM 63. It becomes possible to acquire numerical data, and it becomes possible to calculate game history information. Further, since the audio emission control device 90 calculates the game history information instead of the main control device 60, the processing load on the main control device 60 can be significantly reduced.

<Aspect 22>
The first embodiment and other aspects described above can be applied not only to the pachinko machine 10 that can shift from the gaming mode to the inspection mode, but also to gaming machines that can shift from the gaming mode to other modes. . For example, it can also be applied to gaming machines equipped with a gaming status display mode that can display the status of processing related to gaming, such as the status of the high probability mode flag or the high frequency support mode flag, and the contents of stored hold information. can.

<Aspect 23>
FIG. 26 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 23 of the first embodiment. In this embodiment 23, the game history management chip 300 is not provided, and the main CPU 62x is configured to calculate the game history information described above. In addition, the main side RAM 64 is divided into two areas (a first area and a second area), and the first area of the main side RAM 64 is an area where programs, etc. for executing processes related to the progress of the game are developed. The second area of the main RAM 64 is used as an area for developing programs and the like for executing processing for calculating and displaying gaming history information (hereinafter also referred to as gaming history processing). The main CPU 62x writes information only to the first area of the main RAM 64 when executing processing related to the progress of the game (processing other than processing for game history), and when executing processing for gaming history. , information is written only to the second area of the main RAM 64.

The first area of the main RAM 64 is also used as an 8-bit ball entry detection information storage area, a stack area, etc., which will be described later. The second area of the main RAM 64 is also used as an 8-bit buffer area, a prize ball tally buffer, a computation buffer, a computation result buffer, a stack area, etc., which will be described later. Details of these will be described later.

Further, a game history information display section 45z is connected to the input/output port 62a. The game history information display section 45z is composed of four 7-segment displays, and is provided on the back of the pachinko machine 10. As will be described later, the game history information calculated by the main CPU 62x is displayed on the game history information display section 45z.

FIG. 27 is a flowchart showing the timer interrupt process executed by the main MPU 62 (main CPU 62x) according to aspect 23 of the first embodiment. Note that in this aspect as well, the timer interrupt process is activated at a cycle of 4 msec, as in the first embodiment. The difference from the timer interrupt process (FIG. 13) of the first embodiment described above is that the contents of the ball entry detection process shown in step S10606 are different, and the game history information for calculating and displaying game history information is different. The process is added as the last process (step S10616) of this timer interrupt process, and the ball entry detection information output process (step S10207 in FIG. 13) is a process that outputs ball entry detection information to the game history management chip. Processing) is omitted, and other processing is the same as the processing described in the timer interrupt processing (FIG. 13) of the first embodiment described above. Below, the ball entry detection process in step S10606 shown in FIG. 27 and the game history process shown in step S10616 will be explained.

FIG. 28 is a flowchart showing ball entry detection processing executed by the main side MPU 62 (main side CPU 62x) in aspect 23 of the first embodiment. In the ball entry detection process of this aspect 23, it is determined that the bit of the input port 62b has no information ("0") in the previous timer interrupt process (one time before), and the bit of the input port 62b in the current timer interrupt process. If it is determined that there is information in the bit (“1”), and it is later determined in the relevant timer interrupt processing that there is information in the bit (“1”), a game is placed in the ball entrance corresponding to the bit. It is determined that the ball has entered the ball. An example of ball entry detection processing will be described below.

In step S10701, the information currently stored in the 0th to 7th bits D0 to D7 (FIG. 14) of the input port 62b described above (hereinafter also referred to as ball entrance determination information) is read, and in step S10702, the information is read. Information for determining whether the ball is in or out is stored in a first buffer, which is an 8-bit buffer. That is, the first buffer is a buffer for storing ball entry determination information read from each bit of the input port 62b in the current timer interrupt process. The second buffer, which will be described later, is an 8-bit buffer that stores ball entry determination information read from each bit of the input port 62b in the previous timer interrupt process. Further, in this aspect, the first buffer and the second buffer are provided in the first area of the main side RAM 64. After executing step S10702, the process advances to step S10703.

In step S10703, a ball entering determination counter provided in the main side RAM 64 is set to 8. After that, the process advances to 10704. Note that the numerical information of the ball entrance determination counter is similar to the ball entrance determination counter (step S10401) used in the ball entrance determination process (FIG. 16) of the first embodiment described above, for each of the eight ball entrance holes. It corresponds to the bit. Specifically, in this aspect, "8" of the numerical information of the ball entry determination counter is the 0th bit D0 of the big winning opening 36a, "7" is the 1st bit D1 of the first starting opening 33, and "6" is The second bit D2 of the second starting opening 34, "5" is the third bit D3 of the first winning opening 32a, "4" is the fourth bit D4 of the second winning opening 32b, "3" is the third winning opening 32c The fifth bit D5, "2" corresponds to the sixth bit D6 of the through gate 35, and "1" corresponds to the seventh bit D7 of the discharge passage, respectively.

In step S10704, it is determined whether or not there is ball entry determination information in the bit corresponding to the numerical information of the ball entry determination counter in the second buffer, that is, whether the ball entry determination information stored in the bit is "1". Determine whether or not. If it is determined in step S10704 that the ball entry determination information is not "1" (S10704: NO), the process advances to step S10705. On the other hand, if it is determined in step S10704 that the ball entering determination information is "1" (S10704: YES), the process proceeds to step S10710 without executing the processes from step S10705 to step S10709, which will be described later. .

In step S10705, it is determined whether or not there is ball entry determination information in the bit corresponding to the numerical information of the ball entry determination counter in the first buffer, that is, the ball entry determination information stored in the bit is "1". Determine whether or not. In step S10705, if it is determined that the ball entry determination information is "1" (S10705: YES), the process advances to step S10706. On the other hand, if it is determined in step S10705 that the ball entry determination information is not "1" (S10705: NO), the process proceeds to step S10710 without executing the processes from step S10706 to step S10709, which will be described later. .

In step S10706, it is determined whether or not there is ball entry determination information in the bit corresponding to the numerical information of the ball entry determination counter at the current input port 62b, that is, the ball entry determination information stored in the bit is "1". Determine whether or not. In step S10706, if it is determined that the ball entry determination information is "1" (S10706: YES), the process advances to step S10707. On the other hand, if it is determined in step S10706 that the ball entry determination information is not "1" (S10706: NO), the process proceeds to step S10710 without executing the processes from step S10707 to step S10709, which will be described later. .

In step S10707, it is determined which type of ball entry port the numerical information of the current ball entry determination counter corresponds to, and it is determined whether the game ball has entered the ball entry port corresponding to the bit. Turn on the incoming ball flag that indicates. Specifically, for example, when it is determined that the numerical information of the current ball entry determination counter is information indicating a bit corresponding to the big winning hole 36a, it is determined that the game ball has entered the big winning hole 36a. Turn on the big winning opening ball entry flag shown. Further, for example, if it is determined that the numerical information of the current ball entry determination counter is information indicating a bit corresponding to the second starting port 34, it indicates that a game ball has entered the second starting port 34. Turn on the second starting port entry flag. After executing step S10707, the process advances to step S10708.

In step S10708, 1 is added to the numerical information of the prize ball counter corresponding to the ball entry port for which it was determined that the entry flag was turned ON in step S10707, that is, it was determined that the game ball entered. Specifically, for example, if the big winning opening ball entry flag is turned on, 15 prize balls are added to the counter, and if the second starting opening ball entry flag is turned on, 3 winning balls are added. Add 1 to the counter. After executing step S10708, the process advances to step S10709.

In step S10709, the ball entry determination counter is decremented by 1, and then, in step S10710, it is determined whether the ball entry determination counter is "0".

If it is determined in step S10710 that the ball entry determination counter is not "0" (S10710: NO), the bits corresponding to the numerical information of the ball entry determination counter updated in step S10709 are processed in steps S10704 to S10708. Execute processing. When the processes from step S10704 to step S10708 are executed for the number of numerical information set in step S10703, the ball entry determination counter becomes "0", and an affirmative determination (S10710: YES) is made in step S10710, and the step Proceed to S10711.

In step S10711, the 8-bit ball entry determination information stored in the first buffer is stored (copied) in the second buffer. As a result, the ball entry determination information acquired from the input port 62b in the current timer interrupt process will be referenced in the ball entry detection process in the next timer interrupt process. After executing step S10711, the process advances to step S10712.

In step S10712, ball entry detection information indicating that the entry of a game ball was detected in the ball entry detection process of the current timer interrupt process is stored in the ball entry detection information storage area that can store 8-bit information. . Specifically, the ball entry detection information storage area stores "1" for each bit corresponding to each of the eight ball entry ports mentioned above when the ball entry flag is ON; When the flag is OFF, "0" is stored as ball entry detection information. For example, as a result of executing the ball entry detection process in the current timer interrupt process, the big winning opening ball entry flag and the second starting opening ball entry flag are ON, and the ball entry flags corresponding to other ball entry openings are OFF. In some cases, 8-bit ball entry detection information "00000101" is stored in the ball entry detection information storage area. The 8-bit ball entry detection information stored in the ball entry detection information storage area is referred to in the game history processing described later. After executing step S10712, the main ball entry detection process ends.

FIG. 29 is a flowchart showing the game history processing executed by the main MPU 62 (main CPU 62x) in aspect 23 of the first embodiment. In this game history processing, processing is executed to calculate the accessory ratio and the continuous accessory ratio, and to display these on the game history information display section 45z. Specifically, the accessory ratio is calculated and the calculated accessory ratio is displayed on the game history information display section 45z for 5 seconds. Thereafter, the continuous accessory ratio is calculated, and the calculated consecutive accessory ratio is displayed on the game history information display section 45z for 5 seconds. Thereafter, the accessory ratio is calculated again, and the calculated accessory ratio is displayed on the game history information display section 45z for 5 seconds. In this way, the accessory ratio and the continuous accessory ratio are alternately displayed on the game history information display section 45z. An example of a specific process will be described below.

In step S10801, a saving process is executed to save the information stored in the register in the main CPU 62x (hereinafter also referred to as register information) to the stack area of the second area of the main RAM 64. In this aspect 23, in the timer interrupt process (FIG. 27), before the game history process (step S10616 in FIG. 27) is executed, the game progress related process (FIG. 27), which is a process other than the game history process, is executed. Since the processing in steps S10601 to S10615) is being executed, in the saving process, the register information regarding the progress of the game is saved in the stack area of the second area of the main side RAM 64. Specifically, the value of the stack pointer in the main CPU 62x (address value indicating the top of the stack area in the first area) is saved (pushed) to the bottom of the stack area in the second area of the main RAM 64. Then, an address value indicating the top level of the stack area of the second area of the main side RAM 64 is set in the stack pointer of the main side CPU 62x. After that, the register information stored in the registers in the main CPU 62x is sequentially saved to the stack area indicated by the stack pointer set in the main CPU 62x (the top level of the stack area in the second area of the main RAM 64). Push. By executing this saving process, the stack pointer of the main CPU 62x is set to the address value of the stack area in the second area of the main RAM 64, so the main CPU 62x saves the game history information described below. It becomes possible to perform calculation and display processing using the second area of the main side RAM 64. After executing step S10801, the process advances to step S10802.

In step S10802, it is determined whether the abnormality flag stored in the second area of the main side RAM 64 is ON. The abnormality flag is a flag that is turned ON when the prize ball total value, which will be described later, is an abnormal value. In step S10802, if it is determined that the abnormality flag is ON (S10802: YES), the process proceeds to step S10803, and the prize ball total value is cleared to zero. After that, the process advances to step S10804, and the abnormality flag is turned OFF. After that, the process advances to step S10805. On the other hand, if it is determined in step S10802 that the abnormality flag is not ON (S10802: NO), the process proceeds to step S10805 without executing the processes in steps S10803 and S10804.

In step S10805, OR processing is performed for each corresponding bit in the ball entry detection information storage area and the buffer area, and the result (logical sum) of each OR processing is stored (overwritten) in the corresponding bit in the buffer area. Details of this processing will be described later. The buffer area is an area that can store 8-bit information, the same as the ball entry detection information storage area, and is provided in the second area of the main RAM 64. After executing step S10805, the process advances to step S10806.

In step S10806, it is determined whether at least one of the eight bits in the buffer area has ball entry detection information (whether "1" is stored in one or more bits). . If it is determined in step S10806 that there is ball entry detection information in at least one bit of the buffer area (S10806: YES), the process advances to step S10807.

In step S10807, a target setting process is executed to set a bit to be a target of a prize ball aggregation process, which will be described later, among the eight bits in the buffer area. In this aspect, in one target setting process, two consecutive bits are set as targets for the prize ball aggregation process. In addition, as described later, when target setting processing is executed in the next or subsequent timer interrupt processing, two consecutive bits located next to the two bits set in the previous target setting processing is set as the target of prize ball tally processing. In this way, the two bits to be subjected to the prize ball tally processing are sequentially shifted to the adjacent bits. In addition, after the last two bits of the eight bits are set as targets for the prize ball tally process, the first two bits are set as targets for the prize ball tally process in the next target setting process. Set it as a target again. In this way, in this aspect, the order of two bits to be processed in the prize ball tally process from among the eight bits in the buffer area is predetermined. After executing step S10807, the process advances to step S10808, and a prize ball totaling process corresponding to the set bit is executed. Here, a specific example of the processing from step S10805 to step S10808 will be described using FIG. 30.

FIG. 30 is an explanatory diagram showing an example of a specific process executed by the main MPU 62 (main CPU 62x) according to aspect 23 of the first embodiment. As described above, the ball entry detection information storage area is an 8-bit storage area provided in the first area of the main side RAM 64, and each bit corresponds to each ball entry port. Specifically, in this aspect, the 0th bit D0 of the ball entry detection information storage area is the big winning opening 36a, the 1st bit D1 is the first starting opening 33, the second bit D2 is the second starting opening 34, the third bit Bit D3 corresponds to the first winning opening 32a, the fourth bit D4 corresponds to the second winning opening 32b, the fifth bit D5 corresponds to the third winning opening 32c, the sixth bit D6 corresponds to the through gate 35, and the seventh bit D7 corresponds to the discharge passage. are doing.

The buffer area is an 8-bit storage area provided in the second area of the main side RAM 64, and each bit corresponds to each ball entry opening. Specifically, in this aspect, the 0th bit D0 of the buffer area is the big winning hole 36a, the 1st bit D1 is the first starting hole 33, the second bit D2 is the second starting hole 34, and the third bit D3 is the big winning hole 36a. The 1st winning opening 32a, the 4th bit D4 corresponds to the 2nd winning opening 32b, the 5th bit D5 corresponds to the 3rd winning opening 32c, the 6th bit D6 corresponds to the through gate 35, and the 7th bit D7 corresponds to the discharge passage. That is, each bit of the buffer area corresponds to each bit of the ball entry detection information storage area.

In the above-mentioned ball entry detection process (FIG. 28), when it is determined that a game ball has entered the ball entry hole such as the big winning hole 36a, among the eight bits in the ball entry detection information storage area, the game ball The bit corresponding to the ball entry port where it is determined that the ball entered is turned ON (“1”).

FIG. 30 (A1) shows an example of processing when the n-th timer interrupt processing is executed. In this n-th timer interrupt process, it is determined in the ball entry detection process that the game ball has entered the second starting port 34 and the first winning port 32a, and the eight bits of the ball entry detection information storage area are The value is "00001100". Furthermore, the value of the eight bits in the buffer area before performing the OR process is "00000000". Therefore, the value of the 8 bits in the buffer area after performing the OR process is "00001100". As a result, the ball entry detection information in the ball entry detection information storage area, which is updated every time the timer interrupt processing is executed, is set as a processing target for the prize ball aggregation processing described later, and the buffer area is used until the processing is executed. will be held.

In the n-th timer interrupt processing, two consecutive bits, the 0th bit D0 and the 1st bit D1, of the 8 bits D0 to D7 in the buffer area after the OR processing is executed, are used for prize ball tally processing. Set as a processing target.

In the prize ball aggregation process, if the 0th bit D0 (the bit corresponding to the big prize opening 36a) set as the processing target of the prize ball aggregation process is "1", the value is stored in the prize ball aggregation buffer. 15 will be added to the total number of prize balls and the number of consecutive prize balls. On the other hand, when the 0th bit D0 is "0", the addition is not performed. In this aspect, the prize ball totaling buffer is configured as a ring buffer, and is configured to store the number of prize balls paid out in the most recent predetermined period. In addition, the number of continuous role object prize balls is the number of game balls paid out as prize balls by continuous role object operation, and is the number of game balls paid out as prize balls based on the entry of game balls into the big winning hole 36a. It means the number of game balls.

Furthermore, in the prize ball aggregation process, if the first bit D1 (the bit corresponding to the first starting port 33) set as the processing target of the prize ball aggregation process is "1", the prize ball aggregation buffer is Add "3" to the total number of prize balls stored. On the other hand, if the first bit D1 is "0", the addition is not performed.

In the example shown in FIG. 30 (A1), the 0th bit D0 is "0" and the 1st bit D1 is also "0", so the above-mentioned addition is not performed.

After the prize ball totaling process is executed, the two bits (0th bit D0 and first bit D1) set as targets for the prize ball totaling process in the buffer area are cleared to 0.

FIG. 30 (A2) shows an example of processing when the (n+1)th timer interrupt processing is executed. In this n+1 timer interrupt process, it is determined in the ball entry detection process that the game ball has entered the second winning hole 32b, and the value of the eight bits in the ball entry detection information storage area is "00010000. ”. Furthermore, the value of the 8 bits in the buffer area before executing the OR process is "00001100", which is the same as the buffer area after the prize ball totaling process in the n-th timer interrupt process described above. Therefore, the value of the 8 bits in the buffer area after performing the OR process is "00011100".

In the (n+1)th timer interrupt processing, two consecutive bits, the second bit D2 and the third bit D3, of the eight bits D0 to D7 in the buffer area after the OR processing is executed, are used for prize ball tally processing. Set as a processing target.

In the prize ball aggregation process, if the second bit D2 (the bit corresponding to the second starting port 34) set as a processing target for the prize ball aggregation process is "1", the ball is stored in the prize ball aggregation buffer. ``3'' will be added to the total number of prize balls and the number of accessory prize balls. On the other hand, when the second bit D2 is "0", the addition is not performed. In addition, the number of game balls paid out as prize balls due to the operation of the accessory is the number of game balls paid out as prize balls based on the entry of the game balls into the second starting hole 34 and the big winning hole 36a. It means the number of game balls paid out.

Furthermore, in the prize ball aggregation process, if the third bit D3 (the bit corresponding to the first prize opening 32a) set as the processing target of the prize ball aggregation process is "1", the prize ball aggregation buffer is Add "10" to the stored total number of prize balls. On the other hand, if the third bit D3 is "0", the addition is not performed.

In the example shown in FIG. 30 (A2), since the second bit D2 is "1", "3" is added to the total number of prize balls and the number of accessory prize balls. Further, since the third bit D3 is "1", "10" is added to the total number of prize balls.

After the prize ball totaling process is executed, the two bits (second bit D2 and third bit D3) set as targets for the prize ball totaling process in the buffer area are cleared to 0.

FIG. 30 (A3) shows an example of a process when the n+2 timer interrupt process is executed. In this n+2 timer interrupt process, it is determined in the ball entry detection process that the game ball has entered (passed) the through gate 35, and the value of the eight bits in the ball entry detection information storage area is " 01000000". Furthermore, the value of the eight bits in the buffer area before executing the OR process is "00010000", which is the same as the buffer area after the prize ball totaling process in the n+1 timer interrupt process described above. Therefore, the value of the 8 bits in the buffer area after performing the OR process is "01010000".

In the n+2 timer interrupt process, two consecutive bits, the 4th bit D4 and the 5th bit D5, of the 8 bits D0 to D7 in the buffer area after the OR process is executed, are used for prize ball tally processing. Set as a processing target.

In the prize ball aggregation process, if the fourth bit D4 (the bit corresponding to the second winning hole 32b) set as a processing target for the prize ball aggregation process is "1", the ball is stored in the prize ball aggregation buffer. Add "10" to the total number of prize balls. On the other hand, when the fourth bit D4 is "0", the addition is not performed.

Furthermore, in the prize ball aggregation process, if the fifth bit D5 (the bit corresponding to the third winning hole 32c) set as the processing target of the prize ball aggregation process is "1", the prize ball aggregation buffer is Add "10" to the stored total number of prize balls. On the other hand, if the fifth bit D5 is "0", the addition is not performed.

In the example shown in FIG. 30 (A3), since the fourth bit D4 is "1", "10" is added to the total number of prize balls. Furthermore, since the fifth bit D5 is "0", the above-mentioned addition is not performed.

After the prize ball totaling process is executed, the two bits (fourth bit D4 and fifth bit D5) set as targets for the prize ball totaling process in the buffer area are cleared to 0.

FIG. 30 (A4) shows an example of processing when the (n+3) timer interrupt processing is executed. In this n+3 timer interrupt process, it is determined in the ball entry detection process that the game ball has entered the grand prize opening 36a, and the value of the eight bits in the ball entry detection information storage area is "00100001". It becomes. Furthermore, the value of the 8 bits in the buffer area before executing the OR process is "01000000", which is the same as the buffer area after the prize ball totaling process in the n+2 timer interrupt process described above. Therefore, the value of the 8 bits in the buffer area after performing the OR process becomes "01100001".

In the (n+3) timer interrupt processing, two consecutive bits, the 6th bit D6 and the 7th bit D7, of the 8 bits D0 to D7 in the buffer area after the OR processing is executed, are used for prize ball tally processing. Set as a processing target.

However, in this embodiment, the sixth bit D6 corresponds to the through gate 35, and the seventh bit D7 corresponds to the discharge passage. No prize balls are set in the through gate 35 or the discharge passage. Therefore, in this aspect, when the sixth bit D6 and the seventh bit D7 are set as targets for the prize ball totaling process, additions to the total number of prize balls etc. are not performed in the prize ball totaling process. Thereafter, the two bits (sixth bit D6 and seventh bit D7) set as objects of prize ball tally processing in the buffer area are cleared to 0.

Thereafter, in the n+4th timer interrupt process, the 0th bit D0 and the 1st bit D1 are again set as objects of the prize ball tally process. Thereafter, the same process is repeated. However, as will be described later, if there is no ball entry detection information for the bits in the buffer area (all bits are "0"), the target setting process (step S10807) and prize ball aggregation process (step S10808) ) is not executed. Further, in this aspect, from a state where there is no ball entry detection information in the bits of the buffer area (all bits are "0"), there is again ball entry detection information in at least one bit in the buffer area. state, and when the target setting process is executed, the two bits that were set as targets for the prize ball aggregation process in the previous target setting process are memorized, and the bits located next to the two bits are Two consecutive bits are set as processing targets for prize ball tally processing. In addition, if the two bits set as processing targets for the prize ball tally process in the previous target setting process are the 6th bit D6 and the 7th bit D7, the 2 bits of the 0th bit D0 and the 1st bit D1 The consecutive bits are set as the processing target for the prize ball aggregation process.

As explained above, in this aspect, two bits out of eight bits in the buffer area are set as targets for prize ball tally processing in one timer interrupt process, so at least one bit in the buffer area If there is ball entry detection information, the timer interrupt process is executed four times, so that the prize ball tally process is executed for all eight bits of the buffer area.

Returning to the explanation of FIG. 29. After executing the prize ball aggregation process in step S10808, the process advances to step S10809.

In step S10809, calculation result display control processing is executed. Specifically, control is executed to display a value (accessory object ratio or continuous accessory ratio, which is calculated gaming history information) stored in a calculation result buffer to be described later on the gaming history information display section 45z. After executing step S10809, the process advances to step S10810.

In step S10810, it is determined whether or not it is time to execute arithmetic processing to calculate game history information. Specifically, when a predetermined time (30 minutes in this embodiment) has elapsed since the pachinko machine 10 was powered on, or when 5 seconds have elapsed since the previous execution of the arithmetic process, the timing for executing the arithmetic process is determined. It is determined that there is. In step S10810, if it is determined that it is the timing to perform arithmetic processing (S10810: YES), the process advances to step S10811. On the other hand, if it is determined in step S10810 that it is not the timing to execute the arithmetic processing (S10810: NO), the process proceeds to step S10813 without executing the processes of step S10811 and step S10812, which will be described later.

In step S10811, the type of game history information to be calculated in arithmetic processing (task 1 and task 2 to be described later) is set. In this aspect, the accessory ratio and the continuous accessory ratio are alternately set as the types of game history information to be calculated. Thereafter, the process advances to step S10812, and task 1 is designated as the next task to be executed in task processing (step S10814), which will be described later. After executing step S10812, the process advances to step S10813.

In step S10813, the register information saved in the stack area of the second area of the main side RAM 64 in the above-mentioned saving process is returned to the register of the main side CPU 62x. Specifically, the saved register information is sequentially transferred to the main CPU 62x from the stack area indicated by the stack pointer set in the main CPU 62x (the top of the stack area in the second area of the main RAM 64). (Pop) the data into the register inside. Thereafter, the value of the stack pointer (address value indicating the top level of the stack area of the first area) that was saved at the bottom of the stack area of the second area is returned (popped) to the stack pointer of the main CPU 62x. By executing this return process, the address value of the stack area of the first area of the main side RAM 64 is set in the stack pointer of the main side CPU 62x, so the main side CPU 62x again returns to the first area of the main side RAM 64. It becomes possible to use the area to execute processing related to the progress of the game. After that, the game history processing ends.

Returning to the explanation of step S10806. If it is determined in step S10806 that there is no ball entry detection information in the bits in the buffer area (all bits are "0") (S10806: NO), the process advances to step S10814.

In step S10814, any one of the three tasks specified below is executed. If no task is specified, task 3 is executed. That is, instead of sequentially executing three tasks in one timer interrupt process, only one specified task among the three tasks is executed in one timer interrupt process.

[Task 1]
The dividend and divisor necessary for calculating the game history information set as the calculation target are stored in the calculation buffer. Specifically, for example, if it is set to calculate the accessory ratio, the number of accessory prize balls is stored as the dividend, and the total number of prize balls is stored as the divisor in the calculation buffer. Further, for example, if the continuous accessory ratio is set to be calculated, the number of consecutive prize balls as the dividend and the total number of prize balls as the divisor are stored in the calculation buffer. Thereafter, task 2 is designated as the next task to be executed when the process advances to step S10806 in the next and subsequent timer interrupt processing.

[Task 2]
A calculation is performed to divide the dividend stored in the calculation buffer by the divisor, and the calculation result (quotient) is stored in the calculation result buffer. Thereafter, task 3 is designated as the next task to be executed when the process advances to step S10806 in the next and subsequent timer interrupt processing.

[Task 3]
Determine whether or not the award ball total value (number of award balls, consecutive number of award balls, total number of award balls) is valid, and if it is determined that it is not valid, turn on the abnormality flag, and then , task 3 is designated as the next task to be executed when the process advances to step S10806 in the next time and subsequent timer interrupt processing. On the other hand, if it is determined that the prize ball total value is valid, the abnormality flag is not turned on and task 3 is designated as the next task. Here, the case where the prize ball aggregate value is not valid means that the number of prize balls exceeds the total number of prize balls, or the number of consecutive prize balls exceeds the total number of prize balls, or if the number of consecutive prize balls exceeds the total number of prize balls. This is a case where there is a discrepancy in the total value of prize balls, such as when the number of prize balls exceeds the number of prize balls.

After executing the specified task among the three tasks described above, the process advances to step S10809 described above, and the value (accessory object ratio or continuous accessory object ratio) stored in the calculation result buffer is displayed on the game history information display section. 45z. In this aspect, information indicating the type of gaming history information is displayed on the first 7-segment display constituting the gaming history information display section 45z, and values of the gaming history information are displayed on the remaining three 7-segment displays. do.

In the pachinko machine 10 of the present embodiment described above, the processing related to the progress of the game (processing other than the game history processing) included in the timer interrupt processing is performed for the time (4 msec in this embodiment) until the next timer interrupt processing is started. ), but the time required to complete the process related to the progress of the game changes depending on the progress of the game. On the other hand, the game history processing is a process that has nothing to do with the progress of the game, so in one timer interrupt process, processing related to the progress of the game is executed rather than the time required to execute the game history processing. It is preferable to prioritize and secure time for this purpose. Furthermore, even if the various processes included in the game history process (for example, prize ball aggregation process and arithmetic process for each bit) are not continuously executed and completed in one timer interrupt process, the game It has no effect on progress. Therefore, in this aspect, even if the execution time of the process related to the progress of the game is the maximum depending on the situation of the progress of the game, the execution time of one timer interrupt process (execution of the process related to the progress of the game) The various processes included in the game history process are divided into multiple processes so that the time (execution time of the game history process) is shorter than the time until the next timer interrupt process starts. In the timer interrupt processing, the divided processing is executed, and various processing is completed by executing the timer interrupt processing multiple times. As a result, according to this aspect, it is possible to execute the game history process while securing the time required to execute the process related to the progress of the game in one timer interrupt process.

Specifically, according to this aspect, in one execution of the timer interrupt process, one of the two tasks (task 1 and task 2) constituting the arithmetic process, which is the process of calculating game history information. By executing the timer interrupt process twice, all of the two tasks that make up the calculation process can be executed, so both of the two tasks can be executed in one execution of the timer interrupt process. The time required for one time execution of timer interrupt processing can be reduced compared to a configuration in which the timer interrupt process is executed once. As a result, the time required for one execution of timer interrupt processing becomes longer than 4 msec, which is the interval at which execution of timer interrupt processing starts (hereinafter also referred to as interrupt interval). It is possible to prevent the inability to execute the program at regular intervals.

Further, according to this aspect, a series of processes whose execution order is determined is divided into a plurality of tasks, and in one execution of timer interrupt processing, after executing one of the plurality of tasks, , specifies the task to be executed next after the one task in question, so if it is incorporated into a timer interrupt process, the time required to execute the timer interrupt process will be longer than the interrupt interval of the timer interrupt process. Even if it is a process, it can be executed by incorporating it into the timer interrupt process. Specifically, according to this aspect, when the arithmetic processing for calculating game history information is incorporated into the timer interrupt processing, the time required for one execution of the timer interrupt processing becomes longer than 4 msec. Also in the gaming machine configured as above, the arithmetic processing can be incorporated and executed in the timer interrupt processing executed at intervals of 4 msec. In addition, the arithmetic processing for calculating game history information does not affect the progress of the game even if all tasks are not executed in one execution of timer interrupt processing. The required time can be allocated to the execution time of other processes included in the timer interrupt process, and the degree of freedom in designing the gaming machine can be improved.

Further, according to this aspect, in one execution of the timer interrupt process, two bits from among the eight bits D0 to D7 of the buffer area are set as processing targets for the prize ball aggregation process, and the setting It is possible to perform prize ball tally processing for the bits to be processed, and by executing timer interrupt processing multiple times, prize ball tally processing can be executed for all eight bits D0 to D7 in the buffer area. do. Therefore, the time required for one execution of timer interrupt processing can be reduced compared to a configuration in which prize ball aggregation processing is executed for all eight bits D0 to D7 in one execution of timer interrupt processing. I can do it. As a result, the time required to execute timer interrupt processing becomes longer than the 4 msec interval at which timer interrupt processing starts, making it impossible to execute timer interrupt processing at 4 msec intervals. can be suppressed.

Further, according to this aspect, when setting two bits out of the eight bits D0 to D7 in the buffer area as targets for the prize ball aggregation process, they are set in a predetermined order. There is no need to perform a process of determining which bit is to be processed in the sphere aggregation process, which simplifies the process and, as a result, improves the processing speed. Furthermore, it is possible to reduce the storage capacity for storing information such as programs and parameters necessary to execute the determination process.

Further, according to this aspect, the main CPU 62x operates in a time shorter than the shortest interval (approximately 18 msec in this aspect) at which two game balls consecutively enter one ball entrance and are detected. Since the timer interrupt process can be executed four times, the prize ball aggregation process (as shown in FIG. Step S10808) can be executed. Therefore, even if two game balls consecutively enter the same ball entrance, based on the fact that the first game ball entering the ball is detected at the ball entrance, The updated ball entry detection information is set as the processing target and the prize ball aggregation process is executed, and then the ball entry detection information corresponding to the remaining ball entrances is set as the processing target and the prize ball aggregation process is executed. Even if this is executed, it is possible to finish the prize ball aggregation process for all of the ball entry detection information before the next second game ball is detected at the ball entrance. can. That is, at the time when the ball entry detection information updated based on the fact that the entry of the second game ball is detected at the ball entrance is set as the processing target and the prize ball aggregation process is executed, The prize ball aggregation process for the ball entry detection information updated based on the detection of the entry of the first game ball at the ball entrance has already been completed. The effects of this configuration will be explained below.

As in this embodiment, in a configuration in which binary information of "0" or "1" indicating whether or not a game ball has entered is adopted as ball entry detection information, if the second ball enters a certain ball entry hole, Ball entry detection updated from "0" to "1" based on the entry of the first game ball into the ball entry port until the entry of the game ball is detected at the ball entry port. If prize ball aggregation processing is not performed on the information, the ball entry detection information corresponding to the ball entry port is still "at the time when the entry of the second game ball is detected at the ball entry port. 1" remains, and it is not possible to record the entry of the second game ball. In other words, even though two game balls have entered the ball entrance in succession, the ball entry detection information corresponding to the ball entrance indicates that only one game ball has entered the ball entrance. This cannot be distinguished from a situation in which only a ball has entered the ball, and in the prize ball aggregation process, it is treated as a situation in which one game ball has entered the ball entry hole. As a result, it may not be possible to accurately record the number of prize balls in the prize ball tally process.

In contrast, according to this aspect, at the time when the entry of the second game ball is detected at the ball entry port, the update has already been made by the entry of the first game ball into the ball entry port. Prize ball aggregation processing is executed for the entered ball entry detection information, and since the ball entry detection information is "0", it is possible to record the entry of the second game ball. . As a result, it becomes possible to accurately record the number of prize balls in the prize ball tally process. This makes it possible to use binary information of "0" or "1", which indicates whether or not a game ball has entered, as ball entry detection information, while ensuring accuracy in the prize ball aggregation process. The storage capacity for storing ball entry detection information can be reduced, and the processing speed of prize ball tally processing can be improved.

Further, according to this aspect, the game history processing (FIG. 29) is information held by a register in the main CPU 62x, and information for executing processing related to the progress of the game, in the second area of the main RAM 64. (step S10801 in FIG. 29), so when the main CPU 62x starts the game history process, the register in the main CPU 62x stores the game that was being executed immediately before the start of the game history process. If it holds information for executing processing related to the progress of the process, it can be temporarily moved (saved) by writing the information to the stack area of the second area of the main RAM 64. Therefore, the information for executing the process related to the progress of the game held in the register in the main side CPU 62x is deleted, and when the main side CPU 62x executes the process for the game history, the information for the game history is stored in the register in the main side CPU 62x. Information for processing execution can be held.

Further, according to this aspect, the game history processing (FIG. 29) includes the return processing (FIG. 29) that causes the register of the main CPU 62x to hold the information written in the stack area of the second area of the main RAM 64 in the save processing. (step S10813), when the game history process ends, the information for executing the process related to the progress of the game is held again in the register of the main CPU 62x, and is executed before the game history process starts. The processing related to the progress of the game that was previously performed can be executed again from the state immediately before the start of the processing for the game history.

Further, according to this aspect, since the saving process and the return process are included in the game history process, even if only the program for executing the game history process is deleted, the process related to the progress of the game other than the game history process It is possible to provide a gaming machine that can be executed without any problem. That is, it becomes possible to easily delete only the program for executing the game history process without modifying the program for executing the process related to the progress of the game other than the game history process. As a result, for example, when improving a gaming machine so that it does not execute processing for game history, or when developing a new gaming machine based on the gaming machine that does not execute processing for gaming history, design changes can be minimized. It becomes possible to limit the

Further, according to this aspect, the main CPU 62x writes information in the game history processing only to the second area of the main RAM 64, so that the information written in the first area of the main RAM 64 is It is possible to prevent the information from being rewritten due to execution of the game history processing. Therefore, in a configuration in which processing related to the progress of a game is executed using the first area of the main side RAM 64, it is possible to prevent the processing for the game history from influencing the processing related to the progress of the game. .

Further, according to this aspect, the main CPU 62x executes writing of information in the processing related to the progress of the game only to the first area of the main RAM 64, so that the information written to the second area of the main RAM 64 is It is possible to prevent the information contained in the game from being rewritten due to the execution of processing related to the progress of the game. Therefore, in a configuration in which the game history process is executed using the second area of the main RAM 64, it is possible to prevent the process related to the progress of the game from influencing the game history process.

Further, according to this aspect, since an 8-bit buffer area capable of storing ball entry detection information is provided, the ball entry detection information in the ball entry detection information storage area, which is updated every time the timer interrupt process is executed, can be stored in the ball entry detection information storage area. It can be set as a processing target for prize ball aggregation processing and held until the processing is executed.

Further, according to this aspect, as shown in FIG. 29, when executing the prize ball aggregation process (step S10808) in one timer interrupt process, the calculation process (task 1 and task 2 of step S10814) is executed. do not. That is, since both the prize ball tally processing and the arithmetic processing are not executed in one timer interrupt processing, the time required for one execution of the timer interrupt processing can be shortened. As a result, the time required to execute one timer interrupt process becomes longer than the interrupt interval of the timer interrupt process, and the timer interrupt process cannot be executed at the corresponding interrupt interval. be able to. Furthermore, according to this aspect, the prize ball aggregation process in which the game ball entry status and processing load are correlated is executed with priority over calculation processing in which the game ball entry status and processing load are not correlated. , the interval between executions of the prize ball aggregation process is suppressed from increasing, and as a result, the prize ball total value, which is the processing result of the prize ball aggregation process, is no longer able to accurately reflect the ball entering situation of the game ball. It is possible to prevent this from happening. Specifically, for example, before the prize ball aggregation process is executed for a certain bit in the buffer area, the next game ball enters the entrance corresponding to the bit, and two balls are lost. It is possible to prevent the input of a game ball from being treated as the input of a single game ball.

Further, according to this aspect, as shown in FIG. 29, when the prize ball aggregation process (step S10808) is not executed and it is determined that it is the timing to execute the calculation process (step S10810: YES), Since the arithmetic processing (task 1 and task 2 in step S10814) is executed, neither the prize ball aggregation process nor the arithmetic process is executed in one timer interrupt process, and in the situation, instead of the prize ball aggregation process and the arithmetic process. In addition, it becomes possible to execute other processing (in this embodiment, processing for determining the validity of the prize ball total value (task 3 in step S10814)) that is independent of these processings. Furthermore, in this aspect, when either the prize ball aggregation process or the arithmetic process is executed in one timer interrupt process, the time required for one execution of the timer interrupt process is configured to be shorter than the interrupt interval. Therefore, in a situation where neither prize ball aggregation processing nor arithmetic processing is executed, the time required for one execution of the timer interrupt processing can be reduced by executing a process that takes less time than the prize ball aggregation processing and arithmetic processing. can be reliably prevented from becoming longer than the interrupt interval.

Further, according to this aspect, although it is possible to calculate two types of game history information, the accessory ratio and the continuous accessory ratio, in the calculation process in one timer interrupt process, the accessory ratio Or, since the processing for calculating either one of the continuous accessory ratios is executed, compared to the configuration in which the processing for calculating two types of game history information is executed in the calculation processing in one timer interrupt processing. , the time required for one execution of timer interrupt processing can be shortened. As a result, it is possible to prevent the time required for one execution of timer interrupt processing from becoming longer than the interrupt interval, making it impossible to execute timer interrupt processing at a predetermined interrupt interval. . Further, the storage capacity of the main side RAM 64 for temporarily storing the calculated game history information can be reduced.

Further, according to this aspect, in the ball entry detection process, when the ball entry determination information of the bit corresponding to each ball entry port changes from "0" to "1" to "1", the corresponding bit is Since it is determined that the game ball has entered the ball entrance, it is possible to suppress the occurrence of false detection due to electrical noise, similarly to the first embodiment described above.

<Aspect 24>
In the above aspect 23, the game history information is configured to calculate the accessory ratio and the continuous accessory ratio, but the game history information to be calculated is not limited to these, and various game history information shown in the first embodiment can be used. It is possible to have a configuration in which the calculation is performed. For example, a configuration may be adopted in which the ball launch rate, payout ratio, etc. shown in the first embodiment are calculated. In this case, the number of game balls that have passed through the discharge passage (the number of game balls fired onto the game board 30) is also counted in the same way as the prize ball tallying process (step S10808 in FIG. 29) described above. do it.

<Aspect 25>
In the game history processing of aspect 23 (FIG. 29), if it is determined in step S10802 that the abnormality flag is ON, the prize ball total value is cleared (step S10803), and the abnormality flag is turned OFF (step S10804), but if the abnormality flag is turned ON a predetermined number of times within a predetermined period, information indicating that an abnormality has occurred may be displayed on the game history information display section 45z.

<Aspect 26>
In the above aspect 23, the arithmetic processing, which is the process of calculating game history information, is divided into multiple tasks and executed, but the type of processing that is divided into multiple tasks is not limited to this arithmetic processing, but can be It is possible to have a configuration in which processing is divided into multiple tasks and executed. For example, in a configuration in which the sound and light side MPU 92 of the audio and light emission control device 90 sets the content of the effect to be executed, a configuration may be adopted in which the processing for setting the content of the effect is divided into a plurality of tasks and executed.

<Aspect 27>
In the above-mentioned aspect 23, two bits each out of eight bits in the buffer area are set as processing targets for the prize ball tally processing, but the number of bits to be processed is two. The number is not limited to , and may be any other number. For example, a configuration may be adopted in which five bits are set as processing targets in one timer interrupt process. Furthermore, a configuration may be adopted in which all eight bits are set as processing targets in one timer interrupt process. In addition, only predetermined bits among the eight bits (for example, six bits from the 0th bit D0 to the 5th bit D5 where the prize ball is set) can be set as the processing target, and it can be set for one time. In the timer interrupt processing, two bits may be set as processing targets.

<Aspect 28>
In the above aspect 23, the first area of the main side RAM 64 is allocated as a storage area for executing processing related to game progress, and the second area of the main side RAM 64 is allocated as a storage area for executing processing for game history. However, the second area of the main side RAM 64 may be allocated as a storage area for executing other processes than the game history process.

Alternatively, the main RAM 64 may be divided into three or more areas. For example, a third area, which is the third area of the main RAM 64, may be allocated as a storage area for executing processing for outputting gaming history information to the outside.

<Aspect 29>
In the above aspect 23, the game history process includes the save process and the return process, but the process other than the game history process may include the save process and the return process. For example, a configuration may be adopted in which the processes scheduled to be deleted when the design of the gaming machine is changed include a save process and a return process.

<Aspect 30>
In the above aspect 23, the game history process is incorporated into the timer interrupt process (FIG. 27), but the game history process may be incorporated into the main process (FIG. 12). In addition, in the above aspect 23, the timer interrupt process (FIG. 27) is configured to incorporate the game history process as a process different from the process related to the progress of the game. , a configuration may be adopted in which processing other than the game history processing is incorporated into the timer interrupt processing. For example, a configuration in which a transmission process for transmitting information regarding the game status at a predetermined timing to a hall computer installed in a game hall is incorporated into the timer interrupt process as a process different from the process related to the progress of the game. You can also use it as Furthermore, a configuration may be adopted in which various processes different from those related to the progress of the game are incorporated into the main process.

<Aspect 31>
In the above aspect 23, the configuration is such that the main CPU 62x executes the game history processing (FIG. 29) to calculate the game history information without the game history management chip 300, but the game history management chip 300 is not provided. 300, and the main CPU 62x may execute a game history process (FIG. 29) to calculate game history information. According to such a configuration, the game history information can be calculated using two systems, so even if a problem occurs in one system, the game history information can be calculated. In addition, if the gaming history information calculated from the two systems is compared and it is configured to notify (display) whether or not these values match, the reliability and accuracy of the calculated gaming history information can be confirmed. It becomes possible to do so.

Alternatively, the gaming history management chip 300 may be configured to calculate gaming history information by executing the gaming history processing (FIG. 29) described in the above aspect 23.

<Aspect 32>
In step S10805 of the game history processing (FIG. 29) of aspect 23, the information stored in each bit of the ball entry detection information storage area (FIG. 30) provided in the first area of the main side RAM 64 is ORed. Although the configuration is such that it is read out during processing, instead of this configuration, the 8-bit storage area (hereinafter also referred to as the second ball entry detection information storage area) corresponding to the ball entry detection information storage area is stored in the second memory area of the main side RAM 64. The information stored in each bit of the ball entry detection information storage area provided in the first area of the main side RAM 64 is stored in the second area of the main side RAM 64. It may also be configured to duplicate (copy) into the second ball entry detection information storage area and read out the information of each duplicated bit in the OR process in step S10805.

Alternatively, the ball entry detection information storage area may be provided in the second area of the main RAM 64.

<Aspect 33>
In step S10814 of the game history processing (FIG. 29) of aspect 23 above, if the calculation process (task 1 or task 2) for calculating game history information is not executed, the prize ball aggregate value included in task 3 is valid. Although the process for determining the validity is always executed, the process for determining the validity of the prize ball total value may be executed only once each time the game history information is newly calculated. Specifically, for example, after determining the validity of the prize ball total value in task 3, a determined flag indicating that the determination has been completed is turned on, and when task 3 is executed next, the determined flag is set to ON. is ON, the configuration is such that the process of determining the validity of the prize ball total value is not executed. Then, in task 1 that is executed again, the determined flag may be turned OFF. According to such a configuration, one game history process is completed while ensuring the validity of the game history information by determining the validity of the prize ball aggregate value that is the basis for calculating the game history information. It becomes possible to further shorten the processing time required.

<Aspect 34>
In step S10810 of the game history processing (FIG. 29) of Aspect 23, if a predetermined time (for example, 30 minutes) has passed since the pachinko machine 10 was powered on, or if 5 seconds have passed since the previous execution of the calculation process. In this case, it is determined that it is the timing to execute the arithmetic processing, and the game history information is calculated. It may be determined that it is the timing to execute the arithmetic processing, and thereafter, it may be determined that it is the timing to execute the arithmetic processing every five seconds after the previous execution of the arithmetic processing. In this configuration, until the total number of prize balls in the prize ball tally value reaches 60,000, the calculated game history information is displayed blinking on the game history information display section 45z, and the total number of prize balls reaches 60,000. After reaching this point, the calculated game history information may be displayed in a lighted state when the game history information display section 45z is displayed. According to such a configuration, it is possible to easily determine whether or not a sufficient amount of statistical data has been accumulated as a prize ball total value that is the basis for calculating the displayed game history information. In addition, instead of the total number of prize balls, the display may be switched from a blinking display to a lighting display based on the total number of game balls that have passed through the discharge passage (the number of game balls fired onto the game board 30). .

<Aspect 35>
In step S10807 of the game history processing (FIG. 29) of the above aspect 23, the plurality of processing target candidates for the prize ball aggregation processing are fixed in advance as eight bits in the buffer area. Divide the 8 bits into 2 groups of 4 bits each, select one of the 2 groups as a candidate for multiple processing targets in the award ball tally process, and select the 4 bits belonging to the selected group. A configuration may be adopted in which two bits from among these are set as processing targets for the prize ball aggregation process. However, as in Aspect 23 above, it would be better to select one of the two groups in a configuration in which multiple processing target candidates for the prize ball aggregation process are fixed in advance as eight bits in the buffer area. There is no need to perform additional processing, which simplifies the processing and, as a result, increases processing speed. Furthermore, the storage capacity for storing information such as programs and parameters necessary for selecting one of the two groups can be reduced.

<Aspect 36>
In the gaming history processing of aspect 23 (FIG. 29), the task (various processing) to be executed in the gaming history processing in the current timer interrupt processing is determined based on the remaining time until the next timer interrupt processing starts. The configuration may be such that the number and type are determined. According to such a configuration, it is possible to execute a task by effectively utilizing the remaining time until the next timer interrupt process is started.

<Aspect 37>
FIG. 31 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 37 of the first embodiment. In this aspect 37, the game history management chip 300 is not provided, and the main CPU 62x is configured to execute the process for calculating and displaying the game history information (game history process) described above. Further, the main side RAM 64 is divided into two areas (a first area and a second area) similarly to the above-mentioned aspect 23 (FIG. 26), and the first area of the main side RAM 64 is related to the progress of the game. The second area of the main RAM 64 is used to store programs for executing processes and various flags (high probability mode flag, high frequency support mode flag, etc.), etc., and the second area is used to calculate and display gaming history information. It is used as an area for storing programs for executing the processing (gaming history processing) and various numerical information (game history information such as the above-mentioned prize ball total value, information on the number of balls entered, and ratio of accessories), etc. . Then, the main CPU 62x writes information to the first area of the main RAM 64 when executing the processing related to the progress of the game (processing other than the processing for the game history), as in the above-mentioned aspect 23 (FIG. 26). When executing the game history processing, information is written only to the second area of the main RAM 64.

Furthermore, as shown in FIG. 31, the main MPU 62 of the pachinko machine 10 of this embodiment includes a flash memory, which is a non-volatile memory that is rewritable and can retain memory even if the power supply is cut off. A memory 64x is provided. In this embodiment, a NAND type flash memory is used as the flash memory 64x, but a NOR type flash memory may also be used. In the game history process, the main CPU 62x in this embodiment executes a process of writing various numerical information stored in the second area of the main RAM 64 to the flash memory 64x at a predetermined timing. Specifically, for example, the main CPU 62x executes a process of writing various prize ball total values and the like into the flash memory 64x every time the total number of prize balls in the prize ball total value reaches 500. That is, the flash memory 64x stores various numerical information (game history information such as the prize ball total value, information on the number of balls entered, and the ratio of accessories) acquired based on the execution of the game.

As described above, according to the configuration of this aspect, various numerical information (game history information such as the prize ball total value, information on the number of balls entered, and ratio of accessories) acquired based on the execution of the game is stored in the flash memory 64x. Since the information is stored, even if the power supply to the pachinko machine 10 is cut off for a long period of time, these various numerical information can be retained. For example, even if power is not supplied to the pachinko machine 10 for a long period of time during the distribution process, normal games are being executed in the pachinko machine 10 based on various numerical information stored in the flash memory 64x. It becomes possible to check whether or not the

<Aspect 38>
In the above aspect 37, a pressable flash memory clear button is provided on the back of the pachinko machine 10, and when the flash memory clear button is continuously pressed for a predetermined period of time (for example, 10 seconds), the data is stored in the flash memory 64x. It may also be configured such that the information (game history information such as the prize ball total value, information on the number of balls entered, game history information such as the ratio of accessories, etc.) is deleted.

Specifically, for example, an IC chip for erasing processing that can execute erasing processing to erase information stored in the flash memory 64x is provided, and while the flash memory clear button is pressed, an IC chip for erasing processing that can erase information stored in the flash memory 64x is provided. The configuration is such that a Hi level signal is input to the input terminal of the IC chip. The erasing IC chip is configured to perform erasing processing to erase information stored in the flash memory 64x based on the Hi level signal input to the input terminal continuing for 10 seconds. . According to such a configuration, compared to a configuration in which information stored in the flash memory 64x is erased by the processing of the main CPU 62x, the influence on the processing related to game execution of the main CPU 62x and the operation of the main RAM 64 is reduced. The information stored in the flash memory 64x can be erased while suppressing this.

Furthermore, the flash memory clear button may be stored inside a space where traces of release remain. Specifically, for example, the flash memory clear button is stored inside a board box with a seal that leaves traces of tampering, and cannot be pressed unless the seal is removed and the board box is opened. It is also possible to have a configuration in which this is not possible.

According to the configuration of this aspect, in order to erase information stored in the flash memory 64x of the pachinko machine 10, it is necessary to open the circuit board box of the pachinko machine 10 and operate the flash memory clear button. Traces of opening will remain on the circuit board box of the pachinko machine 10. That is, based on whether or not there are any traces of opening remaining in the board box of the pachinko machine 10, there is a possibility that the board box of the pachinko machine 10 has been opened and the information stored in the flash memory 64x has been erased. It becomes possible to grasp whether or not.

Here, if the pachinko machine 10 has been illegally modified (for example, a nail has been illegally modified), the effect of the illegal modification will appear on the game played, and furthermore, the pachinko machine 10 will be affected by the illegal modification. The information stored in the flash memory 64x (for example, the ratio of accessories, etc.) may be affected by the unauthorized modification. A person who inspects whether or not the pachinko machine 10 is playing normally (hereinafter also referred to as an "inspector") checks the information stored in the flash memory 64x. Unauthorized modifications made can be discovered. Therefore, a person (hereinafter also referred to as an "unauthorized person") who wishes to prevent an inspector from discovering that the pachinko machine 10 has been fraudulently modified by erasing the information There is a possibility that it exists.

However, according to the configuration of this aspect, in order to erase the information stored in the flash memory 64x, it is necessary to open the board box of the pachinko machine 10 and operate the flash memory clear button. In this case, traces of the opening will remain on the circuit board box of the pachinko machine 10, so even if an unauthorized person erases the information stored in the flash memory 64x, the information may not be erased to conceal the fraud. There will be traces of this possibility left behind. Therefore, it is possible to make it difficult to conceal unauthorized modifications made to the pachinko machine 10, and in turn, it is possible to suppress the occurrence of motives for making unauthorized modifications to the pachinko machine 10, thereby improving the soundness of the game. can be improved.

Note that pachinko machines 10 may be distributed from time to time through transactions, and a person who wants to newly distribute a pachinko machine 10 that has already been used for games (a so-called used pachinko machine) must use the flash memory of the pachinko machine 10. In some cases, a user may have a legitimate desire to erase the information stored on the 64x before distributing it. Therefore, only those who have a legitimate desire to erase the information stored in the flash memory 64x of the pachinko machine 10 (hereinafter also referred to as "legitimate persons") can erase the traces of opening of the board box. By building a distribution system that allows for this, it will be possible to promote smooth distribution of pachinko machines 10 while ensuring the soundness of the game. Specifically, for example, by building a distribution system that allows only the legitimate manufacturer of the pachinko machine 10 to affix a new seal, the pachinko machine 10 can be sold while ensuring the soundness of gaming. It becomes possible to promote smooth distribution of 10 items.

Note that the configuration in which the information stored in the flash memory 64x is erased based on the operation of the flash memory clear button is not limited to the above configuration, and various other configurations may be adopted. For example, the information stored in the flash memory 64x may be erased when the flash memory clear button is pressed a predetermined number of times (for example, 5 times) within a predetermined time (for example, 10 seconds). Alternatively, for example, the configuration may be such that an IC chip for erasure processing is not provided, and the main CPU 62x monitors whether or not the flash memory clear button is pressed, and the flash memory clear button continues to be pressed for a predetermined period of time (for example, 10 seconds). The configuration may be such that when the button is pressed, an erase program for erasing information stored in the flash memory 64x is executed to erase the information.

In addition, the flash memory clear button is not limited to the configuration where it is stored inside a board box with a seal affixed, but it is stored inside a space where there are traces of opening (also referred to as opening traces or opening/closing traces). Other configurations may be used as long as the configuration is as follows. For example, the flash memory clear button is housed inside a space covered by a lid member, and the flash memory clear button cannot be operated unless at least a portion of the lid member is destroyed to open the space. It is also possible to have a configuration in which this is not possible. According to such a configuration, in order to operate the flash memory clear button, the lid member must be destroyed to open the space, so when the flash memory clear button is pressed, the flash memory is not stored. The destroyed lid member remains as a trace of the open space. Also, for example, the flash memory clear button can be connected to a joint (crimped part) between multiple case bodies (for example, a box-shaped case body and a lid-shaped case body that can seal the open part of the box-shaped case body). It is configured to be housed inside a board box configured by being joined together, and when separating the plurality of case bodies that make up the board box, it is necessary to destroy a predetermined part of the joining part (crimped part). Good too. According to such a configuration, in order to operate the flash memory clear button, it is necessary to break a predetermined part of the joint (crimped part) and separate the plurality of case bodies to open the board box. When the flash memory clear button is pressed, a bonded portion (crimped portion) in which a predetermined portion is destroyed remains as a trace of the base box being opened. Furthermore, the flash memory clear button was configured to be housed inside the board box that was joined by the above-mentioned joining part (crimped part), and when it was peeled off, the adhesive layer remained on the object to be adhered, so that it could be peeled off. A configuration may also be adopted in which a seal that leaves a trace is pasted across the boundaries between a plurality of case bodies. According to such a configuration, when the flash memory clear button is pressed, in addition to the traces of opening of the board box, such as the joints (caulked parts) where predetermined parts have been broken, there is also evidence that the seal has been peeled off or the seal has been peeled off. Traces of the opening of the board box will remain, such as the seal being cut at the boundary between the case bodies.

<Aspect 39>
In the above aspect 37, the above-described inspection machine 320 (FIG. 10) for inspecting whether various game history information is within a normal range is connected to the inspection terminal 65 provided on the main side MPU 62. , when a predetermined signal (for example, an erase command) is received from the inspection machine 320, the information stored in the flash memory 64x (game history information such as prize ball total value, number of balls entered, information on accessory ratio, etc.) ) may be deleted.

Specifically, for example, similarly to the above-mentioned aspect 38, an IC chip for erasing processing that can perform erasing processing for erasing information stored in the flash memory 64x is provided, and an IC chip connected to the testing terminal 65 is provided. When an erase command is transmitted from the inspection machine 320, the erase command is input to the input terminal of the erase processing IC chip. Then, the erase processing IC chip executes an erase process to erase information stored in the flash memory 64x based on receiving the erase instruction command from the input terminal.

According to the configuration of this aspect, the erase processing IC chip erases the information stored in the flash memory 64x based on receiving the erase instruction command from the inspection machine 320 connected to the inspection terminal 65. , a person having the inspection machine 320 can erase information stored in the flash memory 64x. That is, it becomes possible to restrict deletion of the information by a person who does not have the inspection device 320.

Here, if the pachinko machine 10 has been illegally modified (for example, a nail has been illegally modified), the effect of the illegal modification will appear on the game played, and furthermore, the pachinko machine 10 will be affected by the illegal modification. The information stored in the flash memory 64x (for example, the ratio of accessories, etc.) may be affected by the unauthorized modification. For example, a person (inspector) who inspects whether or not a normal game is being played by the pachinko machine 10 connects the inspection machine 320 to the inspection terminal 65 and transfers the information stored in the flash memory 64x to the inspection machine. 320, it is possible to discover any unauthorized modifications made to the pachinko machine 10. Therefore, there is a possibility that there is a person (unauthorized person) who desires to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by erasing the information. .

However, according to the configuration of this aspect, in order to erase the information stored in the flash memory 64x, the inspection machine 320 that can be connected to the inspection terminal 65 of the pachinko machine 10 is required. By restricting the persons who can own the inspection machine 320, it is possible to prevent the information stored in the flash memory 64x from being erased by an unauthorized person. This makes it possible to suppress the occurrence of motivation for making unnecessary modifications, thereby improving the soundness of the game.

Note that pachinko machines 10 may be distributed from time to time through transactions, and a person who wants to newly distribute a pachinko machine 10 that has already been used for games (a so-called used pachinko machine 10) must use the flash of the pachinko machine 10. There are cases where the user has a legitimate desire to erase the information stored in the memory 64x before distributing it. Therefore, only those who wish to erase the information stored in the flash memory 64x of the pachinko machine 10 for legitimate reasons (for example, the manufacturer of the pachinko machine 10) and the above-mentioned inspectors have the inspection machine 320. By building a distribution system that allows this, it will be possible to promote smooth distribution of pachinko machines 10 while ensuring the soundness of the game.

Furthermore, when the information stored in the flash memory 64x is erased, the information stored in the flash memory 64x is transmitted to the inspection machine 320 connected to the inspection terminal 65 prior to the erasure. A configuration may also be used.

Specifically, for example, the above-mentioned erase processing IC chip receives a transmission start signal indicating that it will start transmitting the information stored in the flash memory 64x based on receiving the erase instruction command from the input terminal. Send the command to the inspection machine 320. Upon receiving the transmission start command, the inspection device 320 shifts to a receivable mode in which it can receive information, and transmits a receivable command indicating that it is in the receivable mode to the erasing IC chip. The erasing IC chip that has received the receivable command starts transmitting the information stored in the flash memory 64x. Then, when the transmission of the information is completed, the erasure processing IC chip transmits a transmission completion command to the inspection device 320. Upon receiving the transmission completion command, the inspection device 320 checks whether the received information has any errors such as missing data, and if there is no error, transmits the reception completion command to the erasing IC chip. The erase processing IC chip executes an erase process to erase information stored in the flash memory 64x based on receiving the reception completion command.

According to such a configuration, even if the information stored in the flash memory 64x is erased due to an erroneous operation against the will of the person having the inspection machine 320, the information will not be erased from the flash memory 64x. Since the information that has been removed remains in the inspection machine 320, the information can be confirmed by the inspection machine 320.

Note that the configuration in which information stored in the flash memory 64x is erased based on reception of a predetermined signal from the inspection machine 320 is not limited to the above configuration, and various other configurations may be adopted. can. For example, if the configuration is such that no erase processing IC chip is provided, and the main CPU 62x monitors whether or not an erase command is received from the inspection machine 320 connected to the test terminal 65, and receives the erase command. Alternatively, the configuration may be such that an erase program for erasing information stored in the flash memory 64x is executed to erase the information. Further, when receiving an erase command from the inspection machine 320, the main CPU 62x sends the information stored in the flash memory 64x to the inspection machine 320, and then executes an erase program to erase the information. The configuration may also be such that the information stored in the flash memory 64x is erased.

Note that in this embodiment, the information stored in the flash memory 64x is erased using the inspection machine 320 for inspecting whether various game history information is within a normal range; The configuration is not limited to the configuration using the machine 320, but may be a configuration in which a dedicated terminal for deleting information stored in the flash memory 64x is used to delete the information.

<Aspect 40>
In the above aspect 37, when the flash memory clear button stored inside the space in which traces of opening remain are pressed down continuously for a predetermined period of time (for example, 10 seconds), and when a predetermined When a signal (for example, an erasure command) is received, the information stored in the flash memory 64x (the total prize ball value, the information on the number of balls entered, the game history information such as the ratio of accessories, etc.) is erased. Good too.

Specifically, for example, similarly to the above-mentioned aspect 38, an IC chip for erasing processing that can execute erasing processing to erase information stored in the flash memory 64x is provided, and the flash memory clear button is pressed. During this period, a Hi level signal is input to the input terminal of the erase processing IC chip. The erasing IC chip then performs an erasing process capable of erasing information stored in the flash memory 64x based on the Hi level signal input to the input terminal continuing for 10 seconds. Move to execution standby mode. When the erase processing IC chip receives an erase instruction command from the inspection device 320 in this erase processing execution standby mode, it executes an erase process to erase information stored in the flash memory 64x.

According to the configuration of this aspect, the flash memory clear button is stored inside the board box that leaves traces of opening, so in order to erase information stored in the flash memory 64x of the pachinko machine 10, Since the board box of the pachinko machine 10 is opened and the flash memory clear button is operated, traces of the opening will remain on the board box of the pachinko machine 10. Furthermore, the erasure processing IC chip erases the information stored in the flash memory 64x based on receiving a predetermined signal from the inspection device 320 connected to the inspection terminal 65, so it has an inspection device 320. A person can erase information stored in flash memory 64x. Therefore, based on whether or not there are any traces of opening remaining in the board box of the pachinko machine 10, there is a possibility that the board box of the pachinko machine 10 has been opened and the information stored in the flash memory 64x has been erased. It becomes possible to grasp whether or not the inspection machine 320 is present, and it becomes possible to restrict erasure of the information by a person who does not have the inspection machine 320.

Here, if the pachinko machine 10 has been illegally modified (for example, a nail has been illegally modified), the effect of the illegal modification will appear on the game played, and furthermore, the pachinko machine 10 will be affected by the illegal modification. The information stored in the flash memory 64x (for example, the ratio of accessories, etc.) may be affected by the unauthorized modification. For example, a person (inspector) who inspects whether or not a normal game is being played by the pachinko machine 10 connects the inspection machine 320 to the inspection terminal 65 and transfers the information stored in the flash memory 64x to the inspection machine. 320, it is possible to discover any unauthorized modifications made to the pachinko machine 10. Therefore, there is a possibility that there is a person (unauthorized person) who desires to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by erasing the information. .

However, according to the configuration of this aspect, in order to erase the information stored in the flash memory 64x, the inspection machine 320 that can be connected to the inspection terminal 65 of the pachinko machine 10 is required. By restricting who can have the inspection device 320, it is possible to prevent the information stored in the flash memory 64x from being erased by an unauthorized person. Furthermore, even if an unauthorized person were to possess the inspection machine 320, in order to erase the information stored in the flash memory 64x, the board box of the pachinko machine 10 must be opened and the flash memory It is necessary to operate the clear button. In this case, traces of the opening will remain on the circuit board box of the pachinko machine 10, so even if the information stored in the flash memory 64x is erased, there is a possibility that the information was erased to conceal the fraud. Traces will remain. Therefore, it is possible to prevent the information stored in the flash memory 64x from being erased by an unauthorized person, and it is also possible to make it difficult to conceal unauthorized modifications made to the pachinko machine 10. As a result, it becomes possible to further suppress the occurrence of motivation to make unauthorized modifications to the pachinko machine 10, and the soundness of the game can be improved.

Note that pachinko machines 10 may be distributed from time to time through transactions, and a person who wants to newly distribute a pachinko machine 10 that has already been used for games (a so-called used pachinko machine 10) must use the flash of the pachinko machine 10. There are cases where the user has a legitimate desire to erase the information stored in the memory 64x before distributing it. Therefore, only those who wish to erase the information stored in the flash memory 64x of the pachinko machine 10 for legitimate reasons (for example, the manufacturer of the pachinko machine 10) and the above-mentioned inspectors have the inspection machine 320. If a distribution system is established in which only authorized persons can erase the traces of opening of the board box, it is possible to ensure the soundness of the game and promote smooth distribution of pachinko machines 10. It becomes possible.

Note that the above configuration is an example of a configuration in which the information stored in the flash memory 64x is erased based on the flash memory clear button accepting a predetermined operation and receiving a predetermined signal from the inspection machine 320. However, various other configurations can be adopted. For example, if the flash memory clear button is pressed a predetermined number of times (for example, 5 times) within a predetermined time (for example, 10 seconds), the erase processing IC chip may be configured to shift to the above-described erase processing execution standby mode. Further, for example, when an erase instruction command is received from the inspection machine 320, the erase processing IC chip shifts to the above-described erase processing execution standby mode, and in the erase processing execution standby mode, the flash memory clear button is pressed for a predetermined period of time (e.g. 10 seconds) If the button is pressed continuously, the configuration may be such that an erasing process is executed to erase information stored in the flash memory 64x. Alternatively, for example, a configuration may be adopted in which no IC chip for erasure processing is provided, and the main CPU 62x executes the same function as the IC chip for erasure processing to erase information stored in the flash memory 64x.

Further, similarly to the above aspect 39, when the information stored in the flash memory 64x is erased, the information stored in the flash memory 64x is connected to the inspection terminal 65 prior to the erasing. The information may be transmitted to the inspecting machine 320 that has been inspected. According to such a configuration, even if the information stored in the flash memory 64x is erased due to an erroneous operation against the will of the person having the inspection machine 320, the information will not be erased from the flash memory 64x. Since the information that has been removed remains in the inspection machine 320, the information can be confirmed by the inspection machine 320.

<Aspect 41>
In the above aspect 37, an operation panel that accepts input operation of authentication information (for example, a password) and a display that displays the input authentication information are provided on the back of the pachinko machine 10, and the authentication information input by the operation panel and If the authentication information individually set for the pachinko machine 10 matches, the information stored in the flash memory 64x (game history information such as total prize ball value, information on the number of balls entered, and ratio of accessories, etc.) It is also possible to have a configuration in which the information is deleted.

Specifically, for example, similar to the above-mentioned aspect 38, an erasure processing IC chip capable of executing erasure processing for erasing information stored in the flash memory 64x is provided, and information input via the operation panel is provided. The configuration is such that the authentication information is input to the input terminal of the erase processing IC chip. The erasing IC chip then determines whether the authentication information input from the operation panel matches the authentication information stored in the ROM of the erasing IC chip, and if they match. If determined, erasing processing is executed to erase the information stored in the flash memory 64x.

According to the configuration of this aspect, the erasure processing IC chip is stored in the flash memory 64x based on the fact that the authentication information received by the reception means matches the authentication information set in the pachinko machine 10. Since the information is erased, a person who has the authentication information set in the relevant pachinko machine 10 (for example, a person who knows the password set in the relevant pachinko machine 10) can delete the information stored in the flash memory 64x. Information can be deleted. That is, it becomes possible to restrict deletion of the information by a person who does not have the authentication information set in the pachinko machine 10.

Here, if the pachinko machine 10 has been illegally modified (for example, a nail has been illegally modified), the effect of the illegal modification will appear on the game played, and furthermore, the pachinko machine 10 will be affected by the illegal modification. The information stored in the flash memory 64x (for example, the ratio of accessories, etc.) may be affected by the unauthorized modification. A person (inspector) who inspects whether normal games are being executed by the pachinko machine 10 can determine whether or not the pachinko machine 10 has been fraudulently modified by checking the information stored in the flash memory 64x. can be discovered. Therefore, there is a possibility that there is a person (unauthorized person) who desires to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by erasing the information. .

However, according to the configuration of this aspect, in order to erase the information stored in the flash memory 64x, it is necessary to have the authentication information set in the pachinko machine 10. By restricting who can have the authentication information set in the pachinko machine 10, it is possible to prevent the information stored in the flash memory 64x from being erased by an unauthorized person. Furthermore, it becomes possible to suppress the occurrence of a motive for illegally modifying the pachinko machine 10, and it is possible to improve the soundness of the game.

Note that pachinko machines 10 may be distributed from time to time through transactions, and a person who wants to newly distribute a pachinko machine 10 that has already been used for games (a so-called used pachinko machine 10) must use the flash of the pachinko machine 10. There are cases where the user has a legitimate desire to erase the information stored in the memory 64x before distributing it. Therefore, only those who have a desire to delete the information stored in the flash memory 64x of the pachinko machine 10 for legitimate reasons (for example, the manufacturer of the pachinko machine 10) can delete the information stored in the flash memory 64x of the pachinko machine 10. By constructing a distribution system that can have authentication information, it becomes possible to promote smooth distribution of pachinko machines 10 while ensuring the soundness of the game.

Note that the authentication information input to erase information stored in the flash memory 64x is not limited to the password, and various types of authentication information can be used. For example, authentication information may include authentication characters (passwords, passphrases) that are a combination of multiple character strings, barcodes with a specific pattern, passwords generated according to predetermined rules (for example, one-time passwords), or a specific person. Biometric information (fingerprints, iris, vein patterns, etc.) can be used.

<Aspect 42>
In the above aspect 37, when the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button provided on the back side of the pachinko machine 10 is executed, the information stored in the main side RAM 64 is Among them, the information stored in the first area of the main side RAM 64 (information used to control the execution of the game, including the high probability mode flag, high frequency support mode flag, etc.) is erased and is stored in the second area. The information (information acquired based on the executed game, such as the total value of prize balls, the information on the number of balls entered, the game history information such as the ratio of accessories, etc.) may be configured not to be deleted.

Specifically, for example, immediately after the power of the pachinko machine 10 is turned on, the main CPU 62x determines whether or not the RAM clear button is pressed down, and determines whether the RAM clear button is pressed down. If it is determined that this is the case, among the information stored in the main RAM 64, the information stored in the first area of the main RAM 64 is deleted, and the information stored in the second area is not deleted. composition.

According to such a configuration, the information stored in the second area of the main side RAM 64 (information acquired based on the executed game) is stored in the first area of the main side RAM 64 while leaving the information stored in the second area of the main side RAM 64. It becomes possible to erase information (information used to control the execution of games). Specifically, for example, if a malfunction occurs in the control of the game execution, or at the start or end of the game hall's operation, information used to control the game execution may be deleted and the control of the gaming machine can be changed. There is a desire to perform initialization, but not to erase information acquired based on played games. According to the configuration of this aspect, by operating the RAM clear button, the information used for controlling the execution of the game is erased while leaving the information acquired based on the executed game. It becomes possible to execute control initialization.

Furthermore, in addition to the RAM clear button described above, a second RAM clear button for erasing information stored in the second area of the main side RAM 64 is provided on the back side of the pachinko machine 10, and the power of the pachinko machine 10 is turned on. If the second RAM clear button is pressed for a predetermined period of time (for example, 10 seconds) during this state, the information stored in the second area of the main RAM 64 may be deleted. .

Specifically, for example, the main CPU 62x monitors whether or not the second RAM clear button is pressed, and if the second RAM clear button remains pressed for a predetermined period of time (for example, 10 seconds). If it is determined that this has been done, the information stored in the second area of the main RAM 64 among the information stored in the main RAM 64 is erased.

According to such a configuration, the information stored in the second area of the main side RAM 64 (information acquired based on the played game) that cannot be erased by operating the RAM clear button, It can be erased by operating the second clear button.

Furthermore, the second RAM clear button may be stored inside a space where traces of release remain. Specifically, for example, the second RAM clear button is stored inside a board box that has a seal that leaves traces of tampering, and cannot be pressed unless the seal is peeled off and the board box is opened. It is also possible to have a configuration in which this is not possible.

According to the configuration of this aspect, in order to erase the information stored in the second area of the main side RAM 64 of the pachinko machine 10, it is necessary to open the board box of the pachinko machine 10 and operate the second RAM clear button. Therefore, traces of the opening will remain on the board box of the pachinko machine 10. That is, based on whether there are any traces of opening remaining in the board box of the pachinko machine 10, the board box of the pachinko machine 10 is opened and the information stored in the second area of the main side RAM 64 is erased. It becomes possible to grasp whether there is a possibility or not.

Here, if the pachinko machine 10 has been illegally modified (for example, a nail has been illegally modified), the effect of the illegal modification will appear on the game played, and furthermore, the pachinko machine 10 will be affected by the illegal modification. The information stored in the second area of the main side RAM 64 (for example, the ratio of accessories, etc.) may be affected by the unauthorized modification. A person (inspector) who inspects whether a normal game is being executed by the pachinko machine 10 checks the information stored in the flash memory 64x and the information stored in the second area of the main side RAM 64. By doing so, it is possible to discover unauthorized modifications made to the pachinko machine 10. Therefore, there is a possibility that there is a person (unauthorized person) who desires to prevent the inspector from discovering that the pachinko machine 10 has been illegally modified by erasing the information. .

However, according to the configuration of this aspect, in order to erase the information stored in the second area of the main side RAM 64, it is necessary to open the board box of the pachinko machine 10 and operate the second RAM clear button. . In this case, traces of the opening will remain on the circuit board box of the pachinko machine 10, so even if an unauthorized person erases the information stored in the second area of the main RAM 64, the information may be used to conceal fraud. This leaves traces that may have been erased for some reason. Therefore, it is possible to make it difficult to conceal unauthorized modifications made to the pachinko machine 10, and in turn, it is possible to suppress the occurrence of motives for making unauthorized modifications to the pachinko machine 10, thereby improving the soundness of the game. can be improved.

Note that pachinko machines 10 may be distributed from time to time through transactions, and a person who wishes to newly distribute a pachinko machine 10 on which games have already been played (a so-called used pachinko machine) must contact the owner of the pachinko machine 10. There are cases where a user has a legitimate desire to erase the information stored in the second area of the RAM 64 before distributing it. Therefore, only a person (a legitimate person) who has a desire to erase the information stored in the second area of the main side RAM 64 of the pachinko machine 10 for a legitimate reason can erase the traces of the opening of the board box. By constructing a distribution system, it becomes possible to promote smooth distribution of pachinko machines 10 while ensuring the soundness of the game. Specifically, for example, by building a distribution system that allows only the legitimate manufacturer of the pachinko machine 10 to affix a new seal, the pachinko machine 10 can be sold while ensuring the soundness of gaming. It becomes possible to promote smooth distribution of 10 items.

Note that as the configuration of the space in which traces of opening (also referred to as opening traces or opening/closing traces) remain, various configurations described in the above aspect 38 can be adopted.

<Aspect 43>
In the above aspect 37, the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button provided on the back side of the pachinko machine 10 is performed, and the RAM is cleared within a predetermined time (for example, 10 seconds). When the clear button is not pressed, the information stored in the first area of the main RAM 64 is erased, but the information stored in the second area of the main RAM 64 is not erased. On the other hand, if the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button is executed, and the RAM clear button remains pressed for a predetermined period of time (for example, 10 seconds), , the information stored in the first area of the main RAM 64 may not be erased, but the information stored in the second area of the main RAM 64 may be erased.

Specifically, for example, immediately after the power of the pachinko machine 10 is turned on, the main CPU 62x determines whether or not the RAM clear button is pressed down, and determines whether the RAM clear button is pressed down. If it is determined that the RAM clear button is pressed, it is monitored whether the state in which the RAM clear button is pressed continues for a predetermined period of time (for example, 10 seconds). If it is determined that the RAM clear button has not been pressed within a predetermined period of time (for example, 10 seconds), the main CPU 62x erases the information stored in the first area of the main RAM 64. However, the information stored in the second area of the main RAM 64 is not deleted. On the other hand, if it is determined that the RAM clear button has been pressed for a predetermined period of time (for example, 10 seconds), the main CPU 62x does not delete the information stored in the first area of the main RAM 64. First, the information stored in the second area of the main RAM 64 is erased.

According to such a configuration, by performing different operations on the RAM clear button, it is possible to select information to be erased from among the information stored in the main RAM 64. In other words, the structure of the pachinko machine 10 is simplified because the information to be deleted can be selected without providing another operation unit (for example, a button) for selecting the information to be deleted. can be achieved.

Specifically, for example, if a problem occurs in the control of the game execution, or at the start or end of the operation of the game hall, information used to control the execution of the game (stored in the first area of the main RAM 64) If you want to initialize the control of the gaming machine by deleting the information stored in seconds), the RAM clear button is not pressed, and on the other hand, the information acquired based on the executed game (information stored in the second area of the main RAM 64) is erased and the game is If you want to put a new machine into circulation, turn on the power of the pachinko machine 10 while pressing the RAM clear button, and keep the RAM clear button pressed for a predetermined period of time (for example, 10 seconds). ) should be continued. In this way, by performing different operations on the RAM clear button, it becomes possible to select information to be erased from among the information stored in the main RAM 64.

Note that while the processing for erasing the information stored in the second area of the main side RAM 64 is being executed, the above-mentioned game history processing cannot be executed, so the number of game balls entered into each ball entry hole, etc. There is a possibility that an error may occur in the aggregate value of prize balls, etc. Therefore, if the configuration is such that the execution of the game is not started until the deletion process is completed (for example, a configuration that inhibits the firing of game balls), it is possible to suppress the occurrence of the error.

Further, in this aspect, when an operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button is executed, and the RAM clear button is not pressed within a predetermined period of time (for example, 10 seconds), If this happens, the information stored in the first area of the main RAM 64 is erased, and it is determined whether the information stored in the second area of the main RAM 64 is valid. If it is determined that the information is valid, the information may not be deleted, and if it is determined that the information is not valid, the information may be deleted. According to such a configuration, it is possible to prevent the game from being started while the information stored in the second area of the main side RAM 64 is not valid. Note that the information stored in the second area of the main side RAM 64 is not valid, for example, when the number of prize balls exceeds the total number of prize balls, or when the number of consecutive prize balls exceeds the total number of prize balls. This is the case when there is an inconsistency in the total value of prize balls, such as when the number of prize balls exceeds the number of prize balls, or when the number of consecutive prize balls exceeds the number of prize balls.

<Aspect 44>
In the above aspect 37, the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button provided on the back side of the pachinko machine 10 is executed, and the RAM is cleared within a predetermined time (for example, 10 seconds). When the clear button is not pressed, the information stored in the first area of the main RAM 64 is erased, but the information stored in the second area of the main RAM 64 is not erased. On the other hand, if the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button is executed, and the state in which the RAM clear button is pressed continues for a predetermined period of time (for example, 10 seconds), , a configuration may be adopted in which not only the information stored in the first area of the main side RAM 64 is erased, but also the information stored in the second area of the main side RAM 64 is erased.

Specifically, for example, immediately after the power of the pachinko machine 10 is turned on, the main CPU 62x determines whether or not the RAM clear button is pressed down, and determines whether the RAM clear button is pressed down. If it is determined that this is the case, the information stored in the first area of the main side RAM 64 is erased. Furthermore, the main CPU 62x monitors whether the RAM clear button is pressed for a predetermined period of time (for example, 10 seconds), and determines whether the RAM clear button is pressed within the predetermined period of time (for example, 10 seconds). If it is determined that the information stored in the second area of the main side RAM 64 is not erased. On the other hand, if it is determined that the RAM clear button has been pressed for a predetermined period of time (for example, 10 seconds), the main CPU 62x also erases the information stored in the second area of the main RAM 64. .

According to such a configuration, similarly to the above-described aspect 43, by performing a different operation on the RAM clear button, the information to be deleted can be selected from among the information stored in the main side RAM 64. It becomes possible to do so. Furthermore, by performing an operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button, and keeping the RAM clear button pressed for a predetermined period of time (for example, 10 seconds), the main side RAM 64 is It becomes possible to erase both the information stored in the first area and the information stored in the second area.

Note that while the information stored in the second area of the main RAM 64 is being erased, the above-mentioned game history processing cannot be executed, so the number of game balls entered into each ball entry hole, etc. There is a possibility that an error may occur in the aggregate prize ball value, etc. Therefore, if the configuration is such that the execution of the game is not started until the deletion process is completed (for example, a configuration that inhibits the firing of game balls), it is possible to suppress the occurrence of the error.

<Aspect 45>
In the above aspect 37, when the operation of pressing the RAM clear button provided on the back side of the pachinko machine 10 for a predetermined period of time (for example, 10 seconds) is performed while the power of the pachinko machine 10 is on. , the information stored in the second area of the main RAM 64 may be deleted.

Specifically, for example, the main CPU 62x monitors whether or not the RAM clear button is pressed, and determines if the RAM clear button has been pressed for a predetermined period of time (for example, 10 seconds). If it is determined, the configuration is such that the information stored in the second area of the main RAM 64 among the information stored in the main RAM 64 is erased.

According to such a configuration, the information stored in the second area of the main side RAM 64 can be erased without providing a separate operation unit (for example, a button, etc.) for erasing the information stored in the second area of the main side RAM 64. It becomes possible to delete the information that exists. Note that while the information stored in the second area of the main RAM 64 is being erased, the above-mentioned game history processing cannot be executed temporarily. There is a possibility that errors may occur in the number of balls entered, the aggregate value of prize balls, etc. Therefore, if a configuration is adopted in which the execution of the game is temporarily stopped during the period from the start to the end of the execution of the erasing process (for example, a configuration that temporarily inhibits the firing of game balls), the occurrence of the error can be suppressed. can do.

<Aspect 46>
In each of the above aspects, the information stored in the second area of the main side RAM 64 (such as the total prize ball value, information on the number of balls entered, game history information such as the ratio of accessories, etc., acquired based on the executed game) When the information) is erased, the information stored in the first area of the main RAM 64 (information used to control the execution of the game, such as the high probability mode flag and the high frequency support mode flag) is always erased. It may also be a configuration. That is, when a predetermined operation for erasing information stored in the second area of the main side RAM 64 is executed, or when a predetermined operation for erasing information stored in the second area of the main side RAM 64 is performed. When a signal is received from another device (for example, the inspection machine 320), not only the information stored in the second area of the main side RAM 64 is erased, but also the information stored in the first area of the main side RAM 64 is erased. A configuration may also be adopted in which information is always deleted.

According to such a configuration, even though the information acquired based on the executed game (information stored in the second area of the main side RAM 64) has been erased, the information obtained based on the executed game cannot be used to control the execution of the game. It is possible to suppress the occurrence of a situation in which the information (information stored in the first area of the main side RAM 64) is not deleted and is maintained as it is. Specifically, for example, information acquired based on the executed game is information that serves as collateral for determining the fairness of the game executed on the pachinko machine 10, so the information that serves as the collateral is deleted, the information used to control the execution of the game in the pachinko machine 10 (for example, information regarding the high probability mode flag or high frequency support mode flag indicating the gaming state) is deleted and the pachinko machine 10 is deleted. It is preferable to initialize the gaming state of the player. According to the configuration of this aspect, when erasing the information acquired based on the executed game (information stored in the second area of the main side RAM 64), the information used for controlling the execution of the game ( Since the information stored in the first area of the main RAM 64 is deleted, the information used to control the execution of the game is erased even though the information that serves as a guarantee for determining the fairness of the game is deleted. (Information stored in the first area of the main side RAM 64) is not erased, so that it is possible to suppress the occurrence of a situation where the gaming state of the pachinko machine 10 is maintained as it is.

Furthermore, for example, even if the information acquired based on the executed game (information stored in the second area of the main RAM 64) is erased, the information used for controlling the execution of the game may be deleted. (Information stored in the first area of the main RAM 64) is not deleted and is maintained as it is. Even though the information stored in the pachinko machine 10 has been deleted, the high probability mode or high frequency support mode may be maintained as is in the pachinko machine 10. In this case, when a game is executed on the pachinko machine 10, the game starts in the high probability mode or high frequency support mode in a state where the amount of information acquired based on the executed game is not sufficient as statistical data. , there is a high possibility that game history information such as accessory ratios will be calculated as biased values. Therefore, as in this embodiment, information stored in the second area of the main side RAM 64 (such as the total value of prize balls, information on the number of balls entered, game history information such as the ratio of accessories, etc.) based on the executed game. When the acquired information) is deleted, the information stored in the first area of the main RAM 64 (information used to control game execution, such as the high probability mode flag and high frequency support mode flag) is always erased. By configuring this to be deleted, it is possible to prevent game history information such as accessory ratios from being calculated as biased values.

In addition, various operation modes can be adopted as an operation for erasing the information stored in the second area of the main side RAM 64. For example, while pressing down the RAM clear button provided on the back side of the pachinko machine 10, the power of the pachinko machine 10 is turned on, and the state in which the RAM clear button is pressed continues for a predetermined period of time (for example, 10 seconds). operation, operation of turning on the power of the pachinko machine 10 while pressing down the second RAM clear button separately provided on the back side of the pachinko machine 10, operation of turning on the power of the pachinko machine 10 while pressing down both the RAM clear button and the second RAM clear button An operation such as turning on the power of the machine 10 can be adopted.

Further, for example, if an operation is performed to turn on the power of the pachinko machine 10 while pressing the RAM clear button, and the RAM clear button is not pressed within a predetermined period of time (for example, 10 seconds). In this case, among the information stored in the main RAM 64, the information stored in the first area of the main RAM 64 (including the high probability mode flag, high frequency support mode flag, etc.) is used to control the execution of the game. The information stored in the second area (information acquired based on the executed game, such as the total prize ball value, information on the number of balls entered, and game history information such as the ratio of accessories) is deleted. may be configured so that it is not deleted.

According to such a configuration, the information stored in the second area of the main side RAM 64 (information acquired based on the executed game) is stored in the first area of the main side RAM 64 while leaving the information stored in the second area of the main side RAM 64. It becomes possible to erase information (information used to control the execution of games). Specifically, for example, if a malfunction occurs in the control of the game execution, or at the start or end of the game hall's operation, the information used to control the game execution may be deleted and the control of the gaming machine can be changed. There is a desire to perform initialization, but not to erase information acquired based on played games. According to the configuration of this aspect, by operating the RAM clear button, the information used for controlling the execution of the game is erased while leaving the information acquired based on the executed game. It becomes possible to execute control initialization.

FIG. 32 is a flowchart illustrating an example of the main processing executed by the main MPU 62 (main CPU 62x) in this embodiment. The main CPU 62x executes this main processing when the power is turned on.

In step S10901, it is determined whether the RAM clear button is pressed. If it is determined in step S10901 that the RAM clear button is not pressed (step S10901: NO), the process advances to step S10902, which will be described later. On the other hand, if it is determined in step S10901 that the RAM clear button is pressed down (step S10901: YES), the process advances to step S10903, and a check is made as to whether the RAM clear button continues to be pressed down. Determine.

In step S10903, if it is determined that the RAM clear button is not pressed down, that is, if it is determined that the RAM clear button is not pressed down (step S10903: NO), step S10904 , the information stored in the first area of the main side RAM 64 is erased, and initialization processing for the first area is executed. Thereafter, the process advances to step S10908, which will be described later. On the other hand, if it is determined in step S10903 that the RAM clear button remains pressed (step S10903: YES), the process advances to step S10905, and the RAM clear button remains pressed for a predetermined period of time (for example, 10 seconds). ) Determine whether it is continuing.

In step S10905, if it is determined that the pressed state of the RAM clear button has not continued for a predetermined period of time (for example, 10 seconds) (step S10905: NO), the process returns to step S10903, and the pressed state of the RAM clear button continues. Determine whether or not. On the other hand, if it is determined in step S10905 that the RAM clear button has been pressed for a predetermined period of time (for example, 10 seconds) (step S10905: YES), the process advances to step S10906. That is, if the RAM clear button is not held down for a predetermined period of time (for example, 10 seconds), the process proceeds to step S10904 described above, and if the RAM clear button is held down for a specified period of time (for example, 10 seconds), the process proceeds to step S10904, which will be described later. The process then proceeds to step S10906.

In step S10906, information stored in the first area of the main side RAM 64 is erased, and initialization processing for the first area is executed. Thereafter, the process advances to step S10907, where the information stored in the second area of the main side RAM 64 is erased, and initialization processing for the second area is executed. Thereafter, the process advances to step S10908, which will be described later.

On the other hand, if it is determined in step S10901 that the RAM clear button is not pressed (step S10901: NO), the process advances to step S10902, and the information stored in the second area of the main side RAM 64 is valid. Determine whether or not. Specifically, for example, whether the prize ball total value (the number of prize balls, the number of consecutive prize balls, the total number of prize balls), which is information stored in the second area of the main side RAM 64, is valid. Determine whether or not. Here, the case where the prize ball aggregate value is not valid means that the number of prize balls exceeds the total number of prize balls, or the number of consecutive prize balls exceeds the total number of prize balls, or if the number of consecutive prize balls exceeds the total number of prize balls. This is a case where there is a discrepancy in the total value of prize balls, such as when the number of prize balls exceeds the number of prize balls. In step S10902, if it is determined that the information stored in the second area of the main side RAM 64 is not valid (step S10902: NO), the process proceeds to the above-mentioned steps S10906 and S10907, and the information stored in the second area of the main side RAM 64 is The information stored in the area and the information stored in the second area are erased. After that, the process advances to step S10908. On the other hand, if it is determined in step S10902 that the information stored in the second area of the main side RAM 64 is valid (step S10902: YES), the process directly advances to step S10908.

In step S10908, interrupt permission is set to permit generation of timer interrupt processing. After executing step S10908, the process proceeds to the remaining processing of steps S10909 to S10912. The remaining processing from step S10909 to step S10912 is the same as the remaining processing from step S10104 to step S10107 in FIG. 12 described above, so a description thereof will be omitted.

According to the processing flow described above, information stored in the second area of the main side RAM 64 (such as the total prize ball value, information on the number of balls entered, game history information such as the ratio of accessories, etc.) is based on the executed game. When executing the process (processing of step S10906) to delete the information (information acquired by The process of deleting the information used to control the execution of the game (the process of step S10907) is executed.

<Aspect 47>
In each of the above aspects, the information stored in the flash memory 64x (information acquired based on the executed game, such as the total prize ball value, information on the number of balls entered, game history information such as the ratio of accessories, etc.) is erased. The configuration may be such that the information stored in the first area of the main RAM 64 (information used to control the execution of the game, such as the high probability mode flag and the high frequency support mode flag) is always deleted when the game is played. . That is, when an operation for erasing information stored in the flash memory 64x is executed, or when a predetermined signal for erasing information stored in the flash memory 64x is transmitted to another device (for example, the inspection machine 320 ), the configuration may be such that not only the information stored in the flash memory 64x is deleted, but also the information stored in the first area of the main RAM 64 is always deleted.

According to such a configuration, even though the information acquired based on the executed game (information stored in the flash memory 64x) has been erased, the information used for controlling the execution of the game (the main It is possible to suppress the occurrence of a situation in which the information stored in the first area of the side RAM 64 is not deleted and is maintained as it is. Specifically, for example, information acquired based on the executed game is information that serves as collateral for determining the fairness of the game executed on the pachinko machine 10, so the information that serves as the collateral is deleted, the information used to control the execution of the game in the pachinko machine 10 (for example, information regarding the high probability mode flag or high frequency support mode flag indicating the gaming state) is deleted and the pachinko machine 10 is deleted. It is preferable to initialize the gaming state of the player. According to this configuration, when erasing the information acquired based on the executed game (information stored in the flash memory 64x), the information used for controlling the execution of the game (the first Since the information stored in the main RAM 64 is erased, the information used to control the execution of the game (the information stored in the main RAM 64 It is possible to suppress the occurrence of a situation where the gaming state of the pachinko machine 10 is maintained as it is because the information stored in one area is not deleted.

Furthermore, when the information stored in the flash memory 64x (information acquired based on executed games) is erased, the information stored in the first area of the main RAM 64 (high probability mode In addition to information used to control the execution of games such as flags and high-frequency support mode flags, information stored in the second area of the main RAM 64 (information acquired based on the executed games) is also stored in the second area of the main RAM 64. It may also be configured to be deleted.

<Aspect 48>
In some of the above aspects, the main side RAM 64 is divided into two areas (a first area and a second area), and the first area of the main side RAM 64 is for executing processing related to the progress of the game. The second area of the main RAM 64 is used as an area for storing programs and various flags (high probability mode flag, high frequency support mode flag, etc.). This area is configured to be used as an area to store programs for executing (processing) and various numerical information (the above-mentioned prize ball total value, information on the number of balls entered, game history information such as the ratio of accessories), etc. In place of the configuration, there is a RAM (RAM used for game progress processing) that is responsible for the function of the first area of the main side RAM 64 and a RAM (RAM used for game history processing) that is responsible for the function of the second area of the main side RAM 64. It is also possible to have a configuration in which these are provided separately.

<Aspect 49>
Among the above embodiments, in the embodiment including the flash memory 64x, the flash memory 64x may be stored inside a space where traces of opening remain (for example, a board box with a seal affixed). . According to such a configuration, in order to make unauthorized changes to the information stored in the flash memory 64x, the base box of the pachinko machine 10 must be opened, and the board of the pachinko machine 10 must be opened. Traces of opening will remain on the box. That is, based on whether or not there are any traces of opening remaining in the board box of the pachinko machine 10, it is determined that the board box of the pachinko machine 10 has been opened and the information stored in the flash memory 64x has been illegally altered. It becomes possible to grasp whether there is a possibility or not. Therefore, it becomes difficult to conceal unauthorized alterations made to the information stored in the flash memory 64x, and as a result, a motive for making unauthorized alterations to the information stored in the flash memory 64x arises. It becomes possible to suppress this, and improve the soundness of the game.

Note that as the configuration of the space in which traces of opening (also referred to as opening traces or opening/closing traces) remain, various configurations described in the above aspect 38 can be adopted.

<Aspect 50>
FIG. 33 is an explanatory diagram schematically showing a part of the electrical configuration of the pachinko machine 10 in aspect 50. In the main MPU 62 of this embodiment, a ball entry detection IC 62c is provided between the input/output port 62a and the main CPU 62x.

The ball entry detection IC 62c is electrically connected to each ball entry detection sensor 44a to 44h via an input/output port 62a, and detects each ball entry port based on the signal received from each ball entry detection sensor 44a to 44h. It determines whether or not a game ball has entered the ball, and sends information indicating the result of the determination (ball entry information, which is information regarding whether or not a game ball has entered each ball entry hole) to the main CPU 62x and the inspection terminal. It outputs to the inspection machine 320 connected to 65. This will be explained in detail below.

Each ball entry detection sensor 44a to 44h that detects the entry of a game ball into each ball entry port electrically connects the 0th bit D0 to the 7th bit D7, which are eight input bits provided at the input port 62b. The eight input bits D0 to D7 are electrically connected to the eight input bits R0 to R7 provided in the ball entry detection IC 62c, respectively. In this aspect, a Lo level signal is constantly input to each of the eight input bits R0 to R7 provided in the ball entry detection IC 62c, and the entry of a game ball into the ball entry opening is determined by When a ball is detected by the detection sensor, the signal input to the input bit corresponding to the ball entry detection sensor among the eight input bits R0 to R7 rises from the Lo level to the Hi level.

The ball entry detection IC 62c determines whether or not a game ball has entered each ball entry opening based on the signals output from each ball entry detection sensor 44a to 44h. In this aspect, the ball entry detection IC 62c monitors eight input bits R0 to R7 corresponding to the eight ball entry detection sensors 44a to 44h, and Lo in the signal input to each input bit. When a rising edge from the level to the Hi level is detected, it is determined that the game ball has entered the ball entrance corresponding to the input bit. However, if a rising edge is detected but the Hi level state does not continue for a predetermined period, or if a rising edge is detected but the rising edge occurs within a predetermined interval from the most recent falling edge. In this case, since the detected rising edge is likely to be noise, it is determined that no game ball has entered the ball entrance corresponding to the input bit. It should be noted that various methods can be adopted as a method for determining whether or not a game ball has entered each ball entry hole. You may also adopt this method.

The ball entry detection IC 62c determines the presence or absence of a game ball entering each ball entrance at predetermined intervals, and transmits ball entry information, which is information indicating the result of the determination, to the main side through serial transmission communication. It is output to the CPU 62x and also to the inspection machine 320 connected to the inspection terminal 65. In this embodiment, since eight ball entry detection sensors 44a to 44h are provided, the ball entry detection IC 62c receives ball entry information (8 bits of ball entry information) are output at predetermined intervals (every 4 ms). Specifically, the ball entry detection IC 62c always outputs a Lo level signal, and outputs a 50 μs Hi level signal as a start bit at every predetermined period (every 4 ms) when determining whether or not a ball has entered the ball. , After that, 8 bits of a 50 μs Hi level signal (ball entered) or Lo level signal (no ball entered) corresponding to the presence or absence of a game ball entering each of the 8 ball entry ports are output. A 50 μs Lo level signal is output as a stop bit.

The main CPU 62x, which has received the ball entry information from the ball entry detection IC 62c, performs processing related to the progress of the game, such as the above-mentioned winning lottery and payout of prize balls, based on the received ball entry information for each ball entry hole. Execute. In addition, the main CPU 62x executes the above-mentioned game history processing (FIG. 29), and also executes processing related to calculation and display of game history information such as ball launch rate (total), role object ratio, continuous role object ratio, etc. do. The main CPU 62x then stores the numerical information used in the process of calculating the game history information and the calculated game history information in the flash memory 64x.

Next, a description will be given of an inspection using the inspection device 320 that can receive ball entry information output from the ball entry detection IC 62c.

In this aspect, the inspector of the pachinko machine 10 operates the game ball while the game is being executed in the pachinko machine 10, that is, the player or the inspector operates the operation handle 25 of the pachinko machine 10. While the board 30 is being fired and the game is being played normally, the inspection machine 320 is used to check whether or not legitimate games are being played in the pachinko machine 10 during the inspection period. do. This will be explained in detail below.

The inspection machine 320 operates in a ball entry information reception mode, which is a mode in which ball entry information of game balls at each ball entry hole is received from the ball entry detection IC 62c, and a ball entry information reception mode, which is a mode in which ball entry information on game balls at each ball entry hole is received from the ball entry detection IC 62c. A ball entrance information setting mode that sets ball entrance information, which is information related to the number of pitches, and game history information that calculates the above-mentioned various game history information based on the received ball entrance information and the set ball entrance information. calculation mode.

When inspecting whether a legitimate game is being played on the pachinko machine 10, the inspector connects the connection cable 329 of the inspection machine 320 to the inspection terminal 65 of the pachinko machine 10, and The operator operates the operation unit 327 to shift the inspection device 320 to the above-mentioned ball entry information reception mode. The player or the inspector operates the operation handle 25 of the pachinko machine 10 to be inspected to fire game balls onto the game board 30, and continues playing the game as usual.

When the inspection device 320 shifts to the incoming ball information reception mode, it outputs a Hi-level signal to the output permission signal line 329b in the connection cable 329. The output permission signal line 329b is electrically connected to the output permission determination bit 62d of the ball entry detection IC 62c via the test terminal 65. The ball entry detection IC 62c determines whether or not a Hi level signal is input to the output permission determination bit 62d, and determines that a Hi level signal is input to the output permission determination bit 62d. Only during this period, the above-mentioned ball entry information is output via the inspection terminal 65 to the information transmission signal line 329a in the connection cable 329 by serial transmission communication.

In the ball entry information receiving mode, the inspection machine 320 receives ball entry information corresponding to eight ball entry ports at predetermined intervals, and measures (counts) the number of game balls entering each ball entry port. memorize it. Then, the inspection machine 320 causes the display unit 328 to display information indicating the measured (counted) number of game balls entering each ball entry hole. That is, each time a player or an inspector plays a game and a game ball enters each ball entry port, 1 is added to the information indicating the number of balls entered corresponding to each ball entry port displayed on the display unit 328. is added. As a result, the display unit 328 of the inspection machine 320 displays the number of game balls that have entered each ball entry hole after shifting to the ball entry information reception mode.

After a sufficient inspection period (for example, about 10 hours) has elapsed, when the inspector operates the operation unit 327 of the inspection machine 320 to end the ball entrance information reception mode, the inspection machine 320 receives the ball entrance information. Move to configuration mode.

When the inspection machine 320 shifts to the ball entrance information setting mode, the display unit 328 displays an input screen for allowing the inspector to input the type of ball entrance and the number of prize balls for each ball entrance. In this aspect, since the inspection machine 320 receives 8 bits of ball entry information every predetermined period in the ball entry information reception mode, the display unit 328 displays information for each of the eight ball entry ports. An input screen is displayed for inputting the type of ball entrance and the number of prize balls. The type of ball entrance is the type of ball entrance in which each ball entrance detection sensor 44a to 44h, such as the first starting port 33, the second starting port 34, the big prize opening 36a, and the discharge passage, is provided. The number of prize balls is the number of game balls that are paid out as prize balls when one game ball enters the ball entrance.

The inspector inputs ball entrance information (ball entrance type information and prize ball number information) into the inspection machine 320 for each ball entrance by operating the operation unit 327 . Specifically, the inspector collects information such as which bit in the ball entry information output from the ball entry detection IC 62c corresponds to which type of ball entrance (type information), and which type of ball entrance information. Information such as how many prize balls should be set at the ball entrance (prize ball number information) is ascertained from the specifications, instructions, etc. of the pachinko machine 10, and the grasped information is sent to the inspection machine 320. input. When the inspector completes inputting the ball entrance information, the inspection machine 320 shifts to the game history information calculation mode.

When the inspection machine 320 shifts to the game history information calculation mode, the inspection machine 320 calculates the number of entered game balls for each ball entry hole measured (counted) in the ball entry information reception mode and the type set in the ball entry information setting mode. The various game history information described above is calculated based on the information and the prize ball number information. For example, the inspection machine 320 calculates the above-mentioned ball launch rate (total), accessory ratio, and continuous accessory ratio. When the calculation of various game history information is completed, the inspection machine 320 causes the display unit 328 to display the calculated various game history information.

By checking various game history information displayed on the display unit 328 of the testing machine 320, the tester can check whether or not a legitimate game was played during the testing period.

As explained above, according to this aspect, the ball entry detection IC 62c outputs the ball entry information to the inspection machine 320 connected to the inspection terminal 65 without going through the main CPU 62x, so 320 can receive ball entry information that is not influenced by the main CPU 62x.

For example, if the configuration of this aspect is not adopted, but a configuration is adopted in which ball entry information is output via the main side CPU 62x to the inspection machine 320 connected to the inspection terminal 65, the main side If the CPU 62x is malfunctioning or has been illegally modified, there is a possibility that the incoming ball information output to the inspection machine 320 will be affected by the malfunction or unauthorized modification. Furthermore, there is a possibility that the reliability of the gaming history information calculated and displayed by the main CPU 62x may be low due to a malfunction or unauthorized modification of the main CPU 62x.

In contrast, according to this aspect, the ball entry detection IC 62c outputs ball entry information to the inspection machine 320 connected to the inspection terminal 65 without going through the main CPU 62x. Even if a malfunction occurs or unauthorized modification is performed on the ball, the incoming ball information output to the inspection machine 320 is not affected by the malfunction or unauthorized modification. As a result, the inspection device 320 connected to the inspection terminal 65 can perform processing based on ball entry information that has not been affected by the defect or unauthorized modification. Specifically, the inspection machine 320 can calculate the game history information based on ball entry information that is not influenced by the main CPU 62x. Therefore, an inspector who inspects the performance of the pachinko machine 10 may have a problem with the main CPU 62x or that the main CPU 62x may have been illegally modified, and may need to check the gaming history calculated and displayed by the main CPU 62x. Even if the reliability of the information is low, it is possible to check game history information that is not influenced by the main CPU 62x using the inspection device 320. As a result, the soundness of the game can be ensured.

Further, according to this aspect, the ball entry detection IC 62c outputs ball entry information corresponding to each of the plurality of ball entry openings to the inspection machine 320 connected to the inspection terminal 65 using a serial transmission method. Therefore, compared to, for example, a configuration in which ball entry information is output using a parallel transmission method, it is possible to simplify the configuration of the inspection terminal 65 that passes the ball entry information to the inspection machine 320, and The configuration of the inspection device 320 that receives the ball entry information can be simplified.

Specifically, if a configuration is adopted in which ball entry information corresponding to each of a plurality of ball entry ports is output using a parallel transmission method, the inspection terminal 65 is configured to output information corresponding to each of the plurality of ball entry ports. It is necessary to provide a corresponding output section (for example, a bit for output). Similarly, the inspection machine 320 needs to include input units (for example, input bits) corresponding to the number of the plurality of ball entry ports. Furthermore, since the number of ball entrances provided in the pachinko machine 10 differs for each type (model) of the pachinko machine 10, the inspection machine 320 has a different number of input sections for each type (model) of the pachinko machine 10. It becomes necessary to prepare.

In contrast, according to this aspect, the ball entry detection IC 62c transmits ball entry information corresponding to each of the plurality of ball entry openings to the inspection machine 320 connected to the inspection terminal 65 using a serial transmission method. Therefore, the inspection terminal 65 is configured to include at least one output section capable of outputting ball entry information using a serial transmission method, regardless of the number of ball entry openings that the pachinko machine 10 has. And it is sufficient. Therefore, the configuration of the test terminal 65 can be simplified. Similarly, the inspection machine 320 may be configured to include at least one input section into which ball entry information outputted by the serial transmission method can be input, regardless of the number of ball entry ports provided in the pachinko machine 10. Therefore, the configuration of the inspection machine 320 can be simplified. Furthermore, even if the inspection machine 320 is connected to a pachinko machine 10 with a different number of ball entrances, the inspection machine 320 inputs ball entry information corresponding to each of the plurality of ball entrances using a serial transmission method. can do. In other words, the inspection machine 320 can be used for other pachinko machines 10 having different numbers of ball entrances. As a result, it becomes possible to increase the versatility of the inspection machine 320.

Further, according to this aspect, the ball entry detection IC 62c transmits ball entry information to the inspection device 320 connected to the inspection terminal 65 only when a Hi level signal is received from the inspection device 320. Therefore, it is possible to prevent ball entry information of the pachinko machine 10 from being output to the outside except when the Hi-level signal is being received. Therefore, it is possible to prevent the ball entry information of the pachinko machine 10 from being analyzed and misused by a malicious person.

<Aspect 51>
In the above embodiment 50, in the ball entrance information setting mode of the inspection machine 320, the inspector manually inputs the ball entrance information into the inspection machine 320 by operating the operating section 327, but instead of this configuration, A configuration may also be adopted in which the inspection machine 320 receives the ball entrance information from the pachinko machine 10 and sets it.

Specifically, for example, when the inspection machine 320 shifts to the ball entrance information setting mode, the inspection machine 320 transmits a signal requesting transmission of ball entrance information (ball entrance information transmission) via the connection cable 329 and the inspection terminal 65. request command) to the ball entry detection IC 62c. The ball entrance detection IC 62c that has received the signal (ball entrance information transmission request command) transmits the ball entrance information of the pachinko machine 10 to the inspection machine 320 via the inspection terminal 65 and the connection cable 329. The inspection machine 320 sets the ball entrance information received from the ball entrance detection IC 62c for each ball entrance, and ends the ball entrance information setting mode.

As explained above, according to this aspect, the ball entry detection IC 62c outputs ball entrance information (prize ball number information and type information) to the inspection machine 320 connected to the inspection terminal 65. , it is possible to save the trouble of manually inputting ball entrance information (prize ball number information and type information) to the inspection machine 320, and to prevent incorrect ball entrance information (prize ball number information and type information) from entering the inspection machine 320. type information) can be prevented from being input. As a result, the inspection machine 320 is able to calculate game history information based on ball entry information and accurate ball entrance information (prize ball number information and type information).

In this aspect, the ball entry detection IC 62c is configured to transmit ball entry information of the pachinko machine 10 to the inspection machine 320 based on receiving a predetermined signal (ball entrance information transmission request command). However, instead of this configuration, the ball entry detection IC 62c is triggered when the connection cable 329 of the inspection machine 320 is connected to the inspection terminal 65 (that is, the connection cable 329 of the inspection machine 320 is connected to the inspection terminal 65). A configuration may also be adopted in which, when it is detected that the pachinko machine 10 is connected to the terminal 65, the ball entrance information of the pachinko machine 10 is transmitted to the inspection machine 320. According to this configuration, after the connection cable 329 is connected to the inspection terminal 65, the inspection machine 320 can quickly execute processing that requires the ball entrance information.

Further, in this embodiment, the ball entrance detection IC 62c transmits the ball entrance information to the inspection machine 320, but instead of this configuration, the main CPU 62x transmits the ball entrance information stored in the main ROM 63. A configuration may also be adopted in which information is read out and transmitted to the inspection machine 320.

<Aspect 52>
In the above aspect 50, the ball entry detection IC 62c serially transmits the ball entry information via the inspection terminal 65 only during the period in which it is determined that a Hi level signal is input to the output permission determination bit 62d. Although the configuration has been described in which output is performed through communication using a transmission method, other configurations may be adopted instead of this configuration. For example, the ball entry detection IC 62c transmits ball entry information via the inspection terminal 65 using a serial transmission method only during a period in which it is determined that a signal of a predetermined pattern is input to the output permission determination bit 62d. The configuration may be such that the output is performed through communication. For example, when the ball entry detection IC 62c determines that a signal of a predetermined pattern has been input to the output permission determination bit 62d, the ball entry detection IC 62c outputs ball entry information via the inspection terminal 65 through serial transmission communication. It is also possible to have a configuration in which For example, if a predetermined switch is provided in the test terminal 65 and it is determined that a cable terminal of a predetermined shape is connected to the test terminal 65 and the predetermined switch is pressed, The ball entry detection IC 62c may be configured to output ball entry information through serial transmission communication via the inspection terminal 65.

<Aspect 53>
In aspects 50 to 52, the inspection machine 320 may be configured to shift to the ball entry information receiving mode after completing the setting of the ball entry information in the ball entry information setting mode. According to such a configuration, since the type of each ball entry port is set at the time of transition to the entering ball information reception mode, each ball entry port is displayed on the display unit 328 of the inspection machine 320 during the ball entering information reception mode. It becomes possible to display the type of ball and the number of balls entered.

As a result, the inspector can grasp which type of ball entrance the game ball entered into even during the ball entry information reception mode. Furthermore, the inspector confirms that the information displayed on the display unit 328 (type of each ball entry port and number of balls entered) and the number of game balls that actually entered each ball entry port as visually confirmed. By checking whether the ball entry information is outputted from the ball entry detection IC 62c, it can be confirmed whether or not the ball entry information outputted from the ball entry detection IC 62c is genuine.

<Aspect 54>
In aspects 50 to 53 above, when the connection cable 329 is connected to the inspection terminal 65 of the pachinko machine 10, the inspection machine 320 uses the gaming history information stored in the flash memory 64x of the pachinko machine 10 as a trigger. It may be configured such that the mode shifts to a game history information reception mode, which is a mode for receiving information, and then shifts to the above-mentioned ball entry information setting mode, ball entry information reception mode, and game history information calculation mode.

Specifically, for example, when the inspection machine 320 detects that the connection cable 329 is connected to the inspection terminal 65 of the pachinko machine 10, it shifts to the game history information reception mode. When the inspection machine 320 shifts to the gaming history information receiving mode, it transmits a signal requesting transmission of gaming history information (gaming history information transmission request command) to the main CPU 62x via the connection cable 329 and the inspection terminal 65. . The main CPU 62x that has received the signal (game history information transmission request command) transmits the game history information stored in the flash memory 64x of the pachinko machine 10 to the inspection machine 320 via the inspection terminal 65 and the connection cable 329. Send to. When the inspection machine 320 stores the game history information received from the main CPU 62x in the RAM 326, it ends the game history information reception mode and shifts to the ball entrance information setting mode.

When the inspection machine 320 shifts to the ball entry information setting mode, the main CPU 62 Send to. The main CPU 62x that has received the signal (ball entrance information transmission request command) transmits the ball entrance information of the pachinko machine 10 to the inspection machine 320 via the inspection terminal 65 and the connection cable 329. After setting the ball entrance information received from the main CPU 62x for each ball entrance, the inspection machine 320 ends the ball entrance information setting mode and shifts to the ball entrance information reception mode.

When the inspection machine 320 shifts to ball entry information reception mode, it receives ball entry information corresponding to eight ball entry ports at predetermined intervals, and measures (counts) the number of game balls entering each ball entry port. ) and memorize it. Then, the inspection machine 320 causes the display unit 328 to display information indicating the measured (counted) number of game balls entering each ball entry hole. That is, each time a player or an inspector plays a game and a game ball enters each ball entry port, 1 is added to the information indicating the number of balls entered corresponding to each ball entry port displayed on the display unit 328. is added. As a result, the display unit 328 of the inspection machine 320 displays the number of game balls that have entered each ball entry hole after shifting to the entry information reception mode.

After a sufficient inspection period (for example, about 10 hours) has elapsed, when the inspector operates the operation unit 327 of the inspection machine 320 to end the entering ball information reception mode, the inspection machine 320 calculates the game history information. mode.

When the inspection machine 320 shifts to the game history information calculation mode, the inspection machine 320 calculates the number of entered game balls for each ball entry hole measured (counted) in the ball entry information reception mode and the type set in the ball entry information setting mode. The various game history information described above is calculated based on the information and the prize ball number information. For example, the inspection machine 320 calculates the above-mentioned ball launch rate (total), accessory ratio, and continuous accessory ratio. When the calculation of the various game history information is completed, the inspection machine 320 calculates the various game history information calculated in the game history information calculation mode and the various game history information (stored in the flash memory 64x) received in the game history information reception mode. The game history information) is displayed on the display unit 328. That is, the display unit 328 of the inspection machine 320 displays the game history for the inspection period during which the connection cable 329 of the inspection machine 320 was connected to the pachinko machine 10 and received ball entry information in the ball entry information reception mode. information and game history information for a predetermined period in the past calculated by the main CPU 62x of the pachinko machine 10 and stored in the flash memory 64x are displayed.

As explained above, according to this aspect, the inspection machine 320 connected to the inspection terminal 65 receives the game history information (hereinafter also referred to as first game history information) stored in the flash memory 64x. It becomes possible to display the In addition, the inspection machine 320 can perform processing based on the ball entry information received during the inspection period. Specifically, the inspection machine 320 calculates game history information based on ball entry information received during a predetermined inspection period connected to the inspection terminal 65 of the pachinko machine 10, and calculates the game history information (hereinafter referred to as , also referred to as second game history information). Therefore, for example, an inspector who inspects the pachinko machine 10 can use the first game history information stored in the flash memory 64x included in the pachinko machine 10 and ball entry information received by the inspection machine 320 during a predetermined inspection period. It becomes possible to compare the game history information with the second game history information.

Here, if a problem occurs in the pachinko machine 10 or the game characteristics of the pachinko machine 10 change due to unauthorized modification (for example, modification of nails, etc.), The first game history information stored in the flash memory 64x of the pachinko machine 10 (game history information calculated by the main CPU 62x based on ball entry information in the past predetermined period) and the inspection machine 320 perform a predetermined inspection. There may be a difference between the second game history information calculated based on the ball entry information in the period. Therefore, the inspector who inspects the pachinko machine 10 can check whether any malfunction or unauthorized modification (for example, modification of the nail) has occurred in the pachinko machine 10 by paying attention to the difference between the two pieces of game history information. can do.

In addition, the inspection machine 320 may be configured to receive and set the ball entrance information in the above-mentioned ball entrance information setting mode, and then shift to the game history information reception mode and receive the game history information. Furthermore, after calculating the gaming history information during the inspection period in the gaming history information calculation mode described above, the inspection machine 320 shifts to the gaming history information receiving mode and receives the gaming history information stored in the flash memory 64x. It may also be a configuration.

<Aspect 55>
In aspects 50 to 54 above, the number of ball entry holes provided in the pachinko machine 10 is not limited to eight, and may be nine or more, or seven or less. The ball entry detection IC 62c may be configured to output ball entry information corresponding to the number of ball entry ports. For example, if the number of ball entry holes provided in the pachinko machine 10 is seven or less, the ball entry detection IC 62c outputs ball entry information using the first half of the 8 bits output by the serial transmission method. It is also possible to have a configuration in which Further, for example, if the number of ball entry ports provided in the pachinko machine 10 is nine or more, the ball entry detection IC 62c detects nine or more ball entry ports by executing 8-bit output multiple times using the serial transmission method. It may also be configured to output ball entry information corresponding to the ball mouth. Further, the ball entry detection IC 62c may be configured to be able to output ball entry information of 16 bits, 32 bits, etc. at a time using a serial transmission method.

<Aspect 56>
In the above embodiment 23, the main CPU 62x executes the game history process as one process included in the timer interrupt process (FIG. 23: step S10616), but instead of this configuration, the CPU 62x executes the game history process. It may be configured that the process is not executed in the timer interrupt process, but is executed in the remaining time of the main process described above. This will be explained in detail below.

FIG. 34 is a flowchart illustrating an example of the main processing executed by the main CPU 62x in aspect 56. In step S11001, initial setting processing is executed. Specifically, it initializes each control device upon power-on, determines the validity of data stored in the RAM 64, and the like. After executing step S11001, the process advances to step S11002, where interrupt permission is set to permit generation of timer interrupt processing (FIG. 13).

After executing step S11002, the process proceeds to remaining processing of steps S11003 to S11007. That is, although the main CPU 62x is configured to periodically execute timer interrupt processing as described above, there is a remaining time between one timer interrupt processing and the next timer interrupt processing. This remaining time will vary depending on the processing completion time of each timer interrupt process, but this irregular time (remaining time) is used to repeatedly execute the processes from step S11003 to step S11007 (residual process). .

In step S11003, interrupt prohibition is set to prohibit generation of timer interrupt processing. Thereafter, the process advances to step S11004, where random number initial value update processing is executed to update the random number initial value counter CINI, and the process advances to step S11005, where variation counter update processing is executed to update the variation type counter CS. In these update processes, the current numerical information is read from the corresponding counter in the main side RAM 64, the read numerical information is incremented by 1, and then the process of overwriting the counter from which it was read is executed. In this case, each counter value is cleared to "0" when it reaches the maximum value. After that, the process advances to step S11006.

In step S11006, the above-described game history processing (FIG. 29) is executed. As described above, the game history process includes a plurality of tasks (task 1 and task 2 in step S10814 in FIG. 29) that are executed in sequence to complete the calculation of the game history information. The main CPU 62x executes some of the tasks in one execution of the game history processing included in the remaining processing. That is, the main CPU 62x completes the calculation of the game history information set as the calculation target by executing the game history process multiple times. After executing step S11006, the process advances to step S11007, where interrupt permission is set to switch from a state in which the occurrence of timer interrupt processing is prohibited to a state in which it is permitted. After executing the process in step S11007, the process returns to step S11003, and the processes in steps S11003 to S11007 are repeated.

As explained above, according to this aspect, the remaining time in the main process (the period from the end of execution of one timer interrupt process to the start of execution of the next timer interrupt process) including the game history process Since the process is repeatedly executed, it is possible to prevent the execution of the remaining processes including the game history process from being started even though the execution of one timer interrupt process has not been completed. That is, by giving priority to the execution of the timer interrupt process and repeatedly executing the remaining processes including the game history process during the period when the timer interrupt process is not being executed, it is possible to quickly calculate the game history information.

Furthermore, if the configuration of this aspect is not adopted, but a configuration is adopted in which the game history processing is included and executed in the timer interrupt processing, from the start to the end of one execution of the timer interrupt processing, For example, even though a predetermined time (4 msec in this embodiment) has elapsed since the start of execution of one timer interrupt process and it is time to start execution of the next timer interrupt process, the time required becomes long. There is a possibility that the execution of one timer interrupt process has not yet finished, and it will not be possible to start the execution of the next timer interrupt process until the execution of the one timer interrupt process is finished. In this case, there is a risk that a problem will occur in the progress of the game due to the delay in starting the execution of the next timer interrupt process.

On the other hand, according to this aspect, the game history process is included in the remaining process and executed, so compared to the configuration in which the game history process is included and executed in the timer interrupt process, the game history process is executed once in the timer interrupt process. The time required from the start to the end of execution can be shortened. As a result, for example, even though a predetermined period of time (4 msec in this embodiment) has elapsed since the start of execution of one timer interrupt process and it is time to start execution of the next timer interrupt process, there is still no timer interrupt. It is possible to suppress the occurrence of a situation in which the execution of a process is not completed, and it is possible to suppress the occurrence of a situation in which the execution of the next timer interrupt process cannot be started until the execution of the corresponding one timer interrupt process is finished. can do. As described above, according to this aspect, while suppressing the occurrence of problems in the progress of the game due to a delay in the start of execution of the next timer interrupt process, the game history information is By repeatedly executing the remaining processing including the processing, it becomes possible to efficiently and quickly calculate the game history information.

Further, according to this aspect, the game history processing includes a plurality of tasks (task 1 and task 2 in step S10814 in FIG. 29) that complete the calculation of the game history information by sequentially executing them, and the main side Since the CPU 62x executes some of the tasks in one execution of the game history process, for example, the CPU 62x may be configured to execute all of the plurality of tasks in one execution of the game history process. Compared to this, the time required from the start to the end of one execution of the game history processing can be shortened. Specifically, for example, even if the conditions for starting the execution of the timer interrupt process are met while the game history process is being executed, the game history process that is being executed will be completed in a short time, so the timer interrupt process will be terminated after the condition is met. The time until execution of timer interrupt processing is started can be shortened. As a result, it becomes possible to quickly calculate game history information by repeatedly executing the remaining processing while suppressing the occurrence of problems due to a delay in the start of execution of the timer interrupt processing.

Further, according to this aspect, the length of the remaining time changes depending on the length of time required from the start to the end of the timer interrupt process. Specifically, for example, if the length of one timer interrupt process becomes longer, the remaining time from the end of that one timer interrupt process to the start of the next timer interrupt process becomes shorter; As the length of processing becomes shorter, the remaining time from the end of one timer interrupt processing to the start of the next timer interrupt processing becomes longer. When the remaining time is short, the number of times the game history process is executed can be reduced, and on the other hand, when the remaining time is long, the number of times the game history process is executed can be increased. That is, the number of times the game history process is executed can be changed depending on the length of the remaining time.

<Aspect 57>
In the first embodiment and each aspect described above, the main control device 60 of the pachinko machine 10 may be configured to have a plurality of settings with different probabilities of winning a jackpot in the winning lottery. Specifically, for example, even if the low probability mode is the same, it may be configured to have 6 levels of lottery settings (``Lottery setting 1'' to ``Lottery setting 6'') with different probabilities of winning a jackpot in the winning lottery. . This will be explained in detail below.

The main control device 60 of the pachinko machine 10 of this embodiment is provided with win/fail tables for six types of low probability modes corresponding to each of the six lottery settings from "lottery setting 1" to "lottery setting 6". . Then, the main control device 60 executes a winning lottery by referring to the win/failure table corresponding to the set lottery settings. For example, if the pachinko machine 10 is set to lottery setting 1 and the lottery mode is low probability mode, the main controller 60 refers to the win/fail table for the low probability mode of lottery setting 1. Run the winning lottery.

In this aspect, five values from 0 to 4 are set as values for winning the jackpot among the values of the jackpot random number counter C1 from 0 to 1199 in the low probability mode winning/failure table of lottery setting 1. There is. Also, in the win/fail table for the low probability mode of lottery setting 2, six values from 0 to 5 are set as values for winning the jackpot among the values of the jackpot random number counter C1 from 0 to 1199. Furthermore, in the win/fail table for the low probability mode of lottery setting 3, seven values from 0 to 6 are set as values for winning the jackpot among the values of the jackpot random number counter C1 from 0 to 1199. Furthermore, in the win/fail table for the low probability mode of lottery setting 4, eight values from 0 to 7 are set as values for winning the jackpot among the values of the jackpot random number counter C1 from 0 to 1199. Furthermore, in the win/fail table for the low probability mode of lottery setting 5, nine values from 0 to 8 are set as values for winning the jackpot among the values of the jackpot random number counter C1 from 0 to 1199. Furthermore, in the win/fail table for the low probability mode of lottery setting 6, 10 values from 0 to 9 are set as values for winning the jackpot among the values of the jackpot random number counter C1 from 0 to 1199.

That is, in this aspect, the larger the number following "lottery setting", the higher the probability of winning the winning lottery in the low probability mode.

In this aspect, no matter which one of the six lottery settings is set, the winning lottery is executed with reference to the same win/fail table in the high probability mode. That is, in the high probability mode, the probability of winning a jackpot in the winning lottery is the same regardless of the lottery setting. However, as another aspect, even in the high probability mode, it may be configured such that the larger the number following "lottery setting", the higher the probability of winning a jackpot in the winning lottery.

In this aspect, the six-stage lottery settings can be changed when the pachinko machine 10 is powered on. This will be explained in detail below.

In this aspect, the main control board 61 located on the back side of the pachinko machine 10 is provided with a keyhole for changing settings and a button for changing settings. When an administrator who manages a pachinko machine 10 wants to change the lottery settings of the pachinko machine 10, he first inserts a key for changing the settings into the keyhole while the power of the pachinko machine 10 is OFF. Then, when the pachinko machine 10 is powered on with the inserted key turned toward the setting change side (for example, turned clockwise), the pachinko machine 10 starts up in the setting change mode.

When the pachinko machine 10 is started in the setting change mode, information indicating the current lottery setting (hereinafter also referred to as setting information) is displayed on the above-mentioned game history information display section 45z. For example, if the current lottery setting of the pachinko machine 10 is "lottery setting 1", "1" is displayed on the game history information display section 45z. Then, each time the administrator presses the setting change button, the setting information displayed on the game history information display section 45z changes from "1" → "2" → "3" → "4" → "5" → "6". ” → “1” → “2”, etc.

When the setting information displayed on the game history information display section 45z reaches the value desired by the administrator, when the administrator turns the setting change key from the setting change side to the original position, the game history information display section 45z The lottery setting is changed to correspond to the setting information displayed in 45z. Specifically, for example, the administrator presses the setting change button and turns the setting change key from the setting change side to the original position while "6" is displayed on the game history information display section 45z. Then, the lottery setting of the pachinko machine 10 is changed to "lottery setting 6".

In this way, according to the present aspect, by changing the lottery setting in the pachinko machine 10, it is possible to change the probability of winning a jackpot in the winning lottery. As a result, even if the pachinko machine 10 is the same, the probability that the variable winning device 36 as a special electric accessory will be activated as a result of the winning lottery is changed, so the above-mentioned probability that is calculated as the game history information is changed. The values of the accessory ratio and the continuous accessory ratio will converge to values corresponding to the new changed lottery settings. That is, by changing the lottery setting in the pachinko machine 10, the game history information such as the role item ratio and the continuous role item ratio of the pachinko machine 10 changes. In other words, the characteristics of the pachinko machine 10 can be changed by a simple method such as changing the lottery setting in the pachinko machine 10.

In addition, in each of the aspects described below, information on balls entered into each ball entrance, information on the number of balls entered, aggregate value of prize balls, etc., which is information that is the basis for calculating the game history information described above, is referred to as "game history basic information". ” is also called.

<Aspect 58>
In the above aspect 57 (configuration in which the lottery settings for winning lottery can be changed), when the lottery settings in the pachinko machine 10 are changed, various memories (main side RAM 64, flash memory 64x, etc.) are stored before changing the lottery settings. The game history information may be calculated and displayed based on the game history basic information stored in various memories after the game history basic information stored in the memory is deleted and the lottery setting is changed.

The reason for such a configuration will be explained. When the lottery setting (the setting of the probability of winning a jackpot in the winning lottery) in the pachinko machine 10 is changed, the probability that the variable winning device 36 as a special electric accessory is activated is changed, so the game history information The values of the above-mentioned accessory ratio and continuous accessory ratio calculated as follows will converge to a value corresponding to the new changed lottery setting. That is, before and after changing the lottery setting, the values to which the accessory ratio and the continuous accessory ratio should converge will change.

Even if the lottery settings are changed, the game history basic information that was acquired after the lottery settings were changed is stored without erasing the game history basic information that was stored before the lottery settings were changed. If such a configuration is adopted, when calculating the game history information, the influence of the game history basic information stored before the change in the lottery settings will be included, and the original state of the pachinko machine 10 after the change in the lottery settings will be included. It may take some time for the characteristics of the game to be reflected in the game history information.

Therefore, in this aspect, when the lottery settings are changed, the game history basic information that was stored before the lottery settings were changed is deleted, and the game history basic information that was acquired and stored after the lottery settings were changed. Based on the above, the game history information is calculated and displayed.

According to this aspect, the game history information such as the accessory ratio and the continuous accessory ratio quickly converges to the value corresponding to the changed lottery setting, and the inspector of the pachinko machine 10 can It becomes possible to quickly check the game history information corresponding to the lottery settings currently set.

<Aspect 59>
In the above-mentioned aspect 57 (configuration in which the lottery settings of the winning lottery can be changed), even after the lottery settings of the pachinko machine 10 are changed, the game history basic information stored in various memories before the change of the lottery settings is The game history basic information acquired after the lottery settings are changed is added to and stored in various memories without being deleted, and the game history basic information stored in the various memories is added to the game history basic information stored in the various memories regardless of whether before or after the lottery settings are changed. The configuration may be such that game history information is calculated and displayed based on the information.

According to this aspect, it becomes possible to calculate and display game history information including the influence of changes in lottery settings of the pachinko machine 10. Therefore, the inspector of the pachinko machine 10 must ensure that, as a result of the operation of changing the lottery settings of the pachinko machine 10 in the gaming hall, the total gaming history information including the influence of the change in the lottery settings is within an appropriate range. You can check whether it is within the range.

<Aspect 60>
In the above-mentioned aspect 57 (configuration in which the lottery settings of the winning lottery can be changed), when the lottery settings of the pachinko machine 10 are changed, the game history basic information stored before the change of the lottery settings is erased, It may also be configured to store game history basic information acquired after the current lottery setting change, and calculate and display game history information based on the stored game history basic information.

In such a configuration, if the lottery setting of the pachinko machine 10 is changed again before the game history basic information acquired and stored after the lottery setting of the pachinko machine 10 has been changed has accumulated to a predetermined amount. The system may be configured to record information indicating that the lottery settings have been changed in a short period of time (hereinafter also referred to as short-term change information), and to display the short-term change information.

Specifically, for example, before the total number of prize balls reaches 1000 in the prize ball aggregate value as game history basic information acquired and stored after the lottery setting of the pachinko machine 10 is changed, the pachinko machine 10 is restarted. When the ten lottery settings are changed, short-term change information indicating that the lottery settings were changed in a short period of time is recorded, and the short-term change information is displayed on the game history information display section 45z. . Further, for example, the game history information display section 45z may be provided with an LED lamp for displaying short-term change information, and when the short-term change information is recorded, the LED lamp may be made to emit light.

According to this aspect, the inspector of the pachinko machine 10 checks whether the lottery settings have been changed in the pachinko machine 10 in a short period of time by checking whether the short-term change information is displayed. can do. As a result, it is possible to prevent the administrator of the pachinko machine 10 from changing the lottery settings based on fraudulent intentions.

Specifically, for example, before the pachinko machine 10 is inspected by an inspector, the administrator of the pachinko machine 10 may decide that even if the game machine is not playing many games after changing the winning probability, Regardless, there is a possibility that the lottery settings will be changed again and the game history basic information and game history information stored in the pachinko machine 10 will be erased. However, according to this aspect, if the lottery settings are changed again in a short period of time even though the pachinko machine 10 is not playing many games after changing the lottery settings, the above-mentioned Short-term change information will be recorded and displayed. Therefore, by checking the short-term change information, the inspector recognizes that there is a possibility that the lottery settings were changed in a short period of time with fraudulent intentions such as erasing basic gaming history information and gaming history information. It becomes possible to do so. As a result, it is possible to prevent the administrator of the pachinko machine 10 from changing the lottery settings based on fraudulent intentions.

In addition, if the lottery settings of the pachinko machine 10 are changed again before a predetermined period of time has passed after the lottery settings of the pachinko machine 10 were changed, information indicating that the lottery settings were changed in a short period of time. (Short-term change information) may be recorded and the short-term change information may be displayed. According to such a configuration, even if no game is played on the pachinko machine 10 between the changes in the lottery settings of the pachinko machine 10, the predetermined time period will elapse between the changes in the lottery settings. If it has elapsed, short-term change information will not be displayed. Therefore, even though there is a relatively long period of time between changes in the lottery settings of the pachinko machine 10, no games were played on the pachinko machine 10 between the changes. Regardless, it is possible to prevent the inspector from misperceiving that the lottery settings may have been changed in a short period of time due to fraudulent intentions.

<Aspect 61>
In the above aspect 57 (configuration where lottery settings for winning lottery can be changed), it is also possible to store and display game history basic information and game history information for the most recent periods with the change in past lottery settings as the boundary. good. When the lottery settings of the pachinko machine 10 are changed, the game history basic information and game history information for the oldest period among the most recent periods that have already been stored are deleted, and the current lottery settings are changed. A configuration may be adopted in which game history basic information acquired after the change is stored.

In such a configuration, if the lottery setting of the pachinko machine 10 is changed again before the game history basic information acquired and stored after the lottery setting of the pachinko machine 10 has been changed has accumulated to a predetermined amount. The system may be configured to record information indicating that the lottery settings have been changed in a short period of time (hereinafter also referred to as short-term change information), and to display the short-term change information.

Specifically, for example, before the total number of prize balls reaches 1000 in the prize ball aggregate value as game history basic information acquired and stored after the lottery setting of the pachinko machine 10 is changed, the pachinko machine 10 is restarted. When the ten lottery settings are changed, short-term change information indicating that the lottery settings were changed in a short period of time is recorded, and the short-term change information is displayed on the game history information display section 45z. . Further, for example, the game history information display section 45z may be provided with an LED lamp for displaying short-term change information, and when the short-term change information is recorded, the LED lamp may be made to emit light.

According to this aspect explained above, the inspector of the pachinko machine 10 is able to check the gaming history information for each of the most recent periods with the past change of lottery settings in the pachinko machine 10 as the boundary. . That is, the inspector can confirm whether or not there was a situation in which the game history information did not fall within an appropriate range during the process in which the lottery settings were changed in the past in the pachinko machine 10.

Furthermore, according to this aspect, the inspector of the pachinko machine 10 can check whether the lottery settings have been changed in the pachinko machine 10 in a short period of time by checking whether short-term change information is displayed. can be confirmed. As a result, it is possible to prevent the administrator of the pachinko machine 10 from changing the lottery settings based on fraudulent intentions.

Specifically, for example, before the pachinko machine 10 is inspected by an inspector, the administrator of the pachinko machine 10 repeatedly changes the lottery settings in a short period of time, and There is a possibility that basic game history information and game history information for the period will be deleted. However, according to this aspect, when the lottery settings are repeatedly changed in a short period of time, the above-mentioned short-term change information is recorded and displayed. Therefore, by checking the short-term change information, the inspector can recognize that there is a possibility that the lottery settings were changed in a short period of time with fraudulent intentions. As a result, it is possible to prevent the administrator of the pachinko machine 10 from changing the lottery settings based on fraudulent intentions.

In addition, if the lottery settings of the pachinko machine 10 are changed again before a predetermined period of time has passed after the lottery settings of the pachinko machine 10 were changed, information indicating that the lottery settings were changed in a short period of time. (Short-term change information) may be recorded and the short-term change information may be displayed. According to such a configuration, even if no game is played on the pachinko machine 10 between the changes in the lottery settings of the pachinko machine 10, the predetermined time period will elapse between the changes in the lottery settings. If it has elapsed, short-term change information will not be displayed. Therefore, even though there is a relatively long period of time between changes in the lottery settings of the pachinko machine 10, no games were played on the pachinko machine 10 between the changes. Regardless, it is possible to prevent the inspector from misperceiving that the lottery settings may have been changed in a short period of time due to fraudulent intentions.

<Aspect 62>
In the above aspect 57 (configuration in which the lottery settings for the winning lottery can be changed), after the lottery settings of the pachinko machine 10 are changed, the game history basic information, which is the basis for calculating the game history information, reaches a sufficient amount as statistical data. It may be configured such that the game history basic information stored before the lottery setting is changed is saved (stored) without being deleted until it is accumulated.

Furthermore, until the game history basic information acquired and stored after the lottery settings are changed is accumulated to a predetermined amount sufficient as statistical data, the game history basic information that was stored before the lottery settings were changed. The game history information calculated based on the information is configured to blink and display on the game history information display section 45z, and the game history basic information acquired and stored after the lottery setting is changed is accumulated to a sufficient amount as statistical data. After that, the game history information is calculated based on the game history basic information acquired and stored after the lottery setting is changed, and the calculated game history information is displayed by lighting on the game history information display section 45z. Good too.

Specifically, for example, until the total number of prize balls reaches 60,000 in the prize ball aggregate value as game history basic information acquired and stored after the lottery settings are changed, before the lottery settings are changed. The game history basic information stored in the computer is configured to be stored without being erased. Then, until the total number of prize balls reached 60,000 in the prize ball aggregate value as game history basic information acquired and stored after the lottery settings were changed, the information was stored before the lottery settings were changed. The game history information calculated based on the game history basic information is blinkingly displayed on the game history information display section 45z. After the total number of prize balls in the prize ball aggregate value as game history basic information acquired and stored after the lottery settings were changed reaches 60,000, the game that was stored before the lottery settings were changed The history basic information is erased, game history information is calculated based on the game history basic information acquired and stored after the lottery settings are changed, and the calculated game history information is displayed by lighting on the game history information display section 45z. The configuration is such that

According to this aspect, it is possible to prevent the game history basic information stored before the lottery settings were changed from being intentionally deleted by changing the lottery settings of the pachinko machine 10. For example, if a configuration is adopted in which game history basic information acquired and stored before the lottery settings of the pachinko machine 10 is changed is deleted immediately after the lottery settings of the pachinko machine 10 are changed, the pachinko machine 10 Before being inspected by an inspector, the administrator of the pachinko machine 10 changes the lottery settings and erases the basic game history information and game history information that was stored before the change in the lottery settings. There is a possibility that it will be stored away. On the other hand, according to the present aspect, the game history basic information stored before the lottery settings are changed is sufficient as the game history basic information acquired and stored after the lottery settings are changed as statistical data. Since the lottery settings are not deleted until a predetermined amount has been accumulated, it is possible to prevent the administrator of the pachinko machine from changing the lottery settings due to fraudulent intentions.

Furthermore, the inspector of the pachinko machine 10 can check whether the game history information displayed on the game history information display section 45z is a flashing display or a lit display, thereby determining whether the game history information has been acquired after the lottery settings have been changed. It becomes possible to easily grasp whether or not the game history basic information stored as statistical data has been accumulated to a predetermined amount sufficient as statistical data.

In addition, various criteria other than the total number of prize balls may be adopted as conditions for erasing the basic game history information stored before the lottery settings were changed and for switching from a blinking display to a lit display. can. For example, the total value of the number of game balls that have passed through the discharge passage (the number of game balls that have been fired onto the game board 30) may be used as a reference.

<Aspect 63>
In the above aspect 57 (configuration where lottery settings for winning lottery can be changed), it is also possible to store and display game history basic information and game history information for the most recent periods with the change in past lottery settings as the boundary. good. When the lottery settings of the pachinko machine 10 are changed, the game history basic information acquired and stored after the lottery settings of the pachinko machine 10 are changed is accumulated to a predetermined amount sufficient as statistical data. Until now, the game history basic information and game history information for the oldest period among the most recent periods that have already been stored were not deleted, and were acquired and stored after the lottery settings of the pachinko machine 10 were changed. After the game history basic information is accumulated to a predetermined amount sufficient as statistical data, the game history basic information and game history information for the oldest period among the most recent periods already stored may be deleted. good.

Specifically, for example, when the lottery settings of the pachinko machine 10 are changed, the total prize ball aggregate value as the game history basic information acquired and stored after the lottery settings of the pachinko machine 10 is changed. Until the number of prize balls reaches 60,000, the game history basic information and game history information for the oldest period among the most recent periods already stored are not deleted, and the lottery settings of the pachinko machine 10 are changed. Game history acquired and stored after the total number of prize balls in the prize ball aggregate value as basic information reaches 60,000, the game history in the oldest period among the most recent periods already stored. It may also be configured to erase basic information and game history information.

According to this aspect, the inspector of the pachinko machine 10 is able to check the gaming history information for each of the most recent periods with the past change of lottery settings in the pachinko machine 10 as the boundary. That is, the inspector can confirm whether or not there was a situation in which the game history information did not fall within an appropriate range during the process in which the lottery settings were changed in the past in the pachinko machine 10.

Furthermore, according to this aspect, the game history basic information and the game history information in the most recent periods with past changes in the lottery settings as boundaries are intentionally changed by repeatedly changing the lottery settings of the pachinko machine 10. It is possible to prevent the data from being deleted.

For example, if the game history basic information and game history information for the oldest period of the recent plural periods with past lottery setting changes as boundaries are changed immediately after the lottery settings of the pachinko machine 10 are changed, If a deletion configuration is adopted, before the pachinko machine 10 is inspected by an inspector, the administrator of the pachinko machine 10 will repeatedly change the lottery settings, There is a possibility that basic game history information and game history information will be erased.

On the other hand, according to this aspect, the basic game history information and the game history information for the oldest period among the most recent periods with the past change in lottery settings as the boundary are changed after the lottery settings are changed. Since the acquired and stored game history basic information is not deleted until a predetermined amount sufficient as statistical data is accumulated, it is possible to prevent the administrator of the pachinko machine 10 from changing the lottery settings due to fraudulent intentions. .

<Aspect 64>
In the above-mentioned aspect 57 (a configuration in which the lottery setting of the winning lottery can be changed), the acquired game history basic information is stored separately for each lottery setting of the pachinko machine 10 at the time of acquisition, and the game history information is stored for each lottery setting. It may also be configured to calculate and display.

Specifically, for example, when storing the game history basic information in various memories, information that can specify the lottery setting at the timing when the game history basic information was acquired is added and stored. When calculating and displaying the game history information, the basic game history information may be extracted for each lottery setting, and the game history information for each lottery setting may be calculated and displayed.

In addition, as another specific configuration, storage areas corresponding to each lottery setting are provided in various memories, and when storing acquired game history basic information, the memory area corresponding to the currently set lottery setting is stored. It may also be configured to store the information. For example, when the pachinko machine 10 is set to lottery setting 1, the acquired game history basic information is stored in the storage area corresponding to lottery setting 1, and when the pachinko machine 10 is set to lottery setting 2, the acquired game history basic information is stored in the storage area corresponding to lottery setting 1. In this step, the acquired game history basic information is stored in a storage area corresponding to lottery setting 2. When calculating and displaying the game history information, it may be configured to calculate and display the game history information for each lottery setting based on the game history basic information stored in each storage area.

According to such a configuration, the inspector of the pachinko machine 10 can, for example, check the game history information calculated based on the basic game history information acquired when the pachinko machine 10 is set to the lottery setting 1. , each game history calculated for each lottery setting of the pachinko machine 10, such as game history information calculated based on basic game history information acquired when the pachinko machine 10 is set to lottery setting 2. You can check the information. Then, the inspector confirms whether the game history information calculated for each lottery setting of the pachinko machine 10 is within the appropriate range, and thereby determines whether the game history information is appropriate for the pachinko machine 10. It is possible to check whether there are any lottery settings that do not fall within the specified range.

<Aspect 65>
In the above aspect 57, the lottery settings of the pachinko machine 10 are displayed on the game history information display section 45z, but a lottery settings display section that displays the lottery settings of the pachinko machine 10 is provided separately from the game history information display section 45z. It may also be configured to be provided on the back side of the pachinko machine 10.

<Aspect 66>
In each of the above embodiments, the calculated numerical value of the game history information itself is displayed on the game history information display section 45z, but the numerical value of the game history information itself is not displayed, and the numerical value of the game history information falls within a predetermined range. It may be configured to display information indicating whether or not the amount is within the range on the game history information display section 45z or other display section. For example, it may be configured to display whether or not the accessory ratio and the continuous accessory ratio as game history information are each within a predetermined range by the color of the LED lamp that is emitted.

<Aspect 67>
In each of the above embodiments, the game history information display section 45z provided on the back of the pachinko machine 10 may have a configuration in which four 7-segment displays are arranged adjacent to each other in a horizontal row. Note that the gaming history information display section 45z not only displays gaming history information, but also displays setting information instead of gaming history information during the setting change mode in which lottery settings are changed. It is also called "section 45z".

FIG. 35 is an explanatory diagram showing the configuration of the information display section 45z in aspect 67. The information display section 45z is configured by four 7-segment displays 45z1 to 45z4 arranged adjacent to each other in a horizontal row. Each of the 7-segment displays 45z1 to 45z4 includes seven segment light-emitting sections A to G and a DP light-emitting section that indicates a decimal point. , "2", "3", "4", "5", "6", "7", "8", "9", "0", "b", "L.", "6." It is possible to display various numbers, characters, symbols, etc. In this embodiment, the seven segment light emitting units A to G and the DP light emitting unit are composed of red LEDs (light emitting diodes).

Note that, hereinafter, the 7-segment display 45z1 located at the left end is also referred to as the left-most 7-segment display 45z1, and the 7-segment display 45z2 located adjacent to the right side of the left-most 7-segment display 45z1 is referred to as the left-most 7-segment display 45z1. The 7-segment display 45z3, which is also called the display 45z2 and is located adjacent to the right side of the middle-left 7-segment display 45z2, is also called the middle-right 7-segment display 45z3, which is located adjacent to the right of the middle-right 7-segment display 45z3. The 7-segment display 45z4 located at the right end is also referred to as the right-most 7-segment display 45z4.

As shown in FIG. 35, when displaying gaming history information, the leftmost 7-segment display 45z1 and the middle left 7-segment display 45z2 display type information, which is information for identifying the type of gaming history information to be displayed. It is used as an area to display (type information display area). In addition, the middle right 7-segment display 45z3 and the rightmost 7-segment display 45z4 are used as an area (numerical information display area) for displaying numerical information of game history information corresponding to the type displayed in the type information display area. Ru. A specific example in which game history information is displayed on the information display section 45z will be described below.

FIG. 36 is an explanatory diagram showing how game history information is displayed on the information display section 45z. In addition, in FIG. 36, the segment light emitting parts and DP light emitting parts that are lit are shown filled in black, and the segment light emitting parts and DP light emitting parts that are turned off are not filled in black and are shown in white. It is written in an uncut state. The same applies to the drawings after FIG. 37.

In the pachinko machine 10 of this embodiment, the main controller 60 always displays game history information on the information display section 45z except during the setting change mode for changing the lottery settings described above. In the pachinko machine 10 of this embodiment, the main controller 60 calculates the above-mentioned ball hitting rate (during normal mode) as game history information, and displays the calculated ball hitting rate (during normal mode) on the information display section 45z. to be displayed. The definition of ball launch rate (during normal mode) is as follows.
・Ball output rate (during normal mode)
= Total number of game balls paid out as prize balls during the normal mode / Number of game balls fired onto the game board 30 during the normal mode (= Number of game balls that passed through the discharge path during the normal mode (normal Number of outs in mode))
Note that, as described above, being in normal mode means a mode that is not in high probability mode, not in high frequency support mode, and not in opening/closing execution mode based on jackpot winning. In addition, below, the pitching rate (during normal mode) is also referred to as "base (during normal mode)."

In the pachinko machine 10 of this embodiment, the main control device 60 divides into sections every time the measured number of discharge passage passages N _OUT reaches 60,000, and calculates the base (in normal mode) for each section. Then, the information display section 45z alternately displays two types of bases (in normal mode) with different sections to be calculated. Specifically, the information display section 45z of this aspect displays the following two types of bases (in normal mode).

・"bL": Base under measurement (in normal mode)
Ball exit rate calculated in the current section until the number of balls passing through the discharge passage currently being measured N _OUT reaches 60,000 balls (during normal mode)
・“b6”: Measured base (in normal mode)
The exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000 and the section immediately before the section currently being measured (during normal mode)

In the pachinko machine 10 of this embodiment, the information display section 45z alternately displays "bases being measured (in normal mode)" and "bases already measured (in normal mode)" every 5 seconds.

When the information display section 45z displays "Base being measured (in normal mode)", it displays "bL." in the type information display area, and displays "Base being measured (in normal mode)" in the numerical information display area. )” is displayed in two digits. Specifically, when displaying "bL." in the type information display area, the segment light-emitting parts C, D, E, F, and G of the leftmost 7-segment display 45z1 emit light, and the middle 7-segment on the left The segment light emitting parts D, E, F and DP light emitting part of the display device 45z2 are in a state where they emit light. Numerical information of "base under measurement (in normal mode)" is displayed on the right middle 7-segment display 45z3 and the rightmost 7-segment display 45z4, which constitute the numerical information display area. In addition, in this aspect, the integer part of a numerical value obtained by rounding off the value of the calculated "base under measurement (in normal mode)" to the third decimal place and multiplying by 100 is displayed in the numerical information display area. In the example shown in FIG. 36, the information display section 45z displays information such as "bL.35", and the value of "base under measurement (in normal mode)" rounded to the second decimal place is It means "0.35". Also, if the value of "base under measurement (in normal mode)", which is rounded to the second decimal place, is "1.00" or more, the value multiplied by 100 will be 100 or more, so in this case , the information display section 45z displays information such as "bL.99."

When the information display section 45z displays "measured base (in normal mode)", it displays "b6." in the type information display area, and displays "measured base (in normal mode)" in the numerical information display area. )” is displayed in two digits. Specifically, when displaying "b6." in the type information display area, the segment light emitting parts C, D, E, F, and G of the leftmost 7 segment display 45z1 are in a state of emitting light, and the left middle 7 segments The segment light emitting parts A, C, D, E, F, G and DP light emitting parts of the display device 45z2 are in a state of emitting light. Numerical information of "measured base (in normal mode)" is displayed on the right middle 7-segment display 45z3 and the rightmost 7-segment display 45z4 that constitute the numerical information display area. In this aspect, the integer part of a numerical value obtained by rounding off the third decimal place of the calculated "measured base (in normal mode)" and multiplying by 100 is displayed in the numerical information display area. In the example shown in FIG. 36, the information display section 45z displays information such as "b6.35", and the value of "measured base (in normal mode)" rounded to the second decimal place is It means "0.35". Also, if the value of "measured base (in normal mode)" rounded to the second decimal place is "1.00" or more, the value multiplied by 100 will be 100 or more, so in this case , the information display section 45z displays information such as "b6.99."

In addition, in the pachinko machine 10 of this embodiment, when the information display section 45z displays the game history information, even if the numerical value to be displayed in the numerical information display area is a one-digit value, the middle right 7 "0" is displayed on the segment display 45z3 to display the numerical value in two digits. For example, if the value of "base under measurement (in normal mode)", which is rounded to the third decimal place, is "0.07", the value multiplied by 100 is 7, so in this case, , the information display section 45z displays information such as "bL.07".

Here, in the pachinko machine 10 of this embodiment, when displaying game history information, "bL." and "b6." are displayed alternately in the type information display area of the information display section 45z. Only two types of information are displayed. Therefore, in the pachinko machine 10 of this embodiment, when displaying game history information, the following light-emitting parts are used among the leftmost 7-segment display 45z1 and the left middle 7-segment display 45z2 that constitute the type information display area. (does not emit light).
[Light-emitting part in the type information display area that is not used when displaying game history information]
- Segment light emitting parts A, B and DP light emitting part of the leftmost 7 segment display 45z1 - Segment light emitting part B of the left middle 7 segment display 45z2

In other words, when displaying game history information, only the following light-emitting parts are used among the leftmost 7-segment display 45z1 and the left middle 7-segment display 45z2 that constitute the type information display area ).
[Light-emitting part of type information display area used when displaying game history information]
・Segment light-emitting parts C, D, E, F, G of the leftmost 7-segment display 45z1
・Segment light emitting parts A, C, D, E, F, G and DP light emitting parts of the left middle 7 segment display 45z2 For reference, FIG. 36 shows the type information display area used when displaying game history information. The light emitting part is shown with cross hatching.

Next, the display mode of the information display section 45z during the setting change mode for changing the lottery settings described above will be described. In this aspect, during the setting change mode, the information display section 45z displays setting information that is information indicating the current lottery setting or information indicating the changed lottery setting. This will be explained in detail below.

FIGS. 37 and 38 are explanatory diagrams showing how setting information is displayed on the information display section 45z during the setting change mode. 37 and 38 show that "1" to "6" are displayed in the numerical information display area of the information display section 45z as setting information (numerical information) indicating the lottery setting.

As described above, when the pachinko machine 10 is activated in the setting change mode, the information display section 45z displays numerical information indicating the current lottery setting in the numerical information display area. Then, when the administrator presses the settings change button, the information display section 45z displays numerical information indicating the changed lottery settings in the numerical information display area. Then, when the administrator turns the setting change key from the setting change side to the original position, the setting change mode ends, and the information display section 45z displays the game history information in the numerical information display area again.

In this aspect, in the setting change mode, "-- (two hyphens)" is displayed in the type information display area of the information display section 45z, and "1" to "6" are displayed in the numerical information display area. One of the setting information is displayed. A display pattern such as "-- (two hyphens)" displayed in the type information display area during the setting change mode is a display pattern that is not displayed when displaying information regarding the type of game history information.

Specifically, in the setting change mode, the segment light emitting section G of the leftmost seven segment display 45z1 that constitutes the type information display area of the information display section 45z emits light, and the segment light emitting section G of the left middle seven segment display 45z2 emits light. G emits light. That is, in the pachinko machine 10 of this embodiment, only the light emitting section used when displaying game history information is used during the setting change mode. In other words, the light emitting parts that are not used when displaying game history information are not used even during the setting change mode.

Further, in this aspect, of the right middle 7 segment display 45z3 and the rightmost 7 segment display 45z4 that constitute the numerical information display area of the information display section 45z, the right middle 7 segment display 45z3 is not used, and the rightmost 7 segments Numerical information indicating lottery settings is displayed using only the display 45z4. That is, the numerical information display area of the information display section 45z can display 2-digit numerical information, but in the setting change mode, "0" is displayed on the middle right 7-segment display 45z3 of the first digit. is turned off without being displayed, and numerical information of one of "1" to "6" indicating the lottery setting is displayed only on the rightmost 7-segment display 45z4 of the second digit.

As explained above, according to this aspect, in the case where the numerical information of the gaming history information is displayed in the numerical information display area of the information display section 45z and the case where the numerical information regarding the lottery setting is displayed, The display mode of the type information display area will be clearly different. Therefore, for example, the administrator of the pachinko machine 10 can clearly distinguish whether the numerical information display area of the information display section 45z is displaying numerical information on game history information or numerical information regarding lottery settings. It can be recognized separately. As a result, it is possible to prevent the administrator of the pachinko machine 10 from misinterpreting the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information regarding lottery settings. can.

Furthermore, according to this feature, the light emitting parts of the type information display area that are not used when displaying game history information (segment light emitting parts A, B, DP light emitting part of the leftmost 7 segment display 45z1, left middle 7 segment display Since the segment light emitting section B) of 45z2 is not used even during the setting change mode, there is an unused light emitting section (hereinafter referred to as an unused light emitting section) in the type information display area. Therefore, for example, even if a problem occurs in an unused light emitting section in the type information display area, the display mode in the type information display area is not affected. As a result, it is possible to reduce the possibility that the display mode will be affected when a problem occurs in the light emitting section of the type information display area.

Further, for example, since a light emitting element (LED) serving as an unused light emitting section does not need to emit light, parts necessary for causing the light emitting element to emit light can be omitted. Therefore, the cost of the information display section 45z can be reduced.

Furthermore, according to this aspect, the number of digits of the displayed numerical value is different between when numerical information related to game history information is displayed in the numerical information display area and when numerical information related to lottery settings is displayed. Therefore, even if a problem occurs with the display of the type information display area, the administrator will be asked whether the numerical information displayed in the numerical information display area is gaming history information, and whether the setting information It is possible to clearly distinguish and recognize whether the That is, when a two-digit number is displayed in the numerical information display area of the information display section 45z, the administrator determines that the numerical value displayed in the numerical information display area is game history information, and If a one-digit numerical value is displayed in the information display area, it can be determined that the numerical value displayed in the numerical information display area is setting information.

<Aspect 68>
In the above aspect 67, the information display section 45z has a configuration in which "-- (two hyphens)" is displayed in the type information display area during the setting change mode. In the mode, the type information display area may be configured to display "-- (two hyphens)" blinking.

According to such a configuration, the type information display area is different between when the numerical information of the game history information is displayed in the numerical information display area of the information display section 45z and when the numerical information about the lottery setting is displayed. The display mode will be even more clearly different. Therefore, for example, it is possible to further clarify for the administrator of the pachinko machine 10 whether the numerical information display area of the information display section 45z is displaying numerical information on game history information or numerical information regarding lottery settings. They can be distinguished and recognized. As a result, it is possible to prevent the administrator of the pachinko machine 10 from misinterpreting the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information regarding lottery settings. can.

Furthermore, according to this aspect, during the setting change mode in which numerical information related to lottery settings is displayed in the numerical information display area, "-- (two hyphens)" in the type information display area blinks, so that the pachinko It is possible to alert the administrator of the machine 10 that this is an important situation in which the lottery settings should be changed carefully.

<Aspect 69>
In the above aspect 67, the information display section 45z has a configuration in which "-- (two hyphens)" is displayed in the type information display area during the setting change mode. In the mode, nothing may be displayed in the type information display area. This will be explained in detail below.

FIGS. 39 and 40 are explanatory diagrams showing how setting information is displayed on the information display section 45z during the setting change mode. 39 and 40 show that "1" to "6" are displayed as numerical information indicating the lottery setting in the numerical information display area of the information display section 45z. Further, as shown in FIG. 39, in this aspect, in the setting change mode, all of the leftmost 7-segment display 45z1 and the middle left 7-segment display 45z2 that constitute the type information display area of the information display section 45z The segment light emitting section and the DP light emitting section are turned off. That is, as described above, in the setting change mode, nothing is displayed in the type information display area of the information display section 45z.

In this way, according to this aspect, the type information is displayed in the numerical information display area of the information display section 45z depending on whether the numerical information of the game history information is displayed or the numerical information regarding the lottery setting is displayed. The display mode of the display area will be clearly different. Therefore, for example, the administrator of the pachinko machine 10 can clearly distinguish whether the numerical information display area of the information display section 45z is displaying numerical information on game history information or numerical information regarding lottery settings. It can be recognized separately. As a result, it is possible to prevent the administrator of the pachinko machine 10 from misinterpreting the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information regarding lottery settings. can.

Furthermore, according to this aspect, even if a problem occurs in which some of the light emitting parts (segment light emitting parts A to G, etc.) forming the type information display area do not emit light, all the light emitting parts do not emit light. Unless such a serious problem occurs, the display mode of the type information display area will be different depending on whether game history information is displayed or setting information for lottery settings is displayed. Therefore, according to this aspect, even if there is a problem in which some of the light emitting units (LEDs) forming the type information display area do not emit light, the administrator can inform the administrator that all the light emitting units do not emit light. As long as no serious malfunction has occurred, it is possible to distinguish and recognize whether the numerical information displayed in the numerical information display area is game history information or lottery setting setting information. In other words, if at least some of the light-emitting parts in the type information display area are emitting light, the administrator determines that the numerical values displayed in the numerical information display area are gaming history information, and then displays the type information display area. Only when all the constituent light emitting parts are off, it can be determined that the numerical value displayed in the numerical information display area is the setting information of the lottery setting.

<Aspect 70>
In the above aspect 67, the information display section 45z has a configuration in which "-- (two hyphens)" is displayed in the type information display area during the setting change mode. During the mode, a configuration may be adopted in which a plurality of types of display patterns are switched and displayed in the type information display area in a short period of time (for example, every 0.5 seconds). This will be explained in detail below.

FIG. 41 is an explanatory diagram showing how setting information is displayed on the information display section 45z during the setting change mode. In the example shown in FIG. 41, "1" is displayed as numerical information indicating the lottery setting in the numerical information display area of the information display section 45z. In the pachinko machine 10 of this embodiment, during the setting change mode, the following two types of display patterns are alternately displayed in the type information display area of the information display section 45z, switching every 0.5 seconds.

・Display pattern A of type information display area:
Display pattern in which segment light-emitting parts C, D, E, and G of the leftmost 7-segment display 45z1 are lit (light-emitting), and all the light-emitting parts of the middle left 7-segment display 45z2 are turned off.Display pattern B of the type information display area :
A display pattern in which all the light-emitting parts of the left-most 7-segment display 45z1 are turned off, and the segment light-emitting parts C, D, E, and G of the middle-left 7-segment display 45z2 are lit (light-emitting).

Display pattern A and display pattern B described above are display patterns that are not displayed in the type information display area when displaying game history information. Furthermore, in display pattern A and display pattern B, only the light emitting section used when displaying game history information is used. In other words, in display pattern A and display pattern B, light emitting parts that are not used when displaying game history information are not used.

In this way, according to this aspect, the type information is displayed in the numerical information display area of the information display section 45z depending on whether the numerical information of the game history information is displayed or the numerical information regarding the lottery setting is displayed. The display mode of the display area will be clearly different. Therefore, for example, the administrator of the pachinko machine 10 can clearly distinguish whether the numerical information display area of the information display section 45z is displaying numerical information on game history information or numerical information regarding lottery settings. It can be recognized separately. As a result, it is possible to prevent the administrator of the pachinko machine 10 from misinterpreting the numerical information displayed in the numerical information display area between the numerical information of the game history information and the numerical information regarding lottery settings. can.

Further, according to this aspect, the display pattern in the type information display area dynamically changes during the setting change mode in which numerical information regarding lottery settings is displayed in the numerical information display area, so that the pachinko machine 10 It is possible to alert the administrator that this is an important situation in which changes to lottery settings should be made carefully.

Furthermore, according to this aspect, the light emitting parts of the type information display area that are not used when displaying game history information (segment light emitting parts A, B, DP light emitting part of the leftmost 7 segment display 45z1, left middle 7 segment display Since the segment light emitting section B) of 45z2 is not used even during the setting change mode, there is an unused light emitting section (hereinafter referred to as an unused light emitting section) in the type information display area. Therefore, for example, even if a problem occurs in an unused light emitting section in the type information display area, the display mode in the type information display area is not affected. As a result, it is possible to reduce the possibility that the display mode will be affected when a problem occurs in the light emitting section of the type information display area.

Further, since the light emitting element (LED) serving as the unused light emitting section does not need to emit light, parts necessary for causing the light emitting element to emit light can be omitted. Therefore, the cost of the information display section 45z can be reduced.

Note that in this aspect, during the setting change mode, two types of display patterns are alternately displayed in the type information display area of the information display section 45z, but three or more types of display patterns are sequentially switched. It may also be configured to be displayed repeatedly.

<Aspect 71>
In each of the above aspects, if the "number of game balls that passed through the discharge path during normal mode (number of outs during normal mode)" being measured is less than 6,000, for example, "bL." in the type information display area. may be displayed blinking, and if the number is 6000 or more, the display may be lit. According to such a configuration, a person who confirms the flashing display of "bL." in the type information display area can check the number of game balls that passed through the ejection path during the normal mode (the number of outs during the normal mode) during measurement. )" is less than 6,000, and the numerical value displayed in the numerical information display area is the "base under measurement (in normal mode)" calculated when a sufficient amount of statistical data has not been accumulated. It can be recognized that

In addition, when "bL." in the type information display area is displayed as a lighted display, the "number of game balls that passed through the discharge passage during normal mode (number of outs during normal mode)" during measurement is less than 6,000, for example. In this case, the numerical value in the numerical information display area may be displayed blinking, and if it is 6000 or more, the numerical value may be displayed lit. According to such a configuration, a person who confirms the blinking numerical value in the numerical information display area can check the "number of game balls that passed through the discharge passage during normal mode (number of outs during normal mode)" during measurement. If the number is less than 6,000, it is recognized that the numerical value displayed in the numerical information display area is the "base under measurement (in normal mode)" calculated in a state where a sufficient amount of statistical data has not been accumulated. be able to.

In addition, if the "number of game balls that passed through the discharge path during normal mode (number of outs during normal mode)" during measurement is less than 6,000, for example, "bL." in the type information display area and numerical information It may be configured such that the numerical value in the display area is displayed blinking, and when it is 6000 or more, the numerical value is displayed lit. According to such a configuration, a person who confirms the blinking display of "bL." in the type information display area and the numerical value in the numerical information display area can check the "number of game balls that passed through the discharge path during the normal mode" during measurement. (Number of outs in normal mode) is less than 6000, and the numerical value displayed in the numerical information display area is the "Base under measurement" (number of outs in normal mode) calculated when a sufficient amount of statistical data has not been accumulated. It can be recognized that the computer is in normal mode).

In addition, various game history basic information can be adopted as a criterion for determining whether the display is blinking or lit. For example, "the number of game balls that have passed through the discharge path (total number of outs)" during measurement may be used.

<Aspect 72>
In each of the above aspects, during the setting change mode, when displaying numerical information indicating the lottery setting in the numerical information display area, all the light emitting parts constituting the middle right 7-segment display 45z3 are turned off. First, only the rightmost 7-segment display 45z4 was used to display the numerical information indicating the lottery settings in one digit, but instead of this configuration, the middle-right 7-segment display 45z3 was also used to display the numerical information in two digits. It may also be configured to display numerical information indicating the lottery settings. For example, if the numerical information indicating the lottery setting is only one-digit information, a configuration may be adopted in which "0" is displayed on the right middle 7-segment display 45z3.

<Aspect 73>
In each of the above aspects, the number of lottery settings is not limited to six types from 1 to 6, and the number of lottery settings may be 5 or less or 7 or more. Furthermore, the number of seven-segment displays constituting the information display section 45z is not limited to four, and may be three or less, or five or more. Furthermore, the number of seven-segment displays constituting the type information display area of the information display section 45z is not limited to two, but may be one, or three or more. Furthermore, the number of seven-segment displays constituting the numerical information display area of the information display section 45z is not limited to two, but may be one, or three or more. Further, the information display section 45z may be configured with a light emitting element other than an LED such as an organic EL, or may be configured with a display element (display element) that does not emit light. For example, the information display section 45z may be configured with a display element that employs a liquid crystal or an electrophoresis method used in electronic paper.

<Aspect 74>
FIG. 42 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 74 of the first embodiment. In this aspect 74, the game history management chip 300 is not provided, and the main CPU 62x is configured to calculate the game history information described above. In the following, details of various configurations included in the main control device 60 will be described, and other configurations will be denoted by the same reference numerals as in the first embodiment and each aspect described above, and detailed description thereof will be omitted.

As shown in FIG. 42, the main ROM 63 includes a program storage means 63a and a program data storage means 63b. The main RAM 64 includes data storage means 64a and stack means 64b.

The main CPU 62x includes a register set 62x1, and performs various processes by combining and executing a plurality of programs stored in the program storage means 63a of the main ROM 63. Note that each program is configured by combining a plurality of instructions reserved in advance, such as an arithmetic instruction, a transfer instruction, a rotate instruction, a shift instruction, a jump instruction, a call instruction, and a return instruction, and the main CPU 62x Executes multiple instructions sequentially in the order defined in the program.

The register set 62x1 includes an A register (accumulator register), an F register (flag register), a general-purpose register, and a stack pointer (SP). Note that the A register and the general-purpose register are formed in a size of 1 byte (8 bits), and the stack pointer (SP) is formed in a size of 2 bytes (16 bits). Further, the register set 62x1 may include other registers, such as an index register, an interrupt register, a refresh register, a program counter, and the like.

The A register stores data (values) to be operated on by an operation instruction and operation results.

The state of the F register automatically changes depending on the result of an operation instruction or the execution result of a specific instruction such as a load instruction.

General-purpose registers are used in the same way as general program variables; specifically, they are used to temporarily store data (values), configure counters, and specify memory addresses. used to.

The stack pointer (SP) is a stack pointer for accessing a first stack area 64b1 (see FIG. 44 described later) and a second stack area 64b2 (see FIG. 44 described later) that the stack means 64b configured in the main side RAM 64 has. Stores the address for pointer reference. Specifically, the stack pointer (SP) stores the first stack area reference address SP1 when accessing the first stack area 64b1, and stores the second stack area reference address SP1 when accessing the second stack area 64b2. Store address SP2.

FIG. 43 is an explanatory diagram showing the configuration of the main side ROM 63. As described above, the main ROM 63 includes a program storage means 63a and a program data storage means 63b.

The program storage means 63a has a first program control area 63a1 that stores a first program 63p1, and a second program control area 63a2 that is different from the first program control area 63a1 and stores a second program 63p2. are doing.

The first program 63p1 includes a game progress program, a storage program, and a change program. The main CPU 62x executes a game progress process to control the progress of the game by executing a game progress program, performs a storage process by executing a storage program, and performs a change process by executing a change program. Implement. Details of the game progress processing, storage processing, and change processing will be described later.

The second program 63p2 includes a game history information calculation and display program, a save program, and a return program. The main CPU 62x executes a game history information calculation and display process to calculate and display the game history information described above by executing a game history information calculation and display program, and executes a save process by executing a save program. Then, the return process is executed by executing the return program. Details of the game history information calculation and display process, the save process, and the return process will be described later.

The program data storage means 63b is an area different from the first program data area 63b1 and a first program data area 63b1 that stores various data necessary when executing the first program 63p1, and is an area for the second program 63p2. It has a second program data area 63b2 that stores various data necessary for executing the program. The first program data area 63b1 stores, for example, data such as a win/fail table and a distribution table used in the above-mentioned winning lottery process, and the second program data area 63b2 stores, for example, data in the game history information calculation and display process. Stores various fixed value data to be used.

As described above, the first program control area 63a1 stores the first program 63p1, the first program data area 63b1 stores data necessary for executing the first program 63p1, and the first program control area 63b1 stores the second program 63p2. The second program control area 63a2 and the second program data area 63b2 storing data necessary for executing the second program 63p2 are configured in different areas of the main ROM 63, respectively.

FIG. 44 is an explanatory diagram showing the configuration of the main side RAM 64. As described above, the main RAM 64 includes a data storage means 64a and a stack means 64b.

The data storage means 64a includes a first data storage area 64a1 corresponding to a first program 63p1 whose data can be updated, and an area different from the first data storage area 64a1 and which corresponds to a second program 63p2 whose data can be updated. It has a second data storage area 64a2. The first data storage area 64a1 stores, for example, various data (various flags such as a high probability mode flag) that are updated in the game progress process, and the second data storage area 64a2 stores, for example, game history. Various types of data updated in the information calculation and display process are stored.

The stack means 64b is an area different from the first stack area 64b1 and a first stack area 64b1 that can be accessed by the first stack area reference address SP1 stored in the stack pointer (SP), and It has a second stack area 64b2 that can be accessed by the second stack area reference address SP2 stored in the second stack area 64b2. The first stack area 64b1 corresponds to the first program 63p1 (gaming progress program, storage program, change program), and the second stack area 64b2 corresponds to the second program 63p2 (game history information calculation and display program, save program, return program). program).

As described above, the first stack area 64b1 and the first data storage area 64a1, which can update and refer to data through processing by the first program 63p1 (game progress program, storage program, change program), and the second program 63p2 ( A second stack area 64b2 and a second data storage area 64a2, in which data can be updated and referenced through processing by a game history information calculation/display program, a save program, and a return program, are configured in different areas of the main RAM 64, respectively. ing. Although the data in the second stack area 64b2 and the second data storage area 64a2 cannot be updated due to the processing by the first program 63p1, the data can be referred to. Although the data in the area 64b1 and the first data storage area 64a1 cannot be updated, the data can be referenced.

FIG. 45 is a schematic diagram showing an example of a memory map of the main controller 60. As shown in FIG. 45, in the memory space in this embodiment, a built-in ROM area corresponding to the main side ROM 63 and a built-in RAM area corresponding to the main side RAM 64 are allocated in this order. In this aspect, in the built-in ROM area, the first program control area 63a1, the first program data area 63b1, the unused area, the second program control area 63a2, and the second program data area 63b2 are allocated in this order. In the built-in RAM area, a first data storage area 64a1, a first stack area 64b1, a second data storage area 64a2, a second stack area 64b2, and an unused area are allocated in this order.

FIG. 46 is a flowchart showing timer interrupt processing executed by the main CPU 62x in aspect 74 of the first embodiment. Note that in this aspect as well, the timer interrupt process is executed at a cycle of 4 msec, as in the first embodiment.

It should be noted that each process described on the left side of the paper in FIG. Each process described on the right side of the paper is a process executed by the main CPU 62x executing the second program 63p2 stored in the second program control area 63a2.

In step S11101, the main CPU 62x executes a game progress process, which is a process for progressing the game, by executing the game progress program included in the first program 63p1. Specifically, in the game progress processing, the processing group shown from step S10601 to step S10615 in FIG. 27 described above is executed. After performing the process in step S11101, the process advances to step S11102.

In step S11102, the main CPU 62x performs storage processing by executing the storage program included in the first program 63p1. In storage processing, a push instruction (PUSH) is used to move the values of the A register and F register among multiple registers to the first stack accessible by the first stack area reference address SP1 stored in the stack pointer (SP). It is stored in the area 64b1. At this time, the values of the A and F registers are stored in the first stack area 64b1 by one push instruction (PUSH AF) using a special code AF that specifies the A and F registers as transfer targets.

After executing step S11102, the main CPU 62x executes the save process 1, 2, and 3 shown in steps S11103 to S11105 by executing the save program included in the second program 63p2. This will be explained in detail below.

In the saving process 1 shown in step S11103, the load instruction (LD (W21), SP) transfers the first stack area reference address SP1 stored in the stack pointer (SP) to the address W21 of the second data storage area 64a2. Store in the area specified by . At this time, the value of the F flag may change due to a change in the state of the TZ flag of the F register due to a load instruction. After executing the save process 1 in step S11103, the process advances to step S11104.

In the save process 2 shown in step S11104, the second stack area reference address SP2, which is a fixed value, is stored in the stack pointer (SP) by a load instruction (LD SP, fixed value). Note that the second stack area reference address SP2 stored in the stack pointer (SP) at this time is a fixed value stored in advance in the second program data area 63b2 of the main side ROM 63, for example. In this aspect, since no data is stored in the second stack area 64b2 at the time of executing the save process 2, the fixed value stored in the stack pointer (SP) in the save process 2 is the bottom of the second stack area 64b2. This is an address value indicating. After executing the save process 2 in step S11104, the process advances to step S11105.

In the save process 3 shown in step S11105, the values of the A register, F register, and general-purpose register are transferred to the area specified by the address W22 of the second data storage area 64a2 by multiple load instructions (LD (W22), register). to be memorized. Note that the configuration stores the values of the A register, F register, and general-purpose register in the second data storage area 64a2 by one load instruction using a special code that specifies the A register, F register, and general-purpose register as transfer targets. You can also use it as After performing the process in step S11105, the process advances to step S11106.

In step S11106, the main CPU 62x executes the game history information calculation and display process by executing the game history information calculation and display program included in the second program 63p2. In the game history information calculation and display process, a process for calculating the game history information described above and displaying the calculated game history information on the information display section 45z is executed. Specifically, in the game history information calculation and display process, the process group shown in steps S10802 to S10812 in FIG. 29 described above is executed. At this time, in the game history information calculation and display process, the values of the A register, F register, and general-purpose register change.

After executing the game history information calculation and display process in step S11106, the main CPU 62x executes the return processes 1 and 2 shown in steps S11107 and S11108 by executing the return program included in the second program 63p2. This will be explained in detail below.

In the return process 1 shown in step S11107, the values of the A register, F register, and general-purpose register are saved in the second data storage area in the save process 3 (step S11105) by multiple load instructions (LD register, (W22)). The value stored in the area specified by address W22 of 64a2 is set. Note that a configuration may also be used in which the values of the A register, F register, and general-purpose register are set to the values stored in the second data storage area 64a2 in the save process 3 (step S11105) by a single load instruction using a special code. good. In this return process 1, if the value of the F register has changed in the save process 1 (step S11103), a value different from that immediately after the game progress process is ended is stored in the F register. After performing the process in step S11107, the process advances to step S11108.

In return processing 2 shown in step S11108, the load instruction (LD SP, (W21)) restores the first stack area stored in the area specified by address W21 of the second data storage area 64a2 in save processing 1 (step S11103). The reference address SP1 is stored in the stack pointer (SP), and the main CPU 62x ends the execution of the second program 63p2. After performing the process in step S11108, the process advances to step S11109.

In step S11109, the main CPU 62x executes the change process by executing the change program included in the first program 63p1. In the change processing, the values of the A register and F register among the A register, F register, and general-purpose register whose values were set in the return processing 1 (step S11107) are stored in the storage processing (step S11102) by the pop instruction (POP). The value is changed to the value stored in the first stack area 64b1. At this time, one pop instruction (POP AF) using a special code changes the values of the A register and F register to the values stored in the first stack area 64b1 by storage processing (step S11102). At this time, in return processing 1 (step S11107), even if a different value is stored in the F register than immediately after the game progress process ends, the value of the F register is changed to the same value as immediately after the game progress process ends. can be changed to . After carrying out the process of step S11109, this timer interrupt process ends.

As explained above, according to this aspect, the save process 3 (step S11105 in FIG. 46) and the return process 1 (step S11107 in FIG. 46) are executed, so that the return process from the second program 63p2 to the first program 63p1 is In this case, it is possible to avoid problems caused by changes in the values of the registers used in the first program 63p1.

Further, according to this aspect, there is a possibility that the state of the F register changes before the save process 3 is executed (for example, when a load instruction is executed in the save process 1 (step S11103 in FIG. 46)). Before executing the save process 1, the values of the A register and the F register are stored in the storage process by the storage program included in the first program 63p1 (step S11102 in FIG. 46), and after the process by the second program 63p2 is finished. , the values of the A register and the F register are changed to the values stored in the storage process in the change process (step S11109 in FIG. 46) by the change program included in the first program 63p1. Therefore, for example, even if the state of the F register changes in save processing 1, the state of the F register returns to the same state immediately after the end of the game progress processing (step S11101 in FIG. 46) by the first program 63p1. There is no risk of affecting the processing performed after returning from the processing by the 2 program 63p2. As a result, it becomes possible to configure multiple programs independently.

Further, according to this aspect, by simply adding a game history information calculation and display program for implementing the game history information calculation and display process (step S11106 in FIG. 46) to the second program 63p2, a game that controls the progress of the game can be implemented. Game history information calculation and display processing can be added without affecting the progress processing (step S11101 in FIG. 46). Therefore, the game history information calculation and display program can be easily created independently of the game progress program for implementing the game progress process.

Further, according to this aspect, as shown in FIG. 45, the memory space used by the process by the first program 63p1 and the memory space used by the process by the second program 63p2 are arranged independently from each other. Both memory spaces can be prevented from physically interfering with each other, and, for example, fraudulent acts performed on one process (memory space) can be prevented from affecting the other process (memory space). can do.

Further, according to this aspect, in the save process 3 (step S11105 in FIG. 46), all the values of each register are stored in the second stack area 64b2 by one push instruction (PUSH ALL). Since the configuration is such that the value of each register is stored in the second data storage area 64a2 by a load instruction, it is possible to store only the register that was being used in the second data storage area 64a2. Therefore, the storage capacity required to store the values of each register in the save process 3 can be reduced. Further, according to this aspect, the value of each register is not stored in the second stack area 64b2, but the value of each register is stored in the second data storage area 64a2, so that the main side RAM 64 It becomes possible to reduce the storage capacity of the second stack area 64b2 and expand the storage capacity of the second data storage area 64a2.

For example, if the amount of data to be stored in the stack area by a push instruction (PUSH) exceeds the upper limit of the storage capacity of the stack area of the main RAM 64, all of the data stored in the stack area will be If the configuration is such that a reset process for erasing data is performed, and if the configuration is such that the values of each register are stored in the second stack area 64b2 by a push instruction (PUSH) in save process 3, the reset process will be executed. There is a risk that you may be Furthermore, in save processing 3, if all the values of each register are stored in the second stack area 64b2 by one push instruction (PUSH ALL), the possibility that the reset processing will be executed becomes even higher. I end up. In contrast, according to this aspect, the push instruction (PUSH ALL) is not used in the save process 3, and the values of each register are stored in the second data storage area 64a2 by the load instruction (LD). It is possible to avoid the risk of the reset process being carried out.

<Aspect 75>
In the configuration shown in aspect 74 above, the timer interrupt process described below may be implemented instead of the timer interrupt process shown in FIG.

FIG. 47 is a flowchart showing timer interrupt processing executed by the main CPU 62x in aspect 75 of the first embodiment. Processes that are the same as those included in the timer interrupt process shown in FIG. 46 are given the same step numbers. The main differences from the timer interrupt processing shown in FIG. 46 are that the save processing 1 shown in step S11103 of FIG. 46 is omitted, and the contents of the return processing 2 shown in step S11108 of FIG. 46 are different. It is a point. This will be explained in detail below.

In step S11101, the main CPU 62x executes a game progress process, which is a process for progressing the game, by executing the game progress program included in the first program 63p1. Specifically, in the game progress processing, the processing group shown from step S10601 to step S10615 in FIG. 27 described above is executed. After performing the process in step S11101, the process advances to step S11102.

In step S11102, the main CPU 62x performs storage processing by executing the storage program included in the first program 63p1. In storage processing, a push instruction (PUSH) is used to move the values of the A register and F register among multiple registers to the first stack accessible by the first stack area reference address SP1 stored in the stack pointer (SP). It is stored in the area 64b1. At this time, the values of the A and F registers are stored in the first stack area 64b1 by one push instruction (PUSH AF) using a special code AF that specifies the A and F registers as transfer targets.

After executing step S11102, the main CPU 62x executes the save process 2 and 3 shown in step S11104 and step S11105 by executing the save program included in the second program 63p2. That is, in this aspect, the main CPU 62x does not perform the evacuation process 1 in step S11103 described above. This will be explained in detail below.

In the save process 2 shown in step S11104, the second stack area reference address SP2, which is a fixed value, is stored in the stack pointer (SP) by a load instruction (LD SP, fixed value). Note that the second stack area reference address SP2 stored in the stack pointer (SP) at this time is a fixed value stored in advance in the second program data area 63b2 of the main side ROM 63, for example. In this aspect, since no data is stored in the second stack area 64b2 at the time of executing the save process 2, the fixed value stored in the stack pointer (SP) in the save process 2 is the bottom of the second stack area 64b2. This is an address value indicating. After executing the save process 2 in step S11104, the process advances to step S11105.

In the save process 3 shown in step S11105, the values of the A register, F register, and general-purpose register are transferred to the area specified by the address W22 of the second data storage area 64a2 by multiple load instructions (LD (W22), register). to be memorized. Note that the configuration stores the values of the A register, F register, and general-purpose register in the second data storage area 64a2 by one load instruction using a special code that specifies the A register, F register, and general-purpose register as transfer targets. You can also use it as After performing the process in step S11105, the process advances to step S11106.

In step S11106, the main CPU 62x executes the game history information calculation and display process by executing the game history information calculation and display program included in the second program 63p2. In the game history information calculation and display process, a process for calculating the game history information described above and displaying the calculated game history information on the information display section 45z is executed. Specifically, in the game history information calculation and display process, the process group shown in steps S10802 to S10812 in FIG. 29 described above is executed. At this time, in the game history information calculation and display process, the values of the A register, F register, and general-purpose register change.

After executing the game history information calculation and display process in step S11106, the main CPU 62x executes the return process 1 and the return process A shown in steps S11107 and S11108a by executing the return program included in the second program 63p2. do. That is, in this aspect, the main CPU 62x performs the return process A shown in step S11108a instead of the return process 2 in step S11108 described above. This will be explained in detail below.

In the return process 1 shown in step S11107, the values of the A register, F register, and general-purpose register are saved in the second data storage area in the save process 3 (step S11105) by multiple load instructions (LD register, (W22)). The value stored in the area specified by address W22 of 64a2 is set. Note that a configuration may also be used in which the values of the A register, F register, and general-purpose register are set to the values stored in the second data storage area 64a2 in the save process 3 (step S11105) by a single load instruction using a special code. good. In this return process 1, if the value of the F register has changed in the save process 1 (step S11103), a value different from that immediately after the game progress process is ended is stored in the F register. Alternatively, a configuration may be adopted in which the values of the A register, F register, and general-purpose register are set to the values stored in the second data storage area 64a2 by multiple load instructions without using the special code. After performing the process in step S11107, the process advances to step S11108a.

In return processing A shown in step S11108a, the first stack area reference address SP1, which is a fixed value, is stored in the stack pointer (SP) by a load instruction (LD SP, fixed value). The first stack area reference address SP1 stored in the stack pointer (SP) at this time is a fixed value stored in advance in the second program data area 63b2 of the main side ROM 63, for example. This fixed value will be explained below.

In this aspect, the data stored in the first stack area 64b1 does not exist when all of the processes (processes from steps S10601 to S10615) constituting the game progress process (step S11101) are completed. Therefore, the first stack area reference address SP1 stored in the stack pointer (SP) is an address value that specifies the bottom of the first stack area 64b1.

Thereafter, when the main CPU 62x executes storage processing (step S11102) and starts executing the second program 63p2, a predetermined amount of data is stored in the first stack area 64b1. As a result, immediately after the main CPU 62x executes the storage process (step S11102) and starts execution of the second program 63p2 (timing TX1 shown in FIG. 47), the data stored in the stack pointer (SP) is stored in the stack pointer (SP). The first stack area reference address SP1 is an address value that specifies a position moved by a predetermined amount from the bottom of the first stack area 64b1.

Then, since the amount of data stored in the first stack area 64b1 by executing the storage process (step S11102) and starting the execution of the second program 63p2 is the same each time (for each timer interrupt process), the first stack area The amount of movement of the reference address SP1 is also the same each time. Therefore, the first stack stored in the stack pointer (SP) immediately after the main CPU 62x executes the storage process (step S11102) and starts execution of the second program 63p2 (timing TX1 shown in FIG. 47). The area reference address SP1 has the same address value every time.

Then, the fixed value stored in the stack pointer (SP) in the return process A (step S11108a) of this aspect is set at the point immediately after the storage process (step S11102) is finished and the execution of the second program 63p2 is started (FIG. 47 The address value is set to be the same as the address value stored in the stack pointer each time at timing TX1) shown in FIG. As a result, even if the above-mentioned save process 1 (step S11103 in FIG. 46) is omitted, the return process A (step S11108a) of this embodiment saves the value of the stack pointer (SP) and ends the storage process (step S11102). However, the value can be returned to the value at the time immediately after starting execution of the second program 63p2 (timing TX1 shown in FIG. 47).

The main CPU 62x finishes the process of step S11108a described above, finishes executing the second program 63p2, starts executing the first program 63p1, and proceeds to step S11109.

In step S11109, the main CPU 62x executes the change process by executing the change program included in the first program. In the change processing, the values of the A register and F register among the A register, F register, and general-purpose register whose values were set in the return processing 1 (step S11107) are stored in the storage processing (step S11102) by the pop instruction (POP). The value is changed to the value stored in the first stack area 64b1. At this time, one pop instruction (POP AF) using a special code changes the values of the A register and F register to the values stored in the first stack area 64b1 by storage processing (step S11102). At this time, the value of the F register has changed after the storage process (step S11102) has been performed, and in the return process 1 (step S11107), a value different from that immediately after the game progress process is finished is stored in the F register. Even in this case, the value of the F register can be changed to the same value as it was immediately after the game progress processing was completed. After carrying out the process of step S11109, this timer interrupt process ends.

As explained above, according to this aspect, in addition to the effects shown in aspect 74 described above, the following effects can be achieved.

In this aspect, the data stored in the first stack area 64b1 does not exist when all of the processes (processes from steps S10601 to S10615) constituting the game progress process (step S11101) are completed. Therefore, the first stack area reference address SP1 stored in the stack pointer (SP) is an address value that specifies the bottom of the first stack area 64b1. Therefore, the main CPU 62x executes the storage process (step S11102) and immediately after starting the execution of the second program 63p2 (timing TX1 shown in FIG. 47), the first The stack area reference address SP1 takes the same address value every time the timer interrupt process is executed. Therefore, since it is sufficient to store a fixed value in the stack pointer (SP) by the return process A (step S11108a) of this aspect, the save process 1 shown in aspect 74 can be omitted. As a result, the processing of the main CPU 62x can be simplified, and the second data storage area 64a2, which is necessary for saving the first stack area reference address SP1 stored in the stack pointer (SP), can be simplified. Storage capacity can be reduced.

<Aspect 76>
Instead of the timer interrupt process shown in FIG. 47, the timer interrupt process described below may be implemented.

FIG. 48 is a flowchart showing timer interrupt processing executed by the main CPU 62x in aspect 76 of the first embodiment. Processes that are the same as those included in the timer interrupt process shown in FIG. 47 are given the same step numbers. The main differences from the timer interrupt processing shown in FIG. 47 are that save processing 3 shown in step S11105 in FIG. 47 is omitted, and return processing 1 shown in step S11107 in FIG. 47 is omitted. Another point is that a process for setting the values of all registers to 0 is added after the processes shown in steps S11102 and S11108a in FIG. 48. This will be explained in detail below.

In step S11101, the main CPU 62x executes a game progress process, which is a process for progressing the game, by executing the game progress program included in the first program 63p1. Specifically, in the game progress processing, the processing group shown from step S10601 to step S10615 in FIG. 27 described above is executed. After performing the process in step S11101, the process advances to step S11102.

In step S11102, the main CPU 62x performs storage processing by executing the storage program included in the first program 63p1. In storage processing, a push instruction (PUSH) is used to move the values of the A register and F register among multiple registers to the first stack accessible by the first stack area reference address SP1 stored in the stack pointer (SP). It is stored in the area 64b1. At this time, the values of the A and F registers are stored in the first stack area 64b1 by one push instruction (PUSH AF) using a special code AF that specifies the A and F registers as transfer targets. After performing the process in step S11102, the process advances to step S11102-2.

In step S11102-2, the main CPU 62x executes the first clearing process by executing the first clearing program included in the first program 63p1. In the first clearing process, the values of the A register, F register, and general-purpose register are set to 0 by multiple load instructions (LD register, 0). Note that the configuration may be such that the values of the A register, F register, and general-purpose register are set to 0 by one load instruction using a special code.

After executing step S11102-2, the main CPU 62x executes the save process 2 shown in step S11104 by executing the save program included in the second program 63p2. That is, in this aspect, the main CPU 62x does not perform the evacuation process 1 in step S11103 and the evacuation process 3 in step S11105 described above. This will be explained in detail below.

In the save process 2 shown in step S11104, the second stack area reference address SP2, which is a fixed value, is stored in the stack pointer (SP) by a load instruction (LD SP, fixed value). Note that the second stack area reference address SP2 stored in the stack pointer (SP) at this time is a fixed value stored in advance in the second program data area 63b2 of the main side ROM 63, for example. In this aspect, since no data is stored in the second stack area 64b2 at the time of executing the save process 2, the fixed value stored in the stack pointer (SP) in the save process 2 is the bottom of the second stack area 64b2. This is an address value indicating. After executing the save process 2 in step S11104, the process advances to step S11106. That is, in this aspect, the main CPU 62x does not perform the evacuation process 3 in step S11105 described above.

In step S11106, the main CPU 62x executes the game history information calculation and display process by executing the game history information calculation and display program included in the second program 63p2. In the game history information calculation and display process, a process for calculating the game history information described above and displaying the calculated game history information on the information display section 45z is executed. Specifically, in the game history information calculation and display process, the process group shown in steps S10802 to S10812 in FIG. 29 described above is executed. At this time, in the game history information calculation and display process, the values of the A register, F register, and general-purpose register change.

After executing the game history information calculation and display process in step S11106, the main CPU 62x executes the second clear process shown in step S11107a by executing the second clear program included in the second program 63p2. That is, in this aspect, the main CPU 62x does not perform the return process 1 in step S11107 described above.

In the second clearing process shown in step S11107a, the values of the A register, F register, and general-purpose register are set to 0 by multiple load instructions (LD register, 0). Note that the configuration may be such that the values of the A register, F register, and general-purpose register are set to 0 by one load instruction using a special code.

After performing the second clear process in step S11107a, the main CPU 62x executes the return process A shown in step S11108a by executing the return program included in the second program 63p2.

In return processing A shown in step S11108a, the first stack area reference address SP1, which is a fixed value, is stored in the stack pointer (SP) by a load instruction (LD SP, fixed value). The first stack area reference address SP1 stored in the stack pointer (SP) at this time is a fixed value stored in advance in the second program data area 63b2 of the main side ROM 63, for example. This fixed value will be explained below.

In this aspect, the data stored in the first stack area 64b1 does not exist when all of the processes (processes from steps S10601 to S10615) constituting the game progress process (step S11101) are completed. Therefore, the first stack area reference address SP1 stored in the stack pointer (SP) is an address value that specifies the bottom of the first stack area 64b1.

Thereafter, when the main CPU 62x executes a storage process (step S11102) and a first clear process (step S11102-2) and starts executing the second program 63p2, a predetermined amount of data is stored in the first stack area 64b1. Ru. As a result, immediately after the main CPU 62x executes the storage process (step S11102) and the first clear process (step S11102-2) and starts executing the second program 63p2 (timing TX1 shown in FIG. 47), , the first stack area reference address SP1 stored in the stack pointer (SP) is an address value that specifies a position moved by a predetermined amount from the bottom of the first stack area 64b1.

The amount of data stored in the first stack area 64b1 by executing the storage process (step S11102), the first clearing process (step S11102-2), and starting the execution of the second program 63p2 is the same each time (every timer interrupt process). ), the amount of movement of the first stack area reference address SP1 is also the same each time. Therefore, the main CPU 62x executes the storage process (step S11102) and the first clear process (step S11102-2), and immediately after starting the execution of the second program 63p2 (timing TX1 shown in FIG. 47), the stack pointer is The first stack area reference address SP1 stored in (SP) has the same address value every time.

Then, the fixed value stored in the stack pointer (SP) in the return process A (step S11108a) of this aspect is changed to the second program 63p2 after completing the storage process (step S11102) and the first clearing process (step S11102-2). The address value is set to be the same as the address value stored in the stack pointer each time at the time immediately after the start of execution (timing TX1 shown in FIG. 47). As a result, even if the above-mentioned save process 1 (step S11103 in FIG. 46) is omitted, the value of the stack pointer (SP) is saved in the storage process (step S11102) and the return process A (step S11108a) of this aspect. It is possible to restore the value to the value at the time (timing TX1 shown in FIG. 47) immediately after finishing the 1 clearing process (step S11102-2) and starting execution of the second program 63p2.

The main CPU 62x finishes the process of step S11108a described above, finishes executing the second program 63p2, starts executing the first program 63p1, and proceeds to step S11109.

In step S11109, the main CPU 62x executes the change process by executing the change program included in the first program. In the change process, the values of the A register and F register are changed to the values stored in the first stack area 64b1 by the storage process (step S11102) using a pop instruction (POP). At this time, one pop instruction (POP AF) using a special code changes the values of the A register and F register to the values stored in the first stack area 64b1 by storage processing (step S11102). At this time, even if the value of the F register has changed after the storage process (step S11102) has been performed, the value of the F register can be changed to the same value as it was immediately after the game progress process ended. . After carrying out the process of step S11109, this timer interrupt process ends.

As explained above, according to this aspect, in addition to the effects shown in aspects 74 and 75 described above, the following effects can be achieved.

According to this aspect, the first clearing process (step S11102-2 in FIG. 48) is executed by the first program 63p1, and the second clearing process (step S11107a in FIG. 48) is executed by the second program 63p2. The value of the register immediately before the start of execution of the second program 63p2 and the value of the register of the second program 63p2 without performing the saved processing 3 (step S11105 in FIG. 47) and the return processing 1 (step S11107 in FIG. 47) It is possible to match the value of the register immediately after the end of execution. Therefore, when returning from the second program 63p2 to the first program 63p1, it is possible to avoid problems caused by changes in the values of the registers used in the first program 63p1. Furthermore, since the above-described save process 3 and restore process 1 can be omitted, the storage capacity of the second data storage area 64a2 required in the save process 3 and restore process 1 can be reduced.

In addition, in this aspect, in one timer interrupt process, the first clear process is performed after all the various processes included in the game progress process (step S11101 in FIG. 48) are completed, and after the first clear process, Since the player does not carry out game progress processing, it is possible to avoid problems in the game progress processing by setting the value of the register to 0 through the first clearing process.

<Aspect 77>
In the storage process in step S11102 of aspects 74, 75, and 76, the values of specific registers (A register, F register) may be stored in the first data storage area 64a1 by a load instruction. In this case, in the change process of step S11109, it is preferable to use a load instruction to change the values of the specific registers (A register, F register) to the values stored in the first data storage area 64a1 in the storage process. Alternatively, the specific register to be subjected to the storage process in step S11102 and the change process in step S11109 may be configured to be only the F register.

Further, in the above aspect 74, the execution of the game progress process (step S11101 in FIG. 46) by the first program 63p1 is interrupted midway, and after being interrupted and executed from the storage process in step S11102 to the change process in step S11109, the process is interrupted. A configuration may be adopted in which the execution of the game progress processing that was being carried out is restarted.

Further, in the above aspect 76, the first clearing process (step S11102-2) may be executed after the game progressing process (step S11101) and before the storage process (step S11102). . Even with such a configuration, the same effects as in the above aspect 76 can be achieved.

<Aspect 78>
Among the above-mentioned aspects, in a configuration in which the setting change mode can be executed, various aspects can be adopted as a method of starting the pachinko machine 10 in the setting change mode and an operating method in the setting change mode. This will be explained in detail below.

In this aspect, the main control board 61 located on the back side of the pachinko machine 10 is provided with a keyhole for changing settings and the above-mentioned RAM clear button, but is not provided with the above-mentioned button for changing settings. . When the administrator who manages the pachinko machine 10 changes the lottery setting of the pachinko machine 10, first, the power of the pachinko machine 10 is turned off. Then, the inner frame 13 and front door frame 14 of the pachinko machine 10 are opened, and a setting change key is inserted into the setting change keyhole. Then, the inserted key is turned to the setting change side (for example, turned clockwise). In this state, if the Pachinko machine 10 is powered on while holding down the RAM clear button, the Pachinko machine 10 starts in the setting change mode.

That is, the pachinko machine 10 of this embodiment starts in the setting change mode if all of the following conditions 1 to 3 are satisfied when the power is turned on.
Condition 1: The inner frame 13 and front door frame 14 are open. Condition 2: The keyhole for changing settings is located on the side where settings can be changed. Condition 3: The RAM clear button is pressed. When the machine 10 is powered on, if condition 3 is met but either condition 1 or 2 is not met, the pachinko machine 10 does not start up in the setting change mode and initializes the main RAM 64. Execute the process to convert.

When the pachinko machine 10 is activated in the setting change mode, information indicating the current lottery setting (setting information) is displayed on the information display section 45z described above. For example, if the current lottery setting of the pachinko machine 10 is "lottery setting 1", "1" is displayed on the information display section 45z. Then, each time the administrator presses the RAM clear button, the setting information displayed on the information display section 45z changes from "1" → "2" → "3" → "4" → "5" → "6" → " It switches in the order of ``1'' → ``2''...

When the setting information displayed on the information display section 45z has reached the value desired by the administrator, the administrator enters the game ball into a predetermined ball entry opening (for example, the out opening 43) and enters the prescribed ball. When the detection sensor (for example, the discharge path detection sensor 44h) detects a game ball, the change to the lottery setting corresponding to the setting information displayed on the information display section 45z is confirmed. Specifically, for example, when the discharge path detection sensor 44h detects a game ball while "6" is displayed as the setting information on the information display section 45z, the lottery setting of the pachinko machine 10 changes to "Lottery setting". 6". Then, when the administrator turns the setting change key from the setting change side to the original position, the pachinko machine 10 ends the setting change mode.

In this way, according to this aspect, the setting change button can be omitted, so the manufacturing cost of the pachinko machine 10 can be reduced.

Further, according to this aspect, when changing the lottery setting of the pachinko machine 10, it is necessary to open the inner frame 13 and the front door frame 14, so for example, the lottery setting of the pachinko machine 10 is changed. Even if a person without authority (hereinafter also referred to as an unauthorized person) tries to illegally change the lottery settings of the pachinko machine 10, there is no way to open the inner frame 13 and front door frame 14. Until then, the lottery settings cannot be changed. Therefore, the security of the pachinko machine 10 can be improved.

Furthermore, even if an unauthorized person is able to open the inner frame 13 and front door frame 14, the speaker 46 of the pachinko machine 10 will issue a warning when the inner frame 13 and front door frame 14 become open. Since a sound or a warning voice (for example, "the door is open") is output, the administrator can easily notice that an unauthorized person is attempting to change the lottery settings. Therefore, it is possible to prevent unauthorized persons from changing the lottery settings.

In this aspect, one of the conditions for the pachinko machine 10 to start up as the setting change mode is that both the inner frame 13 and the front door frame 14 are in the open state. One of the conditions for starting the pachinko machine 10 as the setting change mode may be that one of the two is in the open state.

In addition, in this embodiment, the detection of game balls by the discharge path detection sensor 44h is adopted as a condition for finalizing the change in the lottery settings, but the present invention is not limited to this configuration. It may be adopted as a condition for finalizing a change in settings. For example, the detection of game balls by the first winning hole detection sensor 44d may be adopted as the condition for finalizing the change in lottery setting. The first winning hole detection sensor 44d is a sensor that detects the entry of a game ball into the first winning hole 32a, which is a general winning hole.

Further, in this aspect, each time the administrator presses the RAM clear button in the setting change mode, the setting information displayed on the information display section 45z changes from "1" → "2" → "3" → "4" → " 5" → "6" → "1" → "2"... However, the configuration is not limited to this, and for example, a button for changing settings may be provided separately from the RAM clear button, and management Each time the user presses the setting change button, the setting information displayed on the information display section 45z changes from "1" → "2" → "3" → "4" → "5" → "6" → "1". ” → “2”, etc.

Further, in this embodiment, a configuration is provided in which a keyhole for changing settings is provided, but a configuration may be adopted in which a keyhole for changing settings is not provided. For example, the pachinko machine 10 may be configured to be activated in the setting change mode when the above conditions 1 and 3 are satisfied when the power is turned on. Also, for example, when the pachinko machine 10 is turned on, if the conditions 1 and 3 above are satisfied, whether the pachinko machine 10 starts in the setting change mode or executes a RAM clear process to initialize the main side RAM 64. It may be configured to execute a selection mode that allows the administrator to select. In the selection mode, by pressing the RAM clear button, the user selects whether to start the setting change mode or execute RAM clear processing, and the selection is confirmed by holding down the RAM clear button for a predetermined period of time. Good too. In addition, in the selection mode, only when a game ball enters a predetermined ball entrance (e.g., out port 43) and the game ball is detected by a predetermined ball entry detection sensor (e.g., discharge path detection sensor 44h), the setting is made. A configuration may be adopted in which activation as a change mode can be selected. Even with such a configuration, it is possible to prevent a person other than the administrator from illegally changing the lottery settings of the pachinko machine 10.

<Aspect 79>
Among the above aspects, in a configuration capable of executing a settings change mode, a configuration may be adopted in which a notification that the settings change mode is in effect is provided during the settings change mode. This will be explained in detail below.

In this aspect, when the main control device 60 starts the setting change mode, it transmits a setting change mode start command, which is a command indicating that the setting change mode has started, to the audio emission control device 90.

When receiving the setting change mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting change mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "Setting change mode is in progress." Further, upon receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that the setting change mode is in progress. Specifically, for example, the audio emission control device 90 transmits a command for displaying a character string such as “Setting change mode” on the symbol display device 41 to the display control device 100, and the display that receives the command The control device 100 causes the symbol display device 41 to display a character string such as "Setting change mode in progress." Further, upon receiving the setting change mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

When the main control device 60 ends the setting change mode, it transmits a setting change mode end command, which is a command indicating that the setting change mode has ended, to the audio emission control device 90. When the audio emission control device 90 receives the settings change mode end command, it ends the various controls for notifying that the settings change mode is in progress.

As described above, according to this aspect, since the speaker 46, the symbol display device 41, and the various lamps 47 notify that the pachinko machine 10 is in the setting change mode, the administrator of the pachinko machine 10 can notify that the pachinko machine 10 is in the setting change mode. can be easily recognized. Further, even if an unauthorized person fraudulently shifts the pachinko machine 10 to the setting change mode, the pachinko machine 10 will notify the user that it is in the setting change mode through the speaker 46 or the symbol display device 41. Therefore, surrounding players and managers can notice that the pachinko machine 10 is in the setting change mode by an unauthorized person. Therefore, it is possible to prevent unauthorized persons from changing the lottery settings.

Furthermore, when the main controller 60 starts the setting change mode, it transmits information indicating that the setting change mode has started to the hall computer of the gaming hall via an external terminal. Upon receiving the information indicating that the setting change mode has started, the hall computer displays information about the pachinko machine 10 in the setting change mode on the management screen. When the main controller 60 ends the setting change mode, it transmits information indicating that the setting change mode has ended to the hall computer of the gaming hall via the external terminal.

According to such a configuration, even if the administrator of the pachinko machine 10 is not in the vicinity of the pachinko machine 10, the existence of the pachinko machine 10 in the setting change mode can be detected on the management screen of the hall computer. It becomes possible to recognize it. Therefore, for example, even if the pachinko machine 10 is set to the setting change mode by an unauthorized person, the administrator can check the existence of the pachinko machine 10 in the setting change mode on the management screen of the hall computer. can be recognized. Therefore, it is possible to prevent unauthorized persons from changing the lottery settings.

<Aspect 80>
Among the above aspects, in a configuration in which the setting change mode can be executed, when the lottery setting is changed in the setting change mode, among the information stored in the main side RAM 64 after the end of the setting change mode, It may be configured to initialize without information regarding the gaming state. This will be explained in detail below.

In this aspect, when the lottery settings are changed in the settings change mode, the main side RAM 64 is initialized except for the information regarding the gaming state, and the settings change mode ends without changing the lottery settings in the settings change mode. In this case, the main side RAM 64 is not initialized and the game progress mode is entered in which the game can be played. In addition, in this aspect, "information regarding the gaming state" that is not initialized includes the state of the high probability mode flag, the state of the high frequency support mode flag, and the flag indicating whether or not the opening/closing execution mode is in progress (during jackpot). It is in a state of

As described above, according to this aspect, when the lottery setting is changed in the setting change mode, the main side RAM 64 is initialized, so that the information stored in the main side RAM 64 after the lottery setting is changed and the lottery setting are changed. It is possible to prevent a problem from occurring in the progress of the game due to inconsistency with the information stored in the main side RAM 64 before the settings were changed.

Furthermore, according to this aspect, even if the lottery setting is changed in the setting change mode and the main side RAM 64 is initialized, the information regarding the gaming state among the information stored in the main side RAM 64 is erased. Therefore, for example, it is possible to change the lottery setting in the pachinko machine 10 while maintaining a gaming state that is advantageous to the player.

Note that in this embodiment, the main RAM 64 is initialized after the setting change mode ends, but if an operation to start the pachinko machine 10 in the setting change mode is received when the power is turned off, the setting change mode is initialized. The configuration may be such that the main side RAM 64 is initialized, excluding information regarding the gaming state, before starting up. Even with such a configuration, there is a mismatch between the information stored in the main RAM 64 after the lottery settings are changed and the information stored in the main RAM 64 before the lottery settings are changed. It is possible to prevent problems from occurring in the progress of the game.

Furthermore, in this aspect, when initializing the main side RAM 64, information regarding the gaming state is not deleted, but all information stored in the main side RAM 64 (including information regarding the gaming state) is initialized. It is also possible to have a configuration in which

Further, the "information regarding the gaming state" that is not initialized is not limited to the above, and may include, for example, suspension information.

<Aspect 81>
Among the above aspects, in a configuration in which the setting change mode can be executed, if an inconsistency occurs in the information stored in the main RAM 64 due to noise etc. and the initialization of the main RAM 64 is executed, the game cannot proceed. It may be configured to shift to a setting change mode before returning to a possible game progress mode. This will be explained in detail below.

In this aspect, the main control device 60 executes a monitoring process to monitor whether an abnormality such as a mismatch has occurred in the information stored in the main side RAM 64 in the timer interrupt process. Specifically, for example, in the monitoring process, it is monitored whether or not values in a range that should not be stored are stored in each area of the main RAM 64. If it is determined in the monitoring process that an abnormality has occurred in the main side RAM 64, the process related to the progress of the game is stopped and the main side RAM 64 is forcibly initialized. After the initialization of the main side RAM 64 is completed, the main control device 60 shifts to the above-mentioned setting change mode before shifting to the game progress mode in which the game can proceed. Note that abnormalities such as inconsistency may occur in the information stored in the main RAM 64, for example, due to noise such as electromagnetic waves, or when a player with fraudulent intentions approaches the pachinko machine 10 with a magnet, etc. etc. can be mentioned.

Then, similarly to the above-mentioned aspect 79, if the pachinko machine 10 is configured to notify that it is in the setting change mode, the administrator of the pachinko machine 10 can notify when the pachinko machine 10 has transitioned to the setting change mode. can be noticed. Then, the administrator determines the lottery setting of the pachinko machine 10 in the setting change mode, and then the pachinko machine 10 shifts to the game progress mode.

The reason for such a configuration will be explained. If the main RAM 64 is forcibly initialized due to noise, etc., the setting information for lottery settings is also rewritten to setting information different from the setting information originally intended by the administrator. there is a possibility. If the configuration is such that the setting information for lottery settings is not initialized (changed) even if the main side RAM 64 is initialized, there is a risk that the setting information will still be maintained as setting information different from the setting information originally intended by the administrator. be. Therefore, as in this embodiment, when the main side RAM 64 is forcibly initialized due to noise or the like, the configuration is such that the mode shifts to the setting change mode before returning to the game progress mode in which the game can be played. Then, the administrator can modify the setting information of the lottery setting to the originally intended setting information before the pachinko machine 10 returns to the game progress mode.

Furthermore, in this aspect, when the main side RAM 64 is forcibly initialized due to noise or the like, the above-mentioned information regarding the gaming state may not be initialized. According to such a configuration, even if the main RAM 64 is forcibly initialized due to noise or the like, the information regarding the gaming state will not be initialized (deleted), so the player will not be able to continue playing the game. It becomes possible to resume the game while maintaining the state. Therefore, it is possible to prevent the player from being disadvantaged due to forced initialization of the main RAM 64 due to noise or the like.

Note that in this embodiment, the configuration is such that the mode is shifted to the setting change mode after the main side RAM 64 is initialized, but the lottery settings are changed to the initial values (for example, "Lottery settings 1) and then shift to a game progress mode in which the game can proceed.

Furthermore, in this aspect, when the main side RAM 64 is initialized, the information regarding the gaming state is not deleted, but when the main side RAM 64 is initialized, the information regarding the gaming state may also be deleted.

<Aspect 82>
Among the above-mentioned aspects, in a configuration capable of executing a settings change mode, a configuration may be adopted in which it is notified whether the lottery settings have been changed or not changed in the settings change mode. This will be explained in detail below.

In this aspect, when the lottery settings are changed in the setting change mode, the main controller 60 of the pachinko machine 10 causes the speaker 46 to output a sound indicating that the lottery settings have been changed, and the lottery settings are changed. By displaying a character string indicating that the lottery setting has been changed on the symbol display device 41, it is notified that the lottery setting has been changed.

Specifically, for example, when the main control device 60 shifts to the setting change mode, it saves the setting information of the current lottery setting to a predetermined area of the main side RAM 64. Then, in the setting change mode, the setting information of the newly determined lottery settings is compared with the saved setting information of the lottery settings before the change, and if these setting information are different, the lottery settings are changed. A setting change command, which is a command indicating that the setting has been changed, is transmitted to the audio emission control device 90.

When the audio emission control device 90 receives the settings change command, it causes the speaker 46 to output audio indicating that the lottery settings have been changed. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "The lottery settings have been changed." Further, upon receiving the setting change command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the lottery setting has been changed. Specifically, for example, the audio emission control device 90 transmits a command for displaying a character string such as “Lottery settings have been changed” on the symbol display device 41 to the display control device 100, and receives the command. The display control device 100 causes the symbol display device 41 to display a character string such as "Lottery settings have been changed." Further, upon receiving the setting change command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

On the other hand, when exiting the setting change mode with the lottery settings unchanged and maintained, the main controller 60 of the pachinko machine 10 sends a sound to the speaker indicating that the lottery settings have been maintained without being changed. 46 and displays on the symbol display device 41 a character string indicating that the lottery settings have been maintained without being changed, thereby informing that the lottery settings have been maintained without being changed.

Specifically, for example, when the main control device 60 shifts to the setting change mode, it saves the setting information of the current lottery setting to a predetermined area of the main side RAM 64. Then, in the setting change mode, the setting information of the newly determined lottery settings is compared with the saved setting information of the lottery settings before the change, and if these settings information match, the lottery settings are changed. A setting maintenance command, which is a command indicating that the settings have been maintained without being changed, is transmitted to the audio emission control device 90.

When receiving the setting maintenance command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the lottery settings have been maintained without being changed. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "The lottery setting has not been changed." Further, upon receiving the setting maintenance command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the lottery setting has been maintained without being changed. Specifically, for example, the audio emission control device 90 sends a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "Lottery setting has not been changed", and sends the command to the display control device 100. The display control device 100 that has received the message causes the symbol display device 41 to display a character string such as "Lottery settings have not been changed." Further, upon receiving the setting maintenance command, the audio light emission control device 90 controls the various lamps 47 so that they are lit instead of flashing.

As described above, according to this aspect, when the lottery settings are changed in the settings change mode, the notification that the lottery settings have been changed is notified, so that the administrator and the player can check whether the lottery settings have been changed or not. You can check whether

In particular, in the above aspect 81, in the setting change mode after forced initialization of the main RAM 64 due to noise etc., the player who was playing the game on the pachinko machine 10 has the lottery settings changed by the administrator. It is expected that there will be doubts as to whether or not it has been changed. However, according to this aspect, when the lottery settings are changed, the player is notified that the lottery settings have been changed, so the player can confirm whether the lottery settings have been changed. More specifically, it is possible to make the player only understand whether or not the lottery settings have been changed in the settings change mode, without having the player know what kind of setting information the current lottery settings are. . As a result, it is possible to suppress the occurrence of a situation in which the player has to restart the game with a feeling of anxiety without knowing whether or not the lottery setting has been changed by the administrator.

In addition, in this aspect, if the lottery settings have not been changed, it is configured to notify that the lottery settings have been maintained without being changed, but if the lottery settings have not been changed, nothing is reported. Alternatively, a configuration may be adopted in which notification is made in a manner different from that in the case where the lottery settings are changed, such as "setting change mode is ended." Even with this configuration, if the player is not informed that the lottery settings have been changed, he or she can judge that the lottery settings have not been changed, so the player does not have to worry about playing the game. It is possible to suppress the occurrence of a situation where a restart is necessary.

<Aspect 83>
In the above aspect 82, the main control device 60 may be configured to include setting information of the changed lottery settings in a settings change command that is a command indicating that the lottery settings have been changed. Then, each time the audio emission control device 90 receives a setting change command including the setting information of the changed lottery settings, the audio emission control device 90 sequentially stores the changed settings information of the lottery settings in the RAM as a storage means provided therein. It is also possible to have a configuration in which The sound emission control device 90 may be configured to display the history of changes in lottery settings on the symbol display device 41 when a predetermined operation is received from the administrator of the pachinko machine 10 or the like.

According to such a configuration, the history of changes in lottery settings of the pachinko machine 10 can be stored without using the limited storage capacity of the main side RAM 64 of the main control device 60 of the pachinko machine 10. The administrator of the pachinko machine 10 can easily check how the lottery settings of the pachinko machine 10 have been operated based on the history of changes to the lottery settings displayed on the symbol display device 41. .

<Aspect 84>
Among the above aspects, in a configuration in which the settings change mode can be executed, a configuration in which the lottery settings cannot be changed but a settings confirmation mode in which the administrator etc. can check the current lottery settings can be executed. good. This will be explained in detail below.

When a specific operation is executed under specific conditions, the pachinko machine 10 of this embodiment enters a game stop state in which the game cannot proceed, and then shifts to a setting confirmation mode.

In this aspect, the specific condition refers to a state in which all of the following conditions are satisfied.
Condition 1: The special symbol is not changing in the special symbol unit 37. Condition 2: The normal symbol is not varying in the common symbol unit 38. Condition 3: The variable winning device 36 as a special electric accessory is not operating. Condition 4: The electric accessory 34a as a normal electric accessory is not operating. Condition 5: A predetermined time (for example, 20 seconds) has passed since the last game ball was launched. In other words, a specific condition Down is a state in which the outcome of the game is not affected even if the progress of the game is stopped (interrupted).

Further, in this embodiment, the specific operation is an operation of pressing a RAM clear button provided on the back of the pachinko machine 10.

That is, when the main control device 60 of the pachinko machine 10 of this embodiment detects that the RAM clear button is pressed during the game progress mode in which the game can be progressed, it detects that the RAM clear button is pressed under the above specific conditions. If it is determined that the above specific conditions are met, the setting confirmation mode is entered. When it is detected that the RAM clear button is not pressed again, the setting confirmation mode is ended and the game progress mode is returned to, in which the game can proceed.

During the setting confirmation mode, the main controller 60 executes random number update processing for updating the jackpot random number counter, etc., and power supply monitoring processing, but also performs other processing necessary for the progress of the game (various inputs in timer interrupt processing). Ball processing, etc.) is not executed, and the game is brought to a halt state (a state in which the game cannot proceed), and setting information indicating the current lottery setting is displayed on the information display section 45z. For example, if the current lottery setting of the pachinko machine 10 is "lottery setting 1", "1" is displayed on the information display section 45z.

Furthermore, during the game progress mode, an accessory that always continues a certain action (predetermined action) regardless of the result of the winning lottery or the result of the electric accessory release lottery (hereinafter also referred to as a constantly operating accessory) In the pachinko machine 10 equipped with this, the main control device 60 continues the operation of the always-operating accessory even when the game progress mode is shifted to the setting confirmation mode. Specifically, after shifting to the setting confirmation mode, the main control device 60 is configured to continue executing the always-operating accessory control process in addition to the random number update process and the power supply monitoring process. Then, when the main control device 60 ends the setting confirmation mode and returns to the game progress mode in which the game can proceed, the main control device 60 resumes execution of other processes necessary for the progress of the game that had been avoided. do.

According to such a configuration, even at the timing of transitioning from the game progress mode to the setting confirmation mode and the timing of returning from the setting confirmation mode to the game progress mode, the operation of the always-operating accessory remains constant without stopping or changing. Therefore, for example, it is possible to prevent a player from obtaining an unfair advantageous result by firing a game ball at the timing when the motion of a constantly moving accessory stops or changes. I can do it.

In addition, in this aspect, the operation of the always-operating accessory is configured to continue as it is even during the setting confirmation mode, but the operation of the always-operating accessory is temporarily stopped at the timing of transition from the game progress mode to the setting confirmation mode. It may be configured such that the operation of the always-operating accessory that has been stopped is restarted at the timing of returning from the setting confirmation mode to the game progress mode. According to such a configuration, processing can be simplified compared to a configuration in which the action of the accessory continues to operate at all times. Further, during the game progress mode in which the game can be progressed, it is possible to ensure that the actions of the always-operating accessories are continuously connected. Further, according to such a configuration, when returning from the setting confirmation mode to the game progress mode, the operation of the always-operating accessory is restarted from the same state as the state at the timing of transition from the game progress mode to the setting confirmation mode. Therefore, when returning from the setting confirmation mode to the game progress mode, the always-operating accessory is changed from a state different from the state at the time of transition from the game progress mode to the setting confirmation mode (for example, a state disadvantageous or advantageous to the player). This can prevent the player from having to restart the game from a state different from the state in which the game was stopped.

Furthermore, in this embodiment, the specific operation for transitioning to the setting confirmation mode is an operation of pressing the RAM clear button, but various operations can be adopted as the specific operation. For example, the specific operation may be an operation of inserting a setting change key into a setting change keyhole and turning it to the setting change side. According to such a configuration, in order to check the lottery settings of the pachinko machine 10, a key for changing the settings is required, so a person who does not have the key for changing the settings cannot change the lottery settings of the pachinko machine 10. This can prevent things from being confirmed.

<Aspect 85>
In the above aspect 84, the always-operating accessory continues to operate even in the setting confirmation mode, but when the setting confirmation mode is entered, the always-operating accessory is shifted to a predetermined initial state ( Alternatively, the configuration may be such that the operation is stopped after being moved to the initial position). This will be explained in detail below.

When the main controller 60 of the pachinko machine 10 of this aspect shifts from the game progress mode to the setting confirmation mode, the always-operating accessory moves to the initial state (or moves to the initial position) until the always-operating accessory moves to the initial state (or moves to the initial position). control processing continues. When the main control device 60 detects that the always-operating accessory has transitioned to the initial state (or moved to the initial position), the main controller 60 stops the execution of the control process for the always-operating accessory and starts the operation of the always-operating accessory. make it stop. Thereafter, when the main control device 60 ends the setting confirmation mode and returns to the game progress mode in which the game can be progressed, the main control device 60 performs the control process of the always-operating accessory and performs the processing necessary for the progress of the game that had been avoided. Resume execution of other processes.

In addition, when returning from the setting confirmation mode to the game progress mode before detecting that the always-operating accessory has shifted to the initial state (or moved to the initial position), the main controller 60 The control processing continues as is. That is, in this aspect, the always-operating accessory is configured so as not to stop operating in a state other than the initial state (or at a position other than the initial position).

According to such a configuration, for example, it is possible to suppress the occurrence of a malfunction in a constantly operating accessory that may cause a malfunction if the operation is stopped in a state other than the initial state (or at a position other than the initial position). I can do it.

<Aspect 86>
Among the above aspects, in a configuration capable of executing the setting confirmation mode, a configuration may be adopted in which a notification that the setting confirmation mode is in effect is provided during the setting confirmation mode. This will be explained in detail below.

In this aspect, when the main control device 60 starts the setting confirmation mode, it transmits a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has started, to the audio emission control device 90.

When receiving the setting confirmation mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting confirmation mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "Setting confirmation mode is in progress." Further, upon receiving the setting confirmation mode start command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the setting confirmation mode is in progress. Specifically, for example, the audio light emission control device 90 transmits a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "Setting confirmation mode in progress", and the display control device 100 receives the command. The control device 100 causes the symbol display device 41 to display a character string such as "Setting confirmation mode in progress." Further, upon receiving the setting confirmation mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

When the main control device 60 ends the setting confirmation mode, it transmits a setting confirmation mode end command, which is a command indicating that the setting confirmation mode has ended, to the audio emission control device 90. When the audio emission control device 90 receives the setting confirmation mode end command, it ends the various controls for notifying that the setting confirmation mode is in progress.

As described above, according to this aspect, since the speaker 46, the symbol display device 41, and the various lamps 47 notify that the pachinko machine 10 is in the setting confirmation mode, the administrator of the pachinko machine 10 can confirm that the pachinko machine 10 is in the setting confirmation mode. can be easily recognized. Furthermore, even if an unauthorized person fraudulently shifts the pachinko machine 10 to the setting confirmation mode, the pachinko machine 10 will be able to display the speaker 46, symbol display device 41, and various other devices to indicate that it is in the setting confirmation mode. Since the lamp 47 is used to notify the player, surrounding players and managers can notice that the pachinko machine 10 has been placed in the setting confirmation mode by an unauthorized person. Therefore, it is possible to prevent unauthorized persons from checking the lottery settings.

Furthermore, when the main controller 60 starts the setting confirmation mode, it transmits information indicating that the setting confirmation mode has started to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting confirmation mode has started, the hall computer displays information about the pachinko machine 10 in the setting confirmation mode on the management screen. When the main controller 60 ends the setting confirmation mode, it transmits information indicating that the setting confirmation mode has ended to the hall computer of the gaming hall via the external terminal.

According to such a configuration, even if the administrator of the pachinko machine 10 is not in the vicinity of the pachinko machine 10, the existence of the pachinko machine 10 in the setting confirmation mode can be detected on the management screen of the hall computer. It becomes possible to recognize it. Therefore, for example, even if the pachinko machine 10 is set to the setting confirmation mode by an unauthorized person, the administrator can check the existence of the pachinko machine 10 in the setting confirmation mode on the management screen of the hall computer. can be recognized. Therefore, it is possible to prevent unauthorized persons from checking the lottery settings.

<Aspect 87>
Among the above aspects, in a configuration in which the settings change mode and settings confirmation mode can be executed, a configuration in which the settings change mode and settings confirmation mode cannot be executed until the power of the pachinko machine 10 is once turned off may also be used. good. That is, a configuration in which the pachinko machine 10 executes the setting change mode or the setting confirmation mode when a predetermined operation is performed when the power of the pachinko machine 10 is turned off and the power of the pachinko machine 10 is turned on. You can also use it as This will be explained in detail below.

Note that the "keyhole for changing settings" and the "key for changing settings" in each of the above aspects are used in this aspect and the aspects described below, not only when transitioning to a settings change mode for changing lottery settings, but also when changing lottery settings. Since they are also used when transitioning to a setting confirmation mode for checking settings, they are also simply referred to as a "setting keyhole" and a "setting key," respectively.

In this aspect, the main control board 61 located on the back side of the pachinko machine 10 is provided with a power switch, a RAM clear button, a keyhole for settings, a button for changing settings, and an information display section 45z. ing. In the pachinko machine 10 of this embodiment, after the power switch is operated and the power is turned on, and execution of the game progress mode in which the game can proceed is started, the power of the pachinko machine 10 is once turned off. Otherwise, the configuration is such that it is impossible to shift to the setting change mode and setting confirmation mode. The pachinko machine 10 is configured to execute a setting change mode or a setting confirmation mode if a predetermined condition is satisfied when the power of the pachinko machine 10 is turned on.

Specifically, the pachinko machine 10 of this embodiment executes the setting change mode when all of the following conditions A1 to A3 are satisfied when the power is turned on (ON).
Condition A1: The inner frame 13 and front door frame 14 are open. Condition A2: The setting key is inserted into the setting keyhole and is positioned on the ON side. Condition A3: The RAM clear button is pressed. what is happening

Further, the pachinko machine 10 of this embodiment executes the setting confirmation mode when all of the following conditions B1 to B3 are satisfied when the power is turned on (ON).
Condition B1: The inner frame 13 and front door frame 14 are open. Condition B2: The setting key is inserted into the setting keyhole and is positioned on the ON side. Condition B3: The RAM clear button is pressed. What I haven't done

In the following, the administrator of the pachinko machine 10 will explain an example of a work process for transitioning the pachinko machine 10 to the setting change mode or the setting confirmation mode after the execution of the game progress mode has started, and then An example of the processing executed in 10 will be described.

FIG. 49 is a process diagram showing the work process when the administrator changes the lottery settings of the pachinko machine 10.

In step W101, the administrator inserts a key into the cylinder lock 17 of the pachinko machine 10 whose lottery settings are to be changed, turns it to the open side, and rotates the inner frame 13 relative to the outer frame 11 to open the lock. At the same time, the front door frame 14 is rotated relative to the inner frame 13 to be in the open state. By rotating the inner frame 13 with respect to the outer frame 11, the administrator can access various operation units provided on the back side of the pachinko machine 10. Next, proceeding to step W102, the administrator operates the power switch provided on the back side of the pachinko machine 10 to turn off the power. Next, the process advances to step W103.

In step W103, the administrator inserts a setting key into a setting keyhole provided on the back side of the pachinko machine 10 and turns it to the setting changing side (hereinafter also referred to as the ON side). Next, proceeding to step W104, the administrator turns on the power of the pachinko machine 10 by operating the power switch while pressing the RAM clear button provided on the back side of the pachinko machine 10. Then, the pachinko machine 10 shifts to the setting change mode after startup (step W105), and the setting information of the current lottery setting is displayed on the information display section 45z (step W106). Specifically, for example, when the current setting information of the pachinko machine 10 is "1", "1" is displayed in a lit state on the information display section 45z. Next, the process advances to step W107.

In step W107, the administrator presses a setting change button provided on the back side of the pachinko machine 10 to change the setting information. Specifically, for example, each time the administrator presses the setting change button, the setting information displayed on the information display section 45z changes from "1" to "2" to "3" to "4" to "5". → "6" → "1" → "2"... The administrator presses the setting change button until the setting information displayed on the information display section 45z becomes the desired setting information. . Next, the process advances to step W108.

In step W108, the administrator confirms that the setting information displayed on the information display section 45z is the desired setting information, and then presses the RAM clear button provided on the back side of the pachinko machine 10. to confirm the changed setting information. Next, proceeding to step W109, the administrator returns the setting key to the OFF side and removes the key from the setting keyhole. Then, the pachinko machine 10 shifts to a game progress mode in which the game can be played (step W110), and game history information is displayed on the information display section 45z (step W111). Next, proceeding to step W112, the administrator closes the inner frame 13 and front door frame 14 and removes the key from the cylinder lock 17. Through such a process, the administrator can change the lottery settings of the pachinko machine 10.

FIG. 50 is a process diagram showing the work process when the administrator confirms the lottery setting of the pachinko machine 10.

In step W201, the administrator inserts a key into the cylinder lock 17 of the pachinko machine 10 whose lottery setting is to be confirmed, turns it to the open side, and rotates the inner frame 13 with respect to the outer frame 11 to open it. At the same time, the front door frame 14 is rotated relative to the inner frame 13 to be in the open state. By rotating the inner frame 13 with respect to the outer frame 11, the administrator can access various operation units provided on the back side of the pachinko machine 10. Next, proceeding to step W202, the administrator operates the power switch provided on the back side of the pachinko machine 10 to turn off the power. Next, the process advances to step W203.

In step W203, the administrator inserts a setting key into a setting keyhole provided on the back side of the pachinko machine 10 and turns it to the ON side. Next, proceeding to step W204, the administrator operates the power switch of the pachinko machine 10 to turn on the power of the pachinko machine 10. Then, the pachinko machine 10 shifts to the setting confirmation mode after startup (step W205), and the setting information of the current lottery setting is displayed on the information display section 45z (step W206). Specifically, for example, if the current setting information of the pachinko machine 10 is "1", "1" is displayed blinking on the information display section 45z. The administrator can check the current setting information of the pachinko machine 10 by checking the setting information flashingly displayed on the information display section 45z. Next, the process advances to step W207.

In step W207, the administrator checks the setting information displayed on the information display section 45z, returns the setting key to the OFF side, and removes the key from the setting keyhole. Then, the pachinko machine 10 shifts to a game progress mode in which the game can be played (step W208), and game history information is displayed on the information display section 45z (step W209). Next, proceeding to step W210, the administrator closes the inner frame 13 and front door frame 14 and removes the key from the cylinder lock 17. Through such a process, the administrator can confirm the current lottery setting of the pachinko machine 10.

Next, processing executed by the main MPU 62 (main CPU 62x) of the pachinko machine 10 of this embodiment will be described.

FIG. 51 is a flowchart showing part of the main processing executed by the main MPU 62 (main CPU 62x) in aspect 87 of the first embodiment when the power is turned on.

In step S11201, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S11202, and internal function register setting processing is executed. Thereafter, the process advances to step S11203, and a process for notifying that the pachinko machine 10 has been powered on and started is executed. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. When receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice such as "Starting up" or a predetermined alarm sound is output from the speaker 46. After executing step S11203, the process advances to step S11204.

In step S11204, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

If it is determined in step S11204 that the power recovery flag is ON (step S11204: YES), the process proceeds to step S11205, and a RAM determination value of the main side RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S11206, and it is determined whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S11206 that the RAM determination value is normal (step S11206: YES), the process advances to step S11208, which will be described later.

On the other hand, if it is determined that the power recovery flag is not ON in step S11204 described above (step S11204: NO), and if it is determined that the RAM judgment value is not normal in step S11206 described above (step S11206: NO), ), the process advances to step S11207 and the RAM abnormality flag is turned ON. In other words, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF or when the power recovery flag is ON but the RAM judgment value is not normal, and the information stored in the main side RAM 64 is This is a flag indicating that the state is not normal. After executing step S11207, the process advances to step S11208.

In step S11208, it is determined whether the RAM clear button is ON. In step S11208, if it is determined that the RAM clear button is not ON (step S11208: NO), the process advances to step S11209 and checks whether the setting key, frame release switch, and door release switch are all ON. Determine. Note that the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

In step S11209, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11209: NO), the process advances to step S11210, and the RAM abnormality flag is determined to be ON. Determine whether

In step S11210, if it is determined that the RAM abnormality flag is not ON (step S11210: NO), the process advances to step S11211, and a power recovery process is executed to return to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S11211, the process advances to step S11212, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

On the other hand, if it is determined in step S11210 that the RAM abnormality flag is ON (step S11210: YES), the process advances to step S11213, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11213, the process proceeds to the normal game processing described above. However, in the pachinko machine 10 of this embodiment, when the RAM abnormality flag is ON, the random number updating process and the power supply monitoring process are executed, but other processes necessary for the progress of the game (for example, the ball entry for the starting hole) are executed. processing, game time control processing, etc.) are not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, timer interrupt permission is not set. Therefore, although it appears to be the same as the normal game progression mode, the player is unable to advance the game. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode.

On the other hand, in step S11209 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11209: YES), the process advances to step S11214, and the RAM abnormality flag is ON. Determine whether it exists or not.

If it is determined in step S11214 that the RAM abnormality flag is not ON (step S11214: NO), the process advances to step S11215 and a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. Details of the setting confirmation process (setting confirmation mode) will be described later. After executing step S11215, the process advances to step S11216, where the above-described power recovery process is executed to return to the state when the power was turned off last time. After that, the process advances to step S11217, and the power recovery flag is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

On the other hand, if it is determined in step S11214 that the RAM abnormality flag is ON (step S11214: YES), the process advances to step S11218, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11218, the process proceeds to the normal game processing described above. However, as described above, in the pachinko machine 10 of this embodiment, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power outage monitoring process) are executed, but other operations necessary for the progress of the game are executed. Processing (for example, ball entry processing for the starting opening, game round control processing, etc.) is not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, timer interrupt permission is not set. Therefore, although it appears to be the same as the normal game progression mode, the player is unable to advance the game. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode.

In step S11208 described above, if it is determined that the RAM clear button is ON (step S11208: YES), the process advances to step S11219, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine whether or not.

In step S11219, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11219: NO), the process advances to step S11220, and the RAM abnormality flag described above is ON. Determine whether or not. If it is determined in step S11220 that the RAM abnormality flag is not ON (step S11220: NO), the process advances to step S11221.

In step S11221, first RAM clear processing is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery settings. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. Upon receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, a voice such as "RAM has been cleared" is output from the speaker 46. After executing step S11221, the process proceeds to the normal game processing described above.

On the other hand, if it is determined in step S11220 that the RAM abnormality flag is ON (step S11220: YES), the process proceeds to step S11222, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11222, the process proceeds to the normal game processing described above. However, as described above, in the pachinko machine 10 of this embodiment, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power outage monitoring process) are executed, but other operations necessary for the progress of the game are executed. Processing (for example, ball entry processing for the starting opening, game round control processing, etc.) is not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, timer interrupt permission is not set. Therefore, although it appears to be the same as the normal game progression mode, the player is unable to advance the game. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode.

In step S11219 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11219: YES), the process advances to step S11223, and it is determined whether the RAM abnormality flag is ON or not. Determine whether or not.

If it is determined in step S11223 that the RAM abnormality flag is not ON (step S11223: NO), the process advances to step S11224, and the first RAM clearing process described above is executed. After that, the process advances to step S11225, and a setting change process is executed. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. Details of the setting change process (setting change mode) will be described later. After executing step S11225, the process proceeds to the normal game processing described above.

On the other hand, if it is determined in step S11223 that the RAM abnormality flag is ON (step S11223: YES), the process advances to step S11226, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a voice such as "RAM is abnormal." is output from the speaker 46. After executing step S11226, the process advances to step S11227.

In step S11227, second RAM clear processing is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information stored in the main RAM 64, including setting information for lottery settings. That is, when the second RAM clearing process is executed, in addition to various flag information indicating gaming states and various control information, setting information for lottery settings is also erased. Here, when the RAM abnormality flag is ON, the reason why the second RAM clearing process that also erases the setting information is executed instead of the first RAM clearing process will be explained. If the RAM abnormality flag is ON, the configuration information stored in the main RAM 64 may also be incorrect. For example, the configuration information may have been rewritten due to noise or other factors that were not intended by the administrator, or the configuration information may be incorrect. This is because, even though only numbers within a predetermined range (for example, numbers from 1 to 6) can be taken, there is a possibility that a number outside the predetermined range is stored. Note that in the second RAM clearing process of this aspect, after the setting information is erased, "1" is stored as the initial value of the setting information. Furthermore, the RAM abnormality flag is also turned OFF by the second RAM clearing process. After that, the process advances to step S11228, and a setting change process is executed. Details of the setting change process (setting change mode) will be described later. After executing step S11228, the process proceeds to the normal game processing described above.

FIG. 52 is a flowchart showing a setting change process executed by the main MPU 62 (main CPU 62x) in aspect 87 of the first embodiment. This setting change process is executed as a subroutine of steps S11225 and S11228 in FIG.

In step S11301, setting change notification start processing is executed. In the setting change notification start process, a setting change mode start command, which is a command indicating that the setting change mode has started, is transmitted to the audio emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting change mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying, "You are in setting change mode. Please change the settings." Further, upon receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that the setting change mode is in progress. Specifically, for example, the audio light emission control device 90 sends a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "In the setting change mode. Please change the settings." Then, the display control device 100 that has received the command causes the symbol display device 41 to display a character string such as "In the setting change mode. Please change the settings." Further, upon receiving the setting change mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Further, in the setting change notification start process, information indicating that the setting change mode has been started is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting change mode has started, the hall computer displays information about the pachinko machine 10 in the setting change mode on the management screen. After executing step S11301, the process advances to step S11302.

In step S11302, control is started to display setting information for lottery settings on the information display section 45z. Specifically, setting information for lottery settings is displayed by lighting on the information display section 45z. Thereafter, the process advances to step S11303, and it is determined whether the setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so whether or not the setting information is a numerical value within the range from "1" to "6"? Determine. If it is determined in step S11303 that the setting information is a numerical value within a predetermined range (step S11303: YES), the process advances to step S11305. On the other hand, if it is determined in step S11303 that the setting information is not a numerical value within the predetermined range (step S11303: NO), for example, if "0" or "7" is stored as the setting information, or if noise etc. If information other than numerical values is stored, the process advances to step S11304 and the setting information is changed to the initial value. In this aspect, "1" is stored as an initial value in the setting information. After that, the process advances to step S11305.

In step S11305, it is determined whether the RAM clear button has been pressed. If it is determined in step S11305 that the RAM clear button has not been pressed (step S11305: NO), the process advances to step S11306, and it is determined whether the setting change button has been pressed. In step S11306, if it is determined that the setting change button has been pressed (step S11306: YES), the process advances to step S11307, and the setting information of the lottery setting is updated. Specifically, 1 is added to numerical information stored as setting information. However, if the setting change button is pressed in a situation where the numerical information stored as setting information is "6", the numerical information is updated to "1". Thereafter, the process returns to step S11303 described above, and it is determined whether the updated setting information is a numerical value within a predetermined range. On the other hand, if it is determined in step S11306 that the settings change button has not been pressed (step S11306: NO), the process returns to step S11303 described above without executing the process in step S11307, and the setting information is changed to the predetermined value. Determine whether the value is within the range.

In step S11305 described above, if it is determined that the RAM clear button has been pressed (step S11305: YES), the process advances to step S11308, and it is determined whether the setting key has been turned to the OFF side. If it is determined in step S11308 that the setting key is not in the OFF side (step S11308: NO), step S11308 is executed again. On the other hand, if it is determined in step S11308 that the setting key is turned to the OFF side (step S11308: YES), the process advances to step S11309. That is, after the RAM clear button is pressed, an infinite loop is repeated and the process does not proceed to step S11309 until the setting key is turned to the OFF side, and when the setting key is turned to the OFF side, the process proceeds to step S11309.

In step S11309, the control for displaying the setting information of the lottery setting on the information display section 45z is ended. After that, the process advances to step S11310.

In step S11310, a setting change notification end process is executed. In the setting change notification termination process, a setting change mode end command, which is a command indicating that the setting change mode has ended, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the settings change mode end command, it ends the various controls for notifying that the settings change mode is in progress.

Furthermore, in the setting change notification termination process, information indicating that the setting change mode has been terminated is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting change mode has ended, the hall computer displays information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen. After executing step S11310, this setting change process ends. In addition, after executing the setting change notification termination process, the setting information of the changed lottery setting is sent to the hall computer of the gaming hall via an external terminal, and the hall computer that receives the information displays the relevant information on the management screen. It may also be configured to display setting information of the changed lottery settings of the pachinko machine 10.

FIG. 53 is a flowchart showing a setting confirmation process executed by the main MPU 62 (main CPU 62x) in aspect 87 of the first embodiment. This setting confirmation process is executed as a subroutine of step S11215 in FIG.

In step S11401, setting confirmation notification start processing is executed. In the setting confirmation notification start process, a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has started, is transmitted to the audio emission control device 90. When receiving the setting confirmation mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting confirmation mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "Setting confirmation mode is in progress." Further, upon receiving the setting confirmation mode start command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the setting confirmation mode is in progress. Specifically, for example, the audio light emission control device 90 transmits a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "Setting confirmation mode in progress", and the display control device 100 receives the command. The control device 100 causes the symbol display device 41 to display a character string such as "Setting confirmation mode in progress." Further, upon receiving the setting confirmation mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Furthermore, in the setting confirmation notification start process, information indicating that the setting confirmation mode has been started is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting confirmation mode has started, the hall computer displays information about the pachinko machine 10 in the setting confirmation mode on the management screen. After executing step S11401, the process advances to step S11402.

In step S11402, control is started to display setting information for lottery settings on the information display section 45z. Specifically, the setting information of the lottery setting is displayed blinking on the information display section 45z. After that, the process advances to step S11403.

In step S11403, it is determined whether the setting key has been turned to the OFF side. If it is determined in step S11403 that the setting key is not in the OFF side (step S11403: NO), step S11403 is executed again. On the other hand, if it is determined in step S11403 that the setting key is turned to the OFF side (step S11403: YES), the process advances to step S11404. That is, the process repeats an infinite loop and does not proceed to step S11404 until the setting key becomes OFF, and the process proceeds to step S11404 when the setting key becomes OFF.

In step S11404, the control for displaying the setting information of the lottery settings on the information display section 45z is ended. After that, the process advances to step S11405.

In step S11405, setting confirmation notification termination processing is executed. In the setting confirmation notification termination process, a setting confirmation mode termination command, which is a command indicating that the setting confirmation mode has been terminated, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the setting confirmation mode end command, it ends the various controls for notifying that the setting confirmation mode is in progress.

Further, in the setting confirmation notification termination process, information indicating that the setting confirmation mode has been terminated is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting confirmation mode has ended, the hall computer displays information indicating that the setting confirmation mode of the pachinko machine 10 has ended on the management screen. After executing step S11405, this setting confirmation process ends.

As explained above, in this embodiment, when the power is turned on (power ON), the setting key, the frame release switch, and the door release switch are all turned on in the pachinko machine 10, and , the setting change mode is executed when the RAM clear switch is turned on, and on the other hand, when the power is turned on (when the power is turned on), the setting key, frame release switch, and door release switch are all turned on. , and the RAM clear switch is OFF, execute the setting confirmation mode. That is, in this aspect, the pachinko machine 10 that has already started up (for example, is running the game progress mode) cannot be moved to the setting change mode or setting confirmation mode while the power is in the ON state. In order to move an already activated pachinko machine 10 to a setting change mode or a setting confirmation mode, it is necessary to turn off the power of the pachinko machine 10 and then turn it on again while performing the above-mentioned prescribed operations. It is configured as follows.

Generally, in gaming halls, the equipment is arranged in such a way that anyone other than the administrator cannot operate the power switch on the back side of the pachinko machine 10. Even if there is a person (hereinafter also referred to as an unauthorized person) who attempts to change or check the lottery settings of the pachinko machine 10, the unauthorized person who is not the administrator will It is difficult to operate the switch. Therefore, it is possible to prevent an unauthorized person from illegally shifting the pachinko machine 10 to the setting change mode or setting confirmation mode.

Furthermore, in this aspect, when the power of the pachinko machine 10 is turned on, the speaker 46 outputs a sound or alarm sound indicating that the pachinko machine 10 has started, so that an unauthorized person can set the lottery without being noticed by the surroundings. can make it more difficult to change or verify. As a result, it is possible to prevent an unauthorized person from fraudulently changing or confirming the lottery settings.

Furthermore, in this aspect, in order to shift the pachinko machine 10 to the setting change mode or setting confirmation mode, it is necessary to open the inner frame 13 and the front door frame 14, so that an unauthorized person is not noticed by the surroundings. may make it more difficult to change or confirm lottery settings. As a result, it is possible to prevent an unauthorized person from fraudulently changing or confirming the lottery settings.

Furthermore, in this aspect, during the start-up process from when the power of the pachinko machine 10 is turned on until execution of the game progress mode is started (a period during which the processes from step S11201 to step S11228 in FIG. 51 are executed) In the middle), game history information is not displayed on the information display section 45z, but setting information of lottery settings is displayed when the setting change mode or setting confirmation mode is executed. That is, during the start-up process, no game history information is displayed on the information display section 45z, and only setting information for lottery settings can be displayed. Therefore, it is possible to prevent the administrator from wondering whether the information displayed on the information display section 45z is lottery settings setting information or game history information during the start-up process. It is possible to prevent the administrator from misunderstanding and recognizing the setting information displayed on the information display section 45z as game history information.

Furthermore, in this aspect, even if an operation is performed to execute the setting confirmation mode when the power is turned on, it is determined whether or not the RAM determination value of the main side RAM 64 is normal, and the RAM determination If it is determined that the value is not normal, the setting confirmation mode is not executed, the main side RAM 64 is notified that it is abnormal, and the game is not shifted to a game progress mode in which the game can be played. Therefore, it is possible to prevent the setting confirmation mode and the game progress mode from being executed while leaving the possibility that the setting information of the lottery setting stored in the main side RAM 64 has become an abnormal value that the administrator did not intend. Can be suppressed.

Furthermore, in this aspect, the operation for executing the setting change mode includes an operation of pressing a RAM clear button, and the pachinko machine 10 performs a RAM clear process ( (first RAM clear processing or second RAM clear processing). That is, in order to cause the pachinko machine 10 to execute the setting change mode, the administrator operates the RAM clear button, and the pachinko machine 10 also executes the RAM clear process when executing the setting change mode. Generally, the administrator who manages the pachinko machine 10 recognizes that when the pachinko machine 10 is turned on with the RAM clear button pressed, a RAM clear process will be executed. Therefore, according to the configuration of this aspect, when the administrator operates the RAM clear button to execute the setting change mode, not only the setting change mode is executed, but also RAM clear processing is executed. This makes it possible to strongly recognize that the As a result, for example, if the administrator wants to restart the pachinko machine 10 while maintaining the gaming state such as the high probability mode and restart the game progress mode from the state when the power was turned off last time, the administrator can If RAM clear processing should not be executed at startup, it is possible to reliably determine that a setting change mode that involves execution of RAM clear processing should not be executed.

Furthermore, in this aspect, among the information stored in the main side RAM 64, it is possible to execute a first RAM clearing process that does not erase setting information for lottery settings, and a second RAM clearing process that erases setting information as well. , a processing step in which setting information is left and other information is deleted from the information stored in the main side RAM 64, and a processing step in which setting information is also deleted. can be realized. For example, if the setting information is normal and should be maintained, but other information needs to be deleted, the first RAM clearing process is executed to prevent the setting information from becoming an abnormal value that the administrator did not intend. It is possible to implement a configuration in which the second RAM clearing process is executed when there is a possibility that the process has been closed.

Furthermore, in this aspect, when the pachinko machine 10 is turned on, if it is determined that the power recovery flag is not ON or if it is determined that the RAM determination value is not normal, the main side RAM 64 is Even after notifying the user that there is an abnormality, the game does not shift to a game progress mode in which the game can proceed. After the power of the pachinko machine 10 is turned off once, when the power is turned on again, the game cannot be played unless the operation to execute the setting change mode has been performed and the setting change mode has been executed. It is configured not to execute a game progress mode in which progress is possible. Therefore, it is possible to prevent the game progress mode from being executed while leaving the possibility that the lottery settings setting information stored in the main RAM 64 has become an abnormal value that is not intended by the administrator. can.

Furthermore, in this aspect, when executing the setting change mode, RAM clear processing is executed, so the information stored in the main side RAM 64 after the lottery settings are changed and the information stored in the main side RAM 64 before the lottery settings are changed. It is possible to suppress the occurrence of inconsistency with the information stored in the side RAM 64 and problems in the progress of the game.

Note that in this aspect, after the first RAM clearing process is executed in step S11224 in FIG. 51, the setting change process (setting change mode) is executed in step S11225, but instead of this configuration, the setting change process (setting change mode) is executed. The configuration may be such that the first RAM clearing process is executed after executing the setting change mode). With such a configuration, it is possible to erase various flag information indicating the gaming state and various control information stored in the main side RAM 64 while maintaining the setting information of the lottery setting set by the setting change process. I can do it. Furthermore, if it is determined in step S11223 in FIG. 51 that the RAM abnormality flag is not ON, the first RAM clearing process is executed after the setting change process (setting change mode) is executed, and the setting change process (Setting change mode), if you turn the setting key to the OFF side and remove it from the setting keyhole without changing the lottery settings (or without finalizing the changed setting information), the first RAM clearing process It may be configured to shift to the game progress mode without executing. According to such a configuration, the setting change process (setting change mode) was executed by turning the setting key to the ON side and pressing the RAM clear button while turning on the power. Even if the lottery setting information is not changed (or the changed setting information is not finalized), execution of the first RAM clearing process can be avoided and the game can proceed from the state when the power was turned off last time. It becomes possible to restart the mode.

Further, in this aspect, after the first RAM clearing process is executed in step S11224 of FIG. 51, the setting change process (setting change mode) is executed in step S11225, but instead of this configuration, the second RAM clearing process The configuration may be such that the setting change process (setting change mode) is executed after the above is executed. Even with such a configuration, after the lottery setting is erased by the second RAM clearing process and the initial value (for example, "1") is stored as the setting information, the lottery setting can be changed to the desired setting information by the setting change process. Therefore, it is possible to avoid executing the game progress mode with the setting information of the lottery setting set to the initial value (for example, "1").

Further, in this aspect, after the second RAM clearing process is executed in step S11227 in FIG. 51, the setting change process (setting change mode) is executed in step S11228, but instead of this configuration, the setting change process ( The configuration may be such that the first RAM clearing process is executed after executing the setting change mode). With such a configuration, various information stored in the main RAM 64 that is determined to be abnormal can be erased while maintaining the setting information of the lottery setting set by the setting change process.

Furthermore, in this aspect, after the second RAM clearing process is executed in step S11227 in FIG. 51, the setting change process (setting change mode) is executed in step S11228. The configuration may be such that the setting change process (setting change mode) is executed after the above is executed. According to such a configuration, even if the setting information of the lottery setting is an abnormal value and the setting information of the lottery setting is maintained at an abnormal value even after the first RAM clearing process is executed, Also, the setting information of the lottery setting can be reset to an appropriate value by the setting change process (setting change mode).

Furthermore, in this aspect, if it is determined that the RAM abnormality flag is ON in steps S11210, S11214, and S11220 of FIG. 51, the RAM abnormality notification process is executed and the game progress mode is not entered. However, instead of this configuration, if it is determined that the RAM abnormality flag is ON in step S11210, step S11214, and step S11220, after executing the RAM abnormality notification process, the second RAM clearing process is executed to set the lottery setting. The configuration may be such that the setting information is set to an initial value (for example, "1") and then the game progress mode is entered.

Further, in this aspect, after the setting confirmation process (setting confirmation mode) is executed in step S11215 in FIG. 51, the power recovery process is executed in step S11216, and the power recovery flag is turned OFF in step S11217. Instead of this configuration, a configuration may be adopted in which the setting confirmation process (setting confirmation mode) is executed after the power recovery process and the process of turning off the power recovery flag are executed.

Furthermore, in this aspect, the configuration is such that the configuration information is updated when the settings change button is pressed in step S11306 in FIG. 52, and the configuration information is finalized when the RAM clear button is pressed in step S11305. The operation to update and confirm the setting information is not limited to this, for example, the setting information is updated when the RAM clear button is pressed, and the setting information is confirmed when the RAM clear button is pressed continuously for a predetermined period of time or more. It is also possible to have a configuration in which the According to this configuration, since the setting change button can be omitted, the manufacturing cost of the pachinko machine 10 can be reduced. Alternatively, the configuration may be such that the setting information is confirmed when the setting key is turned off, and the setting information is confirmed when a game ball is detected by a ball entry detection sensor provided at a predetermined ball entrance. It may also be a configuration.

Further, in this aspect, the conditions for executing the setting change mode and the setting confirmation mode include that the inner frame 13 and the front door frame 14 are in an open state. It is not essential for the condition that the door frame 14 is in the open state; for example, the condition includes that the inner frame 13 is in the open state, and the condition that the front door frame 14 is in the open state is included in the condition. A configuration may be adopted in which this condition is not included, or a configuration may be adopted in which the condition includes that the front door frame 14 is in an open state, but the condition does not include that the inner frame 13 is in an open condition. Moreover, it is good also as a structure in which neither the inner frame 13 nor the front door frame 14 is included in the said condition.

Further, in this aspect, the setting information displayed on the information display section 45z during the setting change mode is displayed in a lit display mode, and the setting information displayed on the information display section 45z during the setting confirmation mode is displayed in a blinking display mode. However, the display mode of the setting information in each mode is not limited to these. For example, the setting information displayed on the information display section 45z during the setting change mode is a blinking display mode, and the display mode of the setting information in each mode is a blinking display mode. The setting information displayed on the information display section 45z may be configured to be lit.

In addition, in this aspect, after the setting change mode and setting confirmation mode are finished, the game progress mode is executed as is, but instead of this configuration, after the setting change mode and setting confirmation mode are finished, The game progress mode is not executed and the game goes into a standby state in which the game cannot proceed, and the pachinko machine 10 is turned off once and a predetermined operation is performed to execute the setting change mode and the setting confirmation mode. A configuration may be adopted in which the game progress mode is executed when the power is turned on without doing so.

In addition, in this aspect, in step S11302 of the setting change process (FIG. 52), the setting information of the lottery setting stored in the main side RAM 64 (for example, the setting information when the power was turned off last time) is displayed by lighting on the information display section 45z. However, instead of this configuration, at the start of the setting change process, regardless of what value the setting information of the drawing setting stored in the main side RAM 64 is, the setting information of the drawing setting is changed. may be set to an initial value (for example, "1"), and the setting information set to the initial value may be displayed by lighting on the information display section 45z. With such a configuration, a RAM clearing process for erasing (clearing to 0) all information stored in the main side RAM 64, including setting information for lottery settings, can be executed before executing the setting change process. It becomes possible to do so.

In addition, in this aspect, during the period when the inner frame 13 is in the open state, the inner frame 13 It may be configured to continue to notify that the is in the open state. Specifically, for example, a voice such as "Inner frame is open" or a predetermined alarm sound is outputted from the speaker 46. Similarly, while the front door frame 14 is in the open state, the front door frame 14 remains open regardless of whether the setting change process (setting change mode) or the setting confirmation process (setting confirmation mode) is being executed. It may also be configured to continue notifying that it is in the open state. Specifically, for example, a voice such as "The door is open" or a predetermined alarm sound is outputted from the speaker 46. According to such a configuration, it becomes even more difficult for an unauthorized person to cause the pachinko machine 10 to execute a setting change process (setting change mode) or a setting confirmation process (setting confirmation mode) without being noticed by the surroundings. can.

<Aspect 88>
In the above aspect 87, when the pachinko machine 10 is turned on, if it is determined that the power recovery flag is not ON or if it is determined that the RAM determination value is not normal, the main side RAM 64 is abnormal. However, instead of this configuration, when the power is turned on, if the power recovery flag is not ON, If it is determined that the RAM judgment value is not normal, it will be notified that the main RAM 64 is abnormal even if no operation is performed to execute the setting change mode. The configuration may be such that the setting change mode is executed and then the game progress mode is entered. This will be explained in detail below.

FIG. 54 is a flowchart showing part of the main processing that the main MPU 62 (main CPU 62x) executes when the power is turned on in aspect 88 of the first embodiment.

In step S11501, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. After that, the process advances to step S11502, and internal function register setting processing is executed. Thereafter, the process advances to step S11503, and a process for notifying that the pachinko machine 10 has been powered on and started is executed. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. When receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice such as "Starting up" or a predetermined alarm sound is output from the speaker 46. After executing step S11503, the process advances to step S11504.

In step S11504, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

If it is determined in step S11504 that the power recovery flag is ON (step S11504: YES), the process advances to step S11505, and a RAM determination value of the main side RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S11506 to check whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S11506 that the RAM determination value is normal (step S11506: YES), the process advances to step S11507.

In step S11507, it is determined whether the RAM clear button is ON. If it is determined in step S11507 that the RAM clear button is not ON (step S11507: NO), the process advances to step S11508 and checks whether the setting key, frame release switch, and door release switch are all ON. Determine. Note that the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

In step S11508, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11508: NO), the process advances to step S11509 and returns to the state when the power was turned off last time. Execute the power restoration process. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S11509, the process advances to step S11510, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process (power outage monitoring process) of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

On the other hand, in step S11508 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11508: YES), the process advances to step S11511 to execute a setting confirmation process. . The details of the setting confirmation process (setting confirmation mode) are the same as the setting confirmation process shown in FIG. 53 of the above-mentioned aspect 87. After executing step S11511, the process advances to step S11512, where the above-described power recovery process is executed to return to the state when the power was turned off last time. After that, the process advances to step S11513, and the power recovery flag is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process (power outage monitoring process) of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

In step S11507 described above, if it is determined that the RAM clear button is ON (step S11507: YES), the process proceeds to step S11514, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine whether or not.

If it is determined in step S11514 that at least one of the setting key, frame release switch, and door release switch is not ON (step S11514: NO), the process advances to step S11515.

In step S11515, first RAM clear processing is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery settings. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. Upon receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, a voice such as "RAM has been cleared" is output from the speaker 46. After executing step S11515, the process proceeds to the normal game processing described above.

In step S11514 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11514: YES), the process advances to step S11516, and the first RAM clearing process described above is executed. do. After that, the process advances to step S11517 to execute setting change processing. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52 of the above-mentioned aspect 87. After executing step S11517k, the process proceeds to the normal game processing described above.

On the other hand, if it is determined that the power recovery flag is not ON in step S11504 described above (step S11504: NO), and if it is determined that the RAM judgment value is not normal in step S11506 described above (step S11506: NO), ), the process advances to step S11518, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a voice such as "RAM is abnormal." is output from the speaker 46. After executing step S11518, the process advances to step S11519.

In step S11519, second RAM clear processing is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information stored in the main RAM 64, including setting information for lottery settings. That is, when the second RAM clearing process is executed, in addition to various flag information indicating gaming states and various control information, setting information for lottery settings is also erased. Note that in the second RAM clearing process of this aspect, after the setting information is erased, "1" is stored as the initial value of the setting information. After that, the process advances to step S11520, and a setting change process is executed. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52 of the above-mentioned aspect 87. After executing step S11520, the process proceeds to the normal game processing described above.

As explained above, according to this aspect, even if no operation is performed to execute the setting change mode when the power is turned on, if it is determined that the power recovery flag is not ON; , determines whether the RAM judgment value of the main side RAM 64 is normal or not, and if it is judged that the RAM judgment value is not normal, notifies that the main side RAM 64 is abnormal and clears the second RAM. After executing the processing and setting change mode and finalizing the setting information, the game shifts to a game progress mode in which the game can be played. Therefore, it is possible to prevent the game progress mode from being executed while leaving the possibility that the lottery settings setting information stored in the main RAM 64 has become an abnormal value that is not intended by the administrator. can.

For example, even if an operation was performed to execute the setting confirmation mode when the power was turned on, if it is determined that the power recovery flag is not ON, and if the RAM judgment value of the main side RAM 64 is normal. If it is determined that the RAM judgment value is not normal, the setting confirmation mode is not executed, and after notifying that the main side RAM 64 is abnormal, the second RAM clearing process is performed. After executing the setting change mode and finalizing the setting information, the game shifts to a game progress mode in which the game can be played. Therefore, it is possible to prevent the game progress mode from being executed while leaving the possibility that the lottery settings setting information stored in the main RAM 64 has become an abnormal value that is not intended by the administrator. can.

<Aspect 89>
In the main process (FIG. 51) in the above aspect 87, after determining whether the RAM clear button is pressed (step S11208), whether the setting key, frame release switch, and door release switch are all ON. However, instead of this configuration, after determining whether the setting key, frame release switch, and door release switch are all ON, the RAM is It may be configured to determine whether or not the clear button is pressed. This will be explained in detail below.

FIG. 55 is a flowchart showing part of the main processing executed by the main MPU 62 (main CPU 62x) when the power is turned on according to aspect 89 of the first embodiment.

In step S11601, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. After that, the process advances to step S11602, and internal function register setting processing is executed. Thereafter, the process advances to step S11603, and a process for notifying that the pachinko machine 10 has been powered on and started is executed. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. When receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice saying "Starting up" or a predetermined alarm sound is outputted from the speaker 46. After executing step S11603, the process advances to step S11604.

In step S11604, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether or not information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

In step S11604, if it is determined that the power recovery flag is ON (step S11604: YES), the process advances to step S11605, and a RAM determination value of the main side RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S11606 to check whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S11606 that the RAM determination value is normal (step S11606: YES), the process advances to step S11608, which will be described later.

On the other hand, if it is determined that the power recovery flag is not ON in step S11604 described above (step S11604: NO), and if it is determined that the RAM judgment value is not normal in step S11606 described above (step S11606: NO), ), the process advances to step S11607 and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF or when the power recovery flag is ON but the RAM judgment value is not normal, and the information stored in the main side RAM 64 is This is a flag indicating that the state is not normal. After executing step S11607, the process advances to step S11608.

In step S11608, it is determined whether the setting key, frame release switch, and door release switch are all ON. Note that the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on. In step S11608, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11608: NO), the process advances to step S11609, and whether or not the RAM clear button is ON is determined. Determine whether

If it is determined in step S11609 that the RAM clear button is not ON (step S11609: NO), the process advances to step S11610, and it is determined whether the RAM abnormality flag is ON.

In step S11610, if it is determined that the RAM abnormality flag is not ON (step S11610: NO), the process advances to step S11611, and a power recovery process is executed to return to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S11611, the process advances to step S11612, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process (power outage monitoring process) of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

On the other hand, if it is determined in step S11610 that the RAM abnormality flag is ON (step S11610: YES), the process advances to step S11613 and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11613, the process proceeds to the normal game processing described above. However, in the pachinko machine 10 of this embodiment, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power outage monitoring process) are executed, but other processes necessary for the progress of the game (for example, starting Processing for inputting balls into the mouth, game time control processing, etc.) is not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, timer interrupt permission is not set. Therefore, although it appears to be the same as the normal game progression mode, the player is unable to advance the game. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode.

On the other hand, in step S11609 described above, if it is determined that the RAM clear button is ON (step S11609: YES), the process advances to step S11614, and it is determined whether the RAM abnormality flag is ON. If it is determined in step S11614 that the RAM abnormality flag is not ON (step S11614: NO), the process advances to step S11615.

In step S11615, first RAM clear processing is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery setting. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. Upon receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, a voice such as "RAM has been cleared" is output from the speaker 46. After executing step S11615, the process proceeds to the normal game processing described above.

On the other hand, if it is determined in step S11614 that the RAM abnormality flag is ON (step S11614: YES), the process advances to step S11616, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11616, the process proceeds to the normal game processing described above. However, as described above, in the pachinko machine 10 of this embodiment, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power outage monitoring process) are executed, but other operations necessary for the progress of the game are executed. Processing (for example, ball entry processing for the starting opening, game round control processing, etc.) is not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, timer interrupt permission is not set. Therefore, although it appears to be the same as the normal game progression mode, the player is unable to advance the game. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode.

In step S11608 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11608: YES), the process advances to step S11617, and it is determined whether the RAM clear button is ON or not. Determine whether or not.

In step S11617 described above, if it is determined that the RAM clear button is ON (step S11617: YES), the process advances to step S11618, and it is determined whether the RAM abnormality flag is ON.

If it is determined in step S11618 that the RAM abnormality flag is not ON (step S11618: NO), the process advances to step S11619 and a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. The details of the setting confirmation process (setting confirmation mode) are the same as the setting confirmation process shown in FIG. 53 of the above-mentioned aspect 87. After executing step S11619, the process advances to step S11620, where the above-described power recovery process is executed to return to the state when the power was turned off last time. After that, the process advances to step S11621, and the power recovery flag is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process (power outage monitoring process) of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

On the other hand, if it is determined in step S11618 that the RAM abnormality flag is ON (step S11618: YES), the process advances to step S11622, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11622, the process proceeds to the normal game processing described above. However, as described above, in the pachinko machine 10 of this embodiment, when the RAM abnormality flag is ON, the random number update process and the power supply monitoring process (power outage monitoring process) are executed, but other operations necessary for the progress of the game are executed. Processing (for example, ball entry processing for the starting opening, game round control processing, etc.) is not executed. Specifically, in this aspect, when the RAM abnormality flag is ON, timer interrupt permission is not set. Therefore, although it appears to be the same as the normal game progression mode, the player is unable to advance the game. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode.

In step S11217 described above, if it is determined that the RAM clear button is ON (step S11217: YES), the process advances to step S11223, and it is determined whether the RAM abnormality flag is ON.

If it is determined in step S11623 that the RAM abnormality flag is not ON (step S11623: NO), the process advances to step S11624, and the first RAM clearing process described above is executed. Thereafter, the process advances to step S11625 to execute setting change processing. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52 of the above-mentioned aspect 87. After executing step S11625, the process proceeds to the normal game processing described above.

On the other hand, if it is determined in step S11623 that the RAM abnormality flag is ON (step S11623: YES), the process advances to step S11626, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a voice such as "RAM is abnormal." is output from the speaker 46. After executing step S11626, the process advances to step S11627.

In step S11627, second RAM clear processing is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information stored in the main RAM 64, including setting information for lottery settings. That is, when the second RAM clearing process is executed, in addition to various flag information indicating gaming states and various control information, setting information for lottery settings is also erased. Here, when the RAM abnormality flag is ON, the reason why the second clearing process that also erases the setting information is executed instead of the first clearing process will be explained. If the RAM abnormality flag is ON, the configuration information stored in the main RAM 64 may also be incorrect. For example, the configuration information may have been rewritten due to noise or other factors that were not intended by the administrator, or the configuration information may be incorrect. This is because, even though only numbers within a predetermined range (for example, numbers from 1 to 6) can be taken, there is a possibility that a number outside the predetermined range is stored. Note that in the second RAM clearing process of this aspect, after the setting information is erased, "1" is stored as the initial value of the setting information. Further, the RAM abnormality flag is also turned OFF by the second clearing process. After that, the process advances to step S11628 to execute setting change processing. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52 of the above-mentioned aspect 87. After executing step S11628, the process proceeds to the normal game processing described above.

The configuration of this aspect described above can also provide the same effects as the aspect 87 described above. Furthermore, the various modified configurations described in the above aspect 87 can also be applied to this aspect.

<Aspect 90>
In the main process (FIG. 54) in the above aspect 88, after determining whether the RAM clear button is pressed (step S11507), whether the setting key, frame release switch, and door release switch are all ON. However, instead of this configuration, after determining whether the setting key, frame release switch, and door release switch are all ON, the RAM It may be configured to determine whether or not the clear button is pressed. This will be explained in detail below.

FIG. 56 is a flowchart showing part of the main processing executed by the main MPU 62 (main CPU 62x) when the power is turned on in aspect 90 of the first embodiment.

In step S11701, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S11702, and internal function register setting processing is executed. Thereafter, the process advances to step S11703, and a process for notifying that the pachinko machine 10 has been powered on and started is executed. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. When receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice such as "Starting up" or a predetermined alarm sound is output from the speaker 46. After executing step S11703, the process advances to step S11704.

In step S11704, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether or not information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

If it is determined in step S11704 that the power recovery flag is ON (step S11704: YES), the process advances to step S11705, and a RAM determination value of the main side RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S11706 to check whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S11706 that the RAM determination value is normal (step S11706: YES), the process advances to step S11707.

In step S11707, it is determined whether the setting key, frame release switch, and door release switch are all ON. Note that the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on. In step S11707, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11707: NO), the process advances to step S11708, and whether or not the RAM clear button is ON is determined. Determine whether

In step S11708, if it is determined that the RAM clear button is not ON (step S11708: NO), the process advances to step S11709, and a power restoration process is executed to return to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S11709, the process advances to step S11710, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process (power outage monitoring process) of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

On the other hand, in step S11708 described above, if it is determined that the RAM clear button is ON (step S11708: YES), the process advances to step S11711 and the first RAM clearing process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery settings. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. When receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, the speaker 46 outputs a voice saying "RAM has been cleared." After executing step S11711, the process proceeds to the normal game processing described above.

In step S11707 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11707: YES), the process advances to step S11712, and it is determined whether the RAM clear button is ON or not. Determine whether or not.

If it is determined in step S11712 that the RAM clear button is not ON (step S11712: NO), the process advances to step S11713 and a setting confirmation process is executed. The details of the setting confirmation process (setting confirmation mode) are the same as the setting confirmation process shown in FIG. 53 of the above-mentioned aspect 87. After executing step S11713, the process advances to step S11714, where the above-described power recovery process is executed to return to the state when the power was turned off last time. After that, the process advances to step S11715, and the power recovery flag is turned OFF. Thereafter, the process shifts to normal game processing. Specifically, for example, the interrupt enable setting, interrupt disable setting, random number update process, and power supply monitoring process (power outage monitoring process) of the timer interrupt process described in each of the above-mentioned aspects are executed. By allowing the timer interrupt processing and executing the above-described timer interrupt processing, the game can proceed (game progress mode is started).

In step S11712 described above, if it is determined that the RAM clear button is ON (step S11712: YES), the process advances to step S11716 and the first RAM clear process described above is executed. Thereafter, the process advances to step S11717 to execute setting change processing. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52 of the above-mentioned aspect 87. After executing step S11717, the process proceeds to the normal game processing described above.

On the other hand, if it is determined in step S11704 described above that the power recovery flag is not ON (step S11704: NO), and if it is determined in step S11706 described above that the RAM judgment value is not normal (step S11706: NO), ), the process advances to step S11718, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a voice such as "RAM is abnormal." is output from the speaker 46. After executing step S11718, the process advances to step S11719.

In step S11719, second RAM clear processing is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information stored in the main RAM 64, including setting information for lottery settings. That is, when the second RAM clearing process is executed, in addition to various flag information indicating gaming states and various control information, setting information for lottery settings is also erased. Note that in the second RAM clearing process of this aspect, after the setting information is erased, "1" is stored as the initial value of the setting information. After that, the process advances to step S11720, and a setting change process is executed. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52 of the above-mentioned aspect 87. After executing step S11720, the process proceeds to the normal game processing described above.

The configuration of this embodiment described above can also provide the same effects as the above embodiment 88. Furthermore, the various modified configurations described in the above aspect 88 can also be applied to this aspect.

<Aspect 91>
In the setting change process (FIG. 52) in each of the above embodiments, the setting information of the lottery setting is determined when the RAM clear button is pressed (step S11305), but instead of this structure, the setting key is A configuration may be adopted in which the setting information for the lottery setting is determined when the setting is turned off. This will be explained in detail below.

FIG. 57 is a flowchart showing a setting change process executed by the main MPU 62 (main CPU 62x) in aspect 91 of the first embodiment. Processes that are the same as those included in the setting change process shown in FIG. 52 are given the same step numbers. The main difference from the setting change process shown in FIG. 52 is that in FIG. 52, the process of confirming the changed setting information is to press the RAM clear button (step S11305), whereas in this embodiment, The process of confirming the changed setting information is to turn the setting key to the OFF side (step S11305a), and the process of step S11308 in FIG. 52 is therefore omitted. This will be explained in detail below.

In step S11301, setting change notification start processing is executed. In the setting change notification start process, a setting change mode start command, which is a command indicating that the setting change mode has started, is transmitted to the audio emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting change mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "Setting change mode is in progress." Further, upon receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that the setting change mode is in progress. Specifically, for example, the audio light emission control device 90 transmits a command to the display control device 100 to cause the symbol display device 41 to display a character string such as “Settings change mode in progress”, and the display control device 100 receives the command. The control device 100 causes the symbol display device 41 to display a character string such as "Setting change mode in progress." Further, upon receiving the setting change mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Further, in the setting change notification start process, information indicating that the setting change mode has been started is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting change mode has started, the hall computer displays information about the pachinko machine 10 in the setting change mode on the management screen. After executing step S11301, the process advances to step S11302.

In step S11302, control is started to display setting information for lottery settings on the information display section 45z. Specifically, setting information for lottery settings is displayed by lighting on the information display section 45z. Thereafter, the process advances to step S11303, and it is determined whether the setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so whether or not the setting information is a numerical value within the range from "1" to "6"? Determine. If it is determined in step S11303 that the setting information is a numerical value within a predetermined range (step S11303: YES), the process advances to step S11305a. On the other hand, if it is determined in step S11303 that the setting information is not a numerical value within the predetermined range (step S11303: NO), for example, if "0" or "7" is stored as the setting information, or if noise etc. If information other than numerical values is stored, the process advances to step S11304 and the setting information is changed to the initial value. In this aspect, "1" is stored as an initial value in the setting information. After that, the process advances to step S11305a.

In step S11305a, it is determined whether the setting key has been turned to the OFF side. If it is determined in step S11305a that the setting key is not in the OFF side (step S11305a: NO), the process advances to step S11306, and it is determined whether the setting change button has been pressed. In step S11306, if it is determined that the setting change button has been pressed (step S11306: YES), the process advances to step S11307, and the setting information of the lottery setting is updated. Specifically, 1 is added to numerical information stored as setting information. However, if the setting change button is pressed in a situation where the numerical information stored as setting information is "6", the numerical information is updated to "1". Thereafter, the process returns to step S11303 described above, and it is determined whether the updated setting information is a numerical value within a predetermined range. On the other hand, if it is determined in step S11306 that the setting change button has not been pressed (step S11306: NO), the process returns to step S11303 described above without executing the process in step S11307, and the setting information is changed to the predetermined value. Determine whether the value is within the range.

In step S11305a described above, if it is determined that the setting key is turned to the OFF side (step S11305a: YES), the process advances to step S11309, and controls for displaying the setting information of the lottery setting on the information display section 45z is executed. finish. After that, the process advances to step S11310.

In step S11310, a setting change notification end process is executed. In the setting change notification termination process, a setting change mode end command, which is a command indicating that the setting change mode has ended, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the settings change mode end command, it ends the various controls for notifying that the settings change mode is in progress.

Further, in the setting change notification termination process, information indicating that the setting change mode has been terminated is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting change mode has ended, the hall computer displays information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen. After executing step S11310, this setting change process ends. In addition, after executing the setting change notification termination process, the setting information of the changed lottery setting is sent to the hall computer of the gaming hall via an external terminal, and the hall computer that receives the information displays the relevant information on the management screen. It may also be configured to display setting information of the changed lottery settings of the pachinko machine 10.

According to the configuration of this aspect described above, it is possible to omit the operation of pressing the RAM clear button to confirm the changed setting information, so the work required for the administrator to change the setting information can be omitted. The process can be simplified.

<Aspect 92>
Among the above aspects, in a configuration in which the setting change mode and the setting confirmation mode can be executed, during the execution of the setting change mode and the setting confirmation mode, the main display section 45 displays the game progress that allows the game to proceed. It may be configured to display a display pattern (display mode) that is not displayed while the mode is being executed. This will be explained in detail below.

As described above, the main display section 45 is composed of a plurality of light emitting sections. Specifically, the main display section 45 includes a first symbol display section 37a consisting of a plurality of segment light emitting sections, a second symbol display section 37b consisting of a plurality of segment light emission sections, and a first holding display section 37a consisting of a plurality of LED lamps. It is constituted by a display section 37c, a second reservation display section 37d consisting of a plurality of LED lamps, a general figure unit 38 consisting of a plurality of LED lamps, and a round display section 39 consisting of a plurality of LED lamps.

The main display section 45 controls each light emitting section so that the display mode reflects the progress of the game during the execution of the game progress mode in which the game can proceed. While the progress mode is being executed, all the light emitting parts constituting the main display section 45 are not lit at the same time, nor are all the light emitting parts flashing synchronously.

Therefore, in this aspect, the main display section 45 executes control to simultaneously light up all the light emitting sections that constitute the main display section 45 while executing the setting change mode in which the setting information of the lottery setting can be changed, During execution of the setting confirmation mode in which the setting information of the lottery setting can be confirmed, control is executed to cause all the light emitting parts constituting the main display section 45 to flash in synchronization.

According to such a configuration, it becomes possible for the administrator or the like to identify whether the pachinko machine 10 is currently in the game progress mode, the setting change mode, or the setting confirmation mode. Furthermore, according to such a configuration, it is not necessary to newly add a light emitting section for mode display to the main display section 45 to identify the current mode of the pachinko machine 10, so that the pachinko machine 10 can be easily viewed. By simply changing the control program of the pachinko machine 10 without changing the hardware configuration, the current mode of the pachinko machine 10 can be changed to a configuration that allows an administrator or the like to identify.

In addition, during the execution of the setting change mode in which setting information of the lottery setting can be changed, the main display section 45 executes control to flash all the light emitting sections constituting the main display section 45 in synchronization, and the lottery setting information is changed. During the execution of the setting confirmation mode in which setting information can be checked, a configuration may be adopted in which control is executed to simultaneously light up all the light emitting parts constituting the main display part 45.

In addition, if the display mode displayed by the main display section 45 during execution of the setting change mode and execution of the setting confirmation mode is a display mode (lighting pattern) that is not displayed during execution of the game progress mode, the main display section 45 The display mode is not limited to the configuration in which all the light emitting parts constituting the display unit 45 are turned on or blinked, and other display modes may be used.

Additionally, one light-emitting part (for example, an LED) for mode display is added to the main display part 45, and the light-emitting part is turned off while the game progress mode is being executed, and the light-emitting part is turned on while the setting change mode is being executed. , the light emitting section may be configured to blink while the setting confirmation mode is being executed. According to such a configuration, it is possible for the administrator etc. to clearly recognize the current mode of the pachinko machine 10, and the pachinko machine can be played using the sound emission control device 90, the display control device 100, and the symbol display device 41. The configuration can be simplified compared to a configuration that notifies the current mode of the machine 10.

In addition, two light emitting parts (for example, LEDs) for mode display are added to the main display part 45 (a first light emitting part and a second light emitting part), and when the game progress mode is being executed, the first light emitting part and the second light emitting part are used. The first light emitting part is turned on and the second light emitting part is turned off while the settings change mode is being executed, and the second light emitting part is turned on while the settings confirmation mode is being executed. The configuration may be such that the first light emitting section is turned off. According to such a configuration, it is possible for the administrator etc. to clearly recognize the current mode of the pachinko machine 10, and the pachinko machine can be played using the sound emission control device 90, the display control device 100, and the symbol display device 41. The configuration can be simplified compared to a configuration that notifies the current mode of the machine 10. Furthermore, since it is only necessary to control the two light emitting sections added to the main display section 45, it is possible to suppress an increase in data capacity due to the addition of control programs and lighting patterns.

<Aspect 93>
Among the above embodiments, in a configuration in which the information display section 45z includes four 7-segment displays 45z1 to 45z4, when the power of the pachinko machine 10 is turned on, all the light emitting sections constituting the information display section 45z are turned on for a predetermined period of time ( For example, the light may be turned on for 3 seconds, and then blinked synchronously for a predetermined period of time (for example, 2 seconds).

According to such a configuration, when the power of the pachinko machine 10 is turned on, it is possible to check whether there is any light emitting part that does not light up due to a problem such as a disconnection among the light emitting parts that constitute the information display section 45z, and It is possible to check whether there is a light emitting part that is permanently lit and does not turn off due to a malfunction. For example, if the segment light emitting part G and the segment light emitting part D of the middle right 7 segment display 45z3 do not light up due to a malfunction, control is executed to display "3" on the middle right 7 segment display 45z3. Even if the segment light emitting unit G and the segment light emitting unit D do not light up, “7” will be displayed on the right middle 7 segment display 45z3. As a result, the administrator may misunderstand the numerical information of the game history information. On the other hand, according to the configuration of this embodiment, when the power of the pachinko machine 10 is turned on, it is checked whether there is any light emitting part that does not light up due to a malfunction such as a disconnection among the light emitting parts that constitute the information display section 45z. In addition, it is possible to check whether there is a light-emitting section that is constantly turned on due to a malfunction and does not turn off, so that such misidentification can be suppressed.

Furthermore, an information display section inspection button for inspecting the information display section 45z is provided, and when the information display section inspection button is pressed, all the light emitting sections constituting the information display section 45z are turned off for a predetermined period of time (for example, 3 It may also be configured such that the lights are turned on for a certain period of time (for example, 2 seconds) and then blinked synchronously for a predetermined period of time (for example, 2 seconds).

According to such a configuration, even if the power of the pachinko machine 10 is not turned on, by pressing the information display section inspection button, the light emitting section constituting the information display section 45z will be checked for light emission that does not turn on due to a malfunction such as a disconnection. In addition, it is possible to check whether there is a light-emitting part that is constantly turned on due to a malfunction and does not turn off. That is, it is not necessary to turn off the power of the pachinko machine 10 and then turn it on again in order to check whether a problem has occurred in the information display section 45z, so that the work efficiency of the administrator can be improved.

Further, in the configuration in which the above-described base (in normal mode) is calculated and stored, and the stored base (in normal mode) is displayed on the information display section 45z, the main controller 60 calculates and stores the base (in normal mode), and the main controller 60 calculates and stores the base (in normal _mode) . The information display section 45z is configured to divide the section into sections every time the number reaches 60,000, calculate and store the base (in normal mode) for each section, and the information display section 45z displays multiple types of bases (in normal mode It is also possible to have a configuration in which the images (middle) are switched and displayed.

Specifically, the pachinko machine 10 of this embodiment calculates and stores the bases of up to seven sections (in normal mode), and the information display section 45z calculates and stores the bases of up to seven sections (in normal mode). (Middle) toggle and display. The seven sections are as follows.

・"bL": Base under measurement (in normal mode)
Ball exit rate calculated in the current section until the number of balls passing through the discharge passage currently being measured N _OUT reaches 60,000 balls (during normal mode)
・“b1”: Base measured in the previous section (in normal mode)
The exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000 and the section immediately before the section currently being measured (during normal mode)
・“b2”: Base measured in the two previous sections (in normal mode)
The exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000, and which is two sections before the section currently being measured (during normal mode)
・“b3”: Base measured in the previous three sections (in normal mode)
The exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000 and is three sections before the section currently being measured (during normal mode)
・"b4": Base measured in the 4th previous section (in normal mode)
The ball exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000 and is four sections before the section currently being measured (during normal mode)
・"b5": Base measured in the 5th previous section (in normal mode)
The exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000 and is 5 sections before the section currently being measured (during normal mode)
・"b6": Base measured in the 6th previous section (in normal mode)
The exit rate calculated in the section where the measured number of balls passing through the discharge passage N _OUT reached 60,000, and which is the 6th section before the section currently being measured (during normal mode)

In the initial state where basic game history information such as information on the number of balls entered into each ball entry section is not stored, measurement of the section corresponding to "bL" is started, and at any time at a predetermined timing, measurement of the section corresponding to "bL" is performed. Calculate the base (in normal mode). When the number of pieces passing through the discharge passage during measurement N _OUT reaches 60,000 pieces, the game history basic information stored as the section for "bL" is shifted to the section corresponding to "b1", and the game history basic information stored as the section for "bL" is shifted to the section corresponding to "bL". Start measurement. Then, when the number of pieces passing through the discharge passage _NOUT reaches 60,000 pieces in the section corresponding to "bL" where measurement has been newly started, the game history basic information stored as the section for "b1" is changed to correspond to "b2". The game history basic information stored as the section for "bL" is shifted to the section corresponding to "b1", and measurement of the section corresponding to "bL" is newly started. In this way, every time the number N _OUT passing through the discharge passage during measurement reaches 60,000 pieces, the game history basic information for each section is shifted, and the game history basic information is shifted up to the section corresponding to "b6". Remember it. Then, in a state where the game history basic information is stored as the section corresponding to "b6", when the number N _OUT of passing through the discharge passage during measurement reaches 60,000, the section is stored as the section corresponding to "b6". The game history basic information is deleted, and the game history basic information stored as the section corresponding to "b5" is shifted to the section corresponding to "b6".

That is, in this aspect, the game history basic information up to the time when the number N _OUT of passing through the discharge passage of 60,000 pieces x 7 sections at maximum is measured is accumulated and stored.

In this aspect, the information display section 45z switches and displays the stored bases of the plurality of sections (in the normal mode) every 5 seconds. Specifically, for example, if the bases of five sections "bL", "b1", "b2", "b3", and "b4" (in normal mode) are stored, the information display section 45z is 5 in the order of "bL.31" → "b1.31" → "b2.30" → "b3.31" → "b4.30" → "bL.31" → "b1.31"... The base of each section (in normal mode) is displayed repeatedly, switching every second.

According to such a configuration, the inspector or manager of the gaming machine can compare the bases (in normal mode) for each section by checking the display on the information display section 45z. As a result, for example, if the base value (in normal mode) becomes an abnormal value due to a malfunction or fraud in the pachinko machine 10, at what timing in the past did the malfunction occur? It becomes possible to predict.

In addition, in this embodiment, each section is divided every time the measured number of discharge passages passing through the discharge passage N _OUT reaches 60,000, and the base (in normal mode) is calculated and stored for each section. (middle) is switched every predetermined time (for example, every 5 seconds) and displayed on the information display section 45z, but instead of this configuration, an RTC 96 is provided to divide the section into sections each time the date changes, and to divide the information into sections by date. The base (in normal mode) is calculated and stored for each section, and the base (in normal mode) stored for each date (each section) is switched at predetermined time intervals (for example, every 5 seconds) and displayed on the information display section 45z. It is also possible to configure the display to be displayed. Specifically, for example, "bL" is the section of the current day, "b1" is the section from one day ago, "b2" is the section from two days ago, "b3" is the section from three days ago, and "b4" is the section from four days ago. , "b5" is defined as the section 5 days ago, and "b6" is defined as the section 6 days ago.

According to such a configuration, the inspector or administrator of the gaming machine can compare the base (during normal mode) of each section divided by date by checking the display on the information display section 45z. becomes possible. As a result, for example, if the base value (in normal mode) becomes an abnormal value due to a malfunction or fraud in the pachinko machine 10, it is possible to predict the date when the malfunction etc. occurred. It becomes possible.

In addition, basic game history information such as information on the number of balls entered into each ball entry section and game history information such as base (in normal mode) are stored in the main side RAM 64, and when the RAM clear button is pressed, the pachinko machine In a configuration in which basic gaming history information and gaming history information are erased (cleared) by the RAM clearing process executed by turning on the power of 10, after the basic gaming history information and gaming history information are erased. , until the measured number of pieces passing through the discharge passage _NOUT reaches a predetermined number (for example, 300 pieces), when displaying the game history information on the information display section 45z, the type information of the game history information is displayed, but the game The configuration may be such that the numerical information of the history information is not displayed.

Specifically, for example, in a configuration in which a base (in normal mode) is calculated and stored as game history information, and the stored base (in normal mode) is displayed on the information display section 45z, the game history base is calculated and stored by RAM clear processing. After the information and game history information are deleted, "bL." is displayed in the type information _display area of the information display section 45z and the numerical information display area is The configuration may be such that "-- (two hyphens)" is displayed.

According to such a configuration, if "bL.--" is displayed on the information display section 45z, the inspector or administrator of the gaming machine can confirm that the basic gaming history information and the gaming history information have been erased. It can be recognized that the number N _OUT of passing through the discharge passage measured after the pachinko machine 10 is shipped from the manufacturer's factory does not reach 300. Further, for example, when a manufacturer ships the pachinko machine 10, there are cases where the manufacturer inserts several game balls into each ball entry section to check the operation. In this case, the number of game balls that enter each ball entry section is counted in a situation that is not a legitimate game, so for example, the initially measured number of balls passing through the discharge path N _OUT is 300. Until this point is reached, there is a possibility that the basic game history information and the game history information will be greatly influenced by the checks by the manufacturer. Therefore, according to the configuration of this aspect, "bL.--" is displayed on the information display section 45z until the measured number of discharge passage passages _NOUT reaches 300, and the base (in normal mode) Since numerical information is not displayed, the administrator can check the numerical values that have been greatly influenced by the manufacturer's checks, and prevents the administrator from misunderstanding that a malfunction has occurred in the pachinko machine 10. can do.

<Aspect 94>
Among the above aspects, in a configuration in which game history information is calculated for each section, after the game history basic information corresponding to the section is stored up to the upper limit and the game history information is calculated and stored, the game history information for the section is The basic game history information, which is the basis for calculating the history information, may be deleted. Specifically, for example, after the number N _OUT passing through the discharge passage during measurement reaches 60,000 and the game history information is calculated and stored, the game history basic information that was the basis for calculating the game history information is It may also be configured to erase. According to such a configuration, it is possible to reduce the storage capacity required to store the game history basic information.

<Aspect 95>
Among the above embodiments, in a configuration in which the information display section 45z switches and sequentially displays a plurality of bases (in normal mode) corresponding to each of a plurality of sections, when switching, the information display section 45z is displayed for a predetermined period of time. It may be configured such that all the light emitting parts (segment light emitting parts A to H and DP light emitting part) of the seven segment display are turned off for a predetermined period of time. The configuration of this embodiment will be specifically explained below.

FIG. 58 is a time chart showing an example of a change in the display mode of the information display section 45z. In FIG. 58, the bases of three sections "bL", "b1", and "b2" (in normal mode) are calculated and stored in the main RAM 64, and the bases of these three sections (in normal mode) are calculated and stored in the main RAM 64. An example is shown in which the information display section 45z switches and displays the information display section 45z.

In this aspect, the information display unit 45z circulates and repeatedly displays the base (in the normal mode) in the order going back to the past sections. More specifically, after displaying "bL", which is the base under measurement (in normal mode) corresponding to the most recent section, until a predetermined display duration (for example, 5000 ms) has elapsed, the display is displayed for the previous section. The bases (in normal mode) are sequentially displayed in the backward order, and after displaying the base (in normal mode) corresponding to the oldest section among the sections stored in the main side RAM 64, the most recent measurement mode is displayed again. Displays "bL" which is the base (in normal mode) corresponding to the section.

Furthermore, in this aspect, the information display unit 45z starts displaying the base (in normal mode) corresponding to one of the plurality of sections, and sets the display duration of the base (in normal mode) to 5000 ms (for example, 5000 ms). ) has elapsed, all the light emitting parts (segment light emitting parts A to H and DP light emitting part) of the 7-segment display constituting the information display section 45z are turned off for a predetermined period of time (for example, 300 ms), and then 1 Starts displaying the base (in normal mode) corresponding to the previous section. That is, in this aspect, when switching the display of the base (in normal mode) corresponding to one section to the display of the base (in normal mode) corresponding to another section, the 7-segment display constituting the information display section 45z All the light emitting parts (segment light emitting parts A to H and DP light emitting part) of the device are turned off for a predetermined period of time (for example, 300 ms).

In the example shown in FIG. 58, the information display unit 45z continues to display "bL", which is the measurement base (in normal mode) corresponding to the section currently being measured, in a display format such as "bL.31" for 5000ms. The light is displayed on, and then all the light emitting parts are turned off for 300ms. After that, "b1", which is the measured base (in normal mode) corresponding to the previous section, is displayed as "b1.30" and lit continuously for 5000ms, and then all the light emitting parts are turned off for 300ms. Lights out. After that, "b2", which is the measured base (in normal mode) corresponding to the previous section, is displayed as "b2.31" and lit continuously for 5000ms, and then all the light emitting parts are turned off. The light goes out for 300ms. Thereafter, "bL", which is the base under measurement (in normal mode) corresponding to the section currently under measurement, is displayed as "bL.31" by lighting continuously for 5000 ms. In this way, the information display unit 45z circulates and repeatedly displays the base of each section (in the normal mode) stored in the main side RAM 64, with the entire lights out state of 300 ms in between.

Next, a case will be described in which the number N _OUT of particles passing through the discharge passage during measurement reaches 60,000.

FIG. 59 is a time chart showing an example of a change in the display mode of the information display section 45z when the number N _OUT passing through the discharge passage during measurement reaches 60,000. In FIG. 59, the bases of three sections "bL", "b1", and "b2" (during normal mode) are calculated and stored in the main side RAM 64, and the information display section 45z displays "b1". During the display, an example is shown in which the number N _OUT of objects passing through the discharge passage under measurement has reached 60,000.

In this aspect, while displaying the base (in normal mode) corresponding to any section, if the number N _OUT of discharge passages passing through the section currently being measured reaches 60,000, the information display section 45z: Even before the display duration time (5000 ms) of the currently displayed base (in normal mode) has elapsed, the display of the currently displayed base (in normal mode) is ended. Then, a display mode corresponding to the number N _OUT of discharge passages passing through the section being measured reaches 60,000 is started, and the display mode is continued for a predetermined period of time (for example, 2000 ms). In this embodiment, a display mode in which four hyphens are lit is adopted as a display mode corresponding to the fact that the number N _OUT of discharge passages passing through the section under measurement has reached 60,000. Then, until the predetermined period (for example, 2000 ms) during which the four hyphens are lit has elapsed, the main CPU 62x of the main control device 60 is set to the base (in normal mode) corresponding to the section currently being measured. A new "bL" is calculated after executing the process of calculating the final value as a certain "bL" and the process of shifting the base (in normal mode) corresponding to each section to the past section one by one. In order to do this, the process of measuring the number of game balls entering each ball entrance in the current section and calculating the current value of "bL" is started.

In the example shown in FIG. 59, when "b1" is being displayed and before the display duration time of "b1" of 5000 ms has elapsed, the number N _OUT passing through the discharge passage in the section being measured reaches 60000. The information display unit 45z finishes displaying the "b1", starts displaying in a display mode in which four hyphens are lit, and continues this display mode for 2000 ms.

Thereafter, in this embodiment, based on the fact that a predetermined time (for example, 2000 ms) has elapsed since the start of the display mode in which four hyphens are lit, the cyclic display is started from "bL" where measurement has been newly started. In other words, after the display in which four hyphens are lit is finished, the display resumes from "bL" where the new measurement started, regardless of the base (in normal mode) section where the display was interrupted. .

In addition, in this aspect, the number N _OUT passing through the discharge passage in the section under measurement is determined to be 60,000 at a timing before 300 ms has elapsed since the start of the display mode in which all the light emitting units constituting the information display unit 45z are turned off. When the information display section 45z reaches this point, the information display section 45z ends the display mode in which all the light emitting sections are turned off, and shifts to the display mode in which the four hyphens mentioned above are lit.

As explained above, in this aspect, the information display unit 45z has a display mode that displays the base (in normal mode) corresponding to one section among a plurality of sections (for example, a display mode that displays "bL"). After transitioning to a display mode that does not display any base (in normal mode) (for example, a display mode in which all segment light emitting parts are turned off), a display that displays the base (in normal mode) corresponding to another section. mode (for example, a display mode in which "b1" is displayed). Therefore, according to this aspect, for the administrator or inspector of the pachinko machine 10, the base displayed on the information display section 45z (in normal mode) is the base corresponding to another section (in normal mode). It is possible to clearly recognize that the switch has been made. As a result, administrators, etc. are prevented from erroneously recognizing the displayed base (in normal mode) section without noticing that the displayed base (in normal mode) section has changed. can do. In particular, in this aspect, even if the intervals of the base (in normal mode) are different, there are situations where the numerical value of the base (in normal mode) itself is the same, and in this situation, the displayed base (in normal mode) ), only the display of the second character (for example, L, 1, 2, etc.) indicating the base (in normal mode) section changes. If the configuration is such that the display mode that displays the base corresponding to one section (in normal mode) is directly transferred to the display mode that displays the base corresponding to another section (in normal mode), the administrator etc. It becomes difficult to notice that the displayed base (in normal mode) section has changed. In contrast, in this aspect, before shifting from the display mode that displays the base corresponding to one section (in normal mode) to the display mode that displays the base corresponding to another section (in normal mode), Since the display mode changes to a display mode in which neither base (during normal mode) is displayed (for example, a display mode in which all segment light emitting parts are turned off), even if the numbers themselves of the bases (during normal mode) before and after switching are the same, It is possible to make the administrator or the like clearly aware that the base (in normal mode) displayed on the information display section 45z has been switched to the base (in normal mode) corresponding to another section.

In addition, in this aspect, the transition mode when transitioning from the display mode that displays the base corresponding to one section (in normal mode) to the display mode that displays the base corresponding to another section (in normal mode) is , which is a transition mode in which all the light emitting parts are turned off for 300 ms. On the other hand, when the display mode is changed based on the number N _OUT of discharge passages passing through the section being measured reaching 60,000, the display mode is a transition mode in which four hyphens are lit for 2000 ms. That is, in this aspect, there is a transition mode in which a display mode in which a base corresponding to one section (in normal mode) is displayed to a display mode in which a base corresponding to another section (in normal mode) is displayed; The display mode is different from the display mode when the display mode is shifted based on the number N _OUT of discharge passages passing through the section being measured reaching 60,000. Therefore, according to this aspect, by recognizing the difference in the transition mode, the administrator or inspector of the pachinko machine 10 shifts to the display mode that displays the base (in normal mode) corresponding to another section. It is possible to clearly distinguish and recognize whether the display mode changes based on the fact that the number N OUT of discharge passages in the section under measurement has reached 60,000, or that the number of discharge passages N _OUT in the section under measurement has reached 60,000. As a result, for example, an administrator or the like may notice that the base of each section (in normal mode) has been shifted one by one to the past section because the number N _OUT of discharge passages passing through the section under measurement has reached 60,000. It is possible to prevent the user from continuing to check the base (in normal mode) without noticing.

In addition, in this aspect, while displaying the base (in normal mode), if the number N _OUT of discharge passages passing through the section under measurement reaches 60,000, the display of the currently displayed base (in normal mode) continues. Even before the time elapses, the display mode changes to a display mode (a display mode in which four hyphens are lit) corresponding to the fact that the number N _OUT of discharge passages in the section under measurement has reached 60,000. Therefore, according to this aspect, the administrator or the inspector of the pachinko machine 10 can be made to recognize at an early stage that the number N _OUT passing through the discharge passage in the section under measurement has reached 60,000. Further, according to this aspect, it is possible to quickly display the base (in normal mode) of each section after shifting when the number N _OUT of discharge passages passing through the section under measurement reaches 60,000. Therefore, the administrator etc. can quickly check the base (in normal mode) for each section after the shift due to the number N _OUT passing through the discharge passage in the section under measurement reaching 60,000. The efficiency of inspecting the pachinko machine 10 can be improved.

In addition, in this aspect, when the number N _OUT of objects passing through the discharge passage in the section under measurement reaches 60,000, a display corresponding to the number N _OUT passing through the discharge passage in the section under measurement reaches 60,000 is displayed. Since the mode (display mode in which four hyphens are lit) continues for a predetermined time (2000 ms in this mode), the main CPU 62x uses the period until the predetermined time elapses to display the final value as "bL". It is possible to secure time for executing the process of calculating the base (in normal mode) corresponding to each interval and the process of shifting the base (in normal mode) one by one to the past interval. In addition, if the configuration is such that after calculating the final value as "bL", the game history basic information that was the basis for calculating the "bL" is deleted, the memory required to store the game history basic information Capacity can be reduced.

In addition, in this aspect, multiple bases (in normal mode) corresponding to each of multiple sections are sequentially switched and displayed in a predetermined order, such as going back to the previous section, and the emissions in the section under measurement are displayed. When the number of items passed through the aisle N _OUT reaches 60,000 items, regardless of which area is the base area (in normal mode) that should be displayed next according to the predetermined order, the most recent Display starts from "bL" which is the base (in normal mode) corresponding to the section. Therefore, according to this aspect, the administrator or inspector of the pachinko machine 10 can recognize that the number N _OUT passing through the discharge passage in the section under measurement has reached 60,000, and also It is possible to confirm the information on a preferential basis.

Note that in this aspect, the difference between the display mode that displays the base (in normal mode) corresponding to one section of the plurality of sections and the display mode that displays the base (in normal mode) corresponding to the other section. Although a display mode in which all segment light emitting parts are turned off is adopted as a display mode in , other display modes may be adopted as long as the display mode does not display the base (in normal mode) of any section. For example, a display mode in which four hyphens are lit or a display mode in which four hyphens are blinked may be adopted. According to such a configuration, the administrator or inspector of the pachinko machine 10 can see that the base displayed on the information display section 45z (in normal mode) corresponds to another section (in normal mode). It is possible to more clearly recognize that the switch has been made.

In addition, in this embodiment, a display mode in which four hyphens are lit is adopted as a display mode corresponding to the number N _OUT passing through the discharge passage in the section under measurement reaching 60,000, but other display modes are also adopted. May be adopted. For example, a display mode in which four hyphens flash may be adopted as a display mode corresponding to the fact that the number of discharge passage passages N _OUT in the section under measurement has reached 60,000. Furthermore, for example, as a display mode corresponding to the number N _OUT passing through the discharge passage in the section under measurement reaching 60,000, all the light emitting parts (segment light emitting part A -H and DP light emitting units) may be turned off.

In addition, in this embodiment, a transition mode in which four hyphens are lit for 2000 ms is adopted as a transition mode when changing the display mode based on the number N _OUT passing through the discharge passage in the section under measurement reaching 60000. However, other transition modes may be adopted. For example, when the display mode is changed based on the number N _OUT of discharge passages passing through the section being measured reaching 60,000, all the light emitting parts of the 7-segment display constituting the information display section 45z may be changed. A transition mode may be adopted in which (segment light emitting units A to H and DP light emitting unit) are turned off for 300 ms. According to such a configuration, the transition mode when shifting from the display mode that displays the base corresponding to one section (in normal mode) to the display mode that displays the base corresponding to another section (in normal mode) Since the display mode can be made the same as the transition mode when the display mode changes based on the number of particles N _OUT passing through the discharge passage in the section under measurement reaching 60,000, it is possible to make it the same as the transition mode when the display mode changes based on the number N OUT passing through the discharge passage in the section under measurement. The display mode can be changed without giving any changes.

Furthermore, in this embodiment, the base (in normal mode) is displayed as the game history information, but the game history information to be displayed is not limited to the base (in normal mode), and can be used for various games shown in the first embodiment. It may also be configured to display history information (for example, the ratio of accessories, the ratio of continuous accessories, etc.).

Further, in this embodiment, the sections are divided based on the number N _OUT passing through the discharge passage reaching 60,000, but the sections may be divided based on the fulfillment of other predetermined conditions. . For example, sections may be divided based on the number N _OUT passing through the discharge passage reaching 10,000, or sections may be divided based on a change in date.

<Aspect 96>
In the above aspect 95, while displaying the base (in normal mode) corresponding to any section, if the number N _OUT of discharge passages passing through the section currently being measured reaches 60,000, the information display section 45z , even before the display duration time (5000ms) of the currently displayed base (in normal mode) has elapsed, the display of the currently displayed base (in normal mode) ends, and the discharge passage passage in the section being measured is terminated. The configuration is such that when the number of items N _OUT reaches 60,000 items, the display starts in a display mode, but instead of this configuration, while displaying the base (in normal mode) corresponding to any section, the current When the number N _OUT of discharge passages passing through the section under measurement reaches 60,000, the information display unit 45z displays the information during measurement after the display duration time (5,000 ms) of the base (in normal mode) being displayed has elapsed. It is also possible to start displaying in a display mode corresponding to the number N _OUT passing through the discharge passage in the section reaching 60,000. The configuration of this embodiment will be specifically explained below.

FIG. 60 is a time chart showing an example of a change in the display mode of the information display section 45z when the number N _OUT passing through the discharge passage during measurement reaches 60,000. In FIG. 60, the bases (during normal mode) of three sections "bL", "b1", and "b2" are calculated and stored in the main side RAM 64, and the information display section 45z displays "b1". During the display, an example is shown in which the number N _OUT of objects passing through the discharge passage under measurement has reached 60,000.

As described above, in this aspect, while displaying the base (in normal mode) corresponding to any section, if the number N _OUT of discharge passages in the section currently being measured reaches 60,000, the information is displayed. The display section 45z has a display mode that corresponds to the fact that the number of particles N _OUT passing through the discharge passage in the section under measurement has reached 60,000 after the display duration time (5,000 ms) of the base being displayed (in normal mode) has elapsed. Start displaying. In this embodiment, a display mode in which four hyphens are lit is adopted as a display mode corresponding to the fact that the number N _OUT of discharge passages passing through the section under measurement has reached 60,000.

In the example shown in FIG. 60, when "b1" is being displayed and before the display duration time of "b1" of 5000 ms has elapsed, the number N _OUT passing through the discharge passage in the section being measured reaches 60000. After the display duration time (5000 ms) of the "b1" has elapsed, the information display unit 45z starts displaying in a display mode in which four hyphens are lit, and continues this display mode for 2000 ms. Thereafter, similarly to the above-described mode 95, the cyclic display starts from "bL" where measurement is newly started.

In addition, in this aspect, the number N _OUT passing through the discharge passage in the section under measurement is determined to be 60,000 at a timing before 300 ms has elapsed since the start of the display mode in which all the light emitting units constituting the information display unit 45z are turned off. When the information display section 45z reaches the display mode in which all the light emitting sections are turned off, 300 ms have elapsed, and then the information display section 45z shifts to the display mode in which the four hyphens mentioned above are lit.

As explained above, in this aspect, even if the number N _OUT passing through the discharge passage in the section under measurement reaches 60,000 while the base (in normal mode) is being displayed, the base ( Since the display of the base (in normal mode) continues until the display duration time of the base (in normal mode) has elapsed, for example, the administrator or inspector of the pachinko machine 10 can ), and the display of the base (in normal mode) ends when you try to transfer it to the inspection sheet, and the base (in normal mode) cannot be transferred to the inspection sheet. The occurrence can be suppressed.

<Aspect 97>
As explained in the above aspect 93, when the power is turned on, all the light emitting parts (segment light emitting parts A to G and DP light emitting part) constituting the information display part 45z are turned on for a predetermined time (for example, 3 seconds), and then for a predetermined time (for example, The following processing flow may be adopted as a processing flow for realizing a configuration in which the lights flash synchronously (for 2 seconds). This will be explained in detail below.

FIGS. 61 and 62 are flowcharts showing the main processing executed by the main MPU 62 (main CPU 62x) when the power is turned on, according to aspect 97 of the first embodiment. The main difference from the main process shown in FIG. 51 is that after the power restoration process is executed, a process for lighting and blinking all the light emitting units that make up the information display unit 45z (lighting and blinking process) is executed. .

In step S11801, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S11802, and internal function register setting processing is executed. Thereafter, the process advances to step S11803, and a process for notifying that the pachinko machine 10 has been powered on and started is executed. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. Upon receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice such as "Starting up" or a predetermined alarm sound is output from the speaker 46. After executing step S11803, the process advances to step S11804.

In step S11804, it is determined whether the power restoration flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

If it is determined in step S11804 that the power recovery flag is ON (step S11804: YES), the process advances to step S11805, and a RAM determination value of the main side RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S11806 to check whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S11806 that the RAM determination value is normal (step S11806: YES), the process advances to step S11808, which will be described later.

On the other hand, if it is determined that the power recovery flag is not ON in step S11804 described above (step S11804: NO), and if it is determined that the RAM judgment value is not normal in step S11806 described above (step S11806: NO), ), the process advances to step S11807 and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF or when the power recovery flag is ON but the RAM judgment value is not normal, and the information stored in the main side RAM 64 is This is a flag indicating that the state is not normal. After executing step S11807, the process advances to step S11808.

In step S11808, it is determined whether the RAM clear button is ON. In step S11808, if it is determined that the RAM clear button is not ON (step S11808: NO), the process advances to step S11809 and checks whether the setting key, frame release switch, and door release switch are all ON. Determine. Note that the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

In step S11809, if it is determined that at least one of the setting key, the frame release switch, and the door release switch is not ON (step S11809: NO), the process advances to step S11810 to determine whether the RAM abnormality flag is ON. Determine whether

In step S11810, if it is determined that the RAM abnormality flag is not ON (step S11810: NO), the process advances to step S11811, and a power recovery process is executed to return to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S11811, the process advances to step S11812, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process advances to step S11812-2, and a lighting/blinking process is executed in which all the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z are lit and blinked. In the lighting/blinking process, all the light emitting parts constituting the information display section 45z are turned on for a predetermined period of time (for example, 3 seconds), and then synchronously flashed for a predetermined period of time (for example, 2 seconds). After executing step S11812-2, the process proceeds to step S11829 (FIG. 62), which will be described later.

On the other hand, if it is determined in step S11810 that the RAM abnormality flag is ON (step S11810: YES), the process advances to step S11813, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11813, the process moves to step S11829 (FIG. 62), which will be described later.

On the other hand, in step S11809 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11809: YES), the process advances to step S11814, and the RAM abnormality flag is ON. Determine whether it exists or not.

If it is determined in step S11814 that the RAM abnormality flag is not ON (step S11814: NO), the process advances to step S11815 and a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. The details of the setting confirmation process (setting confirmation mode) are the same as the setting confirmation process shown in FIG. 53, so a description thereof will be omitted. After executing step S11815, the process advances to step S11816, where the above-described power recovery process is executed to return to the state when the power was turned off last time. After that, the process advances to step S11817, and the power recovery flag is turned OFF. Thereafter, the process advances to step S11817-2, and the above-described lighting/blinking process is executed. After executing step S11817-2, the process moves to step S11829 (FIG. 62), which will be described later.

On the other hand, if it is determined in step S11814 that the RAM abnormality flag is ON (step S11814: YES), the process advances to step S11818, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11818, the process advances to step S11829 (FIG. 62), which will be described later.

In step S11808 described above, if it is determined that the RAM clear button is ON (step S11808: YES), the process advances to step S11819, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine whether or not.

In step S11819, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11819: NO), the process advances to step S11820, and the RAM abnormality flag described above is ON. Determine whether or not. If it is determined in step S11820 that the RAM abnormality flag is not ON (step S11820: NO), the process advances to step S11821.

In step S11821, first RAM clear processing is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery setting. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. Upon receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, the speaker 46 outputs a voice saying "RAM has been cleared." After executing step S11821, the process proceeds to step S11829 (FIG. 62), which will be described later.

On the other hand, if it is determined in step S11820 that the RAM abnormality flag is ON (step S11820: YES), the process advances to step S11822 and executes RAM abnormality notification processing. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11822, the process proceeds to step S11829 (FIG. 62), which will be described later.

In step S11819 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11819: YES), the process proceeds to step S11823, and it is determined whether the RAM abnormality flag is ON or not. Determine whether or not.

If it is determined in step S11823 that the RAM abnormality flag is not ON (step S11823: NO), the process advances to step S11824, and the first RAM clearing process described above is executed. Thereafter, the process advances to step S11825 to execute setting change processing. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52, so a description thereof will be omitted. After executing step S11825, the process proceeds to step S11829 (FIG. 62), which will be described later.

On the other hand, if it is determined in step S11823 that the RAM abnormality flag is ON (step S11823: YES), the process advances to step S11826, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a voice such as "RAM is abnormal." is output from the speaker 46. After executing step S11826, the process advances to step S11827.

In step S11827, second RAM clear processing is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information stored in the main RAM 64, including setting information for lottery settings. That is, when the second RAM clearing process is executed, in addition to various flag information indicating gaming states and various control information, setting information for lottery settings is also erased. Here, when the RAM abnormality flag is ON, the reason why the second RAM clearing process that also erases the setting information is executed instead of the first RAM clearing process will be explained. If the RAM abnormality flag is ON, the configuration information stored in the main RAM 64 may also be incorrect. For example, the configuration information may have been rewritten due to noise or other factors that were not intended by the administrator, or the configuration information may be incorrect. This is because, even though only numbers within a predetermined range (for example, numbers from 1 to 6) can be taken, there is a possibility that a number outside the predetermined range is stored. Note that in the second RAM clearing process of this aspect, after the setting information is erased, "1" is stored as the initial value of the setting information. Furthermore, the RAM abnormality flag is also turned OFF by the second RAM clearing process. Thereafter, the process advances to step S11828 to execute setting change processing. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52, so a description thereof will be omitted. After executing step S11828, the process proceeds to step S11829 (FIG. 62), which will be described later.

In the processes after step S11829 shown in FIG. 62, if the RAM abnormality flag is not ON, interrupt enable setting, interrupt disable setting, various random number update processes, and power failure monitoring process (power supply monitoring process) for timer interrupt processing are executed. The timer interrupt processing (FIG. 27) described above is also executed. That is, if the RAM abnormality flag is not ON, the game progresses to a game progress mode in which the game can be played. On the other hand, when the RAM abnormality flag is ON, various random number update processes and power outage monitoring processes are executed, but the interrupt permission setting for the timer interrupt process is not executed, so the timer interrupt process described above (Figure 27) is executed. Not done. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode in which the game can be played. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode. The processing from step S11829 onward will be specifically described below.

In step S11829 shown in FIG. 62, it is determined whether the RAM abnormality flag is ON. If it is determined in step S11829 that the RAM abnormality flag is not ON (step S11829: NO), the process advances to step S11830, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the process advances to step S11831, and interrupt prohibition setting is executed to prohibit generation of timer interrupt processing. Thereafter, the process advances to step S11832, which will be described later. On the other hand, if it is determined in step S11829 that the RAM abnormality flag is ON (step S11829: YES), the process proceeds to step S11832 without executing the processes in step S11830 and step S11831.

In step S11832, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter in the main side RAM 64, and after executing the process of adding 1 to the read numerical information, the process of overwriting the read-out source counter with the numerical information after the addition. Execute. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S11832, the process advances to step S11833.

In step S11833, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Thereafter, without proceeding to step S11834, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even if the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, a sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power outage monitoring process in step S11833, if it is determined that the drive voltage supplied from the power supply device 85 to the main controller 60 is not lower than the predetermined value, the process directly advances to step S11834.

In step S11834, it is determined whether the RAM abnormality flag is ON. If it is determined in step S11834 that the RAM abnormality flag is not ON (step S11834: NO), the process advances to step S11835 described above, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the process returns to step S11831 described above, and interrupt prohibition setting is executed to prohibit generation of timer interrupt processing. On the other hand, if it is determined in step S11834 that the RAM abnormality flag is ON (step S11834: YES), the process does not proceed to step S11835 where interrupt permission settings are executed, and the process returns to step S11832 where various random number update processes are executed. .

As explained above, according to this aspect, the above-described lighting and blinking process is executed, so that among the plurality of light emitting parts that constitute the information display section 45z, there is a light emitting part that does not turn on due to a malfunction such as a disconnection. In addition, it is possible to check whether there is a light-emitting section that is constantly turned on due to a malfunction and does not turn off. For example, if the segment light emitting part G and the segment light emitting part D of the middle right 7 segment display 45z3 do not light up due to a malfunction, control is executed to display "3" on the middle right 7 segment display 45z3. Even if the segment light emitting unit G and the segment light emitting unit D do not light up, “7” will be displayed on the right middle 7 segment display 45z3. As a result, the administrator may, for example, misunderstand the numerical information of the game history information displayed on the information display section 45z. On the other hand, according to the configuration of this embodiment, when the power of the pachinko machine 10 is turned on, there is no light emitting part that does not turn on due to a malfunction such as a disconnection among the plurality of light emitting parts that make up the information display section 45z. In addition, it is possible to check whether there is a light emitting section that is constantly turned on due to a malfunction and does not turn off, so that such misidentification can be suppressed.

Furthermore, in this aspect, the lighting/blinking process is executed using the execution of the power restoration process as a trigger. Therefore, when the administrator or inspector of the pachinko machine 10 turns off the power switch of the pachinko machine 10 and then turns it on again, the power restoration process described above is executed. With this execution as a trigger, the lighting/blinking process is executed. That is, the administrator or the inspector can cause the pachinko machine 10 to execute the lighting/blinking process by simply turning the power switch OFF and ON. Further, when the administrator or the inspector turns the power switch OFF and ON in order to cause the pachinko machine 10 to execute the lighting and blinking process, the power recovery process is executed in the pachinko machine 10. Therefore, the gaming state (the state of the high probability mode flag, etc.) of the pachinko machine 10 is also maintained. Therefore, according to this aspect, even if a player is playing a game on the pachinko machine 10, the lighting and blinking process can be executed without causing any disadvantage to the player, and the administrator can Alternatively, the inspector can inspect whether there are any light emitting parts that do not turn on or turn off due to a malfunction among the plurality of light emitting parts that constitute the information display section 45z.

<Aspect 98>
As explained in the above aspect 93, when the power is turned on, all the light emitting parts (segment light emitting parts A to G and DP light emitting part) constituting the information display part 45z are turned on for a predetermined time (for example, 3 seconds), and then for a predetermined time (for example, The following processing flow may be adopted as a processing flow for realizing a configuration in which the lights flash synchronously (for 2 seconds). This will be explained in detail below.

63 and 64 are flowcharts showing the main processing executed by the main MPU 62 (main CPU 62x) in aspect 98 of the first embodiment when the power is turned on. The main difference from the main processing shown in FIGS. 61 and 62 is that the lighting/blinking process is not executed when the power restoration process is executed, but any one of the multiple branched process flows is executed. The point is that even if it is executed, the lighting/blinking process is executed.

In step S11901, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S11902, and internal function register setting processing is executed. Thereafter, the process advances to step S11903, and a process for notifying that the pachinko machine 10 has been powered on and started is executed. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. When receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice such as "Starting up" or a predetermined alarm sound is output from the speaker 46. After executing step S11903, the process advances to step S11904.

In step S11904, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

In step S11904, if it is determined that the power recovery flag is ON (step S11904: YES), the process advances to step S11905, and a RAM determination value of the main side RAM 64 is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S11906 to check whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S11906 that the RAM determination value is normal (step S11906: YES), the process advances to step S11908, which will be described later.

On the other hand, if it is determined that the power recovery flag is not ON in step S11904 described above (step S11904: NO), and if it is determined that the RAM judgment value is not normal in step S11906 described above (step S11906: NO), ), the process advances to step S11907 and the RAM abnormality flag is turned ON. That is, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF or when the power recovery flag is ON but the RAM judgment value is not normal, and the information stored in the main side RAM 64 is This is a flag indicating that the state is not normal. After executing step S11907, the process advances to step S11908.

In step S11908, it is determined whether the RAM clear button is ON. If it is determined in step S11908 that the RAM clear button is not ON (step S11908: NO), the process advances to step S11909 and checks whether the setting key, frame release switch, and door release switch are all ON. Determine. Note that the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

In step S11909, if it is determined that at least one of the setting key, the frame release switch, and the door release switch is not ON (step S11909: NO), the process advances to step S11910 to determine whether the RAM abnormality flag is ON. Determine whether

In step S11910, if it is determined that the RAM abnormality flag is not ON (step S11910: NO), the process advances to step S11911, and a power restoration process is executed to return to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S11911, the process advances to step S11912, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process proceeds to step S11928-2 (FIG. 64), which will be described later.

On the other hand, if it is determined in step S11910 that the RAM abnormality flag is ON (step S11910: YES), the process advances to step S11913 and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11913, the process advances to step S11928-2 (FIG. 64), which will be described later.

On the other hand, in step S11909 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11909: YES), the process advances to step S11914, and the RAM abnormality flag is ON. Determine whether it exists or not.

If it is determined in step S11914 that the RAM abnormality flag is not ON (step S11914: NO), the process advances to step S11915 and a setting confirmation process is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. The details of the setting confirmation process (setting confirmation mode) are the same as the setting confirmation process shown in FIG. 53, so a description thereof will be omitted. After executing step S11915, the process advances to step S11916, where the above-described power recovery process is executed to return to the state when the power was turned off last time. After that, the process advances to step S11917, and the power recovery flag is turned OFF. Thereafter, the process proceeds to step S11928-2 (FIG. 64), which will be described later.

On the other hand, if it is determined in step S11914 that the RAM abnormality flag is ON (step S11914: YES), the process advances to step S11918, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11918, the process advances to step S11928-2 (FIG. 64), which will be described later.

In step S11908 described above, if it is determined that the RAM clear button is ON (step S11908: YES), the process advances to step S11919, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine whether or not.

In step S11919, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S11919: NO), the process advances to step S11920, and the RAM abnormality flag described above is ON. Determine whether or not. If it is determined in step S11920 that the RAM abnormality flag is not ON (step S11920: NO), the process advances to step S11921.

In step S11921, first RAM clear processing is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery setting. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. Upon receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, a voice such as "RAM has been cleared" is output from the speaker 46. After executing step S11921, the process advances to step S11928-2 (FIG. 64), which will be described later.

On the other hand, if it is determined in step S11920 that the RAM abnormality flag is ON (step S11920: YES), the process advances to step S11922, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S11922, the process proceeds to step S11928-2 (FIG. 64), which will be described later.

In step S11919 described above, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S11919: YES), the process proceeds to step S11923, and it is determined whether the RAM abnormality flag is ON or not. Determine whether or not.

If it is determined in step S11923 that the RAM abnormality flag is not ON (step S11923: NO), the process advances to step S11924, and the first RAM clearing process described above is executed. Thereafter, the process advances to step S11925 to execute setting change processing. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52, so a description thereof will be omitted. After executing step S11925, the process proceeds to step S11928-2 (FIG. 64), which will be described later.

On the other hand, if it is determined in step S11923 that the RAM abnormality flag is ON (step S11923: YES), the process advances to step S11926, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, a voice such as "RAM is abnormal." is output from the speaker 46. After executing step S11926, the process advances to step S11927.

In step S11927, second RAM clear processing is executed. The second RAM clearing process is a process of erasing (clearing to 0) all information stored in the main RAM 64, including setting information for lottery settings. That is, when the second RAM clearing process is executed, in addition to various flag information indicating gaming states and various control information, setting information for lottery settings is also erased. Here, when the RAM abnormality flag is ON, the reason why the second RAM clearing process that also erases the setting information is executed instead of the first RAM clearing process will be explained. If the RAM abnormality flag is ON, the configuration information stored in the main RAM 64 may also be incorrect. For example, the configuration information may have been rewritten due to noise or other factors that were not intended by the administrator, or the configuration information may be incorrect. This is because, even though only numbers within a predetermined range (for example, numbers from 1 to 6) can be taken, there is a possibility that a number outside the predetermined range is stored. Note that in the second RAM clearing process of this aspect, after the setting information is erased, "1" is stored as the initial value of the setting information. Furthermore, the RAM abnormality flag is also turned OFF by the second RAM clearing process. Thereafter, the process advances to step S11928 to execute setting change processing. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 52, so a description thereof will be omitted. After executing step S11928, the process proceeds to step S11928-2 (FIG. 64), which will be described later.

In step S11928-2 shown in FIG. 64, a lighting/blinking process is executed in which all the light emitting units (segment light emitting units A to G and DP light emitting units) constituting the information display unit 45z are lit and blinked. In the lighting/blinking process, all the light emitting parts constituting the information display section 45z are turned on for a predetermined period of time (for example, 3 seconds), and then synchronously flashed for a predetermined period of time (for example, 2 seconds). After executing step S11928-2, the process advances to step S11929.

In the processing after step S11929, if the RAM abnormality flag is not ON, the interrupt enable setting, interrupt disable setting, various random number update processes, and power failure monitoring process (power supply monitoring process) of the timer interrupt process are executed, and the above-mentioned Timer interrupt processing (FIG. 27) is also executed. That is, if the RAM abnormality flag is not ON, the game progresses to a game progress mode in which the game can be played. On the other hand, if the RAM abnormality flag is ON, various random number update processes and power outage monitoring processes are executed, but the interrupt permission setting for the timer interrupt process is not executed, so the timer interrupt process described above (Figure 27) is executed. Not done. That is, when the RAM abnormality flag is ON, the game does not shift to the game progress mode in which the game can be played. In this state, the administrator should turn off the power to the relevant pachinko machine 10, insert the setting key into the setting keyhole, turn it to the ON side, and turn on the power while holding down the RAM clear button. What is necessary is to start the pachinko machine 10 in the setting change mode. The processing after step S11929 will be specifically explained below.

In step S11929 shown in FIG. 64, it is determined whether the RAM abnormality flag is ON. If it is determined in step S11929 that the RAM abnormality flag is not ON (step S11929: NO), the process advances to step S11930, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the process advances to step S11931, and interrupt prohibition setting is executed to prohibit generation of timer interrupt processing. Thereafter, the process advances to step S11932, which will be described later. On the other hand, if it is determined in step S11929 that the RAM abnormality flag is ON (step S11929: YES), the process proceeds to step S11932 without executing the processes in step S11930 and step S11931.

In step S11932, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter in the main side RAM 64, and after executing the process of adding 1 to the read numerical information, the process of overwriting the read-out source counter with the numerical information after the addition. Execute. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S11932, the process advances to step S11933.

In step S11933, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of this information to the main side RAM 64 is completed, the power recovery flag is turned on, a RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Remember. Thereafter, without proceeding to step S11934, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even when the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power outage monitoring process of step S11933, if it is determined that the drive voltage supplied from the power supply device 85 to the main control device 60 is not lower than the predetermined value, the process directly advances to step S11934.

In step S11934, it is determined whether the RAM abnormality flag is ON. If it is determined in step S11934 that the RAM abnormality flag is not ON (step S11934: NO), the process advances to step S11935 described above, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the process returns to step S11931 described above, and an interrupt prohibition setting for prohibiting the occurrence of timer interrupt processing is executed. On the other hand, if it is determined in step S11934 that the RAM abnormality flag is ON (step S11934: YES), the process does not proceed to step S11935 where interrupt permission settings are executed, and the process returns to step S11932 where various random number update processes are executed. .

As explained above, according to this aspect, since the above-described lighting and blinking process is executed, there is no light-emitting part that does not light up due to a malfunction such as a disconnection among the plurality of light-emitting parts that constitute the information display section 45z. In addition, it is possible to check whether there is a light-emitting section that is constantly turned on due to a malfunction and does not turn off. For example, if the segment light emitting part G and the segment light emitting part D of the middle right 7 segment display 45z3 do not light up due to a malfunction, control is executed to display "3" on the middle right 7 segment display 45z3. Even if the segment light emitting unit G and the segment light emitting unit D do not light up, “7” will be displayed on the right middle 7 segment display 45z3. As a result, the administrator may, for example, misunderstand the numerical information of the game history information displayed on the information display section 45z. On the other hand, according to the configuration of this embodiment, when the power of the pachinko machine 10 is turned on, there is no light emitting part that does not turn on due to a malfunction such as a disconnection among the plurality of light emitting parts that make up the information display section 45z. In addition, it is possible to check whether there is a light emitting section that is constantly turned on due to a malfunction and does not turn off, so that such misidentification can be suppressed.

In addition, in this aspect, processing is branched into multiple processes based on the operation mode of each operation unit (RAM clear switch, setting key) when the power switch is turned on and power supply from the outside is started. Execute one of the processing flows. For example, when the power is turned on, the RAM clear switch is ON, the setting key is on the ON side, and the inner frame 13 and front door frame 14 are open, the setting change process is performed. Execute the processing flow that includes. In this aspect, the lighting/blinking process is executed regardless of which one of the plurality of branched process flows is to be executed. Therefore, according to this aspect, the pachinko machine 10 can be caused to execute the lighting/blinking process no matter what kind of operation mode each operation unit is accepting when the power is turned on. Specifically, for example, when a manufacturer ships the pachinko machine 10, the RAM clear switch is turned on, the setting key is turned on, and the inner frame 13 and front door frame 14 are left open. By turning on the power, the pachinko machine 10 may execute a setting change process (setting change mode) to check whether the lottery settings can be changed or not. Even in this case, the pachinko machine 10 executes the above-mentioned lighting and blinking process after executing the setting change process (setting change mode), so the manufacturer's administrator should check the operation in the setting change mode. After that, it is possible to inspect whether there are any light emitting parts that do not turn on or turn off due to a malfunction among the plurality of light emitting parts that constitute the information display section 45z of the pachinko machine 10. Therefore, the inspection efficiency of the pachinko machine 10 at the time of shipment can be dramatically improved. In this way, the administrator or inspector of the pachinko machine 10 can check the light emitting parts of the information display part 45z, regardless of the operation mode accepted by each operation part when the power is turned on. It is possible to check whether there are any light-emitting parts that do not turn on or turn off due to a malfunction. That is, it is possible to prevent the test from being impossible to perform depending on the operation mode accepted by each operation unit when the power is turned on.

Further, according to this aspect, based on the fact that the power switch is turned on and the supply of power from the outside is started, step S11901 to step S11928 of the main process (FIGS. 63 and 64) including the lighting and blinking process is performed. The processing groups up to -2 are executed, and after the execution of the processing group is finished, the interrupt permission setting is executed and the processing group included in the timer interrupt processing is repeatedly executed, so power supply from the outside is not started. After that, the lighting/blinking process can be executed only once. If the lighting blinking process is included in the processing group of the timer interrupt process, the lighting blinking process will be repeatedly executed, increasing the processing load on the pachinko machine 10. Moreover, if the lighting/blinking process is repeatedly executed, there is a possibility that the period during which various information can be displayed on the information display section 45z will be shortened. On the other hand, according to this aspect, the lighting and blinking process can be executed only once after the supply of power from the outside is started, so it is possible to reduce the processing load on the pachinko machine 10, and The administrator or inspector of the pachinko machine 10 can inspect whether there are any light emitting parts that do not turn on or turn off due to a malfunction among the plurality of light emitting parts that constitute the information display section 45z.

Further, according to this aspect, after the power switch is turned on and the supply of power from the outside is started, and before the interrupt permission setting is executed and the execution of the timer interrupt process (FIG. 27) is started, Executes lighting/blinking processing. Therefore, before a game can be played on the pachinko machine 10, the administrator or inspector of the pachinko machine 10 must check whether any of the light emitting parts that do not turn on or are turned off due to a malfunction are present in the plurality of light emitting parts that make up the information display section 45z. It is possible to check whether there are any light-emitting parts that do not work. If the configuration is such that the lighting/blinking process is executed after the execution of the timer interrupt process is started, the player may It becomes possible to start playing games on the pachinko machine 10. In this case, after the player starts playing on the pachinko machine 10, the administrator or the inspector inspects the information display section 45z of the pachinko machine 10 and finds a malfunction in the light emitting section of the information display section 45z. There is a risk that it will happen. If the administrator or inspector discovers a malfunction in the light emitting part of the information display section 45z of the pachinko machine 10, the administrator or inspector shall request the player to interrupt or stop playing in order to repair or replace the information display section 45z. There will be a need to ask for help. As a result, the player may experience strong discomfort. On the other hand, according to this aspect, before the player can start playing on the pachinko machine 10, the administrator or the inspector can inspect the information display section 45z of the pachinko machine 10. Therefore, it is possible to prevent the player from having to interrupt or stop the game and feel uncomfortable.

Further, according to this aspect, after the lighting blinking process is executed, the interrupt permission setting is executed, and the game history process (step S10616 in FIG. 27) included in the timer interrupt process is executed. That is, in this aspect, since the lighting and blinking process is executed before the game history information such as the base (in normal mode) is displayed on the information display section 45z, the administrator or inspector of the pachinko machine 10 can 10, before the game history information is displayed on the information display section 45z, it is checked whether there is any light emitting section that does not turn on or turn off due to a malfunction among the plurality of light emitting sections that constitute the information display section 45z. can do. As a result, players may play the game displayed on the information display section 45z without noticing that among the plurality of light emitting sections that make up the information display section 45z, there are light emitting sections that do not turn on or turn off due to a malfunction. It is possible to prevent checking history information.

Note that in this aspect, the configuration is such that the lighting blinking process (step S11928-2 in FIG. 64) is executed after the setting change process (setting change mode) (steps S11925 and S11928 in FIG. 63) is executed. Instead, the lighting/blinking process may be executed before the setting information of the lottery setting is displayed on the information display section 45z in the setting change process (setting change mode). Specifically, for example, the lighting and blinking process in step S11928-2 of FIG. 64 is omitted, and the lighting and blinking process is executed prior to executing the process of step S11908 in FIG. 63 (processing to determine the state of the RAM clear button). It is also possible to have a configuration in which According to such a configuration, the administrator or inspector of the pachinko machine 10 can check the light emitting parts of the information display section 45z before setting information is displayed on the information display section 45z of the pachinko machine 10. It is possible to check whether there are any light-emitting parts that do not turn on or turn off due to a malfunction. As a result, users can check the setting information displayed on the information display section 45z without realizing that among the plurality of light emitting sections that make up the information display section 45z, there is a light emitting section that does not operate normally due to a malfunction. You can prevent it from happening. Similarly, according to this configuration, the lighting and blinking process is executed before the setting information of the lottery setting is displayed on the information display section 45z in the setting confirmation process (setting confirmation mode). The user checks the setting information displayed on the information display section 45z without realizing that among the plurality of light emission sections that make up the information display section 45z, there is a light emitting section that does not operate properly due to a malfunction. This can be suppressed.

Furthermore, in this aspect, by having a configuration in which the lighting/blinking process is executed in step S11928-2 in FIG. However, this configuration is not limited to this configuration, and by adopting other configurations, the lighting/blinking process can be executed regardless of which of the multiple branched process flows is executed. You can also use it as For example, the lighting/blinking process in step S11928-2 in FIG. 64 may be omitted, and the lighting/blinking process may be executed prior to the process in step S11908 in FIG. 63 (processing to determine the state of the RAM clear button). . For example, the lighting and blinking process in step S11928-2 in FIG. 64 may be omitted, and the process may be performed between step S11909 and step S11910 in FIG. 63, between step S11909 and step S11914 in FIG. A configuration may also be adopted in which lighting/blinking processing is executed between step S11920 and between step S11919 and step S11923 in FIG.

<Aspect 99>
Aspect 97 and Aspect 98 provide a method for an administrator or an inspector to inspect whether there is a light emitting part that does not turn on or turn off due to a malfunction among the plurality of light emitting parts that constitute the information display section 45z. Although the above-mentioned lighting/blinking process is employed as the testing process, the testing process is not limited to the lighting/blinking process, and various control modes may be employed. For example, as an inspection process, control to blink the light emitting parts is not executed, but all the light emitting parts constituting the information display part 45z are simultaneously shifted from the off state to the lighted state, and after a predetermined period of time, the light emitting parts are changed from the lighted state to the lighted state. Control may also be executed to cause the lights to turn off at the same time. Further, for example, as an inspection process, control may be executed to cause all the light emitting parts to flash in synchronization. Furthermore, for example, as the inspection process, control may be executed to sequentially turn on all the light emitting parts that make up the information display section 45z and then turn them off. That is, as the inspection process, control may be executed to shift all the light emitting sections constituting the information display section 45z from the light-off state to the light-on state at least once, and then to the light-off state. By executing the inspection process in this manner of control, the administrator or inspector of the pachinko machine 10 can detect any light-emitting parts that do not turn on or are turned off due to a malfunction among the plurality of light-emitting parts that constitute the information display section 45z. It is possible to check whether there are any light-emitting parts that do not work.

<Aspect 100>
Among the above aspects, in a configuration that can execute the setting change mode and the setting confirmation mode, various main processes and timer interrupt processes can be employed. This will be explained in detail below.

FIG. 65 is a flowchart showing the main processing executed by the main MPU 62 (main CPU 62x) in aspect 100 of the first embodiment when the power is turned on.

In step S12001, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S12002, and internal function register setting processing is executed. Thereafter, the process advances to step S12003, and a process is executed to notify that the pachinko machine 10 has been powered on and started. Specifically, a startup command indicating that the pachinko machine 10 has been started is transmitted to the audio emission control device 90. When receiving the activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated. Specifically, for example, a voice such as "Starting up" or a predetermined alarm sound is output from the speaker 46. After executing step S12003, the process advances to step S12004.

In step S12004, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

In step S12004, if it is determined that the power restoration flag is ON (step S12004: YES), the process advances to step S12005, and a predetermined calculation is performed based on a predetermined information group stored in the main side RAM 64. By this, the RAM judgment value is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S12006, and it is determined whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S12006 that the RAM determination value is normal (step S12006: YES), the process advances to step S12007.

In step S12007, setting information for lottery settings stored in the main side RAM 64 is read, and it is determined whether the setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so if the setting information is a numerical value within the range from "1" to "6", , it is determined that the setting information is a numerical value within a predetermined range, but on the other hand, if "0" or "7" is stored as the setting information, or if information other than numerical values is stored due to noise etc. determines that the setting information is not a numerical value within a predetermined range. If it is determined in step S12007 that the setting information is a numerical value within a predetermined range (step S12007: YES), the process advances to step S12008.

On the other hand, if it is determined that the power recovery flag is not ON in step S12004 described above (step S12004: NO), if it is determined that the RAM determination value is not normal in step S12006 described above (step S12006: NO), and If it is determined in step S12007 that the setting information is not within the predetermined range (step S12007: NO), the process advances to step S12015 and the RAM abnormality flag is turned ON. In other words, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF, when the RAM judgment value is not normal, or when the setting information is not a numerical value within a predetermined range. This is a flag indicating that the information stored in the main side RAM 64 is not in a normal state.

Below, the flow of processing executed when the RAM abnormality flag is not turned on will be explained, and then the flow of processing executed when the RAM abnormality flag is turned on will be explained.

In step S12008, it is determined whether the setting changing flag is ON. The setting change flag is a flag that is turned ON at the start of a setting change process (setting change mode), which will be described later, and turned OFF at the end of the setting change process (setting change mode). Here, the situation where the setting change flag is ON in step S12008 means that the setting change process (setting change mode) described later was executed when the pachinko machine 10 was last powered on, and the setting change process ( This is a situation where the setting changing flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring while the setting changing mode) is being executed.

If it is determined in step S12008 that the setting changing flag is ON (step S12008: YES), the process advances to step S12018, and setting changing processing (setting changing mode) is executed. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. Details of the setting change process (setting change mode) will be described later. On the other hand, if it is determined in step S12008 that the setting changing flag is not ON (step S12008: NO), the process advances to step S12009.

In step S12009, it is determined whether the RAM clear button is ON. If it is determined in step S12009 that the RAM clear button is not ON (step S12009: NO), the process advances to step S12010, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine. Note that "the setting key is ON" means that the setting key is inserted into the setting keyhole and is positioned on the ON side. Further, the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

In step S12010, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S12010: NO), the process advances to step S12011.

In step S12011, it is determined whether the setting confirmation flag is ON. The setting confirmation flag is a flag that is turned ON at the start of setting confirmation processing (setting confirmation mode), which will be described later, and turned OFF at the end of the setting confirmation processing (setting confirmation mode). Here, the situation where the setting confirmation flag is ON in step S12011 means that the setting confirmation process (setting confirmation mode) described later was executed when the pachinko machine 10 was last powered on, and the setting confirmation process (setting confirmation mode) was executed. This is a situation where the setting confirmation flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring during execution of the setting confirmation mode).

If it is determined in step S12011 that the setting confirmation flag is not ON (step S12011: NO), the process advances to step S12013, which will be described later.

On the other hand, if it is determined in step S12010 that the setting key, frame release switch, and door release switch are all ON (step S12010: YES), and if the setting confirmation flag is ON in step S12011, If determined (step S12011: YES), the process advances to step S12012. That is, if the RAM clear button is OFF when the power is turned on to the pachinko machine 10, and the setting key, frame release switch, and door release switch are all ON, and the previous power supply of the pachinko machine 10 is Setting confirmation processing (setting confirmation mode) is executed when the machine is turned on, and if the power switch of the pachinko machine 10 is turned off or a power outage occurs while the setting confirmation processing (setting confirmation mode) is being executed, the setting confirmation process is in progress. If the flag remains ON, the process advances to step S12012.

In step S12012, setting confirmation processing is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. Details of the setting confirmation process (setting confirmation mode) will be described later. After executing step S12012, the process advances to step S12013.

In step S12013, power restoration processing is executed to restore the state to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S12013, the process advances to step S12014, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process advances to step S12022, which will be described later.

On the other hand, in step S12009 described above, if it is determined that the RAM clear button is ON (step S12009: YES), the process advances to step S12017, and the setting key, frame release switch, and door release switch are all turned ON. Determine whether it exists or not. In step S12017, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S12017: YES), the process proceeds to step S12018 described above, and the setting change process (setting change mode). Thereafter, the process advances to step S12022, which will be described later. On the other hand, if it is determined in step S12017 that at least one of the setting key, frame release switch, and door release switch is not ON (step S12017: NO), the process advances to step S12019.

In step S12019, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S12019 that the RAM abnormality flag is not ON (step S12019: NO), the process advances to step S12020, and a first RAM clearing process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery setting. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. Further, in this aspect, in the first RAM clearing process, a first RAM clearing process execution command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. Upon receiving the first RAM clear processing execution command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the first RAM clear processing has been executed. Specifically, for example, a voice such as "RAM has been cleared" is output from the speaker 46. After executing step S12020, the process advances to step S12022, which will be described later.

On the other hand, if it is determined in step S12019 that the RAM abnormality flag is ON (step S12019: YES), the process advances to step S12021, and RAM abnormality notification processing is executed. In the RAM abnormality notification process, a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is transmitted to the audio emission control device 90. When receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, for example, the speaker 46 repeatedly outputs a voice such as "RAM abnormality. Please start in setting change mode." After executing step S12021, the process advances to step S12022. However, in the flow of this explanation, the RAM abnormality flag is not turned on, so the process does not proceed to step S12021.

In step S12022, a lighting/blinking process is executed, which is a process of lighting and blinking all the light emitting units (segment light emitting units A to G and DP light emitting unit) constituting the information display unit 45z. In the lighting/blinking process, all the light emitting parts constituting the information display section 45z are turned on for a predetermined period of time (for example, 3 seconds), and then synchronously flashed for a predetermined period of time (for example, 2 seconds). After executing step S12022, the process advances to step S12023.

In step S12023, interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, an infinite loop is repeated to wait, and timer interrupt processing, which will be described later, is executed periodically (every 4 ms in this embodiment).

Next, the flow of processing executed when the RAM abnormality flag is turned ON in step S12015 will be described.

As described above, if it is determined in step S12004 that the power recovery flag is not ON (step S12004: NO), if it is determined in step S12006 that the RAM determination value is not normal (step S12006: NO), and If it is determined in S12007 that the setting information is not within the predetermined range (step S12007: NO), the process advances to step S12015 and the RAM abnormality flag is turned ON. After that, the process advances to step S12016.

In step S12016, it is determined whether the RAM clear button is ON. In step S12016, if it is determined that the RAM clear button is ON (step S12016: YES), the process advances to step S12017 and checks whether the setting key, frame release switch, and door release switch are all ON. Determine. In step S12017, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S12017: YES), the process proceeds to step S12018 described above, and the setting change process (setting change mode). After that, the process advances to step S12022. On the other hand, if it is determined in step S12016 that the RAM clear button is not ON (step S12016: NO), and if it is determined in step S12017 that at least one of the setting key, frame release switch, and door release switch is not ON. In the case (step S12017: NO), the process advances to step S12019.

In step S12019, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S12019 that the RAM abnormality flag is not ON (step S12019: NO), the process advances to step S12020 and the first RAM clearing process described above is executed. After executing step S12020, the process advances to step S12022. However, in the flow of this explanation, since the RAM abnormality flag is ON, the process does not proceed to step S12020.

On the other hand, if it is determined in step S12019 that the RAM abnormality flag is ON (step S12019: YES), the process advances to step S12021 and the above-mentioned RAM abnormality notification process is executed. After that, the process advances to step S12022.

In step S12022, the above-described lighting and blinking process is executed. After executing step S12022, the process advances to step S12023, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the infinite loop process is repeated and the process waits, and a timer interrupt process, which will be described later, is executed periodically (every 4 ms in this embodiment).

As explained above, in this embodiment, the operation for executing the setting change process (setting change mode) is to press the RAM clear switch (ON state) and press the setting key (keyhole). This is an operation of turning on the power switch with all the frame opening switches and door opening switches turned on. In addition, the operation for executing the setting confirmation process (setting confirmation mode) is performed when the RAM clear switch is not pressed (OFF state), and the setting key (keyhole), frame release switch, and door open This is an operation to turn on the power switch with all switches turned on. In addition, the operation for executing the first RAM clearing process is to press the RAM clear switch (ON state), and turn off either the setting key (keyhole), frame release switch, or door release switch. This is an operation to turn on the power switch with the camera set to .

An example of the flow of processing realized by executing the above-described main processing will be summarized below.

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (step S12004, step S12006, step S12007), and setting change processing (setting change mode) If an operation has been performed to execute the setting change processing, regardless of whether the conditions for turning on the RAM error flag are met or not, and regardless of the state of the setting confirmation flag, the setting change processing will be executed. (setting change mode) is executed (step S12018).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12004, S12006, and S12007), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the flag is not established and the setting change flag is ON (step S12008: YES), the operation for executing the setting change process (setting change mode) and the setting confirmation process are performed. Regardless of whether the operation for executing (setting confirmation mode) and the operation for executing first RAM clear processing have been performed, the setting change process (setting change mode) is executed (step S12018). .

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12004, S12006, and S12007), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the setting change flag is not ON (step S12008: NO), and an operation for executing the first RAM clearing process has been performed (step S12009). : YES, step S12017: NO, step S12019: NO), the first RAM clearing process is executed regardless of the state of the setting confirmation flag (step S12020).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12004, S12006, and S12007), and determine the conditions for turning on the RAM abnormality flag. is not established, it is determined that the setting changing flag is not ON (step S12008: NO), and an operation for executing the setting confirmation process (setting confirmation mode) is performed. (Step S12009: NO, Step S12010: YES), a setting confirmation process (setting confirmation mode) is executed (Step S12012).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12004, S12006, and S12007), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the setting change flag is not ON (step S12008: NO), and no operation is performed to execute the setting confirmation process (setting confirmation mode). Even if there is, if the setting confirmation flag is ON (step S12011: YES), a setting confirmation process (setting confirmation mode) is executed (step S12012).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12004, S12006, and S12007), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the following is true and the RAM abnormality flag is turned ON (step S12015), the first RAM clearing process is not executed even if an operation for executing the first RAM clearing process has been performed. Instead, the RAM abnormality notification process is executed (step S12021).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12004, S12006, and S12007), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the following is true and the RAM error flag is turned ON (step S12015), even if an operation for executing the setting confirmation process (setting confirmation mode) has been performed, the setting The RAM abnormality notification process is executed without executing the confirmation process (setting confirmation mode) (step S12021).

Next, details of the setting change process shown in step S12018 in FIG. 65 will be described.

FIG. 66 is a flowchart showing a setting change process executed by the main MPU 62 (main CPU 62x) in aspect 100 of the first embodiment. This setting change process is executed as a subroutine of step S12018 in FIG. 65.

In step S12101, the setting changing flag in the main RAM 64 is turned on. As described above, the settings changing flag is a flag that indicates that the settings change process (settings change mode) has started, and a flag that indicates that the settings change process (settings change mode) has not yet ended. It is. After executing step S12101, the process advances to step S12102.

In step S12102, initial setting processing at the start of setting change is executed. In the initial setting process at the start of setting change, initial settings necessary for starting the setting change process are executed. Further, in this aspect, in the initial setting process at the start of setting change, it is determined whether the RAM abnormality flag is ON, and if it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. Make it. After executing step S12102, the process advances to step S12103.

In step S12103, a setting change notification start process is executed. In the setting change notification start process, a setting change mode start command, which is a command indicating that the setting change mode has started, is transmitted to the audio emission control device 90. When receiving the setting change mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting change mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "Setting change mode is in progress." Further, upon receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that the setting change mode is in progress. Specifically, for example, the audio emission control device 90 transmits a command for displaying a character string such as “Setting change mode” on the symbol display device 41 to the display control device 100, and the display that receives the command The control device 100 causes the symbol display device 41 to display a character string such as "Setting change mode in progress." Further, upon receiving the setting change mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Further, in the setting change notification start process, information indicating that the setting change mode has been started is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting change mode has started, the hall computer displays information about the pachinko machine 10 in the setting change mode on the management screen. After executing step S12103, the process advances to step S12104.

In step S12104, setting information for lottery settings stored in the main RAM 64 is read and saved as update setting information. Specifically, in this aspect, setting information of the lottery settings stored in the setting information storage area of the main side RAM 64 is read, and the read setting information is transferred to other areas other than the setting information storage area of the main side RAM 64. Copy to the update setting information storage area. After executing step S12104, the process advances to step S12105.

In step S12105, control is started to read the update setting information stored in the update setting information storage area of the main side RAM 64 and display the read update setting information on the information display section 45z. Specifically, the update setting information is displayed by lighting on the information display section 45z. Thereafter, the process advances to step S12106, and it is determined whether the update setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so whether the update setting information is a numerical value within the range from "1" to "6"? Determine whether or not. If it is determined in step S12106 that the update setting information is a numerical value within a predetermined range (step S12106: YES), the process advances to step S12108. On the other hand, if it is determined in step S12106 that the update setting information is not a numerical value within the predetermined range (step S12106: NO), for example, if "0" or "7" is stored as the update setting information If information other than numerical values is stored due to noise or the like, the process advances to step S12107 and the update setting information is changed to the initial value. In this aspect, "1" is stored as an initial value in the update setting information. After that, the process advances to step S12108.

In step S12108, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. Inside, a signal indicating a low level is monitored, and when a falling edge of the signal falling from a high level to a low level is detected, it is determined that the setting key (keyhole) has turned to the OFF side. In step S12108, if it is determined that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S12108: NO), the process advances to step S12109, and it is determined whether the setting change button has been pressed or not. Determine. In step S12109, if it is determined that the setting change button has been pressed (step S12109: YES), the process advances to step S12110, and the update setting information is updated. Specifically, 1 is added to the numerical information stored as update setting information. However, if the setting change button is pressed in a situation where the numerical information stored as update setting information is "6", the numerical information is updated to "1". Thereafter, the process returns to step S12106 described above, and it is determined whether the updated update setting information is a numerical value within a predetermined range. On the other hand, if it is determined in step S12109 that the setting change button has not been pressed (step S12109: NO), the process returns to step S12106 described above without executing the process in step S12110, and the update setting information is It is determined whether the value is within a predetermined range.

In step S12108 described above, if it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side (step S12108: YES), the process advances to step S12111.

In step S12111, the update setting information stored in the main RAM 64 is read and saved as setting information. Specifically, in this aspect, the update setting information stored in the update setting information storage area of the main side RAM 64 is read, and the read update setting information is copied to the setting information storage area of the main side RAM 64. do. After executing step S12111, the process advances to step S12112 and ends the control for displaying the update setting information on the information display section 45z. After that, the process advances to step S12113.

In step S12113, a setting change notification termination process is executed. In the setting change notification termination process, a setting change mode end command, which is a command indicating that the setting change mode has ended, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the settings change mode end command, it ends the various controls for notifying that the settings change mode is in progress.

Furthermore, in the setting change notification termination process, information indicating that the setting change mode has been terminated is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting change mode has ended, the hall computer displays information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen. After executing step S12113, the process advances to step S12114. In addition, after executing the setting change notification termination process, the setting information of the changed lottery setting is sent to the hall computer of the gaming hall via an external terminal, and the hall computer that receives the information displays the relevant information on the management screen. It may also be configured to display setting information of the changed lottery settings of the pachinko machine 10.

In step S12114, first RAM clear processing is executed. In the first RAM clearing process, information other than the setting information of the lottery setting stored in the setting information storage area of the main side RAM 64 is erased. When this first RAM clearing process is executed, the above-mentioned setting change flag is also cleared (turned OFF). After executing step S12114, this setting change process ends.

Next, details of the setting confirmation process shown in step S12012 in FIG. 65 will be described.

FIG. 67 is a flowchart showing a setting confirmation process executed by the main MPU 62 (main CPU 62x) in aspect 100 of the first embodiment. This setting confirmation process is executed as a subroutine of step S12012 in FIG. 65.

In step S12201, the setting confirmation flag in the main side RAM 64 is turned on. As described above, the settings confirmation flag is a flag that indicates that the settings confirmation process (settings confirmation mode) has started, and a flag that indicates that the settings confirmation process (settings confirmation mode) has not yet ended. It is. After executing step S12201, the process advances to step S12202.

In step S12202, setting confirmation notification start processing is executed. In the setting confirmation notification start process, a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has started, is transmitted to the audio emission control device 90. When receiving the setting confirmation mode start command, the sound emission control device 90 causes the speaker 46 to output a sound indicating that the setting confirmation mode is in progress. Specifically, for example, the speaker 46 repeatedly outputs a voice saying "Setting confirmation mode is in progress." Further, upon receiving the setting confirmation mode start command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the setting confirmation mode is in progress. Specifically, for example, the audio light emission control device 90 transmits a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "Setting confirmation mode in progress", and the display control device 100 receives the command. The control device 100 causes the symbol display device 41 to display a character string such as "Setting confirmation mode in progress." Further, upon receiving the setting confirmation mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Furthermore, in the setting confirmation notification start process, information indicating that the setting confirmation mode has been started is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting confirmation mode has started, the hall computer displays information about the pachinko machine 10 in the setting confirmation mode on the management screen. After executing step S12202, the process advances to step S12203.

In step S12203, control is started to display setting information for lottery settings stored in the setting information storage area of the main side RAM 64 on the information display section 45z. Specifically, the setting information of the lottery setting is displayed blinking on the information display section 45z. After that, the process advances to step S12204.

In step S12204, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. The inside monitors the signal indicating the low level, and when the falling edge of the signal from high level to low level is detected, it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side. judge. If it is determined in step S12204 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S12204: NO), step S12204 is executed again. On the other hand, if it is determined in step S12204 that the setting key (keyhole) has shifted from the ON side to the OFF side (step S12204: YES), the process advances to step S12205. That is, until the setting key (keyhole) moves from the ON side to the OFF side, an infinite loop is repeated and the process does not proceed to step S12205, and when the setting key (keyhole) moves from the ON side to the OFF side, the process proceeds to step S12205. move on.

In step S12205, the control for displaying the setting information of the lottery setting on the information display section 45z is ended. After that, the process advances to step S12206.

In step S12206, setting confirmation notification termination processing is executed. In the setting confirmation notification termination process, a setting confirmation mode termination command, which is a command indicating that the setting confirmation mode has been terminated, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the setting confirmation mode end command, it ends the various controls for notifying that the setting confirmation mode is in progress.

Further, in the setting confirmation notification termination process, information indicating that the setting confirmation mode has been terminated is transmitted to the hall computer of the gaming hall via the external terminal. Upon receiving the information indicating that the setting confirmation mode has ended, the hall computer displays information indicating that the setting confirmation mode of the pachinko machine 10 has ended on the management screen. After executing step S12206, the process advances to step S12207, and the setting changing flag in the main side RAM 64 is turned OFF. After that, this setting confirmation process ends.

Next, timer interrupt processing executed by the main MPU 62 (CPU 62x) will be described.

FIG. 68 is a flowchart showing timer interrupt processing executed by the main MPU 62 (main CPU 62x) in aspect 100 of the first embodiment. In this aspect, the main MPU 62 (main CPU 62x) executes timer interrupt processing at a 4 ms cycle.

In step S12301, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter (jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, electric accessory opening counter C4, etc.) in the main side RAM 64, and the read numerical information is updated. After executing the process of adding 1, the process of overwriting the read-out counter with the numerical information after the addition is executed. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S12301, the process advances to step S12302.

In step S12302, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Thereafter, without proceeding to step S12303, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even when the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power outage monitoring process in step S12302, if it is determined that the drive voltage supplied from the power supply device 85 to the main controller 60 is not lower than the predetermined value, the process directly advances to step S12303.

In step S12303, it is determined whether the RAM abnormality flag is ON. If it is determined in step S12303 that the RAM abnormality flag is not ON (step S12303: NO), the process advances to step S12304. On the other hand, if it is determined in step S12303 that the RAM abnormality flag is ON (step S12303: YES), this timer interrupt processing is ended without executing the processing after step S12304. That is, if the RAM abnormality flag is ON, the processing for enabling the game to proceed from step S12304 onward will not be executed, and the system will not shift to the game proceeding mode in which the game can proceed. There is. Hereinafter, the processing after step S12304, which is the processing for enabling the game to proceed, will be explained.

In step S12304, port output processing is executed. In the port output processing, when the output information has been set in the previous timer interrupt processing, processing is executed to cause the various drive units 36c and 34b to output corresponding to the output information. For example, if information is set to switch the big winning opening 36a to the open state, output of a drive signal to the variable winning a prize drive unit 36c is started, and if information to switch the big winning opening 36a to the closed state is set, The output of the drive signal is stopped. In addition, when the information to switch the electric accessory 34a of the second starting port 34 to the open state is set, the output of the drive signal to the electric accessory drive section 34b is started, and the information to switch the electric accessory 34a to the closed state is set. If set, the output of the drive signal is stopped. After that, the process advances to step S12305.

In step S12305, reading processing is executed. In the reading process, signals other than the incoming ball signal are read, and the read information is stored for use in future processing. After that, the process advances to step S12306.

In step S12306, the signals received from each of the ball entry detection sensors 44a to 44h are read, and ball entry detection processing is executed to perform processing corresponding to the read information. The ball entry detection process is the same as the ball entry detection process shown in FIG. 28, so a detailed explanation will be omitted. After executing step S12306, the process advances to step S12307.

In step S12307, timer update processing is executed to collectively update numerical information of predetermined timer counters provided in the main side RAM 64. After that, the process advances to step S12308, and output setting processing for the prize ball command is executed. After that, the process advances to step S12309.

In step S12309, ball entry processing for the starting openings is executed as the game balls enter the first starting opening 33 and the second starting opening 34. In the ball entry process for the starting port, the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 are set based on the fact that it is determined that the game ball has entered the first starting port 33 or the second starting port 34. At the same time as acquiring the value, the acquired counter value is stored in the pending information storage area 64b of the RAM 64. After executing step S12309, the process advances to step S12310.

In step S12310, ball entry processing for the through gate is executed when the game ball enters (passes through) the through gate 35. In the ball entry process for the through gate, the value of the electric accessory opening counter C4 is acquired based on the fact that it is determined that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It is stored in the power reserve area 64d. After executing step S12310, the process advances to step S12311.

In step S12311, a game round control process is executed to control the game in each game round. In the game round control process, a winning lottery, display control of the first symbol display section 37a, second symbol display section 37b, etc. are performed. After executing step S12311, the process advances to step S12312.

In step S12312, a gaming state transition process for shifting the gaming state is executed. In the gaming state transition process, processing for shifting the gaming state to an opening/closing execution mode, a high probability mode, a high frequency support mode, etc. is executed. After executing step S12312, the process advances to step S12313.

In step S12313, electric utility support processing for controlling the electric accessory 34a is executed. In the electric accessory support process, it is determined whether or not the electric accessory 34a is to be in an open state (an electric accessory opening lottery), and if it is determined to be in an open state, the electric accessory 34a is drive-controlled. After executing step S12313, the process advances to step S12314.

In step S12314, game ball launch control processing is executed. In the game ball firing control process, a process for firing a game ball into the gaming area PA when the operation handle 25 is operated by the player is executed. After executing step S12314, the process advances to step S12315.

In step S12315, an external information setting process is executed to control the start and end of output of an external signal according to the processing results of various processes executed in the current timer interrupt process. After executing step S12315, the process advances to step S12316.

In step S12316, game history processing for calculating and displaying game history information is executed. The game history process is the same as the game history process shown in FIG. 29, so a detailed explanation will be omitted. After executing step S12316, this timer interrupt processing ends.

As explained above, according to this aspect, in addition to the effects described in the other aspects described above, the following effects can be achieved.

According to this aspect, the settings change mode is started based on reception of an operation for executing the settings change mode, and when the settings change mode is started, the settings change flag is set to ON state, and the settings change mode is set to ON. At the end of the process, the setting change flag is turned OFF. The main side RAM 64 can maintain the state of the setting change flag even when power is not supplied to the pachinko machine 10 from the outside. Therefore, for example, if the power supply to the pachinko machine 10 is cut off while the setting change mode is being executed due to the power switch of the pachinko machine 10 being turned off or a power outage occurring, the main side RAM 64 The setting change flag stored in is maintained in the ON state.

According to this aspect, the setting change mode is started based on the determination that the setting change flag is in the ON state when power supply to the pachinko machine 10 is started from the outside (see FIG. 65 step S12008). That is, according to this aspect, when the power supply to the pachinko machine 10 is cut off while the settings change mode is being executed, and the power supply to the pachinko machine 10 is restarted, the settings are changed. The setting change mode will be started even if no operation for executing the mode has been received.

Therefore, if power is cut off from the outside to the pachinko machine 10 while the settings change mode is being executed, in order to make the pachinko machine 10 start the settings change mode again, the power to the pachinko machine 10 must be turned off. This eliminates the need for the administrator to perform an operation to execute the setting change mode again after the supply of data is resumed.

In addition, if the power supply to the pachinko machine 10 from the outside is cut off while the setting change mode is being executed, the setting information of the lottery settings of the pachinko machine 10 may be in a state not intended by the administrator. However, according to this aspect, when power is resumed from the outside to the pachinko machine 10, the administrator of the pachinko machine 10 does not have to perform an operation to execute the setting change mode again. Since the setting change mode is started even when the pachinko machine 10 is in a state not intended by the administrator, it is possible to prevent the setting information of the lottery setting of the pachinko machine 10 from being overlooked.

Further, according to this aspect, the setting confirmation mode is started based on the reception of an operation for executing the setting confirmation mode, and when the setting confirmation mode is started, the setting confirmation flag is set to ON, and the setting confirmation mode is set to ON. When the confirmation mode ends, the setting confirmation flag is turned OFF. The main RAM 64 can maintain the setting confirmation flag even when power is not supplied to the pachinko machine 10 from the outside. Therefore, for example, if the power supply to the pachinko machine 10 is cut off while the setting confirmation mode is being executed due to the power switch of the pachinko machine 10 being turned off or a power outage occurring, the main side RAM 64 The setting confirmation flag stored in is maintained in the ON state.

According to this aspect, the setting confirmation mode is started based on the determination that the setting confirmation flag is in the ON state when power supply to the pachinko machine 10 is started from the outside (see FIG. 65 step S12011). That is, according to this aspect, when the power supply to the pachinko machine 10 is cut off while the setting confirmation mode is being executed, and the power supply to the pachinko machine 10 is restarted, the setting confirmation mode is executed. The setting confirmation mode will be started even if no operation for executing the mode has been received.

Therefore, if the power supply to the pachinko machine 10 is cut off from the outside while the setting confirmation mode is being executed, in order to cause the pachinko machine 10 to start the setting confirmation mode again, the power to the pachinko machine 10 must be turned off. This saves the administrator the trouble of having to perform an operation to execute the setting confirmation mode again after the supply of information is resumed.

Further, according to this aspect, when starting the setting change mode, the setting information stored in the setting information storage area of the main side RAM 64 is read, and the same information as the setting information is stored in the main side RAM 64 as update setting information. is stored in the update setting information storage area. Then, by accepting the operation of pressing the setting change button, the update setting information stored in the update setting information of the main side RAM 64 is updated, and when the setting change mode ends, the update setting information and the update setting information are updated. The same information is stored as setting information in the setting information storage area of the main side RAM 64. Therefore, even if the external power supply is cut off while the settings change mode is being executed, the settings information stored in the settings information storage area of the main RAM 64 will be saved before the settings change mode is started. can be maintained at the same value. As a result, it is suppressed that the setting information of the lottery setting of the pachinko machine 10 becomes a value different from the value intended by the administrator due to the power supply from the outside being cut off while the setting change mode is being executed. can do. This will be explained in detail below.

Suppose that the configuration does not use update setting information during execution of the setting change mode, and by accepting an operation to press the setting change button, the setting information stored in the setting information storage area of the main side RAM 64 can be updated. When a configuration in which direct changes are adopted, the power supply from the outside is cut off at a timing when the setting information is a value different from the value intended by the administrator of the pachinko machine 10 while the setting change mode is being executed. In this case, the setting information of the lottery setting of the pachinko machine 10 will be a value different from the value intended by the administrator.

In contrast, according to this aspect, the setting information itself stored in the setting information storage area of the main side RAM 64 is not changed until the setting change mode ends, and the setting information storage area for update of the main side RAM 64 is not changed. Since the update setting information stored in the area is changed, if the update setting information is a value different from the value intended by the administrator of the pachinko machine 10 while the setting change mode is being executed, the external Even if the power supply from the main side RAM 64 is cut off, the setting information stored in the setting information storage area of the main side RAM 64 is maintained at the value before the setting change mode was started. Therefore, it is possible to prevent the setting information of the lottery setting of the pachinko machine 10 from becoming a value different from the value intended by the administrator due to the power supply from the outside being cut off while the setting change mode is being executed. be able to.

Further, according to this aspect, the update setting information stored in the update information storage area of the main side RAM 64 is displayed on the information display section 45z while the setting change mode is being executed, so that the administrator can The user can press the setting change button while checking the update setting information displayed on the display section 45z.

Further, according to this aspect, when the supply of power from the outside is started, it is determined whether the setting information is a numerical value within a predetermined range, and the setting information is not a numerical value within a predetermined range. If it is determined that this is the case, the RAM abnormality flag is turned on and the game progress process (processing from step S12304 to step S12316 in FIG. 68) for advancing the game is not executed. Therefore, it is possible to prevent problems from occurring in the progress of the game in the pachinko machine 10 due to the game progress processing being executed while the setting information stored in the main side RAM 64 is not within the predetermined range. can do. As a result, for example, it is possible to prevent unexpected losses from being caused to players and managers.

Further, according to this aspect, when the supply of power from the outside is started, it is determined whether the setting information is a numerical value within a predetermined range, and the setting information is not a numerical value within a predetermined range. If it is determined that this is the case, the first RAM clearing process is not executed even if the RAM abnormality flag is turned ON and an operation for executing the first RAM clearing process is accepted. Therefore, it is possible to suppress the occurrence of a problem caused by the first RAM clearing process being executed while the setting information is not within the predetermined range. This will be explained in detail below.

If a configuration is adopted in which the first RAM clearing process is executed even if it is determined that the setting information is not a numerical value within a predetermined range, among the various information stored in the main side RAM 64, the setting information Even the RAM error flag, which is information that indicates that the information is determined to be not within the predetermined range, is erased (turned OFF), even though the setting information is not within the predetermined range. , after the first RAM clearing process is executed, the game progress process (processing from step S12304 to step S12316 in FIG. 68) that assumes that the setting information is a numerical value within a predetermined range is executed, causing a problem. There is a possibility that it will happen.

In contrast, according to this aspect, if it is determined that the setting information is not a numerical value within a predetermined range, even if an operation for executing the first RAM clearing process is received, the first RAM Since the clearing process is not executed, the first RAM clearing process is executed even though the setting information is not within the predetermined range. It is possible to prevent the game progress processing from being executed. As a result, it is possible to suppress the occurrence of a problem caused by the first RAM clearing process being executed while the setting information is not within the predetermined range.

Further, according to this aspect, when the supply of power from the outside is started, it is determined whether the setting information is a numerical value within a predetermined range, and the setting information is not a numerical value within a predetermined range. If it is determined that the setting confirmation mode is executed, the setting confirmation mode is not executed even if an operation for executing the setting confirmation mode is accepted. Therefore, even though the setting information stored in the main RAM 64 is not within a predetermined range, it is possible to prevent the setting confirmation mode for displaying the setting information from being executed. .

Further, according to this aspect, when the supply of power from the outside is cut off, a predetermined calculation is performed based on a predetermined information group (including setting information in this aspect) stored in the main side RAM 64. Then, the RAM judgment value (hereinafter also referred to as the first RAM judgment value) which is the result of the predetermined calculation is stored in the main side RAM 64. Then, when the supply of power from the outside is started, a predetermined calculation is performed based on a predetermined information group (in this embodiment, the setting information is included and the first RAM judgment value is not included) stored in the main side RAM 64. is executed, and it is determined whether the RAM judgment value (hereinafter also referred to as a second RAM judgment value) that is the result of the predetermined calculation matches the first RAM judgment value stored in the main side RAM 64. Further, in this aspect, when it is determined that the second RAM determination value and the first RAM determination value match, it is determined whether the setting information is a numerical value within a predetermined range. If it is determined that the second RAM determination value and the first RAM determination value match (step S12006 in FIG. 65: YES) and it is determined that the setting information is a numerical value within a predetermined range (step S12007 in FIG. :YES), the RAM abnormality flag is not turned ON, and the game progress process (processing from step S12304 to step S12316 in FIG. 68) is executed. In other words, if it is determined that the second RAM determination value and the first RAM determination value match (step S12006 in FIG. 65: YES), but it is determined that the setting information is not a numerical value within the predetermined range (FIG. 65 Step S12007: NO), the RAM abnormality flag is turned ON (step S12015 in FIG. 65), and the game progress process (processing from step S12304 to step S12316 in FIG. 68) is not executed. Therefore, it is possible to prevent the game progress process from being executed even though the second RAM judgment value and the first RAM judgment value match but the setting information is not within the predetermined range. I can do it. As a result, it is possible to suppress the occurrence of a problem caused by the game progress process being executed even though the setting information is not within a predetermined range. This will be explained in detail below.

If the second RAM judgment value and the first RAM judgment value match, the contents of the predetermined information group stored in the main RAM 64 when external power supply is started and the previous power supply There is a high possibility that the content of the predetermined information group stored in the main side RAM 64 is the same as the content of the predetermined information group stored in the main side RAM 64 when the power supply from the outside is interrupted. It is highly likely that it was maintained normally even when it was cut off. However, even if the predetermined information group stored in the main RAM 64 is not maintained normally, the second RAM determination value and the first RAM determination value may coincidentally coincide.

Therefore, if a configuration is adopted in which it is determined whether the second RAM determination value and the first RAM determination value match, but it is not determined whether the setting information is a numerical value within a predetermined range. Even if the setting information is not a numerical value within a predetermined range, there is a possibility that the second RAM determination value and the first RAM determination value coincidentally coincide, and the game progress process will be executed. As a result, there is a possibility that a fatal problem will occur in the progress of the game.

On the other hand, according to this aspect, the game progresses based on the fact that it is determined that the second RAM determination value and the first RAM determination value match, and that the setting information is a numerical value within a predetermined range. Execute processing. In other words, if the second RAM determination value and the first RAM determination value match, but the setting information is not within the predetermined range, the game progress process is not executed. Therefore, it is possible to prevent the game progress process from being executed even though the second RAM judgment value and the first RAM judgment value match but the setting information is not within the predetermined range. I can do it. As a result, it is possible to suppress the occurrence of a problem caused by the game progress process being executed even though the setting information is not within a predetermined range.

Further, according to this aspect, the setting change mode is terminated based on the detection of a transition of the setting key (keyhole) from the ON state to the OFF state while the setting change mode is being executed. Step S12108 in FIG. 66: YES), it is possible to avoid ending the setting change mode immediately after starting. This will be explained in detail below.

For example, a case will be described in which a configuration different from this embodiment is adopted, in which the configuration change mode is terminated when it is detected that the setting key (keyhole) is in the OFF state. When this configuration is adopted, if the setting change mode is started based on an operation to start the setting change mode that includes the setting key (keyhole) being in the ON state. The setting change mode continues until the setting key (keyhole) changes from the ON state to the OFF state. However, if the setting change mode is started based on the setting changing flag being ON when power supply is started, the settings can be changed while the setting key (keyhole) is in the OFF state. A mode may also be started. In this case, immediately after the setting change mode is started, it is detected that the setting key (keyhole) is in the OFF state, and the setting change mode ends. That is, the setting change mode ends immediately after starting, and it becomes difficult to change the setting information of the lottery setting in the setting change mode.

On the other hand, according to this aspect, the setting change mode is ended based on detecting the transition of the setting key (keyhole) from the ON state to the OFF state. Even if the setting change mode is started with the setting key (keyhole) in the OFF state, the administrator of the pachinko machine 10 or the like can move the setting key (keyhole) from the OFF state to the ON state and then restart the setting change mode. The setting change mode continues until the ON state is changed to the OFF state. Therefore, even if the setting change mode is started with the setting key (keyhole) in the OFF state, the setting change mode is prevented from ending immediately after the setting change mode is started. be able to. As a result, it is possible to prevent it from becoming difficult to change the setting information of the lottery setting due to the setting change mode ending immediately after starting.

Further, according to this aspect, even if the setting change mode is started based on the setting change flag being ON when the power supply is started, the setting key is not retained. Only the person who has access to the settings can exit the settings change mode. Therefore, the security of the pachinko machine 10 can be improved.

Further, according to this aspect, the setting change mode is not only started based on the fact that an operation for starting the setting change mode including that the setting key (keyhole) is in the ON state is performed. , the setting change mode is started based on the fact that the setting change flag was ON when power supply was started. Therefore, the setting change mode can be started not only when the setting key (keyhole) is in the ON state, but also when the setting key (keyhole) is not in the ON state.

In this aspect, the operation for executing the setting change mode is to press the RAM clear switch (ON state), and press the setting key (keyhole), frame release switch, and door release switch. Although the operation of turning on the power switch with everything turned on was adopted, various operations can be adopted to execute the setting change mode. For example, to execute the setting change mode, press the RAM clear switch (ON state), turn on the setting key (keyhole), and turn on the power switch. Manipulation may also be used.

In addition, in this aspect, the operation for executing the setting confirmation mode is as follows: the RAM clear switch is not pressed (OFF state), and the setting key (keyhole), the frame release switch, and the door are opened. Although the operation of turning on the power switch with all the switches turned on was adopted, various operations can be adopted to execute the setting confirmation mode. For example, to execute the setting confirmation mode, turn on the power switch with the RAM clear switch not pressed (OFF state) and the setting key (keyhole) turned on. You may also adopt the operation of

In addition, in this aspect, the operation for executing the first RAM clearing process is to press the RAM clear switch (ON state), and to use the setting key (keyhole), frame release switch, and door release switch. Although the operation of turning on the power switch while one of the above is turned off is adopted, various operations can be adopted as the operation for executing the first RAM clearing process. For example, to execute the first RAM clear process, press the RAM clear switch (ON state), turn off the setting key (keyhole), and turn on the power switch. You may also adopt an operation that

Furthermore, in this aspect, the configuration is such that the configuration information is included in the target for calculating the RAM determination value (checksum value), but instead of this configuration, the configuration information is included in the target for calculating the RAM determination value (checksum value). A configuration may also be configured in which it is not included.

Further, in this embodiment, the RAM judgment value (checksum value) calculated when the power supply is cut off is stored in the main RAM 64, but instead of this structure, the power supply is cut off. The RAM judgment value (checksum value) calculated at that time may be stored in a non-volatile storage means separate from the main RAM 64.

In addition, in this aspect, when starting the setting change mode, the same information as the setting information stored in the setting information storage area of the main side RAM 64 is stored as update setting information in the update setting information storage area of the main side RAM 64. Although the configuration is such that the update setting information is stored, the information stored as the update setting information does not have to be completely the same as the setting information, and may be any information that corresponds to the setting information. For example, if the setting information is "1", "A" is stored as the update setting information as a value corresponding to the setting information, and if the setting information is "2", "A" is stored as the value corresponding to the setting information. A configuration may also be adopted in which "B" is stored as update setting information.

Similarly, in this aspect, when the setting change mode ends, the same information as the update setting information stored in the update setting information storage area of the main side RAM 64 is used as setting information in the setting information storage area of the main side RAM 64. Although the configuration is such that the information stored as the setting information does not have to be completely the same as the update setting information, it may be information that corresponds to the update setting information. For example, if the update setting information is "A", "1" is stored as the setting information as the value corresponding to the setting information, and if the update setting information is "B", the update setting information is stored as the value corresponding to the setting information. A configuration may be adopted in which "2" is stored as the setting information as the corresponding value.

<Aspect 101>
Among the above-mentioned aspects, in a configuration that can execute the setting change mode and the setting confirmation mode, a configuration may be adopted in which the audio emission control device 90 includes an RTC 97 (real-time clock) that can measure the current date and time. This will be explained in detail below.

FIG. 69 is a block diagram mainly showing the electrical configurations of the audio light emission control device 90 and the display control device 100 of aspect 101 of the first embodiment. Note that some components such as the power supply device 85 are omitted.

A sound light emission control board 91 provided in the sound light emission control device 90 has an MPU 92 which is a calculation unit that controls the entire sound light emission control device 90, and outputs current date and time information that is information that can specify the current date and time. Equipped with a capable RTC97 (real-time clock). The MPU 92 and the RTC 97 are connected via a signal line so that they can communicate with each other.

The MPU 92 is an element that includes a CPU 92x, a ROM 93, a RAM 94, an interrupt circuit, a timer circuit, a data input/output circuit, and the like. The CPU 92x executes various control programs stored in the main ROM 63. The ROM 93 is a memory that stores various control programs executed by the CPU 92x, fixed value data, tables, and the like. For example, a part of the ROM 93 is provided with various table storage areas in which performance pattern tables and the like are stored. The RAM 94 is a memory for temporarily storing various data etc. when the CPU 92x executes a control program. For example, a part of the area of the RAM 94 is provided with a various flag storage area 94a in which various flags are stored, a startup date and time information storage area 94b in which startup date and time information to be described later is stored, and the like. Note that it is not essential that the CPU 92x, ROM 93, and RAM 94 are integrated into one chip, and each may be integrated into individual chips.

The RTC 97 has a function of measuring the current date and time, and includes an RTC control section 97a, a register 97b, and an RTC power source 97c.

The RTC control unit 97a uses (controls) the register 97b to perform various controls such as measuring the current date and time. The register 97b has a register table consisting of a plurality of registers, and this register table includes a clock register 97b1 and a startup date and time information storage area 97b2.

The clock register 97b1 is a register for clocking the current date and time, and the register value as current date and time information is updated every second. In this aspect, the current date and time information in the time register 97b1 includes information that can specify the current "year", "month", "day", "hour", "minute", and "second".

The startup date and time information storage area 97b2 is a storage area in which the current date and time information clocked by the time register 97b1 is written at the timing immediately after the pachinko machine 10 is started. Hereinafter, the current date and time information read from the clock register 97b1 and written to the startup date and time information storage area 97b2 will be referred to as startup date and time information. In this aspect, the startup date and time information stored in the startup date and time information storage area 97b2 includes "year", "month", "day", "hour", "year", "month", "day", "hour", Contains information that can identify "minutes" and "seconds." The details of the process in which the current date and time information counted by the clock register 97b1 is written into the startup date and time information storage area 97b2 as startup date and time information will be described later.

The RTC power supply 97c is a power supply dedicated to the RTC 97, which is different from the power supply of the pachinko machine 10, and can supply power to the RTC control unit 97a and the register 97b even in a power-off state when the power of the pachinko machine 10 is cut off. Therefore, the clock register 97b1 can update the current date and time information even in a power outage state, and the startup date and time information storage area 97b2 can retain the stored startup date and time information even in a power outage state. is possible. In this aspect, a button type battery is used as the RTC power source 97c.

The audio/emission control board 91 is provided with input/output ports, respectively. The main control device 60 and the production operation button 24 are connected to the input side of the audio emission control board 91, and the MPU 92 receives various commands from the main control device 60 and receives predetermined signals from the production operation button 24. . A speaker 46 and various lamps 47 are connected to the output side of the audio emission control board 91, and a display control device 100 is also connected thereto.

A display control board 101 provided in the display control device 100 includes an MPU 102 which is an element in which a program ROM 103 and a work RAM 104 are combined into a chip, a video display processor (VDP) 105, a character ROM 106, and a video RAM 107. is installed. Note that it is not essential that the program ROM 103 and work RAM 104 are integrated into one chip for the MPU 102, and each may be integrated into separate chips.

The MPU 102 analyzes various commands received from the audio emission control device 90 or performs predetermined arithmetic processing based on the received various commands to control the VDP 105 (specifically, generate internal commands for the VDP 105). .

The program ROM 103 is a memory for storing various control programs and fixed value data executed by the MPU 102, and also stores JPEG format image data for a background image.

The work RAM 104 is a memory for temporarily storing work data, flags, etc. used when the MPU 102 executes various programs.

The VDP 105 is a type of drawing circuit, and directly operates an image processing device as a liquid crystal display driver built into the symbol display device 41. The VDP 105 is also called a "drawing chip" because it is implemented as an IC chip, and is a type of microcomputer chip containing firmware dedicated to drawing processing. The VDP 105 adjusts the timing of each of the MPU 102, the video RAM 107, etc. and intervenes in reading and writing data, and also reads image data to be stored in the video RAM 107 from the character ROM 106 at a predetermined timing and displays it on the symbol display device 41.

The character ROM 106 serves as an image data library for storing character data such as symbols displayed on the symbol display device 41. This character ROM 106 stores bitmap format image data of various display symbols, a color palette table that is referred to when determining the expression color of each dot of the bitmap image, and the like. It is also possible to provide a plurality of character ROMs 106 and store image data and the like in each character ROM 106. Further, it is also possible to have a configuration in which the JPEG format image data for the background image stored in the program ROM 103 is stored in the character ROM 106.

The video RAM 107 is a memory for storing display data to be displayed on the symbol display device 41, and by rewriting the contents of the video RAM 107, the display contents of the symbol display device 41 are changed.

Hereinafter, the MPU 62, ROM 63, and RAM 64 of the main control device 60 are also referred to as the main side MPU 62, main side ROM 63, and main side RAM 64, respectively, and the MPU 92, ROM 93, and RAM 94 of the audio/light emission control device 90 are referred to as the sound-light side MPU 92 and the sound-light side MPU 92, respectively. The ROM 93 is also called the audio/light side RAM 94, and the MPU 102 of the display control device 100 is also called the display side MPU 102.

FIG. 70 is a flowchart showing the main process executed by the main MPU 62 (main CPU 62x) when the power is turned on according to aspect 101 of the first embodiment.

In step S12401, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S12402, and internal function register setting processing is executed. After that, the process advances to step S12403.

In step S12403, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

In step S12403, if it is determined that the power recovery flag is ON (step S12403: YES), the process advances to step S12404, and a predetermined calculation is performed based on a predetermined information group stored in the main side RAM 64. By this, the RAM judgment value is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S12405, and it is determined whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S12405 that the RAM determination value is normal (step S12405: YES), the process advances to step S12406.

In step S12406, the setting information of the lottery setting stored in the main side RAM 64 is read, and it is determined whether the setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so if the setting information is a numerical value within the range from "1" to "6", , it is determined that the setting information is a numerical value within a predetermined range, but on the other hand, if "0" or "7" is stored as the setting information, or if information other than numerical values is stored due to noise etc. determines that the setting information is not a numerical value within a predetermined range. If it is determined in step S12406 that the setting information is a numerical value within a predetermined range (step S12406: YES), the process advances to step S12407.

On the other hand, if it is determined that the power recovery flag is not ON in step S12403 described above (step S12403: NO), if it is determined that the RAM determination value is not normal in step S12405 described above (step S12405: NO), and If it is determined in step S12406 that the setting information is not within the predetermined range (step S12406: NO), the process advances to step S12415 and the RAM abnormality flag is turned ON. In other words, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF, when the RAM judgment value is not normal, or when the setting information is not a numerical value within a predetermined range. This is a flag indicating that the information stored in the main side RAM 64 is not in a normal state.

Below, the flow of processing executed when the RAM abnormality flag is not turned on will be explained, and then the flow of processing executed when the RAM abnormality flag is turned on will be explained.

In step S12407, it is determined whether the setting changing flag is ON. The setting change flag is a flag that is turned ON at the start of a setting change process (setting change mode), which will be described later, and turned OFF at the end of the setting change process (setting change mode). Here, the situation where the setting change flag is ON in step S12407 means that the setting change process (setting change mode) described later was executed when the pachinko machine 10 was last powered on, and the setting change process (setting change mode) was executed. This is a situation where the setting changing flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring while the setting changing mode) is being executed.

If it is determined in step S12407 that the setting changing flag is ON (step S12407: YES), the process advances to step S12418, and setting changing processing (setting changing mode) is executed. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. Details of the setting change process (setting change mode) will be described later. On the other hand, if it is determined in step S12407 that the setting changing flag is not ON (step S12407: NO), the process advances to step S12408.

In step S12408, it is determined whether the RAM clear button is ON. If it is determined in step S12408 that the RAM clear button is not ON (step S12408: NO), the process advances to step S12409 and checks whether the setting key, frame release switch, and door release switch are all ON. judge. Note that "the setting key is ON" means that the setting key is inserted into the setting keyhole and is positioned on the ON side. Further, the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

If it is determined in step S12409 that at least one of the setting key, frame release switch, and door release switch is not ON (step S12409: NO), the process advances to step S12410.

In step S12410, it is determined whether the setting confirmation flag is ON. The setting confirmation flag is a flag that is turned ON at the start of setting confirmation processing (setting confirmation mode), which will be described later, and turned OFF at the end of the setting confirmation processing (setting confirmation mode). Here, the situation where the setting confirmation flag is ON in step S12410 means that the setting confirmation process (setting confirmation mode), which will be described later, was executed when the pachinko machine 10 was last powered on, and the setting confirmation process ( This is a situation where the setting confirmation flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring during execution of the setting confirmation mode).

In step S12410, if it is determined that the setting confirmation flag is not ON (step S12410: NO), the process advances to step S12411, and a normal activation command is sent to the audio emission control device 90. The normal startup command is executed when the pachinko machine 10 (main controller 60) is in a normal state without determining that there is a RAM abnormality and without executing any of the settings change processing, setting confirmation processing, and first RAM clear processing, which will be described later. This command indicates that the has been started. As will be described later, upon receiving the normal activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated in a normal state. Specifically, in this aspect, the speaker 46 outputs a voice saying "normal startup". After executing step S12411, the process advances to step S12413, which will be described later.

On the other hand, if it is determined in step S12409 that the setting key, frame release switch, and door release switch are all ON (step S12409: YES), and if the setting confirmation flag is ON in step S12410, If determined (step S12410: YES), the process advances to step S12412. That is, if the RAM clear button is OFF when the power is turned on to the pachinko machine 10, and the setting key, frame release switch, and door release switch are all ON, and the previous power supply of the pachinko machine 10 is Setting confirmation processing (setting confirmation mode) is executed when the machine is turned on, and if the power switch of the pachinko machine 10 is turned off or a power outage occurs while the setting confirmation processing (setting confirmation mode) is being executed, the setting confirmation process is in progress. If the flag remains ON, the process advances to step S12412.

In step S12412, setting confirmation processing is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. Details of the setting confirmation process (setting confirmation mode) will be described later. After executing step S12412, the process advances to step S12413.

In step S12413, power restoration processing is executed to restore the state to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S12413, the process advances to step S12414, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process proceeds to step S12423, which will be described later.

On the other hand, in step S12408 described above, if it is determined that the RAM clear button is ON (step S12408: YES), the process advances to step S12417, and the setting key, frame release switch, and door release switch are all turned ON. Determine whether it exists or not. In step S12417, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S12417: YES), the process advances to step S12418 described above, and the setting change process (setting change mode). Thereafter, the process advances to step S12423, which will be described later. On the other hand, if it is determined in step S12417 that at least one of the setting key, frame release switch, and door release switch is not ON (step S12417: NO), the process advances to step S12419.

In step S12419, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S12419 that the RAM abnormality flag is not ON (step S12419: NO), the process advances to step S12420, and the first RAM clearing process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery settings. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. After executing step S12420, the process advances to step S12421, and a RAM clear command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. As will be described later, upon receiving the RAM clear command, the audio emission control device 90 causes the speaker 46 to output audio indicating that the first RAM clearing process has been executed. Specifically, in this aspect, a voice such as "The RAM of the main control device has been cleared" is output from the speaker 46. After executing step S12421, the process advances to step S12423, which will be described later.

On the other hand, if it is determined in step S12419 that the RAM abnormality flag is ON (step S12419: YES), the process advances to step S12422, and a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is emitted by voice. It is transmitted to the control device 90. As will be described later, upon receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the main RAM 64 is abnormal. Specifically, in this embodiment, the speaker 46 repeatedly outputs a voice saying "The RAM of the main control device is abnormal. Please start up in the setting change mode." After executing step S12422, the process advances to step S12423. However, in the flow of this explanation, since the RAM abnormality flag is not turned on, the process does not proceed to step S12422 described above.

In step S12423, a lighting/blinking process is executed which is a process of lighting and blinking all the light emitting units (segment light emitting units A to G and DP light emitting unit) constituting the information display unit 45z. In the lighting/blinking process, all the light emitting parts constituting the information display section 45z are turned on for a predetermined period of time (for example, 3 seconds), and then synchronously flashed for a predetermined period of time (for example, 2 seconds). After executing step S12423, the process advances to step S12424.

In step S12424, interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, an infinite loop is repeated to wait, and timer interrupt processing, which will be described later, is executed periodically (every 4 ms in this embodiment).

Next, the flow of processing executed when the RAM abnormality flag is turned ON in step S12415 will be described.

As described above, if it is determined that the power recovery flag is not ON in step S12403 (step S12403: NO), if it is determined that the RAM determination value is not normal in step S12405 (step S12405: NO), and If it is determined in S12406 that the setting information is not within the predetermined range (step S12406: NO), the process advances to step S12415 and the RAM abnormality flag is turned ON. After that, the process advances to step S12416.

In step S12416, it is determined whether the RAM clear button is ON. In step S12416, if it is determined that the RAM clear button is ON (step S12416: YES), the process advances to step S12417 and checks whether the setting key, frame release switch, and door release switch are all ON. Determine. In step S12417, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S12417: YES), the process advances to step S12418 described above, and the setting change process (setting change mode). After that, the process advances to step S12422. On the other hand, if it is determined in step S12416 that the RAM clear button is not ON (step S12416: NO), and if it is determined in step S12417 that at least one of the setting key, frame release switch, and door release switch is not ON. In the case (step S12417: NO), the process advances to step S12419.

In step S12419, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S12419 that the RAM abnormality flag is not ON (step S12419: NO), the process advances to step S12420, and the first RAM clearing process described above is executed. After executing step S12420, the process advances to step S12421, and a RAM clear command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. After executing step S12421, the process advances to step S12422. However, in the flow of this explanation, since the RAM abnormality flag is ON, the process does not proceed to step S12420 described above.

On the other hand, if it is determined in step S12419 that the RAM abnormality flag is ON (step S12419: YES), the process advances to step S12422, and a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is emitted by voice. It is transmitted to the control device 90. As will be described later, upon receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, in this embodiment, the speaker 46 repeatedly outputs a voice saying "The RAM of the main control device is abnormal. Please start up in the setting change mode." After executing step S12422, the process advances to step S12423.

In step S12423, the above-described lighting and blinking process is executed. After executing step S12423, the process advances to step S12424, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the infinite loop process is repeated and the process waits, and a timer interrupt process, which will be described later, is executed periodically (every 4 ms in this embodiment).

As explained above, in this embodiment, the operation for executing the setting change process (setting change mode) is to press the RAM clear switch (ON state) and press the setting key (keyhole). This is an operation of turning on the power switch with all the frame opening switches and door opening switches turned on. In addition, the operation for executing the setting confirmation process (setting confirmation mode) is performed when the RAM clear switch is not pressed (OFF state), and the setting key (keyhole), frame release switch, and door open This is an operation to turn on the power switch with all switches turned on. In addition, the operation for executing the first RAM clearing process is to press the RAM clear switch (ON state), and turn off either the setting key (keyhole), frame release switch, or door release switch. This is an operation to turn on the power switch with the camera set to .

An example of the flow of processing realized by executing the above-described main processing will be summarized below.

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S12403, S12405, S12406), and setting change processing (setting change mode) If an operation has been performed to execute the setting change processing, regardless of whether the conditions for turning on the RAM error flag are met or not, and regardless of the state of the setting confirmation flag, the setting change processing will be executed. (setting change mode) is executed (step S12418).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12403, step S12405, step S12406), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the flag is not established and the setting change flag is ON (step S12407: YES), the operation for executing the setting change process (setting change mode) and the setting confirmation process are performed. Regardless of whether the operation for executing (setting confirmation mode) and the operation for executing first RAM clear processing have been performed, the setting change process (setting change mode) is executed (step S12418). .

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12403, step S12405, step S12406), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the setting changing flag is not ON (step S12407: NO), and an operation for executing the first RAM clearing process has been performed (step S12408). : YES, step S12417: NO, step S12419: NO), the first RAM clearing process is executed regardless of the state of the setting confirmation flag (step S12420), and a RAM clear command is sent (step S12421).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12403, step S12405, step S12406), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the setting change flag is not ON (step S12407: NO), and an operation for executing the setting confirmation process (setting confirmation mode) is performed, (Step S12408: NO, Step S12409: YES), a setting confirmation process (setting confirmation mode) is executed (Step S12412).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12403, step S12405, step S12406), and determine the conditions for turning on the RAM abnormality flag. In the case where it is determined that the setting change flag is not ON (step S12407: NO), and the operation for executing the setting confirmation process (setting confirmation mode) is not performed. Even if there is, if the setting confirmation flag is ON (step S12410: YES), a setting confirmation process (setting confirmation mode) is executed (step S12412).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12403, step S12405, step S12406), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the following is true and the RAM abnormality flag is turned ON (step S12415), the first RAM clearing process is not executed even if an operation for executing the first RAM clearing process has been performed. A RAM abnormality command is sent without executing it (step S12422).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (steps S12403, step S12405, step S12406), and determine the conditions for turning on the RAM abnormality flag. If it is determined that the following is true and the RAM abnormality flag is turned ON (step S12415), even if the operation for executing the setting confirmation process (setting confirmation mode) has been performed, the setting The RAM abnormality command is sent without executing the confirmation process (setting confirmation mode) (step S12422).

Next, details of the setting change process shown in step S12418 in FIG. 70 will be described.

FIG. 71 is a flowchart showing a setting change process executed by the main MPU 62 (main CPU 62x) in aspect 101 of the first embodiment. This setting change process is executed as a subroutine of step S12418 in FIG.

In step S12501, a setting change mode start command, which is a command indicating that the setting change mode has started, is transmitted to the audio emission control device 90. As will be described later, upon receiving the settings change mode start command, the audio emission control device 90 executes a process of notifying that the settings change mode has started. Specifically, in this aspect, the speaker 46 outputs a voice saying "Setting change mode has started", and then the speaker 46 repeatedly outputs a voice saying "Setting change mode is in progress". Further, upon receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that the setting change mode is in progress. Specifically, in this aspect, the audio light emission control device 90 sends a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "Setting change mode in progress", and receives the command. The display control device 100 causes the symbol display device 41 to display a character string such as "Setting change mode in progress." Further, upon receiving the setting change mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Note that, after transmitting the setting change mode start command to the audio emission control device 90, the configuration may be such that information indicating that the setting change mode has been started is sent to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting change mode has started may be configured to display information about the pachinko machine 10 in the setting change mode on the management screen. After executing step S12501, the process advances to step S12502.

In step S12502, the setting changing flag in the main RAM 64 is turned ON. As described above, the settings changing flag is a flag that indicates that the settings change process (settings change mode) has started, and a flag that indicates that the settings change process (settings change mode) has not yet ended. It is. After executing step S12502, the process advances to step S12503.

In step S12503, initial setting processing at the start of setting change is executed. In the initial setting process at the start of setting change, initial settings necessary for starting the setting change process are executed. Further, in this aspect, in the initial setting process at the start of setting change, it is determined whether the RAM abnormality flag is ON, and if it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. Make it. After executing step S12503, the process advances to step S12504.

In step S12504, setting information for lottery settings stored in the main side RAM 64 is read and saved as update setting information. Specifically, in this aspect, setting information of the lottery settings stored in the setting information storage area of the main side RAM 64 is read, and the read setting information is transferred to other areas other than the setting information storage area of the main side RAM 64. Copy to the update setting information storage area. After executing step S12504, the process advances to step S12505.

In step S12505, control is started to read the update setting information stored in the update setting information storage area of the main side RAM 64 and display the read update setting information on the information display section 45z. Specifically, the update setting information is displayed by lighting on the information display section 45z. Thereafter, the process advances to step S12506, and it is determined whether the update setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so whether the update setting information is a numerical value within the range from "1" to "6"? Determine whether or not. In step S12506, if it is determined that the update setting information is a numerical value within a predetermined range (step S12506: YES), the process advances to step S12508. On the other hand, if it is determined in step S12506 that the update setting information is not a numerical value within the predetermined range (step S12506: NO), for example, if "0" or "7" is stored as the update setting information If information other than numerical values is stored due to noise or the like, the process advances to step S12507 and the update setting information is changed to the initial value. In this aspect, "1" is stored as an initial value in the update setting information. After that, the process advances to step S12508.

In step S12508, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. Inside, a signal indicating a low level is monitored, and when a falling edge of the signal falling from a high level to a low level is detected, it is determined that the setting key (keyhole) has turned to the OFF side. If it is determined in step S12508 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S12508: NO), the process advances to step S12509, and it is determined whether the setting change button has been pressed or not. Determine. If it is determined in step S12509 that the setting change button has been pressed (step S12509: YES), the process advances to step S12510, and the update setting information is updated. Specifically, 1 is added to the numerical information stored as update setting information. However, if the setting change button is pressed in a situation where the numerical information stored as update setting information is "6", the numerical information is updated to "1". Thereafter, the process returns to step S12506 described above, and it is determined whether the updated update setting information is a numerical value within a predetermined range. On the other hand, if it is determined in step S12509 that the setting change button has not been pressed (step S12509: NO), the process returns to step S12506 described above without executing the process in step S12510, and the update setting information is It is determined whether the value is within a predetermined range.

In step S12508 described above, if it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side (step S12508: YES), the process advances to step S12511.

In step S12511, the update setting information stored in the main RAM 64 is read and saved as setting information. Specifically, in this aspect, the update setting information stored in the update setting information storage area of the main side RAM 64 is read, and the read update setting information is copied to the setting information storage area of the main side RAM 64. do. After executing step S12511, the process advances to step S12512, and the control for displaying the update setting information on the information display section 45z ends. After that, the process advances to step S12513.

In step S12513, first RAM clear processing is executed. In the first RAM clearing process, information other than the setting information of the lottery setting stored in the setting information storage area of the main side RAM 64 is erased. When this first RAM clearing process is executed, the above-mentioned setting change flag is also cleared (turned OFF). After executing step S12513, the process advances to step S12514.

In step S12514, a setting change mode end command, which is a command indicating that the setting change mode has ended, is transmitted to the audio emission control device 90. As will be described later, upon receiving the settings change mode end command, the audio emission control device 90 executes a process of notifying that the settings change mode has ended. Specifically, in this aspect, the speaker 46 stops outputting the voice such as "Settings change mode in progress" and outputs the voice such as "Settings change mode has ended" from the speaker 46. Further, the control for notifying that the symbol display device 41 and various lamps 47 are in the setting change mode is ended.

It should be noted that, after transmitting the setting change mode termination command to the audio emission control device 90, information indicating that the setting change mode has been terminated may be transmitted to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting change mode has ended may be configured to display information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen.

After executing step S12514, this setting change process ends. In addition, after executing the setting change notification termination process, the setting information of the changed lottery setting is sent to the hall computer of the gaming hall via an external terminal, and the hall computer that receives the information displays the relevant information on the management screen. It may also be configured to display setting information of the changed lottery settings of the pachinko machine 10.

Next, details of the setting confirmation process shown in step S12412 in FIG. 70 will be described.

FIG. 72 is a flowchart showing a setting confirmation process executed by the main MPU 62 (main CPU 62x) in aspect 101 of the first embodiment. This setting confirmation process is executed as a subroutine of step S12412 in FIG.

In step S12601, a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has started, is transmitted to the audio emission control device 90. As will be described later, upon receiving the setting confirmation mode start command, the audio emission control device 90 executes a process of notifying that the setting confirmation mode has started. Specifically, in this aspect, the speaker 46 outputs a voice saying "setting confirmation mode has started", and then the speaker 46 repeatedly outputs a voice saying "setting confirmation mode is in progress". Further, upon receiving the setting confirmation mode start command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the setting confirmation mode is in progress. Specifically, in this aspect, the audio emission control device 90 transmits a command for displaying a character string such as “Setting confirmation mode” on the symbol display device 41 to the display control device 100, and receives the command. The display control device 100 causes the symbol display device 41 to display a character string such as "In setting confirmation mode." Further, upon receiving the setting confirmation mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Note that, after transmitting the setting confirmation mode start command to the audio emission control device 90, information indicating that the setting confirmation mode has been started may be transmitted to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting confirmation mode has started may be configured to display information about the pachinko machine 10 in the setting confirmation mode on the management screen. After executing step S12601, the process advances to step S12602.

In step S12602, the setting confirmation flag in the main RAM 64 is turned on. As described above, the settings confirmation flag is a flag that indicates that the settings confirmation process (settings confirmation mode) has started, and a flag that indicates that the settings confirmation process (settings confirmation mode) has not yet ended. It is. After executing step S12602, the process advances to step S12603.

In step S12603, control is started to display the setting information of the lottery setting stored in the setting information storage area of the main side RAM 64 on the information display section 45z. Specifically, the setting information of the lottery setting is displayed blinking on the information display section 45z. After that, the process advances to step S12604.

In step S12604, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. The inside monitors the signal indicating the low level, and when the falling edge of the signal from high level to low level is detected, it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side. judge. If it is determined in step S12604 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S12604: NO), step S12604 is executed again. On the other hand, if it is determined in step S12604 that the setting key (keyhole) has shifted from the ON side to the OFF side (step S12604: YES), the process advances to step S12605. That is, until the setting key (keyhole) moves from the ON side to the OFF side, an infinite loop is repeated and the process does not proceed to step S12605, and when the setting key (keyhole) moves from the ON side to the OFF side, the process proceeds to step S12605. move on.

In step S12605, the control for displaying the setting information of the lottery setting on the information display section 45z is ended. After that, the process advances to step S12606.

In step S12606, the setting changing flag in the main RAM 64 is turned OFF. After that, the process advances to step S12607.

In step S12607, a setting confirmation mode end command, which is a command indicating that the setting confirmation mode has ended, is transmitted to the audio emission control device 90. As will be described later, upon receiving the setting confirmation mode termination command, the audio emission control device 90 executes a process of notifying that the setting confirmation mode has been terminated. Specifically, in this aspect, the speaker 46 stops outputting a voice such as "Setting confirmation mode in progress" and causes the speaker 46 to output a voice such as "Setting confirmation mode has ended." Further, the control for notifying that the symbol display device 41 and various lamps 47 are in the setting confirmation mode is ended.

It should be noted that, after transmitting the setting confirmation mode termination command to the audio emission control device 90, a configuration may be adopted in which information indicating that the setting confirmation mode has been terminated is transmitted to the hall computer of the gaming hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting confirmation mode has ended may be configured to display information indicating that the setting confirmation mode of the pachinko machine 10 has ended on the management screen. After executing step S12607, this setting confirmation process ends.

Next, timer interrupt processing executed by the main MPU 62 (CPU 62x) will be described.

FIG. 73 is a flowchart showing timer interrupt processing executed by the main MPU 62 (main CPU 62x) in aspect 101 of the first embodiment. In this aspect, the main MPU 62 (main CPU 62x) executes timer interrupt processing at a 4 ms cycle.

In step S12701, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter (jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, electric accessory opening counter C4, etc.) in the main side RAM 64, and the read numerical information is updated. After executing the process of adding 1, the process of overwriting the read-out counter with the numerical information after the addition is executed. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S12701, the process advances to step S12702.

In step S12702, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Thereafter, without proceeding to step S12703, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even when the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power outage monitoring process in step S12702, if it is determined that the drive voltage supplied from the power supply device 85 to the main controller 60 is not lower than the predetermined value, the process directly advances to step S12703.

In step S12703, it is determined whether the RAM abnormality flag is ON. If it is determined in step S12703 that the RAM abnormality flag is not ON (step S12703: NO), the process advances to step S12704. On the other hand, if it is determined in step S12703 that the RAM abnormality flag is ON (step S12703: YES), this timer interrupt processing is ended without executing the processing after step S12704. That is, if the RAM abnormality flag is ON, the processing for enabling the game to proceed from step S12704 onwards will not be executed, and the system will not shift to the game proceeding mode in which the game can proceed. There is. Hereinafter, the processing from step S12704 onwards, which is the processing for enabling the game to proceed, will be explained.

In step S12704, port output processing is executed. In the port output processing, when the output information has been set in the previous timer interrupt processing, processing is executed to cause the various drive units 36c and 34b to output corresponding to the output information. For example, if information is set to switch the big winning opening 36a to the open state, output of a drive signal to the variable winning a prize drive unit 36c is started, and if information to switch the big winning opening 36a to the closed state is set, The output of the drive signal is stopped. In addition, when the information to switch the electric accessory 34a of the second starting port 34 to the open state is set, the output of the drive signal to the electric accessory drive section 34b is started, and the information to switch the electric accessory 34a to the closed state is set. If set, the output of the drive signal is stopped. After that, the process advances to step S12705.

In step S12705, reading processing is executed. In the reading process, signals other than the incoming ball signal are read, and the read information is stored for use in future processing. After that, the process advances to step S12706.

In step S12706, the signals received from each of the ball entry detection sensors 44a to 44h are read, and ball entry detection processing is executed to perform processing corresponding to the read information. The ball entry detection process is the same as the ball entry detection process shown in FIG. 28, so a detailed explanation will be omitted. After executing step S12706, the process advances to step S12707.

In step S12707, timer update processing is executed to collectively update numerical information of predetermined timer counters provided in the main side RAM 64. After that, the process advances to step S12708, and output setting processing for the prize ball command is executed. After that, the process advances to step S12709.

In step S12709, ball entry processing for the starting openings is executed as the game balls enter the first starting opening 33 and the second starting opening 34. In the ball entry process for the starting port, the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 are set based on the fact that it is determined that the game ball has entered the first starting port 33 or the second starting port 34. At the same time as acquiring the value, the acquired counter value is stored in the pending information storage area 64b of the RAM 64. After executing step S12709, the process advances to step S12710.

In step S12710, ball entry processing for the through gate is executed when the game ball enters (passes through) the through gate 35. In the ball entry processing for the through gate, the value of the variable type counter CS is acquired based on the fact that it is determined that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64 as an electric controller. It is stored in the holding area 64d. After executing step S12710, the process advances to step S12711.

In step S12711, a game round control process is executed to control the game in each game round. In the game round control process, a winning lottery, display control of the first symbol display section 37a, second symbol display section 37b, etc. are performed. After executing step S12711, the process advances to step S12712.

In step S12712, a gaming state transition process for shifting the gaming state is executed. In the gaming state transition process, processing for shifting the gaming state to an opening/closing execution mode, a high probability mode, a high frequency support mode, etc. is executed. After executing step S12712, the process advances to step S12713.

In step S12713, electric utility support processing for controlling the electric accessory 34a is executed. In the electric accessory support process, it is determined whether or not the electric accessory 34a is to be in an open state (an electric accessory opening lottery), and if it is determined to be in an open state, the electric accessory 34a is drive-controlled. After executing step S12713, the process advances to step S12714.

In step S12714, game ball launch control processing is executed. In the game ball firing control process, a process for firing a game ball into the gaming area PA when the operation handle 25 is operated by the player is executed. After executing step S12714, the process advances to step S12715.

In step S12715, an external information setting process is executed to control the start and end of output of an external signal according to the processing results of various processes executed in the current timer interrupt process. After executing step S12715, the process advances to step S12716.

In step S12716, game history processing for calculating and displaying game history information is executed. The game history process is the same as the game history process shown in FIG. 29, so a detailed explanation will be omitted. After executing step S12716, this timer interrupt processing ends.

As explained above, in this aspect, when the power switch of the pachinko machine 10 is turned on and the pachinko machine 10 is started, the above-mentioned normal startup command, RAM abnormality command, RAM clear command, setting change mode start command, setting Any one of the five confirmation mode start commands is transmitted from the main control device 60 to the audio emission control device 90. The audio light emission control device 90, which has received any one of these five commands, determines in what manner the main control device 60 has been activated based on the type of the received command (what type). It is possible to understand whether the startup process has been executed. That is, the five commands described above, the normal startup command, the RAM abnormal command, the RAM clear command, the settings change mode start command, and the settings confirmation mode start command, are commands that indicate the type of startup process executed by the main controller 60. Therefore, these five commands are also collectively referred to as "activation type commands."

Next, the processing executed by the MPU 92 of the audio emission control device 90 will be described.

FIG. 74 is a flowchart showing the main processing executed by the sound and light side MPU 92 (sound and light side CPU 92x) in aspect 101 of the first embodiment. In step S12801, startup processing is executed. Specifically, it performs initial setting processing upon power-on, determination as to whether or not the sound-light side RAM 94 functions normally, and the like. After executing step S12801, the process advances to step S12802.

In step S12802, startup date and time information acquisition processing is executed. In the startup date and time information acquisition process, processing is executed to read startup date and time information from the startup date and time information storage area 97b2 of the RTC 97 and store it in the startup date and time information storage area 94b of the main side RAM 64. Details of the activation date and time information acquisition process will be described later. After executing step S12802, the process advances to step S12803.

In step S12803, activation type notification processing is executed. In the activation type notification process, the activation type of the main controller 60 is notified based on the activation type command received from the main MPU 62 of the main controller 60 . Details of the activation type notification process will be described later. After executing step S12803, the process advances to step S12804.

In step S12804, timer interrupt permission is set. This permits execution of timer interrupt processing, which will be described later. Then it goes into an infinite loop.

Next, details of the startup date and time information acquisition process shown in step S12802 in FIG. 74 will be described.

FIG. 75 is a flowchart showing startup date and time information acquisition processing executed by the audio-optical side MPU 92 (audio-optical side CPU 92x) in aspect 101 of the first embodiment. In step S12901, it is determined whether a startup type command has been received from the main MPU 62. Specifically, in this aspect, the main MPU 62 sends any one of the five commands, the above-mentioned normal startup command, RAM abnormality command, RAM clear command, settings change mode start command, and settings confirmation mode start command. Determine whether a command has been received. If it is determined in step S12901 that any one of the five commands described above has been received (step S12901: YES), the process advances to step S12902. On the other hand, if it is determined in step S12901 that none of the five commands described above has been received (step S12901: NO), the process returns to step S12901 again. That is, the process waits until it is determined that one of the five commands described above has been received, and when it is determined that one of the five commands described above has been received, the process proceeds to step S12902. move on.

In step S12902, it is determined whether the command received as the startup type command from the main MPU 62 is either a normal startup command or a RAM abnormality command. In step S12902, if it is determined that the command received as the startup type command from the main MPU 62 is either a normal startup command or a RAM abnormality command (step S12902: YES), the process advances to step S12903. Here, the case where the command received as the startup type command from the main MPU 62 is a normal startup command or a RAM abnormality command means that the setting change process (setting change mode) is executed when external power supply is started. This is a case where none of the operations for executing the execution, the operation for executing the setting confirmation process (setting confirmation mode), and the operation for executing the first RAM clearing process has been accepted. In such a case, the process advances to step S12903.

In step S12903, the current date and time information is read from the clock register 97b1 of the RTC97, and the read current date and time information is written (stored) in the startup date and time information storage area 97b2 of the RTC97. Thereafter, the process advances to step S12905, which will be described later.

On the other hand, if it is determined in step S12902 that the command received as the startup type command from the main MPU 62 is neither a normal startup command nor a RAM abnormal command (step S12902: NO), that is, the command received as the startup type command from the main MPU 62 is If the received command is one of the RAM clear command, setting change mode start command, and setting confirmation mode start command, the process advances to step S12904. Here, the case where the command received as the startup type command from the main MPU 62 is any one of the RAM clear command, setting change mode start command, and setting confirmation mode start command mainly refers to When supply is started, an operation for executing a setting change process (setting change mode), an operation for executing a setting confirmation process (setting confirmation mode), and an operation for executing a first RAM clear process. This is the case when one of the operations is accepted. In such a case, the process advances to step S12904.

In step S12904, it is determined whether startup date and time information is stored in the startup date and time information storage area 97b2 of the RTC 97. Here, the case where the startup date and time information is stored in the startup date and time information storage area 97b2 of the RTC 97 means the case where the date and time can be read from the information stored in the startup date and time information storage area 97b2. The case where the startup date and time information is not stored in the startup date and time information storage area 97b2 of the RTC 97 means, for example, when the power is turned on to the pachinko machine 10 for the first time, or when the information stored in the startup date and time information storage area 97b2 is This is a case where the date and time cannot be read correctly because it has been damaged by noise or the like. In step S12904, if it is determined that the startup date and time information is stored in the startup date and time information storage area 97b2 of the RTC 97 (step S12904: YES), the process of step S12903 described above (overwriting the current date and time information as startup date and time information) is performed. The process proceeds to step S12905 without executing (avoiding) the process to do so.

In step S12905, the startup date and time information is read from the startup date and time information storage area 97b2 of the RTC 97, and the read startup date and time information is written (stored) in the startup date and time information storage area 94b of the audio-optical RAM 94. Thereafter, the main startup date and time information acquisition process ends.

In addition, in step S12904 described above, if it is determined that the startup date and time information is not stored in the startup date and time information storage area 97b2 of the RTC 97 (step S12904: NO), the process of step S12903 described above (reading the current date and time information After executing the process of overwriting the startup date and time information, the process advances to step S12905 described above. The reason for this is that if the configuration is such that the process proceeds to step S12905 described above with the startup date and time information not stored in the startup date and time information storage area 97b2 of the RTC 97, the startup date and time information should be written in the startup date and time information storage area 94b of the audio-optical RAM 94. This is because a problem arises in that the target startup date and time information does not exist.

Next, details of the activation type notification process shown in step S12803 in FIG. 74 will be described.

FIG. 76 is a flowchart showing the activation type notification process executed by the sound and light side MPU 92 (sound and light side CPU 92x) in aspect 101 of the first embodiment. In step S13001, it is determined whether the command received as the startup type command from the main MPU 62 is a normal startup command. In step S13001, if it is determined that the command received as the startup type command from the main MPU 62 is a normal startup command (step S13001: YES), the process advances to step S13002.

In step S13002, normal startup notification processing is executed. In the normal startup notification process, the main side RAM 64 is not determined to be abnormal, and the pachinko machine 10 (main side A process for notifying that the control device 60) has been activated is executed. Specifically, in this aspect, the speaker 46 outputs a voice saying "normal startup". After executing step S13002, the main activation type notification process ends.

On the other hand, if it is determined in step S13001 that the command received as the startup type command from the main MPU 62 is not a normal startup command (step S13001: NO), the process advances to step S13003, and the command received as the startup type command from the main MPU 62 is determined to be a normal startup command. It is determined whether the executed command is a RAM abnormal command. In step S13003, if it is determined that the command received as the startup type command from the main MPU 62 is a RAM abnormality command (step S13003: YES), the process advances to step S13004.

In step S13004, RAM abnormality notification processing is executed. In the RAM abnormality notification process, a process is executed to notify that the main RAM 64 is abnormal. Specifically, in this aspect, the system enters an infinite loop by controlling the speaker 46 to repeatedly output a voice saying "The RAM of the main control device is abnormal. Please start up in the setting change mode." That is, in the RAM abnormality notification process, notification of the type to be activated next in the pachinko machine 10 is continued until the power switch of the pachinko machine 10 is turned off and the power supply is cut off.

On the other hand, if it is determined in step S13003 that the command received as the boot type command from the main MPU 62 is not a RAM abnormality command (step S13003: NO), the process advances to step S13005, and the command received as the boot type command from the main MPU 62 is determined to be a RAM error command. It is determined whether the command issued is a RAM clear command. In step S12005, if it is determined that the command received as the startup type command from the main MPU 62 is a RAM clear command (step S13005: YES), the process advances to step S13006.

In step S13006, RAM clear notification processing is executed. In the RAM clear notification process, a process is executed to notify the main side RAM 64 that the RAM clear process has been executed. Specifically, in this aspect, a voice such as "The RAM of the main control device has been cleared" is output from the speaker 46. Thereafter, the main activation type notification process ends.

On the other hand, if it is determined in step S13005 that the command received as the boot type command from the main MPU 62 is not a RAM clear command (step S13005: NO), the process advances to step S13007, and the command received as the boot type command from the main MPU 62 is determined to be a RAM clear command. It is determined whether the command entered is a setting change mode start command. In step S13007, if it is determined that the command received as the activation type command from the main MPU 62 is a setting change mode start command (step S13007: YES), the process advances to step S13008.

In step S13008, a setting change mode start notification process is executed. In the settings change mode start notification process, a process to notify that the settings change mode has started is executed. Specifically, in this aspect, the speaker 46 outputs a voice saying "Setting change mode has started", and then the speaker 46 repeatedly outputs a voice saying "Setting change mode is in progress". Further, in the setting change mode start notification process, information indicating that the setting change mode is in progress is displayed on the symbol display device 41. Specifically, in this aspect, a command for displaying a character string such as "Setting change mode" on the symbol display device 41 is sent to the display control device 100, and the display control device 100 that receives the command, A character string such as "Setting change mode in progress" is displayed on the pattern display device 41. In addition, in the setting change mode start notification process, the various lamps 47 are controlled to blink alternately, turning on at maximum brightness and turning off. Thereafter, the process advances to step S13009, and it is determined whether a setting change mode end command has been received. If it is determined in step S13009 that a settings change mode end command has been received (step S13009: YES), the process advances to step S13010. On the other hand, if it is determined in step S13009 that the setting change mode end command has not been received (step S13009: NO), the process returns to step S13009 again. That is, the process waits until it is determined that the settings change mode end command has been received, and if it is determined that the settings change mode end command has been received, the process advances to step S13010.

In step S13010, a setting change mode end notification process is executed. In the settings change mode end notification process, a process to notify that the settings change mode has ended is executed. Specifically, in this aspect, the speaker 46 stops outputting the voice such as "Settings change mode in progress" and outputs the voice such as "Settings change mode has ended" from the speaker 46. Further, the control for notifying that the symbol display device 41 and various lamps 47 are in the setting change mode is ended. Thereafter, the main activation type notification process ends.

On the other hand, in step S13007, if it is determined that the command received from the main MPU 62 as a startup type command is not a setting change mode start command (step S13007: NO), in other words, the command received as a startup type command from the main MPU 62 is If the command is a setting confirmation mode start command, the process advances to step S13011.

In step S13011, a setting confirmation mode start notification process is executed. In the setting confirmation mode start notification process, a process of notifying that the setting confirmation mode has started is executed. Specifically, in this aspect, the speaker 46 outputs a voice saying "setting confirmation mode has started", and then the speaker 46 repeatedly outputs a voice saying "setting confirmation mode is in progress". Further, in the setting confirmation mode start notification process, information indicating that the setting confirmation mode is in progress is displayed on the symbol display device 41. Specifically, in this aspect, a command for displaying a character string such as "Setting confirmation mode" on the symbol display device 41 is transmitted to the display control device 100, and the display control device 100 that has received the command, A character string such as "Setting confirmation mode in progress" is displayed on the pattern display device 41. In addition, in the setting confirmation mode start notification process, the various lamps 47 are controlled to alternately turn on and off at maximum brightness and blink. Thereafter, the process advances to step S13012, and it is determined whether a setting confirmation mode end command has been received. In step S13012, if it is determined that the setting confirmation mode end command has been received (step S13012: YES), the process advances to step S13013. On the other hand, if it is determined in step S13012 that the setting confirmation mode end command has not been received (step S13012: NO), the process returns to step S13012 again. That is, the process waits until it is determined that the setting confirmation mode termination command has been received, and if it is determined that the configuration confirmation mode termination command has been received, the process advances to step S13013.

In step S13013, a setting confirmation mode end notification process is executed. In the settings confirmation mode end notification process, a process to notify that the settings confirmation mode has ended is executed. Specifically, in this aspect, the speaker 46 stops outputting the voice such as "Settings change mode in progress" and outputs the voice such as "Settings change mode has ended" from the speaker 46. Further, the control for notifying that the symbol display device 41 and various lamps 47 are in the setting confirmation mode is ended. Thereafter, the main activation type notification process ends.

FIG. 77 is a flowchart showing the timer interrupt process executed by the sound-light side MPU 92 (sound-light side CPU 92x) in aspect 101 of the first embodiment. The timer interrupt process is repeatedly executed at a relatively short cycle (2 msec in this embodiment). The processing of each step executed in the timer interrupt processing will be described below.

In step S13101, command storage processing is executed. The command storage process is a process for storing the received command in the sound/light side RAM 94 when a command is received from the main side MPU 62 . The sound/light side RAM 94 is provided with a ring buffer to enable storage and reading of commands received from the main side MPU 62, and the commands received from the main side MPU 62 are sequentially stored in the ring buffer and , are sequentially read out according to the stored order. After executing step S13101, the process advances to step S13102.

In step S13102, RTC effect processing is executed. In the RTC performance processing, the RTC performance is performed for a predetermined period of time (5 minutes in this embodiment) every predetermined time period (in this embodiment, every hour) after the pachinko machine 10 starts up (after power supply starts). Perform processing to execute. Details of the RTC effect processing will be described later. After executing step S13102, the process advances to step S13103.

In step S13103, a game rendition process is executed. In the game round performance processing, processing related to the performance to be executed during the game round from the start of symbol variation until it stops is performed. After executing step S13103, the process advances to step S13104.

In step S13104, opening/closing execution mode production processing is executed. In the opening/closing execution mode performance processing, processing related to the performance during the opening period, the performance during the opening/closing processing period, and the performance during the ending period is performed. After executing step S13104, the process advances to step S13105.

In step S13105, customer waiting processing is executed. In the customer waiting process, a process for displaying a demonstration video on the symbol display device 41 is executed when a game round has not been executed for a predetermined period of time. After executing step S13105, the process advances to step S13106.

In step S13106, a light emission control process for controlling light emission of the various lamps 47 is executed. In the light emission control process, light emission control of the various lamps 47 is performed based on the light emission data read in each of the above-mentioned production processes. After executing step S13106, the process advances to step S13107.

In step S13107, audio output control processing for controlling the audio output of the speaker 46 is executed. In the audio output control process, the audio output of the speaker 46 is controlled based on the audio data read out in the above BGM process and each production process. After executing step S13107, this timer interrupt processing ends.

Next, details of the RTC effect processing shown in step S13102 of FIG. 77 will be explained.

FIG. 78 is a flowchart showing the RTC effect processing executed by the sound and light side MPU 92 (sound and light side CPU 92x) in aspect 101 of the first embodiment.

In step S13201, it is determined whether the RTC performance execution flag stored in the main side RAM 64 is ON. The RTC performance execution flag is a flag for determining whether or not an RTC performance is being executed, which will be described later, and is turned ON when the RTC performance starts and turned OFF when the RTC performance ends. In step S13201, if it is determined that the RTC effect execution flag is not ON (step S13201: NO), that is, if the RTC effect is not in execution, the process advances to step S13202.

In step S13202, current date and time information is read from the time register 97b1 of the RTC 97. After that, the process advances to step S13203, and the elapsed time from the startup date and time to the current date and time is determined based on the read current date and time information and the startup date and time information stored in the startup date and time information storage area 94b of the sound-light side RAM 94. Calculate the elapsed startup time. Specifically, for example, the current date and time information read from the clock register 97b1 of the RTC 97 indicates "December 15, 2017, 11:53:45", and the startup date and time information stored in the sound-light side RAM 94 indicates "December 15, 2017, 08:42:35", the elapsed startup time is "3 hours, 11 minutes, 10 seconds". In addition, if the calculated elapsed startup time exceeds 24 hours 00 minutes 00 seconds, the elapsed startup time will be calculated from 24 hours 00 minutes 00 seconds until the elapsed startup time becomes 24 hours 00 minutes 00 seconds or less. Subtract the value corresponding to seconds. For example, if the calculated startup elapsed time is "51 hours 35 minutes 24 seconds," subtract the value corresponding to 24 hours 00 minutes 00 seconds twice to obtain a new startup elapsed time of "3 hours 35 minutes." 24 seconds.” The reason for adopting such processing will be described later. After executing step S13203, the process advances to step S13204.

In step S13204, the RTC performance execution determination table stored in the sound and light side ROM 93 is referred to, and in step S13205, it is determined whether or not it is the timing to start the RTC performance. In the RTC performance execution determination table, the activation elapsed time and the type of RTC performance are stored in association with each other.

FIG. 79 is an explanatory diagram illustrating the RTC performance execution determination table. As described above, the elapsed activation time and the type of RTC performance are stored in association with each other in the RTC performance execution determination table. Specifically, in this aspect, as shown in FIG. 79, different types of RTC effects are set for each hour of elapsed startup time. For example, "RTC effect A" is set corresponding to the elapsed start time "1 hour 00 minutes 00 seconds", and "RTC effect B" is set corresponding to the elapsed start time "2 hours 00 minutes 00 seconds". has been done. As described above, in this aspect, if the elapsed startup time exceeds 24 hours 00 minutes 00 seconds, the elapsed startup time will continue from the elapsed startup time until the elapsed startup time reaches a value of 24 hours 00 minutes 00 seconds or less. Subtract the value corresponding to 24 hours 00 minutes 00 seconds. Therefore, since the RTC performance execution determination table does not have to correspond to the portion where the elapsed startup time exceeds 24 hours 00 minutes 00 seconds, the storage capacity of the sound and light side ROM 93 required to store the RTC performance execution determination table can be reduced.

The explanation returns to FIG. 78. In step S13205, it is determined whether it is the timing to start the RTC effect. Specifically, if the startup elapsed time calculated in step S13203 matches the startup elapsed time set in the RTC performance execution determination table, it is determined that it is the start timing of the RTC performance, and if they match. If not, it is determined that it is not the start timing of the RTC performance. For example, if the activation elapsed time calculated in step S13203 is "1 hour 00 minutes 00 seconds", it is determined that it is the start timing of RTC effect A.

In step S13205, if it is determined that it is not the timing to start the RTC effect (step S13205: NO), this RTC effect processing is ended. On the other hand, if it is determined in step S13205 that it is the timing to start the RTC effect (step S13205: YES), the process advances to step S13206.

In step S13206, a setting is made to start the type of RTC performance corresponding to the activation elapsed time set in the RTC performance execution determination table. For example, if the startup elapsed time is "1 hour 00 minutes 00 seconds", control of the speaker 46 and various lamps 47 is started so that the performance mode corresponding to RTC performance A is achieved, and the video corresponding to RTC performance A is displayed. A command to start displaying is transmitted to the display control device 100. In this aspect, RTC performance A is a performance in which character A appears and sings song A for 5 minutes. Another RTC performance set in the RTC performance execution determination table is a performance in which another character appears and sings another song for 5 minutes. That is, the characters and music that appear are different for each type of RTC performance. After that, the process advances to step S13207.

In step S13207, the RTC effect execution flag is turned on. After that, the process advances to step S13208, and "150000" is set in the RTC performance timer counter Tr. The RTC performance timer counter Tr is a counter for managing the remaining time of the RTC performance, and is decremented by 1 each time this timer interrupt process is executed, as will be described later. In this aspect, since the timer interrupt process is executed every 2 ms, "150000" set in the RTC performance timer counter Tr corresponds to 5 minutes. Thereafter, the present RTC effect processing is ended.

In step S13201 described above, if it is determined that the RTC performance execution flag is ON (step S13201: YES), that is, in the timer interrupt process after the RTC performance execution flag is turned ON in step S13207 described above, the main If the process advances to step S13201, the process advances to step S13209.

In step S13209, 1 is subtracted from the value set in the RTC performance timer counter Tr. After that, the process advances to step S13210, and it is determined whether the value of the RTC performance timer counter Tr is 0 or not. In step S13210, if it is determined that the value of the RTC performance timer counter Tr is not 0 (step S13210: NO), that is, if it is determined that it is not yet the end timing of the RTC performance, this RTC performance processing is executed. finish. On the other hand, in step S13210, if it is determined that the value of the RTC performance timer counter Tr is 0 (step S13210: YES), that is, if it is determined that it is the end timing of the RTC performance, the process advances to step S13211, Set to end the RTC performance being executed. Thereafter, the process proceeds to step S13212, where the RTC performance execution flag is turned OFF, and the present RTC performance processing is ended.

As explained above, according to this aspect, in addition to the effects described in the other aspects described above, the following effects can be achieved.

Before explaining the effects of this embodiment, a game hall in which a plurality of pachinko machines 10 are installed will be explained. Generally, in a game hall, power supply to a plurality of pachinko machines 10 is started all at once (simultaneously). Specifically, for example, a plurality of pachinko machines 10 are installed in so-called island equipment with their respective power switches turned on, and the power switch of the island equipment (hereinafter also referred to as island power switch) is turned on. When turned ON, the supply of power is started all at once (simultaneously) to the plurality of pachinko machines 10 installed in the island facility.

According to this aspect, the pachinko machine 10 reads the current date and time information from the clock register 97b1 of the RTC 97 based on the start of external power supply to the pachinko machine 10, and reads the read current date and time information. A process (processing shown in step S12903 in FIG. 75, hereinafter also referred to as "starting date and time information storage process") is executed to store the information as starting date and time information in the starting date and time information storage area 97b2 of the RTC 97. Then, the startup date and time information storage process is executed based on the startup date and time information including the date and time when the startup date and time information storage process was executed, and the current date and time information clocked by the clock register 97b1 of the RTC 97. The startup elapsed time, which is the elapsed time since the startup, is calculated (step S13203 in FIG. 78), and the execution of the RTC effect is started based on the calculated startup elapsed time (steps S13204 to S13206 in FIG. 78). The effects of adopting this configuration will be explained.

Suppose that the execution of the RTC effect is started based on the current date and time information clocked in the clock register 97b1 of the RTC 97 (for example, based on the current date and time information A case will be described in which a configuration in which the RTC effect is started at the timing when the included time becomes 11:00:00 is adopted. In this configuration, if there is a difference in the time included in the current date and time information of each pachinko machine 10 installed on the island equipment (for example, if the time included in the current date and time information of the pachinko machine 10A at a certain moment (If the time is 11:00:00 and the time included in the current date and time information of the pachinko machine 10B is 10:59:52), the timing at which the RTC performance starts is determined by each pachinko machine 10. This is different for each pachinko machine 10 installed in the island facility, and there is a problem in that it gives a sense of discomfort to players who were expecting the RTC effects to start all at once (simultaneously) on each pachinko machine 10 installed in the island facility.

On the other hand, according to the present aspect, each pachinko machine 10 installed in the island facility receives the clock register 97b1 of the RTC 97 based on the start of external power supply to the pachinko machine 10. The current date and time information is read from , and a startup date and time information storage process is executed in which the read current date and time information is stored in the startup date and time information storage area 97b2 as startup date and time information. Therefore, for example, when the administrator of a game hall turns on the island power switch, power supply is started all at once (simultaneously) to the plurality of pachinko machines 10 installed in the island equipment, and Each installed pachinko machine 10 executes startup date and time information storage processing all at once (simultaneously).

According to this aspect, each pachinko machine 10 installed in the island equipment has startup date and time information including the date and time when the startup date and time information storage process was executed, and the time is measured in the time register 97b1 of the RTC 97. Based on the current date and time information, the elapsed startup time since the startup date and time information storage process was executed is calculated. As described above, each pachinko machine 10 installed in the island facility executes the startup date and time information storage process all at once (at the same time), so the startup date and time information storage process calculated in each pachinko machine 10 is executed. The elapsed time since activation is the same (or substantially the same) even if there is a difference in the time included in the current date and time information measured in the clock register 97b1 of the RTC 97 of each pachinko machine 10.

According to this aspect, each pachinko machine 10 installed on the island equipment starts the RTC performance based on the calculated startup elapsed time, so all the pachinko machines 10 installed on the island equipment start the RTC performance at the same time. It becomes possible to start the RTC performance (at the same time).

Furthermore, the pachinko machine 10 of this embodiment is configured to be able to retain the startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97 even during a power outage state in which the supply of external power is cut off. In addition, the MPU 92 of the audio emission control device 90 avoids execution of the above-mentioned startup date and time information storage process when the type of startup process executed by the MPU 62 of the main control device 60 is a specific startup process. (Step S12902 in FIG. 75). Specifically, in this aspect, when the MPU 92 of the audio emission control device 90 receives a startup type command of a RAM clear command, a settings change mode start command, or a settings confirmation mode from the MPU 62 of the main control device 60, avoids execution of the startup date and time information storage process described above. The effects of adopting this configuration will be explained.

A case will be described assuming that a configuration is adopted that does not have a function of avoiding execution of the startup date and time information storage process described above. In this configuration, when power supply starts to all the pachinko machines 10 installed on the island equipment all at once (simultaneously), all the pachinko machines 10 installed on the island equipment ) Executes startup date and time information storage processing. After that, the administrator of the gaming hall performs specific startup processing (for example, setting change mode, setting confirmation mode, RAM clearing processing) on one of the plurality of pachinko machines 10 installed in the island facility. ), after turning off the power switch of the one pachinko machine 10, the one pachinko machine 10 is placed in a state where a specific startup process is executed (for example, setting change mode, setting confirmation mode, In a state in which an operation for executing a RAM clearing process is being accepted, the power switch of the one pachinko machine 10 may be turned on to execute a specific startup process. In this case, the first pachinko machine 10 executes the start-up date and time information storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the start-up elapsed time calculated for the one pachinko machine 10 will be different from the start-up elapsed time calculated for the other pachinko machines 10, and the timing at which the RTC effect starts in the one pachinko machine 10 will be different. There is a problem that the timing differs from the start of the RTC performance in other pachinko machines 10, giving a sense of discomfort to the player playing the game in the one pachinko machine 10.

In contrast, according to this aspect, even if the manager of the gaming hall turns off the power switch of the one pachinko machine 10 and enters the power-off state, the startup date and time information of the RTC 97 of the one pachinko machine 10 is stored. The activation date and time information stored in area 97b2 is retained. After that, when the administrator turns on the power switch of that one pachinko machine 10 in a state where a specific startup process is executed, the specific startup process is executed in that one pachinko machine 10, and the startup date and time information storage process is Since the execution is avoided, the startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97 of the one pachinko machine 10 is not overwritten, and power is not supplied to other pachinko machines 10 all at once (at the same time). The startup date and time information stored in the startup date and time information storage process executed at the time of startup is maintained. As a result, the activation elapsed times calculated for each pachinko machine 10 installed in the island facility including the one pachinko machine 10 are the same (or substantially the same).

According to this aspect, each pachinko machine 10 installed in the island equipment starts RTC performance based on the calculated startup elapsed time, so once the power switch is turned OFF, the power switch is turned ON again. It becomes possible to simultaneously (simultaneously) start the RTC performance in each of the pachinko machines 10 installed in the island facility, including the pachinko machine 10 that has been installed.

Further, according to this aspect, when a specific startup process is executed by the main controller 60, information regarding the type of startup process to be executed at the start of the next power supply is notified. Specifically, in this aspect, when the main control device 60 executes the startup process including the process of transmitting the RAM abnormality command (step S12422 in FIG. Please start up in setting change mode.'' is repeatedly output from the speaker 46. Therefore, the administrator can grasp the type of startup process to be executed when starting the next power supply, and after finishing the power supply to the pachinko machine 10, the administrator can restart the pachinko machine 10 again. When starting the power supply, the notified type of activation process (setting change mode in this embodiment) can be executed.

In particular, in this aspect, after the power supply to the pachinko machine 10 whose RAM abnormality flag has been turned ON in step S12415 in FIG. If the startup process (setting change mode) of the specified type is not executed, it will be determined that the RAM is abnormal again, and the main controller 60 will send a RAM abnormality command to the audio emission control device 90 (Fig. 70 step S12422). Then, the MPU 92 of the sound emission control device 90 executes the startup date and time information storage process described above (step S12903 in FIG. 75) again, and the timing of the start of the RTC effect executed in the pachinko machine 10 is The start timing of the RTC performance executed in the pachinko machine 10 is different from the timing of the start of the RTC performance. However, in this aspect, since information regarding the type of startup process to be executed at the start of the next power supply is reported, the administrator can prevent the pachinko machine 10 from executing a different type of startup process. As a result, it is possible to prevent the timing of the start of the RTC performance in the pachinko machine 10 from being shifted from that of the other pachinko machines 10.

Furthermore, in this aspect, information regarding the type of startup process to be executed at the start of the next power supply is not broadcast until the external power supply to the pachinko machine 10 is cut off (for example, when the power switch is turned off). It is configured to continue (until it is turned off). The effects of such a configuration will be explained.

If the configuration is such that the notification of information regarding the type of startup process to be executed at the start of the next power supply is configured to end after a predetermined time (for example, 10 seconds), for example, in a large game hall, the administrator After the island power switch of the island equipment is turned on and external power supply to the pachinko machine 10 is started, the notification ends before the administrator reaches the pachinko machine 10, and the next The administrator may not be able to grasp the type of startup process that should be executed when power supply starts.

In contrast, according to this aspect, the notification of information regarding the type of startup process to be executed at the start of the next power supply is continued until the external power supply to the pachinko machine 10 is cut off. Therefore, the notification ends before the administrator reaches the pachinko machine 10 in question, and the administrator is unable to grasp the type of startup process to be executed when power supply starts next time. Occurrence can be avoided.

In this aspect, in step S12905 in FIG. 75, the startup date and time information is read from the startup date and time information storage area 97b2 of the RTC 97, and the read startup date and time information is written into the startup date and time information storage area 94b of the audio-optical side RAM 94 (memory). Although the configuration has been described in which the process of step S12905 is executed, the process of step S12905 may be omitted. In this case, in step S13203 of FIG. 78, the startup date and time information storage process is performed based on the current date and time information read from the clock register 97b1 of the RTC 97 and the startup date and time information read from the startup date and time information storage area 97b2 of the RTC 97. The configuration may be such that the activation elapsed time, which is the elapsed time from the execution date and time to the current date and time, is calculated. However, if the configuration is configured to execute the process of step S12905, the frequency of access to the RTC 97 by the audio-optical side MPU 92 can be reduced, so the processing load on the audio-optical side MPU 92 can be reduced.

Further, in this embodiment, the current date and time is grasped by reading the current date and time information from the time register 97b1 of the RTC 97 in step S13202 of FIG. The current date and time may be grasped by reading the current date and time information from the clock register 97b1, and thereafter counting the elapsed time based on the internal clock from the current date and time information read at the time of startup. According to such a configuration, the frequency of access to the RTC 97 can be reduced, so the processing load on the audio-optical side MPU 92 can be reduced.

Furthermore, in this aspect, the setting change mode is executed not only when the setting change mode is executed based on receiving an operation for executing the setting change mode, but also when the setting change mode is executed based on the setting change in progress flag being ON. Even if the startup date and time information storage process is executed, the configuration is configured to avoid executing the startup date and time information storage process, but if the settings change mode is executed based on the acceptance of an operation to execute the settings change mode. As far as possible, a configuration may be adopted in which execution of the startup date and time information storage process is avoided. According to such a configuration, the manager of the gaming hall turns on the island power switch, and the supply of power to the plurality of pachinko machines 10 installed in the island facility is started all at once (simultaneously). In this case, even though all the pachinko machines 10 installed in the island facility should execute the startup date and time information storage process all at once (at the same time), the pachinko machine whose setting change flag is ON 10 avoids executing the startup date and time information storage process.

Similarly, a configuration may be adopted in which execution of the startup date and time information storage process is avoided only when the setting confirmation mode is executed based on receiving an operation for executing the setting confirmation mode. According to such a configuration, the manager of the gaming hall turns on the island power switch, and the supply of power to the plurality of pachinko machines 10 installed in the island facility is started all at once (simultaneously). In this case, even though all the pachinko machines 10 installed in the island equipment should execute the startup date and time information storage process all at once (at the same time), the setting confirmation flag is ON. 10 avoids executing the startup date and time information storage process.

<Aspect 102>
The startup date and time information acquisition process shown in FIG. 75 of the above aspect 101 may be replaced with the startup date and time information acquisition process shown in FIG. 79 below. This will be explained in detail below.

FIG. 80 is a flowchart showing the activation date and time information acquisition process executed by the sound-light side MPU 92 (sound-light side CPU 92x) in aspect 102 of the first embodiment. In step S13301, it is determined whether a startup type command has been received from the main MPU 62. Specifically, in this aspect, the main MPU 62 sends any one of the five commands, the above-mentioned normal startup command, RAM abnormality command, RAM clear command, settings change mode start command, and settings confirmation mode start command. Determine whether a command has been received. If it is determined in step S13301 that any one of the five commands described above has been received (step S13301: YES), the process advances to step S13302. On the other hand, if it is determined in step S13301 that none of the five commands described above has been received (step S13301: NO), the process returns to step S13301 again. That is, the process waits until it is determined that one of the five commands described above has been received, and when it is determined that one of the five commands described above has been received, the process proceeds to step S13302. move on.

In step S13302, it is determined whether startup date and time information is stored in the startup date and time information storage area 97b2 of the RTC 97. Here, the case where the startup date and time information is stored in the startup date and time information storage area 97b2 of the RTC 97 means the case where the date and time can be read from the information stored in the startup date and time information storage area 97b2. The case where the startup date and time information is not stored in the startup date and time information storage area 97b2 of the RTC 97 means, for example, when the power is turned on to the pachinko machine 10 for the first time, or when the information stored in the startup date and time information storage area 97b2 is This is a case where the date and time cannot be read correctly because it has been damaged by noise or the like. In step S13302, if it is determined that the startup date and time information is stored in the startup date and time information storage area 97b2 of the RTC 97 (step S13302: YES), the process advances to step S13303.

In step S13303, startup date and time information is read from the startup date and time information storage area 97b2 of the RTC 97, and current date and time information is read from the time register 97b1 of the RTC 97. Then, it is determined whether 30 minutes or more have passed from the current date and time indicated by the current date and time information to the date and time indicated by the startup date and time information. Specifically, for example, the current date and time indicated by the current date and time information is "December 8, 2017, 08:12:32," and the date and time indicated by the startup date and time information is the next day, "December 8, 2017, 08:12:32." 08:15:11 on the 9th day of the month, it is determined that the current date and time indicated by the current date and time information is 30 minutes or more after the date and time indicated by the startup date and time information. On the other hand, the current date and time indicated by the current date and time information is "December 8, 2017, 08:12:32", and the date and time indicated by the startup date and time information is "December 8, 2017, 08:25:21" on the same day. If it is "seconds", it is determined that the current date and time indicated by the current date and time information has not passed 30 minutes or more from the date and time indicated by the startup date and time information. In step S13303, if it is determined that the current date and time indicated by the current date and time information is 30 minutes or more after the date and time indicated by the startup date and time information (step S13303: YES), the process advances to step S13304.

In step S13304, the current date and time information is read from the clock register 97b1 of the RTC97, and the read current date and time information is written (stored) in the startup date and time information storage area 97b2 of the RTC97. Thereafter, the process advances to step S13305, which will be described later. That is, if the current date and time indicated by the current date and time information is 30 minutes or more after the date and time indicated by the startup date and time information, the information indicating the date and time when the pachinko machine 10 was started (current date and time information) is It is stored as date and time information in the startup date and time information storage area 97b2. Thereafter, the process advances to step S13305, which will be described later.

On the other hand, if it is determined in step S13303 that the current date and time indicated by the current date and time information has not passed 30 minutes or more from the date and time indicated by the startup date and time information (step S13303: NO), the process of step S13304 described above ( The process advances to step S13305 without executing (avoiding) the process of reading the current date and time information and overwriting it as startup date and time information.

In step S13305, the startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97 is read, and the read startup date and time information is written (stored) in the startup date and time information storage area 94b of the audio-optical side RAM. Thereafter, the main startup date and time information acquisition process ends.

In addition, in step S13302 described above, if it is determined that the startup date and time information is not stored in the startup date and time information storage area 97b2 of the RTC 97 (step S13302: NO), the process of step S13303 described above (the current date and time information indicates The process of determining whether the current date and time has passed 30 minutes or more from the date and time indicated by the startup date and time information) is avoided and the process proceeds to step S13304. The reason for this is that if the configuration is such that the process proceeds to step S13303 described above with no startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97, there is target startup date and time information to be compared with the current date and time information. This is because an inconvenience will occur in which it is not possible to do so. Further, the reason for executing the process of step S13304 is that if the configuration is such that the process proceeds to step S13305 described above with no startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97, the activation of the sound-light side RAM 94 This is because a problem arises in that the activation date and time information to be written to the date and time information storage area 94b does not exist.

As explained above, according to this aspect, in addition to the effects described in the other aspects described above, the following effects can be achieved.

According to this aspect, the pachinko machine 10 reads the current date and time information from the clock register 97b1 of the RTC 97 based on the start of external power supply to the pachinko machine 10, and reads the read current date and time information. A process (process shown in step S13304 in FIG. 79, hereinafter also referred to as "start date and time information storage process") is executed to store the information as start date and time information in the start date and time information storage area 97b2 of the RTC 97. Then, the startup date and time information storage process is executed based on the startup date and time information including the date and time when the startup date and time information storage process was executed, and the current date and time information clocked by the clock register 97b1 of the RTC 97. The startup elapsed time, which is the elapsed time since the startup, is calculated (step S13203 in FIG. 78), and the execution of the RTC effect is started based on the calculated startup elapsed time (steps S13204 to S13206 in FIG. 78). The effect of adopting this configuration is the same as the effect explained in the above-mentioned aspect 102, so the explanation will be omitted.

Furthermore, the pachinko machine 10 of the present embodiment is configured to be able to retain the startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97 even during a power outage state, and the sound emission control device 90 When the MPU 92 receives the startup type command from the MPU 62 of the main controller 60, the MPU 92 determines that the date and time included in the current date and time information in the clock register 97b1 of the RTC 97 is included in the startup date and time information stored in the startup date and time information storage area 97b2. If a predetermined period of time (30 minutes in this embodiment) has not elapsed since the date and time of the startup date and time, execution of the startup date and time information storage process described above is avoided (step S13303 in FIG. 79). The effects of adopting this configuration will be explained.

A case will be described assuming that a configuration is adopted that does not have a function of avoiding execution of the startup date and time information storage process described above. In this configuration, when power supply starts to all the pachinko machines 10 installed on the island equipment all at once (simultaneously), all the pachinko machines 10 installed on the island equipment ) Executes startup date and time information storage processing. After that, the manager of the gaming hall temporarily turns off the power switch of one of the plurality of pachinko machines 10 installed in the island facility for various reasons, and then turns off the power switch of one of the plurality of pachinko machines 10 installed in the island facility. The power switch of the pachinko machine 10 may be turned on. Specifically, for example, in order to execute the setting change mode and change the lottery settings of the pachinko machine 10, the power switch of one of the pachinko machines 10 among the plurality of pachinko machines 10 installed in the island equipment is turned on. After turning off once, the power switch of the pachinko machine 10 may be turned on to execute the setting change mode while the pachinko machine 10 is accepting an operation to execute the setting change mode. be. In this case, the first pachinko machine 10 executes the start-up date and time information storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the start-up elapsed time calculated for the one pachinko machine 10 will be different from the start-up elapsed time calculated for the other pachinko machines 10, and the timing at which the RTC effect starts in the one pachinko machine 10 will be different. There is a problem that the timing differs from the start of the RTC performance in other pachinko machines 10, giving a sense of discomfort to the player playing the game in the one pachinko machine 10.

In contrast, according to this aspect, even if the manager of the gaming hall turns off the power switch of the one pachinko machine 10 and enters the power-off state, the startup date and time information of the RTC 97 of the one pachinko machine 10 is stored. The activation date and time information stored in area 97b2 is retained. After that, if the administrator turns on the power switch of the one pachinko machine 10 within a predetermined time (30 minutes in this embodiment), execution of the startup date and time information storage process is avoided, so the administrator turns on the power switch of the one pachinko machine 10. In the startup date and time information storage process executed when the startup date and time information stored in the startup date and time information storage area 97b2 of the RTC 97 is not overwritten and power supply is started simultaneously with other pachinko machines 10. The stored startup date and time information is maintained. As a result, the activation elapsed times calculated for each pachinko machine 10 installed in the island facility including the one pachinko machine 10 are the same (or substantially the same).

According to this aspect, each pachinko machine 10 installed in the island equipment starts RTC performance based on the calculated startup elapsed time, so once the power switch is turned OFF, the power switch is turned ON again. It becomes possible to simultaneously (simultaneously) start the RTC performance in each of the pachinko machines 10 installed in the island equipment, including the pachinko machines 10 that have been installed.

That is, the administrator turns on the island power switch of the island equipment to start supplying power all at once (simultaneously) to the plurality of pachinko machines 10 installed in the island equipment, and then turns on the island power switch for a predetermined period of time ( In this embodiment, within 30 minutes), among the plurality of pachinko machines 10 installed in the island facility, turn off the power switch of the one pachinko machine 10 whose lottery settings are to be changed, and then If the power switch of the pachinko machine 10 is turned ON to execute the setting change mode while the pachinko machine 10 is in a state where an operation for executing the setting change mode is accepted, the lottery setting of the pachinko machine 10 is set. It is possible to change the power switch simultaneously (simultaneously) at each pachinko machine 10 installed in the island facility, including the pachinko machine 10 in question whose power switch was once turned OFF and then turned ON again. It becomes possible to start RTC performance.

Note that in this aspect, in step S13303 of FIG. 80, the time used as the criterion for determining whether to avoid execution of the startup date and time information storage process (step S13304) is set to 30 minutes; The length of time may be changed. According to such a configuration, the length of time serving as the criterion can be changed as appropriate depending on the number and size of pachinko machines 10 installed in the game hall, so that, for example, It is possible to suppress the occurrence of a situation in which the time serving as the determination criterion elapses before the work of changing lottery settings for a plurality of pachinko machines 10 installed in a hall is completed.

<Aspect 103>
Among the above aspects, in a configuration in which the lottery settings for the winning lottery can be changed, it is determined whether the setting information that determines the lottery settings is a numerical value within a predetermined range or not at a stage after the progress of the game has started. It is also possible to perform the configuration in the following. For example, in the case of a pachinko machine 10 that can take any value from "1" to "6" as the setting information that determines the lottery settings, the setting information may have an abnormal value other than "1" to "6" due to the influence of noise etc. The configuration may be such that the determination as to whether or not the value is a certain value (for example, 7, B, etc.) is executed also at a stage after the progress of the game is started.

In this aspect, the determination regarding the setting information is performed when the game ball enters the first starting port 33 or the second starting port 34 and when the symbols start changing (more precisely, immediately before the execution of the winning lottery). do. Hereinafter, the determination regarding the setting information performed when a game ball enters the first starting port 33 or the second starting port 34 will be referred to as "setting information determination at the time of ball entry", and will be referred to as "determination of setting information at the time of ball entry", The determination regarding the setting information to be executed immediately before execution (immediately before execution) is called "setting information determination at the start of variation." The configuration of this embodiment will be specifically explained below.

First, the setting information determination at the time of ball entry performed in this embodiment will be described.

When the main side MPU 62 of the main control device 60 of this aspect acquires special information (such as the value of the jackpot random number counter C1) triggered by the entry of a game ball into the first starting port 33 or the second starting port 34, the main side MPU 62 of the main control device 60 Prior to executing the pre-determination process (so-called pre-reading) based on the acquired special information, the setting information stored in the setting information storage area of the main side RAM 64 is set to a value within a predetermined range (in this embodiment, from 1 to 6). ). In addition, as described later, in the advance determination process, before the reserved special information (pending information) becomes a target of the winning lottery (the winning determination process described later), based on the reserved special information, This is a process of determining whether there is a jackpot, the type of jackpot, whether a reach has occurred, etc.

When it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range, the destination judgment process is executed based on the acquired special information, and the destination judgment process is performed based on the acquired special information. A pending command including the processing result is set as a command to be transmitted to the audio emission control device 90.

On the other hand, if it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is not a numerical value within the predetermined range, that is, the setting information has an abnormal value other than 1 to 6 due to the influence of noise etc. 7, B, etc.), the execution of the first determination process is avoided and the abnormal hold command is set as the command to be transmitted to the audio emission control device 90. The abnormal hold command indicates that the setting information was determined to be an abnormal value at the timing when the game ball entered the first starting port 33 or the second starting port 34, and that the execution of the previous determination process was avoided. This is the command to show.

Next, a description will be given of the variation start setting information determination executed in this embodiment.

The main side MPU 62 of the main control device 60 of this aspect is based on special information (such as the value of the jackpot random number counter C1) acquired when a game ball enters the first starting port 33 or the second starting port 34. When executing a winning lottery (win determination processing described later), before executing the winning lottery, check whether the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range. Executes a determination of whether or not the

If it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range, a winning lottery is performed based on the special information, similar to the normal pachinko machine 10. Execute.

On the other hand, if it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is not a numerical value within the predetermined range, that is, the setting information has an abnormal value other than 1 to 6 due to the influence of noise etc. For example, 7, B, etc.), a game stop command indicating to stop the progress of the game is sent to the sub-side of the audio emission control device 90 etc. after avoiding the execution of the winning lottery. It transmits the information to the control device and executes processing to stop the progress of the game. As a result, the progress of the game stops, and the pachinko machine 10 becomes in a state where the player cannot continue playing the game. In addition, the audio emission control device 90 that received the game stop command sends a message to notify that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 should be restarted in the setting change mode. Execute processing.

As explained above, according to this aspect, if it is determined that the setting information is not a numerical value within a predetermined range in the setting information determination at the time of ball entry, execution of the previous determination process is avoided, so that the setting information is To suppress the occurrence of a problem in the result of a first judgment process due to an abnormal value that is not within a predetermined range and a first judgment process being executed in a state where it is not possible to refer to a validity table. I can do it.

Further, according to this aspect, if it is determined in the setting information determination at the start of fluctuation that the setting information is not a numerical value within a predetermined range, execution of the winning lottery is avoided. It is possible to prevent a problem from occurring in the winning lottery result due to the winning lottery being executed in a state where the winning lottery cannot be referred to because of an abnormal value that is not a numerical value.

Further, according to this aspect, if it is determined in the setting information determination at the start of fluctuation that the setting information is not a numerical value within a predetermined range, the progress of the game is stopped. It is possible to prevent the game from proceeding with an abnormal value, which is not the same, and increasing the disadvantage of the player.

Further, according to this aspect, if it is determined in the setting information determination at the start of fluctuation that the setting information is not within a predetermined range, the progress of the game is stopped, while the setting information is determined in the determination of the setting information at the time of ball entry. If it is determined that the numerical value is not within a predetermined range, the progress of the game is not stopped. The reason for adopting such a configuration will be explained.

First, unlike this embodiment, a case will be described in which a configuration is adopted in which the progress of the game is stopped even when it is determined in the setting information determination at the time of ball entry that the setting information is not a numerical value within a predetermined range. In this configuration, for example, the game ball enters the first starting port 33 or the second starting port 34 while the symbols are changing or the opening/closing execution mode (round game) is being executed, and the ball enters due to the entering ball. If it is determined that the setting information is not within the predetermined range during the time setting information judgment, the fluctuation of the symbol or the opening/closing execution mode (round game) that is being executed will be interrupted, the game will stop, and the player will experience a large amount of damage. This will cause discomfort and disadvantage.

In contrast, according to this aspect, even if it is determined that the setting information is not within the predetermined range in the ball entry setting information determination, the progress of the game is not stopped. There is no interruption of symbol fluctuations or opening/closing execution mode (round game) that is already being executed before the entry of the game ball that triggered the information determination. As in this aspect, even if the progress of the game is stopped when it is determined in the setting information determination at the start of fluctuation that the setting information is not a numerical value within a predetermined range, the symbol is still fluctuating or opening/closing is not being performed. Since the mode is never in progress, the discomfort and disadvantage to the player is greater than if the setting information was determined to be outside the predetermined range and the game was stopped when determining the setting information when entering the ball. is not large. Therefore, according to this aspect, the progress of the game can be stopped while reducing the discomfort and disadvantage to the player. Then, it is possible to prevent the game from proceeding with the setting information having an abnormal value that is not within a predetermined range, thereby increasing the disadvantage to the player.

Next, a description will be given of an effect that is executed in cooperation with the display control device 100 when the audio emission control device 90 of this embodiment receives a hold command or an abnormal hold command.

In the pachinko machine 10 of this embodiment, special information (such as the value of the jackpot random number counter C1) acquired based on the entry of a game ball into the first starting port 33 or the second starting port 34 is subject to a winning lottery. In a situation where the special information is on hold, a hold image indicating that the special information is on hold is displayed in the first hold display area Ds1 or the second hold display area Ds2 (FIG. 4) on the display surface 41a of the symbol display device 41. let The pachinko machine 10 of this embodiment is configured to be able to display pending images in the following five display modes.
Type 1 retained image (blue retained image in this mode)
Type 2 pending image (green pending image in this mode)
Type 3 pending image (red pending image in this mode)
Type 4 retained image (golden retained image in this mode)
Type 5 retained image (in this mode, rainbow colored retained image)
In this aspect, in descending order of expectation level, the images are the first type reserved image, the second type suspended image, the third type suspended image, the fourth type suspended image, and the fifth type suspended image. Note that the expectation level means the high probability that the special information corresponding to the pending image will win a jackpot when the pending image in the display mode is displayed. In this aspect, the fifth type pending image is configured to be displayed only when the corresponding special information wins the jackpot, and not to be displayed when the jackpot is won. That is, in the pachinko machine 10 of this embodiment, the 5th type pending image is a pending image that suggests that winning the jackpot has been confirmed, and when the 5th type holding image is displayed, it is determined that the jackpot has been won. It is confirmed that you will be selected.

When the audio emission control device 90 receives the hold command from the main control device 60, it sets a hold effect pattern based on the result of the destination determination process included in the hold command. The hold effect pattern includes information such as what type of hold image is displayed first when a hold command is received, and how the display mode (type) of the hold image is changed until it becomes a target of the winning lottery. It includes information such as whether it is changed by a pattern.

In this aspect, various hold performance patterns are set. An example of a hold performance pattern that can be set in this aspect is shown below.
・A hold effect pattern that displays the first type held image with the lowest expectation level at the timing when the hold command is received, and then maintains the first type held image without changing. ・The expectation level is displayed at the timing when the hold command is received. After displaying the first type suspended image with the lowest value, after executing a retention change suggestion effect that suggests that the first type suspended image may change to another type of suspended image, the first type suspended image is displayed. A hold effect pattern that executes a hold change effect that changes an image to a hold image with higher expectations (for example, a type 2 hold image) - A hold image that has a higher expectation from the beginning (for example, a type 3 hold image) at the timing when a hold command is received A hold effect pattern that displays a held image (held image) - At the timing of receiving a hold command, a held image with high expectations (for example, a 3rd type held image) is displayed from the beginning, and then the held image changes to a held image of another type. A hold effect pattern/hold that executes a hold change suggestion effect that suggests that there is a possibility that the hold image may change, and then executes a hold change effect that changes the hold image to a hold image with higher expectations (for example, a type 4 hold image). After displaying a highly expected held image (for example, a type 3 held image) at the timing of receiving a command, a held change that suggests that the held image may change to a held image of another type. A hold effect pattern that executes a hold change effect that changes the hold image to a hold image with a lower level of expectation (for example, a type 1 hold image) after executing a suggestive effect - A hold image that is currently being displayed in each of the above hold effect patterns A holding effect pattern that executes a holding change suggestion effect that suggests that there is a possibility that the displayed holding image may change to another type of held image, but then maintains the currently displayed held image without changing. A pending change effect that changes (promotes) a low held image to a held image with a high expectation is also called a held promotion effect, and a held change effect that changes (demotes) a held image with a high expectation to a held image with a low expectation. In particular, it is also called a pending demotion performance.

In this aspect, since the above-mentioned hold performance pattern is set, the player plays the game while hoping that a hold image with a higher degree of expectation will be displayed. In addition, when players recognize the hold change suggestion effect, they have mixed feelings such as wanting the hold image to change to a hold image with higher expectations, but not wanting the hold image to change to a hold image with lower expectations. I will hold you.

Next, a case will be described in which the audio emission control device 90 receives an abnormal hold command.

When the audio emission control device 90 receives the abnormal hold command, it displays the first type held image with the lowest expectation level in the first held display area Ds1 or the second held display area Ds2 (FIG. 4) on the display surface 41a of the symbol display device 41. ), and it is determined whether a second or more type of pending image is included in the already displayed pending images. Then, if it is determined that the second or higher type of pending image is being displayed, the pending change suggestion performance and the pending change performance can be executed within the period until the currently executed symbol variation ends. Determine whether or not. In this aspect, the time required from the start to the end of the pending change suggestion performance and the pending change performance is 5 seconds, so if the remaining time of the current symbol variation is 5 seconds or more, the pending change suggestion performance and the pending change performance is determined to be executable. Then, if it is determined that the pending change suggestion performance and the pending change performance are executable, the pending change suggestion performance is executed, and then the displayed second or higher type of pending image (for example, golden pending) is A hold change effect (hold demotion effect) that changes (demotes) the image to a first type hold image (for example, blue hold image) is executed.

As mentioned above, the fact that the abnormal hold command has been sent from the main controller 60 means that the game ball has not been sent to the first starting port 33 or the second starting port 34 which triggered the sending of the abnormal holding command. This means that it has been determined that the setting information is abnormal (the value is not within a predetermined range) at the time of ball entry. Therefore, at the timing immediately before the currently fluctuating symbol stops, the special information reserved for the next winning lottery becomes the target of the winning lottery, and the symbol begins to fluctuate, the setting information is within the predetermined range. It is determined that the value is not equal to , and the progress of the game is stopped.

Here, in this aspect, the reason why a configuration is adopted in which the above-described hold change suggestion performance and hold change performance (hold demotion performance) is adopted when an abnormal hold command is received will be explained.

First, unlike this embodiment, a case will be described in which a configuration is adopted in which the above-described hold change suggestion performance and hold change performance (hold demotion performance) are not executed even when an abnormal hold command is received. In this configuration, for example, if an abnormal hold command is received in a situation where the symbols are changing and a held image with high expectations as a target for the next winning lottery is displayed, the player Despite having strong expectations for the winning lottery of the special information corresponding to the highly anticipated pending image, the fluctuating symbol stops and the special information corresponding to the highly anticipated pending image is displayed. The game stops at the moment when it becomes the target of a winning lottery, or the moment when the special information corresponding to the pending image that is the target of the winning lottery before the relevant pending image with high expectations becomes the target of the winning lottery. As a result, the players felt strong anger and disappointment when the game was stopped without a winning lottery being executed based on the special information corresponding to the pending image for which they had high expectations. This can lead to a sense of disbelief and even distrust. Then, after the game has stopped, when the administrator of the game hall restarts the pachinko machine 10 in the above-mentioned setting change mode in order to return the pachinko machine 10 to a state where the game can proceed, the information stored in the main side RAM 64 is Various information is erased, and special information corresponding to a highly anticipated pending image for which the player had a strong sense of expectation is also erased. As a result, even after the pachinko machine 10 is restarted, the winning lottery based on the special information corresponding to the highly anticipated pending image for which the player had a strong sense of expectation will not be executed, and the player Their feelings of anger and disappointment become even stronger.

On the other hand, if a configuration is adopted in which the above-mentioned hold change suggestion performance and hold change performance are executed when an abnormal hold command is received, as in this aspect, a special hold change corresponding to a highly anticipated hold image is adopted. Before the information becomes a target of the winning lottery, that is, before the pattern changes based on the special information corresponding to the held image with high expectation, the held image with high expectation is the held image with the lowest expectation. Changes to Therefore, although the player initially had strong expectations for the held image with a high degree of expectation, as the held image with a high degree of expectation changes to a held image with a low degree of expectation, the player This made me realize that the special information corresponding to this was not something that I had high expectations for. After that, the moment when the special information corresponding to the said pending image becomes the subject of a winning lottery, or the moment when the special information corresponding to the pending image that was the subject of the winning lottery before the said pending image becomes the subject of a winning lottery. Even if the game is stopped, the player no longer has strong expectations for the special information corresponding to the suspended image, so the special information corresponding to the suspended image will not be included in the winning lottery. Even if the game stops at the moment when the special information corresponding to the pending image that is the subject of the winning lottery before the relevant pending image becomes the subject of the winning lottery, I would not feel so angry or disappointed. You won't have to hold it. Therefore, according to this aspect, it is possible to reduce the player's sense of disappointment when the game has stopped, and the special information corresponding to the suspended image is erased by restarting the pachinko machine 10. It is possible to reduce the player's anger and disappointment regarding the incident.

In addition, in this aspect, at the timing when the special information corresponding to the pending image becomes a winning lottery target, the pending image becomes the first pending display area Ds1 or the second pending display area Ds2 of the display surface 41a of the symbol display device 41. The suspended image is moved to a different display area (also referred to as a fluctuating pending display area) and continues to be displayed. In this embodiment, the type 5 pending image with the highest degree of expectation (in this embodiment, the rainbow colored pending image) is a pending image that has been selected for the winning lottery and moved to the floating pending display area. When the reserved image is displayed in the first reserved display area Ds1 or the second reserved display area Ds2, the fifth type reserved image is not displayed. As a hold effect pattern in which the type 5 held image with the highest degree of expectation is displayed, for example, it is displayed as the type 4 held image in the first hold display area Ds1 or the second hold display area Ds2, An example in which after becoming a lottery target and moving to the changing pending display area, the pending change suggestion performance and the pending change performance are executed, and the 4th type pending image changes to the 5th type held image with the highest expectation. can be mentioned. The reason for adopting such a configuration will be explained.

First, unlike this embodiment, a case will be described in which a configuration is adopted in which the most anticipated pending image can be displayed also in the first pending display area Ds1 or the second pending display area Ds2. In this configuration, in a situation where the most anticipated pending image is displayed in the first pending display area Ds1 or the second pending display area Ds2, the audio emission control device 90 receives the abnormal pending command to suggest a pending change. When the performance is executed, the player who recognized the pending change suggestion performance will not be able to change the pending image with the highest expectation level to the held image with the highest expectation level. It is possible to predict that the held change performance to be executed will change the held image with the highest expectation level to the held image with the lowest expectation level, and the player's expectations for the held change suggestion performance. This will reduce the feeling. In addition, in a situation where a pending image with the highest degree of expectation and which is certain to win a jackpot is displayed in the first pending display area Ds1 or the second pending display area Ds2, the sound emission control device 90 is abnormal. When the hold change effect is executed by receiving the hold command, and the held image that is certain to win the jackpot changes to the held image with the lowest expectation, the player wins the jackpot. An unbelievable phenomenon occurred in which a pending image that was supposed to be a guaranteed winner changed to a pending image with the lowest expectation, and a pending image that was supposed to be a jackpot was changed. The player ends up feeling very angry and disappointed that the winning lottery was not executed based on the special information corresponding to the game and the game was stopped.

On the other hand, when the configuration of this aspect described above is adopted, the pending image displayed in the first pending display area Ds1 or the second pending display area Ds always changes to a held image with a higher expectation level. Since there is room, even if the audio emission control device 90 receives the abnormal hold command and executes the hold change suggestion performance, the player who recognizes the hold change suggestion performance will: It cannot be determined that the pending change effect executed after the pending change suggestion effect changes the pending image to a held image with a low level of expectation. Therefore, according to this aspect, it is possible to suppress a decrease in the player's expectations regarding the pending change suggestion performance. In addition, in this aspect, the configuration is such that the held image that has the highest degree of expectation and is confirmed to win the jackpot is not displayed in the first held display area Ds1 or the second held display area Ds2. Even if the hold change effect is executed by the audio emission control device 90 receiving the abnormal hold command, the hold image with the highest expectation level displayed in the first hold display area Ds1 or the second hold display area Ds2 is the most expected hold image. The event of changing to a pending image with low expectations cannot occur. Therefore, according to this aspect, there may be a phenomenon in which a pending image that is supposed to win a jackpot changes to a pending image with the lowest expectation, or a pending image that should be guaranteed to win a jackpot. It is possible to avoid the occurrence of an event where the game stops without a winning lottery being executed based on the special information corresponding to the pending image that was previously held. It is possible to prevent it from being put away. In addition, in this mode, when the special information becomes the target of a winning lottery and the symbol starts to fluctuate, even if the setting information becomes an abnormal value after the symbol begins to fluctuate, the lottery result of the winning lottery will not be displayed. Until the next special information becomes the target of the winning lottery, or if the lottery result of the winning lottery is a jackpot, the opening/closing execution mode executed based on the jackpot ends and the next special information is drawn. The game is configured so that the game does not stop until it becomes the target of a winning lottery. Therefore, even if a held image (type 5 held image) indicating that winning a jackpot is confirmed is displayed as a held image after moving to the pending display area during fluctuation, the player cannot This will not cause them to feel the great anger and disappointment mentioned above. Therefore, according to the present aspect, the pending image that suggests that winning the jackpot is certain is displayed in the pending display area during fluctuation while suppressing the player's feeling of great anger or disappointment. By displaying the information, it is possible to give the player a great sense of anticipation and joy.

In addition, in this aspect, when an abnormal hold command is received, it is determined whether or not there is a hold effect pattern that has already been set before receiving the abnormal hold command, and if it is determined that there is a hold effect pattern, the corresponding Cancel the setting of the pending performance pattern. Specifically, when an abnormal hold command is received, it is determined whether there is a hold change suggestion effect or hold change effect that has already been set to be executed but has not yet been executed, and whether or not there is a hold change suggestion effect or hold change effect that has not been executed yet. When it is determined that there are pending change suggestion performances and pending change performances that have not been performed, the execution schedules of these pending change suggestion performances and pending change performances are canceled. According to this configuration, even though the player's expectations for the pending image changed by executing the pending change suggestion performance and the pending change performance have increased, the special information corresponding to the pending image is It is possible to prevent players from feeling distrustful due to the game being stopped without a winning lottery being executed.

Next, an example of processing executed by the main MPU 62 in this embodiment will be described. The main MPU 62 in this embodiment executes main processing and timer interrupt processing. The main process is a process executed when the power is turned on, and the main process executed by the main MPU 62 in this aspect is the same as the main process (FIG. 70) described in aspect 101, so a description thereof will be omitted.

[Timer interrupt processing]
FIG. 81 is a flowchart showing timer interrupt processing executed by the main MPU 62 of aspect 103. As described above, the timer interrupt process is activated periodically (eg, every 4 msec) by the MPU 62 of the main control device 60.

In step S20101, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter (jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, electric accessory opening counter C4, etc.) in the main side RAM 64, and the read numerical information is updated. After executing the process of adding 1, the process of overwriting the read-out counter with the numerical information after the addition is executed. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S20101, the process advances to step S20102.

In step S20102, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Thereafter, the process does not proceed to step S20103, which will be described later, and the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even when the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power outage monitoring process in step S20102, if it is determined that the drive voltage supplied from the power supply device 85 to the main controller 60 is not lower than the predetermined value, the process directly advances to step S20103.

In step S20103, it is determined whether at least one of the RAM abnormality flag or the game stop flag is ON. As described above, the RAM abnormality flag is a flag that is turned ON when it is determined that the information stored in the main RAM 64 is not normal in the main processing executed when the power is turned on. As will be described later, the game stop flag is a flag that is turned ON in order to stop the progress of the game when it is determined that the setting information is not normal before the winning lottery is executed. In step S20103, if it is determined that both the RAM abnormality flag and the game stop flag are not ON (step S20103: NO), the process advances to step S20104. On the other hand, if it is determined in step S20103 that at least one of the RAM abnormality flag or the game stop flag is ON (step S20103: YES), this timer interrupt processing is ended without executing the processing after step S20104. do. That is, if at least one of the RAM abnormality flag or the game stop flag is ON, the processing for enabling the game to proceed from step S20104 onwards will not be executed, and the game will enter the game progress mode in which the game can proceed. is configured not to migrate. Hereinafter, the processing after step S20104, which is the processing for enabling the game to proceed, will be explained.

In step S20104, port output processing is executed. In the port output processing, when the output information has been set in the previous timer interrupt processing, processing is executed to cause the various drive units 36c and 34b to output corresponding to the output information. For example, if information is set to switch the big winning opening 36a to the open state, output of a drive signal to the variable winning a prize drive unit 36c is started, and if information to switch the big winning opening 36a to the closed state is set, The output of the drive signal is stopped. In addition, when the information to switch the electric accessory 34a of the second starting port 34 to the open state is set, the output of the drive signal to the electric accessory drive section 34b is started, and the information to switch the electric accessory 34a to the closed state is set. If set, the output of the drive signal is stopped. After that, the process advances to step S20105.

In step S20105, reading processing is executed. In the reading process, signals other than the incoming ball signal are read, and the read information is stored for use in future processing. After that, the process advances to step S20106.

In step S20106, the signals received from each of the ball entry detection sensors 44a to 44h are read, and ball entry detection processing is executed to perform processing corresponding to the read information. The ball entry detection process is the same as the ball entry detection process shown in FIG. 28, so a detailed explanation will be omitted. After executing step S20106, the process advances to step S20107.

In step S20107, timer update processing is executed to collectively update numerical information of predetermined timer counters provided in the main side RAM 64. After that, the process advances to step S20108.

In step S20108, ball entry processing for the starting openings is executed as the game balls enter the first starting opening 33 and the second starting opening 34. In the ball entry process for the starting port, the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 are set based on the fact that it is determined that the game ball has entered the first starting port 33 or the second starting port 34. At the same time as acquiring the value, the acquired counter value is stored in the pending information storage area 64b of the RAM 64. After executing step S20108, the process advances to step S20109.

In step S20109, ball entry processing for the through gate is executed when the game ball enters (passes through) the through gate 35. In the ball entry process for the through gate, the value of the electric accessory opening counter C4 is acquired based on the fact that it is determined that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It is stored in the power reserve area 64d. After executing step S20109, the process advances to step S20110.

In step S20110, a game round control process is executed to control the game in each game round. In the game round control process, a winning lottery, display control of the first symbol display section 37a, second symbol display section 37b, etc. are performed. After executing step S20110, the process advances to step S20111.

In step S20111, a gaming state transition process for shifting the gaming state is executed. In the gaming state transition process, processing for shifting the gaming state to an opening/closing execution mode, a high probability mode, a high frequency support mode, etc. is executed. After executing step S20111, the process advances to step S20112.

In step S20112, electric utility support processing for controlling the electric accessory 34a is executed. In the electric accessory support process, it is determined whether or not the electric accessory 34a is to be in an open state (an electric accessory opening lottery), and if it is determined to be in an open state, the electric accessory 34a is drive-controlled. After executing step S20112, the process advances to step S20113.

In step S20113, game ball launch control processing is executed. In the game ball firing control process, a process for firing a game ball into the gaming area PA when the operation handle 25 is operated by the player is executed. After executing step S20113, the process advances to step S20114.

In step S20114, command output processing is executed to output (send) the command set as a transmission target in the current timer interrupt processing to each sub-side control device. For example, if commands related to production such as a variation command, a type command, a hold command, etc. are set, these are transmitted to the audio emission control device 90. After executing step S20114, the process advances to step S20115.

In step S20115, game history processing for calculating and displaying game history information is executed. The game history process is the same as the game history process shown in FIG. 29, so a detailed explanation will be omitted. After executing step S20115, this timer interrupt processing ends.

[Ball entry processing for starting port]
Next, the ball entry process for the starting port will be explained. The ball entry process for the starting port is executed by the MPU 62 of the main controller 60 as a timer interrupt process subroutine (FIG. 81: S20108).

FIG. 82 is a flowchart showing the ball entry process for the starting port. In step S20201, it is determined whether the game ball has entered the first starting port 33 (starting ball) based on the detection state of the detection sensor corresponding to the first starting port 33. In step S20201, if it is determined that the game ball has entered the first starting port 33 (S20201: YES), the process proceeds to step S20202, and the prize ball is used to cause the payout control device 70 to pay out four game balls. Set command. After that, the process advances to step S20203.

In step S20203, external signal setting processing is performed to output a signal to the management control device on the gaming hall side that the game ball has entered the first starting port 33. After that, the process advances to step S20204.

In step S20204, the starting pending number RaN (hereinafter also referred to as the first starting pending number RaN), which is the value stored in the pending number storage area of the first holding area Ra, is read, and the first starting pending number RaN will be described later. Set as a processing target. The first starting pending number RaN indicates the pending number based on the entry of game balls into the first starting port 33. After that, the process advances to step S20209.

In step S20201, if it is determined that the game ball has not entered the first starting port 33 (S20201: NO), the process advances to step S20205, and it is determined whether the game ball has entered the second starting port 34 or not. is determined based on the detection state of the detection sensor corresponding to the second starting port 34.

In step S20205, if it is determined that the game ball has entered the second starting port 34 (S20205: YES), the process proceeds to step S20206, and the prize ball is used to cause the payout control device 70 to pay out one game ball. Set command. After that, the process advances to step S20207. On the other hand, in step S20205, if it is determined that the game ball has not entered the second starting port 34 (S20205: NO), the ball entering process for the main starting port is ended.

In step S20207, an external signal setting process is performed to output a signal to the management control device on the gaming hall side that the game ball has entered the second starting port 34. After that, the process advances to step S20208.

In step S20208, the starting pending number RbN (hereinafter also referred to as the second starting pending number RbN), which is the value stored in the pending number storage area of the second holding area Rb, is read, and the second starting pending number RbN will be described later. Set as a processing target. The second starting pending number RbN indicates the pending number based on the entry of game balls into the second starting port 34. After that, the process advances to step S20209.

In step S20209, it is determined whether the start pending number N (RaN or RbN) set in step S20204 or step S20208 described above is less than the upper limit value (4 in this embodiment). In step S20209, if the starting pending number N is not less than the upper limit (S20209: NO), that is, if the starting pending number N is greater than or equal to the upper limit, the entry process for the main starting port is ended.

On the other hand, in step S20209, if the start pending number N is less than the upper limit (S20209: YES), the process advances to step S20210, where 1 is added to the start pending number N of the corresponding holding area, and then the process advances to step S20211. , 1 is added to the value stored in the total reservation number storage area (hereinafter referred to as total reservation number CRN). The total pending number CRN indicates the total value of the first starting pending number RaN and the second starting pending number RbN. After that, the process advances to step S20212.

In step S20212, each value of the jackpot random number counter C1, jackpot type counter C2, and reach random number counter C3 updated in step S20101 (FIG. 81) is transferred to the first storage area among the free storage areas of the corresponding reservation area, that is, the step In S20210, it is stored in the storage area corresponding to the pending number to which 1 is added. Specifically, when the first start pending number RaN is set as the processing target, each of the jackpot random number counter C1, jackpot type counter C2, and reach random number counter C3 updated in step S20101 (FIG. 81) The value is stored in the first storage area among the free storage areas of the first reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN to which 1 was added in step S20210. In addition, when the second starting pending number RbN is set as the processing target, the values of the jackpot random number counter C1, jackpot type counter C2, and reach random number counter C3 updated in step S20103 (FIG. 81) are It is stored in the first storage area among the empty storage areas of the second reservation area Rb, that is, the storage area corresponding to the second start reservation number RbN to which 1 was added in step S20210. After executing step S20212, the process advances to step S20213.

In step S20213, it is determined whether the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range. In this aspect, since the setting information that can be set in the pachinko machine 10 is in six stages from "1" to "6", the setting information is "1", "2", "3", "4", "5". ”, “6”. If it is determined in step S20213 that the setting information is a numerical value within a predetermined range (step S20213: YES), the process advances to step S20214.

In step S20214, a destination determination process is executed. The destination determination process is based on the information (pending information) of each value of the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3. This is a process in which a determination is made as to the presence or absence of the pending information before it becomes a target of the winning lottery by the main control device 60. Details of the destination determination process will be described later. After executing step S20214, the process advances to step S20215.

In step S20215, processing for setting a pending command is executed. Specifically, the determination result of the destination determination process executed based on the information (pending information) of each value of the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 is set as a pending command.

The hold command indicates that a game ball has entered the first starting port 33 or the second starting port 34, and the judgment result of the previous judgment process based on the holding information acquired based on the ball entering, is set to the corresponding hold. This is a command to have the sub-side control device confirm the information before it becomes a target of the winning lottery by the main control device 60. The hold command is sent to the audio emission control device 90 in the above-described command output process (FIG. 81: Step S20114).

Further, when the audio emission control device 90 receives a hold command transmitted based on the entry of a game ball into the first starting port 33, the sound emission control device 90 controls the display in the first hold display area Ds1 of the symbol display device 41. A command is sent to the display control device 100 to make the change in response to the increase in the number of pending items. The display control device 100 that has received the command changes the display in the first pending display area Ds1 of the symbol display device 41 in accordance with the increase in the pending number. On the other hand, when receiving the hold command transmitted based on the entry of the ball into the second starting port 34, the audio emission control device 90 changes the display in the second hold display area Ds2 of the symbol display device 41 to indicate the number of pending balls. A command is sent to the display control device 100 to make changes in response to the increase. The display control device 100 that has received the command changes the display in the second reservation display area Ds2 of the symbol display device 41 in accordance with the increase in the number of reservations.

After executing step S20215, the main MPU 62 ends the ball entry process for the main starting port.

On the other hand, if it is determined in step S20213 that the setting information is not a numerical value within the predetermined range, for example, setting information such as "7" or "B" may not be stored in the setting information storage area of the main side RAM 64 due to the influence of noise or the like. If it is determined that an impossible value is stored (step S20213: NO), the process proceeds to step S20216 without executing the previous determination process of step S20214 described above, and sets an abnormal hold command. The abnormal hold command is a command indicating that the setting information was not a numerical value within a predetermined range at the time when the game ball entered the first starting port 33 or the second starting port 34. The abnormal hold command is sent to the audio emission control device 90 in the command output process (FIG. 81: step S20114) described above. After executing step S20216, the ball entry process for the main starting port is ended.

[First judgment process]
Next, the destination determination process will be explained. The destination determination process is executed by the MPU 62 of the main controller 60 as a subroutine of the ball entry process for the starting port (FIG. 82: S20214).

FIG. 83 is a flowchart showing the destination determination process. As described above, the preliminary determination process is based on the pending information, and determines whether the winning lottery is correct or not, determining the type of jackpot, determining whether or not a reach has occurred, etc., based on the pending information. This is a process that is executed before becoming a lottery target.

In step S20301, the value of the jackpot random number counter C1 stored in the storage area is read out when the game ball enters the starting hole in the ball entry process for the starting hole (FIG. 82). After that, the process advances to step S20302, and the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is determined. Specifically, the judgment result of the previous judgment process executed by the ball entering before the current ball entering is read from the corresponding storage area, and it is determined whether there is a probability-variable jackpot that occurs before the winning lottery due to the current ball entering. By determining this, the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is determined.

In step S20302, if it is determined that the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is the low probability mode (S20302: YES), the process advances to step S20303 and corresponds to the setting information. Refer to the validity table for low probability mode. As described above, the main controller 60 of the pachinko machine 10 of this embodiment has six types of winning/failure control for the low probability mode corresponding to each of the six lottery settings from "lottery setting 1" to "lottery setting 6". The main MPU 62 refers to the low probability mode win/fail table corresponding to the setting information indicating the lottery settings. Specifically, for example, if the value of the setting information stored in the setting information storage area of the main side RAM 64 is "1", the winning/failure table for low probability mode corresponding to lottery setting 1 is referred to. . After that, the process advances to step S20305, and as a result of referring to the low probability mode win/fail table, it is determined whether or not the information of the value of the jackpot random number counter C1 read this time corresponds to a jackpot. Note that an example of the success/failure table for the six types of low probability modes has already been described in aspect 57, so the description will be omitted here.

On the other hand, in step S20302, if it is determined that the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is not the low probability mode (S20302: NO), the process advances to step S20304, and the lottery mode is set to the high probability mode. Refer to the validity table. Thereafter, the process advances to step S20305, and as a result of referring to the high probability mode win/fail table, it is determined whether the value of the jackpot random number counter C1 read this time corresponds to a jackpot. In addition, in this embodiment, the configuration is such that one kind of success/failure table for the high probability mode is referred to regardless of the lottery settings, but similarly to the success/failure table for the low probability mode, a number of high probability modes corresponding to the lottery settings are referred to. It is also possible to prepare a winning/failure table for the lottery setting and refer to the winning/failure table for the high probability mode corresponding to the lottery setting.

In step S20305, if it is determined that the value of the jackpot random number counter C1 read this time corresponds to a jackpot (S20305: YES), the process proceeds to step S20306, and is stored in the storage area by the ball entering the starting hole this time. The value of the jackpot type counter C2 is read out. After that, the process advances to step S20307, and the distribution table stored in the distribution table storage area 63b is referred to. Specifically, if the jackpot type counter C2 to be distributed this time is acquired based on the entry of the game ball into the first starting port 33, the first starting port distribution table If the game ball is acquired based on the entry of the game ball into the second starting port 34, the distribution table for the second starting port is referred to. After executing step S20307, the process advances to step S20308.

In step S20308, as a result of referring to the distribution table, it is determined whether the value of the jackpot type counter C2 read this time corresponds to a variable probability jackpot. In step S20308, if it is determined that it corresponds to a probability variable jackpot (S20308: YES), the process proceeds to step S20309, and the probability variable jackpot information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process ends. On the other hand, in step S20308, if it is determined that the probability variable jackpot is not supported (S20308: NO), the process proceeds to step S20310, and normal jackpot information is stored in the previous judgment processing result storage area 64f. Thereafter, the destination determination process ends.

In step S20305, if it is determined that the value of the jackpot random number counter C1 read this time does not correspond to a jackpot (S20305: NO), the process advances to step S20311, and the value is stored in the memory area by the ball entering the starting hole this time. Read the stored value of the reach random number counter C3. Thereafter, the process advances to step S20312, and the reach determination table stored in the reach determination table storage area 63c is referred to. Thereafter, the process advances to step S20313, and as a result of referring to the reach determination table, it is determined whether the value of the reach random number counter C3 read this time corresponds to the occurrence of a reach.

In step S20313, if it is determined that it corresponds to the occurrence of a reach (S20313: YES), the process advances to step S20314, and the ready-to-reach occurrence information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process ends. On the other hand, if it is determined in step S20313 that it does not correspond to the occurrence of a reach (S20313: NO), the first determination process is directly ended.

[Ball entry processing for through gate]
Next, the ball entry process for the through gate will be explained. Ball entry processing for the through gate is executed by the MPU 62 of the main controller 60 as a timer interrupt processing subroutine (FIG. 81: S20109).

FIG. 84 is a flowchart showing ball entry processing for through gate. In step S20401, it is determined whether the game ball has entered (passed) the through gate 35 or not. In step S20401, if it is determined that the game ball has entered the through gate 35 (S20401: YES), the process advances to step S20402, and whether or not the accessory reserve number SN is less than the upper limit (4 in this embodiment) Determine whether or not. Note that the number of held accessory objects SN is a value indicating the number of balls entered into the through gate 35 that are held in order to perform the electric accessory release lottery. In this embodiment, the maximum value of the number SN of accessory objects on hold is four. On the other hand, if it is determined in step S20401 that the game ball has not entered the through gate 35 (S20401: NO), the main through ball entry process is ended.

In step S20402, if it is determined that the number SN of accessory items on hold is less than the upper limit value (less than 4) (S20402: YES), the process proceeds to step S20403, and 1 is added to the number SN of accessory items on hold. After that, the process advances to step S20404.

In step S20404, the value of the electric accessory opening counter C4 updated in step S20101 (FIG. 81) is stored in the first storage area among the empty storage areas of the electric accessory holding area 64c of the RAM 64. Thereafter, the ball entry process for the through gate is completed.

On the other hand, in step S20402, if it is determined that the value of the number of accessory items reserved SN is not less than the upper limit value (S20402: NO), that is, if it is determined that the value of the number of accessory items reserved SN is greater than or equal to the upper limit value, The through ball entry process is ended without storing the value of the electric accessory release counter C4.

[Game time control processing]
Next, the game time control process will be explained. The game time control process is executed by the MPU 62 of the main controller 60 as a timer interrupt process subroutine (FIG. 81: Step S20110).

FIG. 85 is a flowchart showing the game time control process. In step S20501, it is determined whether the opening/closing execution mode is in progress. Specifically, it is determined whether the opening/closing execution mode flag in the various flag storage area 64e of the RAM 64 is ON. As will be described later, the opening/closing execution mode flag is turned ON at the timing when the fluctuation of the symbols in the game round in which the jackpot is won is finished and the opening/closing execution mode is transferred, and is turned OFF at the timing when the opening/closing execution mode is finished.

In step S20501, if it is determined that the opening/closing execution mode flag is ON (S20501: YES), it is determined that the opening/closing execution mode is in progress, and the main game is played without executing any of the processes after step S20502. Control processing ends. That is, when the opening/closing execution mode is in progress, the game round will not start regardless of whether or not a game ball enters the first starting port 33 or the second starting port 34. . On the other hand, if it is determined in step S20501 that the opening/closing execution mode is not in progress (S20501: NO), the process advances to step S20502.

In step S20502, it is determined whether the main display section 45 is displaying a variable display. Specifically, it is determined whether either the first symbol display section 37a or the second symbol display section 37b is in the process of variable display. This determination is made by determining whether the variable display flag in the various flag storage area 64e of the RAM 64 is ON. The fluctuating display flag is turned ON when a fluctuating display is started for either the first symbol display section 37a or the second symbol display section 37b, and is turned OFF when the fluctuating display ends.

In step S20502, if it is determined that the main display section 45 is not in variable display (S20502: NO), the process advances to steps S20503 to S20505 for starting a game round. In step S20503, it is determined whether the total number of reservations CRN is "0". The case where the total reservation number CRN is "0" means that the number of startup reservations for both the first starting port 33 and the second starting port 34 is "0". Therefore, in step S20503, if it is determined that the total pending number CRN is "0" (S20503: YES), the main game round control process is ended. On the other hand, if it is determined in step S20503 that the total pending number CRN is not "0" (S20503: NO), the process advances to step S20504.

In step S20504, a hold information shift process is executed to set the data stored in the first hold area Ra or the second hold area Rb to the state after the start of fluctuation, and the process advances to step S20505. Details of the pending information shift process will be described later.

In step S20505, a fluctuation start process for starting the fluctuation display on the main display section 45 and the fluctuation display on the symbol display device 41 is executed. Note that details of the fluctuation start process will be described later. After that, the process advances to step S20506.

In step S20506, the value of the number of games counter PNC is subtracted by 1. The number of games counter PNC is a counter for counting the number of games played in the high frequency support mode. After executing step S20506, the main game round control process is ended.

On the other hand, if it is determined in step S20502 that the main display section 45 is in the process of variable display (S20502: YES), the process advances to step S20507.

In step S20507, it is determined whether the variable time of the current game round has elapsed. As mentioned above, the fluctuation time is the time from when the symbol row starts to fluctuate until all the symbol rows stop, and is a part of the unit game time. Specifically, in step S20507, it is determined whether the value of the variable time information stored in the variable time counter area (various counter areas 64d) of the RAM 64 has become "0". The value of the fluctuation time information is set in the fluctuation time setting process (FIG. 89) described later. The value of this set variable time information is subtracted by 1 each time the timer interrupt process is activated.

If it is determined in step S20507 that the fluctuation time has not elapsed (S20507: NO), the process advances to step S20508, and a fluctuation display process is executed. The variable display process is a process for changing the display mode on the result display section for the current game round. After executing step S20508, the main game round control process is ended.

In step S20507, if it is determined that the fluctuation time has elapsed (S20507: YES), the process advances to step S20509, and fluctuation end processing is executed. In the variation end process, the stopped symbols determined in the hit determination process (FIG. 88) to be described later are stopped and displayed on the main display section 45 as the result of the current game round. After executing step S20509, the process advances to step S20510.

In step S20510, it is determined whether any jackpot flag stored in the various flag storage areas 64e of the RAM 64 is ON. The jackpot flag is a flag that is turned ON when a jackpot is won in the hit determination process (FIG. 88) described later. In step S20510, if it is determined that any jackpot flag is ON (S20510: YES), the process proceeds to step S20511 and the opening/closing execution mode flag is turned ON. After that, the main game round control process is ended. On the other hand, if it is determined in step S20510 that none of the jackpot flags is ON (S20510: NO), the process advances to step S20512.

In step S20512, it is determined whether the total number of reservations CRN is "0". In step S20512, if it is determined that the total pending number CRN is "0" (S20512: YES), the process advances to step S20513 and a customer waiting command is set. The customer waiting command is used to make the audio emission control device 90, which is a sub-side control device, recognize that no pending information is stored in the pending information storage area 64b at the time when the symbol variation (gaming round) ends. This is a command that contains information about The customer waiting command set in step S20513 is transmitted to the audio emission control device 90 in the above-described command output process (FIG. 81: step S20114). On the other hand, in step S20512, if it is determined that the total pending number CRN is not "0" (S20512: NO), the main game round control process is ended.

[Pending information shift processing]
Next, pending information shift processing will be explained. The pending information shift process is executed by the MPU 62 of the main controller 60 as a subroutine (FIG. 85: S20504) of the game time control process.

FIG. 86 is a flowchart showing pending information shift processing. In step S20601, it is determined whether the holding area that is the processing target for executing the holding information shift process is the first holding area Ra. Specifically, the reservation information stored earliest among the reservation information chronologically stored in the first reservation area Ra (FIG. 6) (the reservation stored in the first area of the first reservation area Ra) information) is the earliest stored reservation information (stored in the first area of the second reservation area Rb) among the reservation information chronologically stored in the second reservation area Rb (FIG. 6). If it is stored in the reservation area before the reservation information (reservation information), it is determined that the reservation area to be processed is the first reservation area Ra. On the other hand, among the reservation information stored in the first reservation area Ra (FIG. 6) in chronological order, the earliest stored reservation information is stored in the second reservation area Rb (FIG. 6) in chronological order. If the earliest stored reservation information among the stored reservation information is stored in the reservation area first, the reservation area to be processed is determined to be the second reservation area Rb. That is, by executing the process of step S20601, the reservation information can be processed in the order in which it is stored in the first reservation area Ra or the second reservation area Rb.

In step S20601, if it is determined that the holding area to be processed is the first holding area Ra (step S20601: YES), holding information shift processing for the first holding area in steps S20602 to S20607 is executed. On the other hand, in step S20601, if it is determined that the processing target holding area is not the first holding area Ra, that is, if it is determined that the processing target holding area is the second holding area Rb (step S20601: NO ), executes the hold information shift process for the second hold area in steps S20608 to S20613.

In step S20602, after the first starting reservation number RaN of the first reservation area Ra is subtracted by 1, the process proceeds to step S20603, and the total reservation number CRN is subtracted by 1. After that, the process advances to step S20604. In step S20604, the data stored in the first area of the first reservation area Ra is moved to the execution area AE. After that, the process advances to step S20605.

In step S20605, processing is performed to shift the data stored in the storage area of the first reservation area Ra. This data shift process is a process of sequentially shifting the data stored in the first to fourth areas to the lower area side. Specifically, while clearing the data in the first area, the data in each area is shifted in the following order: second area → first area, third area → second area, fourth area → third area. After executing step S20605, the process advances to step S20606.

In step S20606, if the second symbol display section flag in the various flag storage area 64e is ON, the flag is turned OFF, and if it is not ON, that state is maintained. The second symbol display section flag is information for specifying whether the target for starting the current variable display is the first symbol display section 37a or the second symbol display section 37b. After that, the process advances to step S20607.

In step S20607, a shift command is set. The shift command is a command that includes information for causing the audio emission control device 90, which is a sub-side control device, to recognize that data in the holding area has been shifted. In this case, information is obtained from the command information storage area 63f of the ROM 63 that the holding area that is the target of the current data shift corresponds to the first holding area Ra, that is, it corresponds to the first starting port 33. A shift command that includes information that there is a shift command is selected, and the selected shift command is set as a command to be transmitted to the audio emission control device 90. Thereafter, the pending information shift process ends.

The shift command set in step S20607 is transmitted to the audio emission control device 90 in the above-described command output process (FIG. 81: step S20114). Based on the received shift command, the audio emission control device 90 sends a command to the display control device 100 to change the display in the first reservation display area Ds1 of the symbol display device 41 in accordance with the decrease in the number of reservations. do. The display control device 100 that has received the command changes the display in the first reservation display area Ds1 of the symbol display device 41 in accordance with the decrease in the number of reservations.

In step S20601, if it is determined that the processing target reservation area is not the first reservation area Ra, that is, if it is determined that the processing target reservation area is the second reservation area Rb (step S20601: NO), The process advances to step S20608.

In step S20608, the second start hold number RbN of the second hold area Rb is subtracted by 1. After that, the process advances to step S20609. In step S20609, the total pending number CRN is subtracted by 1, and the process proceeds to step S20610, in which the data stored in the first area of the second pending area Rb is moved to the execution area AE. After that, the process advances to step S20611.

In step S20611, a process is executed to shift the data stored in the storage area of the second reservation area Rb. This data shift process is a process of sequentially shifting the data stored in the first to fourth areas to the lower area side. Specifically, while clearing the data in the first area, the data in each area is shifted in the following order: second area → first area, third area → second area, fourth area → third area. After executing step S20611, the process advances to step S20612.

In step S20612, if the second symbol display section flag in the various flag storage area 64e is not ON, the flag is turned ON, and if it is ON, that state is maintained. After that, the process advances to step S20613.

In step S20613, a shift command is set. The shift command is a command that includes information for causing the audio emission control device 90, which is a sub-side control device, to recognize that data in the holding area has been shifted. In this case, information is obtained from the command information storage area 63f of the ROM 63 that the holding area that is the target of the current data shift corresponds to the second holding area Rb, that is, it corresponds to the second starting port 34. A shift command that includes information that there is a shift command is selected, and the selected shift command is set as a command to be transmitted to the audio emission control device 90. Thereafter, this pending information shift process ends.

The shift command set in step S20613 is transmitted to the audio emission control device 90 in the above-described command output process (FIG. 81: step S20114). Based on the received shift command, the audio emission control device 90 issues a command to the display control device 100 to change the display in the second reservation display area Ds2 of the symbol display device 41 in accordance with the decrease in the number of reservations. Send. The display control device 100 that has received the command changes the display in the second reservation display area Ds2 of the symbol display device 41 in accordance with the decrease in the number of reservations.

[Variation start processing]
Next, the fluctuation start process will be explained. The fluctuation start process is executed by the MPU 62 of the main control device 60 as a subroutine (FIG. 85: S20505) of the game time control process.

FIG. 87 is a flowchart showing the fluctuation start process. In step S20701, it is determined whether the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range. If it is determined that the setting information is a numerical value within a predetermined range (step S20701: YES), the process advances to step S20702.

In step S20702, a hit determination process is executed. In the winning determination process, it is determined whether or not a jackpot has been won based on the value of the jackpot random number counter C1 shifted to the execution area AE in the pending information shift process. Details of the hit determination process will be described later. After executing step S20702, the process advances to step S20703.

In step S20703, variable time setting processing is executed. In the variable time setting process, the variable time which is the time required for the current game round on the first symbol display section 37a or the second symbol display section 37b is set based on the presence or absence of a jackpot or the occurrence of a reach. Details of the variable time setting process will be described later. After executing step S20703, the process advances to step S20704.

In step S20704, it is determined whether the second symbol display section flag in the RAM 64 is ON. In step S20704, if it is determined that the second symbol display section flag in the RAM 64 is not ON (S20704: NO), the process proceeds to step S20705, and a first variation command is set. The first variation command includes information indicating that the current game round is related to pending information acquired based on winnings in the first start opening 33, and whether or not a reach has occurred. information and information on the fluctuation time set in step S20703 are included. On the other hand, in step S20704, if it is determined that the second symbol display section flag is ON (S20704: YES), the process proceeds to step S20706, and a second variation command is set. The second variation command includes information indicating that the current game round is related to pending information acquired based on winnings in the second start opening 34, and whether or not a reach has occurred. information and information on the fluctuation time set in step S20703 are included. After executing step S20705 or step S20706, the process advances to step S20707.

In step S20707, a type command is set. The type command includes information on the presence or absence of a jackpot and the result of the distribution determination. In other words, the type command includes information on the type of jackpot, such as 16R probability variable jackpot information, 8R probability variable jackpot information, 16R normal jackpot information, 8R normal jackpot information, or information on a losing result.

The variation command and type command set in steps S20705 to S20707 are sent to the audio emission control device 90 in the above-described command output process (FIG. 81: step S20114). The audio emission control device 90 determines the content of the performance in the game round based on the received variation command and type command, and controls various devices so that the determined content of the performance is executed. After executing step S20707, the process advances to step S20708.

In step S20708, the symbol display section corresponding to the current game round of the first symbol display section 37a and the second symbol display section 37b starts displaying a variable symbol. Specifically, when the second symbol display section flag in the RAM 64 is not ON, the symbol display section corresponding to the current game round is identified as the first symbol display section 37a, and variable display is started. When the second symbol display section flag is ON, the symbol display section corresponding to the current game round is identified as the second symbol display section 37b, and variable display is started. After executing step S20708, this variation start process ends.

On the other hand, in step S20701 described above, if it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is not a numerical value within the predetermined range, the process advances to step S20709, and the game stop command is sent to the sub side. It is transmitted to the payout control device 70 and the audio emission control device 90, which are the control devices of the above. The game stop command is a command for causing the payout control device 70 and the audio emission control device 90, which are sub-side control devices, to recognize that the progress of the game is to be stopped. After executing step S20709, the process advances to step S20710 and the game stop flag is turned ON. As a result, when the next timer interrupt process (FIG. 81) is executed, execution of the process group for advancing the game (the process group of steps S20104 to S20115 in FIG. 81) is avoided, and the game progresses. will be stopped. After executing step S20710, this fluctuation start process ends.

[Hit judgment processing]
Next, the hit determination process will be explained. The hit determination process is executed by the MPU 62 of the main controller 60 as a subroutine of the variation start process (FIG. 87: S20702).

FIG. 88 is a flowchart showing the hit determination process. In step S20801, it is determined whether the win/fail lottery mode is the high probability mode. Specifically, it is determined whether the high probability mode flags in the various flag storage areas of the RAM 64 are ON. The high probability mode flag is a flag used by the MPU 62 to specify whether or not the win/fail lottery mode is the high probability mode. , after that, it is turned off when the jackpot is won and the opening/closing execution mode is started. In step S20801, if it is determined that the mode is high probability mode (S20801: YES), the process advances to step S20802.

In step S20802, a validity determination is made with reference to the high probability mode validity table. Specifically, it is determined whether the value of the jackpot random number counter C1 stored in the execution area AE matches the value set as a jackpot winning in the high probability mode win/fail table. After that, the process advances to step S20804. On the other hand, if it is determined in step S20801 that the mode is not high probability mode (S20801: NO), the process advances to step S20803.

In step S20803, a validity determination is made with reference to the low probability mode validity table corresponding to the setting information. Specifically, for example, if the value of the setting information stored in the setting information storage area of the main side RAM 64 is "1", the low probability mode win/fail table corresponding to lottery setting 1 is referred to. A judgment is made as to whether or not it is correct. In the win/fail determination, it is determined whether the value of the jackpot random number counter C1 stored in the execution area AE matches the value set as a jackpot win in the low probability mode win/fail table corresponding to the setting information. do. After that, the process advances to step S20804.

In step S20804, it is determined whether or not the result of the success/failure determination (winning lottery) in step S20802 or step S20803 is a jackpot win. In step S20804, if the result of the judgment is a jackpot win (S20804: YES), in steps S20805 to S20812, processing for setting the game result in the case of a jackpot win and setting a stop result are performed. Execute the process.

In step S20805, it is determined whether the second symbol display section flag in the RAM 64 is ON. In step S20805, if it is determined that the second symbol display section flag is not ON (S20805: NO), proceed to step S20806, and refer to the distribution table for the first starting opening (see FIG. 8(a)). to make a distribution judgment. Specifically, the value of the jackpot type counter C2 stored in the execution area AE is in the numerical range of 16R probability variable jackpot, the numerical range of 8R probability variable jackpot, the numerical range of 16R normal jackpot, or the numerical range of 8R normal jackpot. Determine whether it is included in

On the other hand, if it is determined in step S20805 that the second symbol display section flag is ON (S20805: YES), the process proceeds to step S20807, and the distribution table for the second starting port (see FIG. 8(b)) Make a distribution decision by referring to the . Specifically, the value of the jackpot type counter C2 stored in the execution area AE is in the numerical range of 16R probability variable jackpot, the numerical range of 8R probability variable jackpot, the numerical range of 16R normal jackpot, or the numerical range of 8R normal jackpot. Determine whether it is included in After executing the process of step S20806 or step S20807. The process advances to step S20808.

In step S20808, it is determined whether the type of jackpot distributed in step S20806 or step S20807 is a variable probability jackpot. In step S20808, if it is determined that the game result is a variable jackpot (S20808: YES), the process advances to step S20809.

In step S20809, a stop result setting process for a probability variable jackpot is executed. The stop result setting process for a variable probability jackpot means that in the current game round in which a probability variable jackpot will be won, either stop result is displayed on the first symbol display section 37a or the second symbol display section 37b. This is a process for setting whether to end the display. Specifically, by referring to the stop result table for probability-variable jackpots stored in the stop result table storage area 63e, the address information of the stop result data corresponding to the type of jackpot distributed in step S20806 or step S20807 is obtained. The address information is stored in the stop result address storage area of the RAM 64. After executing step S20809, the process advances to step S20810.

In step S20810, a flag (jackpot type flag) corresponding to the type of jackpot distributed in step S20806 or step S20807 is turned ON. Specifically, if it is a 16R probability variable jackpot, the 16R probability variation flag is turned ON, and if it is an 8R probability variation jackpot, the 8R probability variation flag is turned ON. After that, the hit determination process ends.

On the other hand, if it is determined in step S20808 that the type of jackpot distributed in step S20806 or step S20807 is not a probability variable jackpot (S20808: NO), that is, if the type of jackpot distributed is a normal jackpot, step Proceed to S20811.

In step S20811, a stop result setting process for normal jackpot is executed. The normal jackpot stop result setting process means that in the current game round in which the normal jackpot is won, either stop result is displayed on the first symbol display section 37a or the second symbol display section 37b. This is a process for setting whether to end the display. Specifically, by referring to the stop result table for normal jackpots stored in the stop result table storage area 63e, the address information of the stop result data corresponding to the type of jackpot distributed in step S20806 or step S20807 is obtained. The address information is stored in the stop result address storage area of the RAM 64. After executing step S20811, the process advances to step S20812.

In step S20812, a flag (jackpot type flag) corresponding to the type of jackpot distributed in step S20806 or step S20807 is turned ON. Specifically, if it is a 16R normal jackpot, the 16R normal flag is turned ON, and if it is an 8R normal jackpot, the 8R normal flag is turned ON. After that, the hit determination process ends.

In step S20804, if the result of the winning lottery in step S20802 or step S20803 is not a jackpot (S20804: NO), the process advances to step S20813 and executes a stop result setting process for a loss. The stop result setting process for a miss is to end the variable display with either the stop result displayed on the first symbol display section 37a or the second symbol display section 37b in the current game round where the result is a miss. This is the process to set the Specifically, by referring to the stop result table for loss in the stop result table storage area 63e, address information of the stop result data corresponding to the value of the jackpot random number counter C1 stored in the execution area AE is obtained. Then, the address information is stored in the stop result address storage area of the RAM 64. After executing step S20813, the hit determination process ends.

[Variable time setting process]
Next, the process of setting the variable time will be explained. The fluctuation time setting process is executed by the MPU 62 of the main controller 60 as a subroutine of the fluctuation start process (FIG. 87: S20703).

FIG. 89 is a flowchart showing the variable time setting process. In step S20901, the value of the fluctuation type counter CS stored in the fluctuation type counter buffer in the lottery counter buffer 64a of the RAM 64 is acquired. After that, the process advances to step S20902.

In step S20902, it is determined whether the winning lottery related to the current game round is a winning result. Specifically, it is determined whether the probability variable jackpot flag or the normal jackpot flag in the RAM 64 is ON, and if either flag is ON (S20902: YES), the process advances to step S20903.

In step S20903, with reference to the variable time table for jackpot stored in the variable time table storage area 63d of the ROM 63, variable time information corresponding to the value of the current variable type counter CS is obtained. In the pachinko machine 10 of this embodiment, the fluctuation time of the game round in which a winning lottery is won is constant. Thereafter, the process advances to step S20904, and the acquired variable time information is set in the variable time counter area provided in the various counter areas 64d of the RAM 64. Thereafter, the variable time setting process ends.

In step S20902, if it is determined that the winning lottery related to the current game round is not a win (S20902: NO), the process advances to step S20905, and it is determined whether or not a reach occurs in the current game round. Since this process (S20905) is executed when the winning lottery related to the current game round has not been won in step S20902 above, in step S20905, a reach occurs among the game rounds that have not won the winning lottery. It is determined whether or not it is a game time. Specifically, when the value of the reach random number counter C3 stored in the execution area AE is a value corresponding to the occurrence of a reach, it is determined that a reach occurs (S20905: YES), and the process advances to step S20906. In addition, when specifying the presence or absence of the occurrence of a reach using the value of the reach random number counter C3, the reach determination table stored in the reach determination table storage area of the ROM 63 is referred to.

In step S20906, the variable time table for reach generation stored in the variable time table storage area 63d of the ROM 63 is referred to to acquire variable time information corresponding to the value of the current variable type counter CS. In the pachinko machine 10 of this embodiment, the fluctuation time for generating a reach is constant. Thereafter, the process advances to step S20904, and the acquired variable time information is set in the variable time counter area provided in the various counter areas 64d of the RAM 64. Thereafter, the variable time setting process ends.

In step S20905, if it is determined that reach does not occur in the current game round (S20905: NO), the process advances to step S20907, and the variable time table for non-reach occurrence stored in the variable time table storage area 63d is referred to. Then, the fluctuation time corresponding to the current value of the fluctuation type counter CS is obtained. Thereafter, the process advances to step S20904, and the acquired variable time information is set in the variable time counter area provided in the various counter areas of the RAM 64. Thereafter, the variable time setting process ends.

In the pachinko machine 10 of this embodiment, the variation time information stored in the non-reach variation time table is set such that the larger the total reservation number CRN, the shorter the variation time. However, the present invention is not limited to this, and for example, a configuration may be adopted that does not depend on the total number of reservations CRN, and the fluctuation time may be set to be shorter as the total number of reservations CRN is smaller. In addition, when the second starting pending number RbN is "0", the larger the first starting pending number RaN is, the shorter the fluctuation time is, and when the second starting pending number RbN is "1" or more, may be set such that the larger the second start pending number RbN, the shorter the fluctuation time. In addition, when the second starting pending number RbN is "0", the larger the first starting pending number RaN, the longer the fluctuation time, and when the second starting pending number RbN is "1" or more. may be set such that the larger the number of second start-up reservations RbN is, the longer the fluctuation time is, or it may be set to be constant regardless of the respective reservation numbers RaN and RbN.

In addition, in a situation where the support mode is high-frequency support mode, compared to a situation where the support mode is low-frequency support mode, when the number of pending information is the same, a shorter variation time is selected so that no reach occurs. A variable time table may also be set. However, the present invention is not limited to this, and the selected variation times may be the same, or the above relationship may be reversed.

Furthermore, the above configuration may be applied to the fluctuation time when a reach occurs, and the fluctuation time that is likely to be selected and the fluctuation time that is difficult to be selected may be different when winning a jackpot and when winning a reach. good. Further, a variable time table for a variable probability jackpot, a variable time table for a normal jackpot, a variable time table for a missed reach, and a variable time table for a complete miss may each be set individually.

[Game state transition processing]
Next, the game state transition process will be explained. The game state transition process is executed by the MPU 62 of the main control device 60 as a subroutine (FIG. 81: S20111) of the timer interrupt process.

FIG. 90 is a flowchart showing the gaming state transition process. In step S21001, it is determined whether the ending period flag is ON. The ending period flag is turned ON at the start of the ending period and turned OFF at the end of the ending period. The ending period is a period for executing the ending effect in the opening/closing execution mode.

In step S21001, if it is determined that the ending period flag is not ON (S21001: NO), the process advances to step S21002, and it is determined whether the opening/closing processing period flag is ON. The opening/closing processing period flag is turned ON at the start of the opening/closing processing period, and turned OFF at the end of the opening/closing processing period.

In step S21002, if it is determined that the opening/closing processing period flag is not ON (S21002: NO), the process proceeds to step S21003, and it is determined whether the opening period flag is ON. The opening period flag is turned ON at the start of the opening period and turned OFF at the end of the opening period. The opening period is a period for performing the opening performance in the opening/closing execution mode.

In step S21003, if it is determined that the opening period flag is not ON (S21003: NO), the process advances to step S21004, and the timing at which the fluctuating display of symbols in the first symbol display section 37a or the second symbol display section 37b ends Determine whether or not. In step S21004, if it is determined that the timing is not the end of the variable display (S21004: NO), the main game state transition process is ended.

In step S21004, if it is determined that it is the timing at which the variable display has ended (S21004: YES), the process advances to step S21005, and the result of the winning lottery for the current game round corresponds to the transition to the opening/closing execution mode. Determine whether it exists or not. Specifically, it is determined whether the opening/closing execution mode flag of the RAM 64 is ON. If it is determined that the opening/closing execution mode flag is not ON (S21005: NO), the main gaming state transition process is ended.

In step S21005, if it is determined that the result of the winning lottery for the current game round corresponds to the transition to the opening/closing execution mode (S21005: YES), the process advances to step S21006, and the high probability mode flag and the high frequency Among the support mode flags, turn off the flags that are set to ON. After that, the process advances to step S21007. Note that if both the high probability mode flag and the high frequency support mode flag are OFF in step S21006, the process directly advances to step S21007.

In step S21007, opening time setting processing is executed. The opening time setting process is a process for setting the temporal length of the opening period (hereinafter also referred to as opening time). Specifically, a predetermined value is set in the third timer counter area T3 that determines the opening time. In this embodiment, "1500" (ie, 6 seconds) is set in the third timer counter area T3. Note that the third timer counter area T3 is provided in various timer counter areas 64d of the RAM 64. After executing step S21007, the process advances to step S21008.

In step S21008, an opening command is set. The set opening command is sent to the audio emission control device 90 in the above-described command output process (FIG. 81: Step S20114). Based on receiving the opening command, the audio emission control device 90 sets the opening effect and the right-hit notification effect to be executed, and starts controlling various devices so that these effects are sequentially executed. After executing step S21008, the process advances to step S21009 and the opening period flag is turned ON. After that, the main game state transition process is ended.

If it is determined in step S21003 that the opening period flag is ON (S21003: YES), the process advances to step S21010.

In step S21010, it is determined whether the opening period has ended. Specifically, it is determined whether the value of the third timer counter area T3 is "0". In step S21010, if it is determined that the opening period has ended (S21010: YES), the process advances to step S21011 and the opening period flag is turned OFF. After that, the process advances to step S21012.

In step S21012, a round display start process is executed to notify the type of the current opening/closing execution mode. Specifically, the address information stored in the stop result address storage area of the RAM 64 is checked. Then, based on the confirmed address information, the stop result data corresponding to the address information is specified from among the stop result data group stored in the ROM 63, and the content of the number of rounds is determined from the specified stop result data. confirm. Thereafter, the content of the confirmed number of rounds is output to the round display section 39 in the main display section 45. As a result, the round display section 39 displays information on the round related to the above output. After executing step S21012, the process advances to step S21013.

In step S21013, the number of rounds for the current opening/closing execution mode is set. Specifically, the jackpot type flags (16R probability variable flag, 8R probability variable flag, 16R normal flag, 8R normal flag) stored in the RAM 64 are checked, and the number of rounds corresponding to the flags is stored in various counter areas 64f of the RAM 64. Set it in the first round counter area RC1 provided in . The first round counter area RC1 is a counter area for counting the number of times the opening/closing door 36b is opened. After executing step 13913, the process advances to step S21014.

In step S21014, the opening/closing processing period flag is turned ON. After that, the process advances to step S21015, and an opening start command is set. The set opening start command is sent to the audio emission control device 90 in the above-described command output process (FIG. 81: Step S20114). This opening start command includes information on the number of rounds in the current opening/closing execution mode. Based on the received opening start command, the audio emission control device 90 sets to execute a round effect with content corresponding to the number of rounds, and controls various devices so that the round effect with the set content is executed. Start. After executing step S21015, the main gaming state transition process is ended.

In step S21002, if it is determined that the opening/closing process period flag is ON (S21002: YES), the process proceeds to step S21016, and the big winning opening opening/closing process is executed. Specifically, when the grand prize opening 36a is closed, the variable prize driving section 36c is brought into the driving state on the condition that the first round counter area RC1 is "1" or more, thereby winning the grand prize. The mouth 36a is opened. In addition, when the grand prize opening 36a is open, on the condition that the opening limit time has elapsed since the opening of the grand prize opening 36a, or the opening limit number of game balls has entered, The driving state of the variable winning drive unit 36c is stopped, and the big winning opening 36a is closed. Details of the opening/closing process of the grand prize opening will be described later. After executing step S21016, the process advances to step S21017.

In step S21017, it is determined whether the value of the first round counter area RC1 is "0". If it is determined that the value of the first round counter area RC1 is not "0" (S21017: NO), the main gaming state transition process is directly ended. On the other hand, if it is determined that the value of the first round counter area RC1 is "0" (S21017: YES), the process advances to step S21018, and the opening/closing processing period flag is turned OFF. After executing step S21018, the process advances to step S21019.

In step S21019, round display end processing is executed. In this process, display control of the round display section 39 in the main display section 45 is ended so that the round display section 39 is turned off. After executing step S21019, the process advances to step S21020.

In step S21020, ending time setting processing is executed. The ending time setting process is a process for setting the temporal length of the ending period (hereinafter also referred to as ending time). Specifically, a predetermined value is set in the fourth timer counter area T4 that determines the ending time. In this embodiment, "1500" (ie, 6 seconds) is set in the fourth timer counter area T4. Note that the fourth timer counter area T4 is provided in various timer counter areas 64d of the RAM 64. After executing step S21020, the process advances to step S21021.

In step S21021, an ending command is set. The set ending command is transmitted to the audio emission control device 90 in the above-described command output process (FIG. 81: Step S20114). Based on receiving the ending command, the audio emission control device 90 sets the ending effect to be executed, and starts controlling various devices so that the ending effect is executed. After executing step S21021, the process advances to step S21022.

In step S21022, the ending period flag is turned ON. After that, the main game state transition process is ended.

In step S21001, if it is determined that the ending period flag is ON (S21001: YES), the process advances to step S21023.

In step S21023, it is determined whether the ending period has ended. Specifically, in the ending time setting process (S21020), it is determined whether the value of the fourth timer counter area T4 set as the ending time is "0". In step S21023, if it is determined that the value of the fourth timer counter area T4 set as the ending time is not "0" (S21023: NO), the main gaming state transition process is ended. On the other hand, if it is determined in step S21023 that the value of the fourth timer counter area T4 set as the ending time is "0" (S21023: YES), the process advances to step S21024.

In step S21024, the ending period flag is turned OFF. After that, the process advances to step S21025, and transition processing at the end of the ending period is executed. The transition process at the end of the ending period is a process for setting various modes for the game after the current ending period ends. Details of the transition process at the end of the ending period will be described later. After executing step S21025, the process advances to step S21026, and the opening/closing execution mode flag is turned OFF. After that, the process advances to step S21027.

In step S21027, it is determined whether the total number of reservations CRN is "0". In step S21027, if it is determined that the total pending number CRN is "0" (S21027: YES), the process advances to step S21028, and a customer waiting command is set. The customer waiting command includes information for making the audio emission control device 90, which is a sub-side control device, recognize that no pending information is stored in the pending information storage area 64b at the time when the opening/closing execution mode ends. It is a command. The customer waiting command set in step S21028 is transmitted to the audio emission control device 90 in the above-described command output process (FIG. 81: step S20114). On the other hand, in step S21027, if it is determined that the total pending number CRN is not "0" (S21027: NO), the main gaming state transition process is ended.

[Big prize opening opening/closing process]
Next, the big winning opening opening/closing process will be explained. The grand prize opening/closing process is executed by the MPU 62 of the main control device 60 as a subroutine of the gaming state transition process (FIG. 89: S21016).

FIG. 91 is a flowchart showing the big winning opening opening/closing process. In step S21101, it is determined whether or not the big prize opening 36a is being opened. Specifically, the determination is made based on the driving state of the variable prize winning driving section 36c. In step S21101, if it is determined that the big prize opening 36a is not open (S21101: NO), the process proceeds to step S21102, and it is determined whether the value of the first round counter area RC1 is "0". In step S21102, if it is determined that the value of the first round counter area RC1 is "0" (S21102: YES), the main winning opening opening/closing process is directly ended. On the other hand, if it is determined in step S21102 that the value of the first round counter area RC1 is not "0" (S21102: NO), the process advances to step S21103.

In step S21103, it is determined whether the value of the first timer counter area T1 provided in the various counter areas 64d of the RAM 64 is "0". In this case, the first timer counter area T1 is used as a parameter for measuring the closing duration of the big prize opening 36a. In step S21103, if it is determined that the value of the first timer counter area T1 is not "0" (S21103: NO), the main winning opening opening/closing process is directly ended. On the other hand, in step S21103, if it is determined that the value of the first timer counter area T1 is "0" (S21103: YES), the process proceeds to step S21104, where the variable winning drive unit is used to open the big winning opening 36a. 36c is in a driving state. After that, the process advances to step S21105.

In step S21105, setting processing for each round is executed. In the case of the pachinko machine 10 in this embodiment, all of the set winning modes are high-frequency winning modes, so "7500" (that is, 30 seconds) is set in the first timer counter area T1. Furthermore, in order to count the number of winnings of game balls into the big winning opening 36a, "10" is set in the winning counter area PC provided in the various counter areas 64d of the RAM 64. The count value set in the first timer counter area T1 is decremented by 1 each time the timer update process (step S20107) of the timer interrupt process is executed, that is, every 4 msec. After executing step S21105, the process advances to step S21106.

In step S21106, a release command is set. After that, the main prize opening opening/closing process ends. The opening command is a command that includes information for causing the audio emission control device 90 and the display control device 100, which are sub-side control devices, to recognize that the opening of the big prize opening 36a has started, and is a command that includes information for making the audio emission control device 90 and display control device 100, which are sub-side control devices, recognize that opening of the big prize opening 36a has started. In the output process (FIG. 81: Step S20114), it is transmitted to the audio emission control device 90. Based on the received opening command, the audio emission control device 90 specifies that the opening of the grand prize opening 36a for one round has started, and also controls the content of the performance on the various lamps 47 and the speaker 46 to open the grand prize opening 36a. The contents are updated to correspond to the fact that the opening of the site has started. Further, the audio emission control device 90 transmits the above-mentioned release command to the display control device 100 while maintaining its information format. Based on the received opening command, the display control device 100 specifies that the opening of the big winning hole 36a for one round has started, and also changes the presentation content on the symbol display device 41 to indicate that the opening of the big winning hole 36a has started. Update the content to correspond to what has started.

In step S21101, if it is determined that the big prize opening 36a is open (step S21101: YES), the process advances to step S21107, and it is determined whether the value of the first timer counter area T1 is "0" or not. do. In this case, the first timer counter area T1 is used as a parameter for measuring the opening duration of the big prize opening 36a. If it is determined in step S21107 that the value of the first timer counter area T1 is not "0" (S21107: NO), the process advances to step S21108.

In step S21108, it is determined based on the detection state of the detection sensor corresponding to the variable winning device 36 whether or not a game ball has entered the big winning hole 36a. In step S21108, if it is determined that no ball has entered (S21108: NO), the main prize winning opening opening/closing process is directly ended. On the other hand, if it is determined in step S21108 that a ball has landed (S21108: YES), the process advances to step S21109, and the value of the winning counter area PC is subtracted by 1. After that, the process advances to step S21110.

In step S21110, it is determined whether the value of the winning counter area PC is "0". In step S21110, if it is determined that the value of the winning counter area PC is not "0" (S21110: NO), the main winning opening opening/closing process is directly ended.

If it is determined in step S21107 that the value of the first timer counter area T1 is "0" (S21107: YES), or if it is determined that the value of the prize winning counter area PC is "0" in step S21110 (S21110: YES), the process proceeds to step S21111 and executes the big winning opening closing process. Specifically, in order to close the big winning a prize opening 36a, the variable winning a prize driving section 36c is brought into a non-driving state. After that, the process advances to step S21112.

In step S21112, the value of the first round counter area RC1 is subtracted by 1. Thereafter, the process advances to step S21113, and it is determined whether the value of the first round counter area RC1 is "0". In step S21113, if it is determined that the value of the first round counter area RC1 is "0" (S21113: YES), the main winning opening opening/closing process is directly ended. On the other hand, if it is determined in step S21113 that the value of the first round counter area RC1 is not "0" (S21113: NO), the process advances to step S21114, and "500" (that is, 2 seconds) is set in the first timer counter area T1. Set. In this case, the first timer counter area T1 is used as a parameter for measuring the closing duration of the big prize opening 36a. After executing step S21114, the process advances to step S21115 and a closing command is set. After that, the big winning opening opening/closing process ends.

This set closing command is a command that includes information for making the audio emission control device 90 and display control device 100, which are sub-side control devices, recognize that the opening of the big prize opening 36a has been completed, and is a command that includes information for making the audio emission control device 90 and the display control device 100, which are sub-side control devices, recognize that the opening of the big prize opening 36a has been completed. In the command output process (FIG. 81: step S20114), it is transmitted to the audio emission control device 90. Based on the received closing command, the audio emission control device 90 specifies that the opening of the grand prize opening 36a for one round has been completed, and also changes the presentation content on the various lamps 47 and the speaker 46 to the grand prize opening 36a. The content is updated to correspond to the completion of release. Further, the audio light emission control device 90 transmits the closing command to the display control device 100 while maintaining its information form. Based on the received closing command, the display control device 100 specifies that the opening of the grand prize opening 36a for one round has ended, and also indicates the performance content on the symbol display device 41 as follows: Update the content to reflect what happened.

[Transition processing at the end of the ending period]
Next, the transition process at the end of the ending period will be explained. The transition process at the end of the ending period is executed by the MPU 62 of the main controller 60 as a subroutine of the gaming state transition process (FIG. 90: S21025).

FIG. 92 is a flowchart showing the transition process at the end of the ending period. In step S21201, it is determined whether the flag corresponding to the probability-variable jackpot as the jackpot type flag is ON. That is, it is determined whether the 16R probability variation flag or the 8R probability variation flag in the RAM 64 is ON.

In step S21201, if it is determined that the 16R variable probability flag or the 8R variable probability flag in the RAM 64 is ON (S21201: YES), the process proceeds to step S21202, and flag deletion processing is executed. Specifically, if the 16R definite variable flag, 8R definite variable flag, 16 normal flag, 8R normal flag, and high frequency support mode flag are ON, they are turned OFF, and if they are not ON, the state is maintained. . After executing step S21202, the process advances to step S21203.

In step S21203, the high probability mode flag is turned on, and then the process proceeds to step S21204, where the high frequency support mode flag is turned on. As a result, after the opening/closing execution mode is ended, a transition is made to a gaming state in which the win/fail lottery mode is a high probability mode and the support mode is a high frequency support mode. Note that these high probability modes and high frequency support modes are maintained at least until the next jackpot win occurs. After that, the process advances to step S21205.

In step S21205, a high probability mode command, which is a command including information for making the sub-side control device recognize that the win/fail lottery mode is a high probability mode, is set as a command to be transmitted to the audio emission control device 90. do. Thereafter, the process advances to step S21210, which will be described later.

On the other hand, if it is determined in step S21201 that the 16R normal flag or 8R normal flag in the RAM 64 is ON (S21201: NO), the process advances to step S21206 and flag deletion processing is executed. Specifically, if the 16R definite variable flag, 8R definite variable flag, 16 normal flag, 8R normal flag, and high frequency support mode flag are ON, they are turned OFF, and if they are not ON, the state is maintained. . After that, the process advances to step S21207.

In step S21207, after turning on the high-frequency support mode flag, the process proceeds to step S21208, and 100 is set in the game number counter PNC provided in the various counter areas 64d of the RAM 64. The value set in the number of games counter PNC is a value indicating the number of games played when the high frequency support mode is executed with a limited number of games played. After that, the process advances to step S21209.

In step S21209, a low probability mode command, which is a command including information for making the sub-side control device recognize that the winning lottery mode is a low probability mode, is set as a command to be transmitted to the audio emission control device 90. do. After that, the process advances to step S21210.

In step S21210, a high-frequency support mode command, which is a command that includes information for making the sub-side control device recognize that the support mode is the high-frequency support mode, is sent to the audio emission control device 90 as a command to be transmitted. Set. Thereafter, the transition process at the end of the ending period ends.

[Processing for electric support]
Next, the processing for electric support will be explained. The electric support support process is executed by the MPU 62 of the main controller 60 as a timer interrupt process subroutine (FIG. 81: S20112).

FIG. 93 is a flowchart showing the electric role support process. In step S21301, it is determined whether it is supported. Specifically, it is determined whether the supported flag in the various flag storage area 64e of the RAM 64 is ON. The support flag is a flag that is turned ON when the electric accessory 34a of the second starting port 34 is brought into the open state, and turned OFF when the electric accessory 34a of the second starting port 34 is returned to the closed state. If it is determined in step S21301 that the supported flag is not ON (S21301: NO), the process advances to step S21302.

In step S21302, it is determined whether the support winning flag in the various flag storage area 64e of the RAM 64 is ON. The support winning flag is a flag that is turned ON when the open state is won in the electric accessory opening lottery to determine whether or not to open the electric accessory 34a, and is turned OFF when the supporting flag is ON. It is. In step S21302, if it is determined that the support winning flag is not ON (S21302: NO), the process advances to step S21303.

In step S21303, it is determined whether the value of the second timer counter area T2 provided in the various counter areas 64d of the RAM 64 is "0". In this case, the second timer counter area T2 is used as a parameter for measuring the fluctuation time of the general map unit 38. The count value set in the second timer counter area T2 is decremented by 1 each time the timer update process (step S20107) of the timer interrupt process is executed, that is, every 4 msec.

In step S21303, if it is determined that the value of the second timer counter area T2 is not "0" (S21303: NO), this electronic role support process is ended. On the other hand, if it is determined that the value of the second timer counter area T2 is "0" (S21303: YES), the process advances to step S21304.

In step S21304, it is determined whether or not it is the end timing of the fluctuating display of symbols in the ordinary symbol unit 38. In step S21304, if it is determined that it is the end timing of the variable display (S21304: YES), the process advances to step S21305, and after setting the out-of-line display, the main electric role support process is ended. By setting the missing display, the fluctuating display of the symbols in the regular pattern unit 38 is ended with the missing display being stopped and displayed. On the other hand, if it is determined in step S21304 that it is not the end timing of the variable display (S21304: NO), the process advances to step S21306.

In step S21306, it is determined whether the value of the number of reserved accessories SN is greater than "0". In step S21306, when it is determined that the value of the number of reserved accessories SN is "0" (S21306: NO), this electronic role support processing is directly ended. On the other hand, in step S21306, if it is determined that the value of the number of reserved accessories SN is greater than "0" (S21306: YES), the process advances to step S21307.

In step S21307, it is determined whether or not the opening/closing execution mode is in progress, and then the process proceeds to step S21308, in which it is determined whether or not the high-frequency support mode is in progress. If it is not the opening/closing execution mode in step S21307 (S21307: NO), and if it is the high-frequency support mode in step S21308 (S21308: YES), the process advances to step S21309, and an electric accessory opening lottery is performed. Specifically, when the value stored in the electric accessory holding area 64c is shifted and the value of the electric accessory opening counter C4 shifted to the execution area is 0 to 461, the electric accessory opening lottery is entered. Will be elected. Furthermore, "375" (ie, 1.5 sec) is set in the second timer counter area T2 at the same time as the electric accessory opening lottery. The second timer counter area T2 is decremented by 1 each time the timer interrupt process is activated. After that, the process advances to step S21310.

In step S21310, it is determined whether the result of the electric accessory opening lottery in step S21309 is a support win. In step S21310, if it is determined that the result of the electric accessory opening lottery is a support win (S21310: YES), the process proceeds to step S21311, where the support win flag is turned ON and the support win flag is set in the various counter areas 64d of the RAM 64. "3" is set in the second round counter area RC2. The second round counter area RC2 is a counter area for counting the number of times the electric accessory 34a is released. After that, the process advances to step S21312. On the other hand, in step S21310, if it is determined that the result of the electric accessory opening lottery is not a support win (S21310: NO), the process proceeds to step S21312 without executing the process of step S21311.

In step S21312, it is determined whether the win/fail lottery mode is the low probability mode. In step S21312, if it is determined that the win/fail lottery mode is the low probability mode (S21312: YES), the process advances to step S21313. On the other hand, in step S21312, if it is determined that the win/fail lottery mode is not the low probability mode (S21312: NO), the main electronic winning support process is ended.

In step S21313, it is determined whether the number of games counter area is "0". The number of games counter is decremented by 1 each time one game is completed in the low probability mode and the high frequency support mode. In step S21313, if it is determined that the number of games counter area is not "0" (S21313: NO), the present electronic role support process is directly ended. On the other hand, if it is determined in step S21313 that the number of games counter area is "0" (S21313: YES), the process advances to step S21314 and the high frequency support mode flag is turned OFF. After that, the process advances to step S21315.

In step S21315, the low-frequency support mode command, which is a command that includes information for making the sub-side control device recognize that the support mode is the low-frequency support mode, is sent as a command to be transmitted to the audio emission control device 90. Set. After that, the electric support support process ends.

The low frequency support mode command set in step S21315 is transmitted to the audio emission control device 90 in the above-described command output process (FIG. 81: step S20114). The audio emission control device 90 specifies that the support mode is the low-frequency support mode based on receiving the low-frequency support mode command, and executes processing corresponding to the low-frequency support mode.

If it is determined in step S21307 that it is the opening/closing execution mode (S21307: YES), or if it is determined that it is not the high-frequency support mode in step S21318 (S21308: NO), the process advances to step S21316, and the electric accessory opening lottery I do. Specifically, when the value stored in the electric accessory holding area 64c is shifted and the value of the electric accessory opening counter C4 shifted to the execution area is 0 or 1, the electric accessory opening lottery is entered. Will be elected. Furthermore, "7375" (ie, 29.5 seconds) is set in the second timer counter area T2 at the same time as the electric accessory opening lottery. After that, the process advances to step S21317.

In step S21317, it is determined whether the result of the electric accessory opening lottery in step S21316 is a support win. In step S21317, if it is determined that the support has not been won (S21317: NO), the main electric role support process is ended. On the other hand, if it is determined in step S21317 that support has been won (S21317: YES), the process advances to step S21318, where the support win flag is turned ON, and after setting "1" in the second round counter area RC2, , ends this electronic support process.

In step S21302, if it is determined that the support winning flag is ON (S21302: YES), the process advances to step S21319, and it is determined whether the value of the second timer counter area T2 is "0". In this case, the second timer counter area T2 is used as a parameter for measuring the fluctuation time of the general map unit 38. In step S21319, if it is determined that the value of the second timer counter area T2 is not "0" (S21319: NO), since the symbol is being displayed in a fluctuating manner in the general drawing unit 38, the main electric role support processing is performed as it is. end. On the other hand, if it is determined in step S21319 that the value of the second timer counter area T2 is "0" (S21319: YES), the process advances to step S21320.

In step S21320, a winning display is set. As a result, the fluctuating display of the symbols in the normal pattern unit 38 is ended with the win display being stopped and displayed. Thereafter, the process advances to step S21321, where the supporting flag is turned on and the support winning flag is turned off. Thereafter, the main power support process is ended.

In step S21301, if it is determined that the supporting flag is ON (S21301: YES), the process advances to step S21322, and an electric utility opening/closing control process for controlling opening/closing of the electric accessory 34a is executed. Thereafter, the main power support process is ended.

[Electric opening/closing control processing]
Next, the power opening/closing control process will be explained. The power opening/closing control process is executed by the MPU 62 of the main controller 60 as a subroutine of the power support process (FIG. 93: S21322).

FIG. 94 is a flowchart showing the power opening/closing control process. In step S21401, it is determined whether the electric accessory 34a is open. Whether or not the electric accessory 34a is open is determined by whether or not the electric accessory drive section 34b is in a driving state. If it is determined that the electric accessory 34a is open (S21401: YES), the process advances to step S21402.

In step S21402, it is determined whether the value of the second timer counter area T2 is "0". In this case, the second timer counter area T2 is used as a parameter for measuring the open duration time of the electric accessory 34a. In step S21402, if it is determined that the value of the second timer counter area T2 is not "0" (S21402: NO), the main power opening/closing control process is ended. That is, if the opening duration time of the electric accessory 34a has not ended, the electric accessory opening/closing control process ends.

In step S21402, if it is determined that the value of the second timer counter area T2 is "0" (S21402: YES), the process proceeds to step S21403, where a closing process is performed to control the electric accessory 34a to a closed state, "250" (ie, 0.5 sec) is set in the second timer counter area T2. That is, when the second timer counter area T2 as a means for measuring the open duration time of the electric accessory 34a is "0", the electric accessory 34a is closed and the second timer counter area T2 is turned on. It is used as a parameter for measuring the closing duration time of the accessory 34a, and "250" is set in the second timer counter area T2. After executing step S21403, the process advances to step S21404.

In step S21404, after subtracting 1 from the value of the second round counter area RC2, the process proceeds to step S21405, and it is determined whether the value of the second round counter area RC2 is "0". In step S21405, if it is determined that the value of the second round counter area RC2 is not "0" (S21405: NO), the present electric role opening/closing control process is directly ended. On the other hand, if it is determined in step S21405 that the value of the second round counter area RC2 is "0" (S21405: YES), the process advances to step S21406 and the supporting flag is turned OFF. After that, the main power switch opening/closing control process ends.

In step S21401, if it is determined that the electric accessory 34a is not open (S21401: NO), the process advances to step S21407, and it is determined whether the second timer counter area T2 is "0". In this case, the second timer counter area T2 is used as a parameter for measuring the closing duration of the electric accessory 34a. In step S21407, if it is determined that the second timer counter area T2 is not "0" (S21407: NO), the main power opening/closing control process is ended. On the other hand, if it is determined in step S1507 that the second timer counter area T2 is "0" (S21407: YES), the process advances to step S21408, and an opening process is executed to control the electric accessory 34a to an open state. . After that, the process advances to step S21409.

In step S21409, it is determined whether or not the opening/closing execution mode is in progress. If it is determined that the opening/closing execution mode is not in progress (S21409: NO), the process proceeds to step S21410, and it is determined whether or not the high frequency support mode is in effect. do.

In step S21410, if it is determined that the high-frequency support mode is in effect (S21410: YES), the process advances to step S21411, and "400" (ie, 1.6 sec) is set in the second timer counter area T2. After that, the main power switch opening/closing control process ends.

On the other hand, if it is determined in step S21409 that the opening/closing execution mode is selected (S21409: YES), or if it is determined that the high frequency support mode is not selected in step S21410 (S21410: NO), the process advances to step S21412, and the second Set "50" (ie, 0.2 sec) in the timer counter area T2. After that, the main power switch opening/closing control process ends.

Next, an example of processing executed by the sound and light side MPU 92 of the sound and light emission control device 90 of this embodiment will be described.

[Timer interrupt processing]
First, the timer interrupt process executed by the audio-optical side MPU 92 will be described.

FIG. 95 is a flowchart showing timer interrupt processing executed in the audio-optical side MPU 92. The timer interrupt process is repeatedly executed at a relatively short cycle (for example, 2 msec). The processing of each step executed in the timer interrupt processing will be described below.

In step S23101, command storage processing is executed. The command storage process is a process for storing the received command in the sound/light side RAM 94 when a command is received from the main side MPU 62 . The sound/light side RAM 94 is provided with a ring buffer to enable storage and reading of commands received from the main side MPU 62, and the commands received from the main side MPU 62 are sequentially stored in the ring buffer and , are sequentially read out according to the stored order. After executing step S23101, the process advances to step S23102.

In step S23102, a process for holding effect is executed. In the hold effect processing, processing related to the effect executed when a hold command or an abnormal hold command is received is performed. The details of the suspension effect processing will be described later. After executing step S23102, the process advances to step S23103.

In step S23103, a game rendition process is executed. In the game round performance processing, processing related to the performance to be executed during the game round from the start of symbol variation until it stops is performed. After executing step S23103, the process advances to step S23104.

In step S23104, opening/closing execution mode production processing is executed. In the opening/closing execution mode performance processing, processing related to the performance during the opening period, the performance during the opening/closing processing period, and the performance during the ending period is performed. After executing step S23104, the process advances to step S23105.

In step S23105, customer waiting processing is executed. In the customer waiting process, a process for displaying a demonstration video on the symbol display device 41 is executed when a game round has not been executed for a predetermined period of time. After executing step S23105, the process advances to step S23106.

In step S23106, a light emission control process for controlling light emission of various lamps 47 is executed. In the light emission control process, light emission control of the various lamps 47 is performed based on the light emission data read in each of the above-mentioned production processes. After executing step S23106, the process advances to step S23107.

In step S23107, audio output control processing for controlling the audio output of the speaker 46 is executed. In the audio output control process, the audio output of the speaker 46 is controlled based on the audio data read out in the above BGM process and each production process. After executing step S23107, this timer interrupt processing ends.

[Holding performance processing]
Next, the suspension effect processing will be explained. The hold effect processing is executed by the MPU 92 of the sound emission control device 90 as a subroutine of the timer interrupt processing (FIG. 95: S23102).

FIG. 96 is a flowchart illustrating the hold effect processing. In step S23201, it is determined whether a hold command has been received. If it is determined in step S23201 that no hold command has been received (step S23201: NO), the process advances to step S23203, which will be described later. On the other hand, if it is determined in step S23201 that a hold command has been received (step S23201: YES), the process advances to step S23202.

In step S23202, a hold effect pattern setting process is executed. In the hold performance pattern setting process, first, a random number for determining a hold performance pattern is obtained from the counter of the sound and light side RAM 94. Then, referring to the hold effect pattern table stored in the sound and light side ROM 93, the judgment result of the destination judgment process included in the hold command received this time (presence or absence of jackpot, type of jackpot, presence or absence of reach occurrence, etc.), A pending performance pattern corresponding to the acquired random number for determining a pending performance pattern is selected. Then, the selected hold performance pattern is set as the hold performance pattern to be executed. More specifically, the suspended image included in the suspended performance pattern set as the execution target is displayed, and the suspended change suggestion performance included in the suspended performance pattern set as the execution target, Settings are made so that a pending change effect, etc. is executed. After executing step S23202, the process advances to step S23203.

In step S23203, it is determined whether an abnormal hold command has been received. In step S23203, if it is determined that the abnormal hold command has not been received (S23203: NO), this hold effect processing is ended. On the other hand, if it is determined in step S23203 that an abnormal hold command has been received (S23203: YES), the process advances to step S23204.

In step S23204, the first type pending image is set to be displayed in the first pending display area Ds1 or the second pending display area Ds2. After that, the process advances to step S23204.

In step S23205, it is determined whether or not there are pending change suggestion effects and pending change effects that have already been set to be executed but have not yet been executed. In step S23205, if it is determined that there are pending change suggestion effects and pending change effects that have already been set to be executed but have not yet been executed (step S23205: YES), the process advances to step S23206; The settings for execution of the pending change suggestion performance and the pending change performance are canceled. As a result, the pending change suggestion performance and the pending change performance that were set to be executed are no longer executed. Thereafter, the process advances to step S23207, which will be described later. On the other hand, if it is determined in step S23205 that there is no pending change suggestion effect or pending change effect that has already been set to be executed but has not yet been executed (step S23205: NO), step S23206 The process advances to step S23207 without executing.

In step S23207, it is determined whether a pending image with an expectation level of the second type or higher is being displayed. In step S23207, if it is determined that a pending image with an expectation level of type 2 or higher is being displayed (step S23207: YES), the process advances to step S23208, and the above-mentioned pending change suggestion production and pending change production (pending demotion) are displayed. It is determined whether or not it is possible to execute the performance. Specifically, it is determined whether or not the above-described hold change suggestion performance and hold change performance (hold demotion performance) are executable in the remaining fluctuation time of the currently fluctuating symbol. In step S23208, if it is determined that the above-mentioned suspended change suggestion performance and suspended change performance (suspended demotion performance) are executable (step S23208: YES), the process advances to step S23209, and the above-mentioned suspended change suggestion performance and suspended Set to execute a change effect (suspended demotion effect). As a result, the pending change suggestion performance is executed, and then the pending change performance (suspended change performance) is executed, and the suspended image with the second type or higher expectation level changes to the first type suspended image.

On the other hand, if it is determined in step S23207 that a pending image with an expectation level of the second type or higher is not displayed (step S23207: NO), and in step S23208, the above-mentioned pending change suggestion performance and pending change performance (pending demotion performance) ) is not executable (step S23208: NO), the present suspension effect processing is ended without executing step S23209 described above.

An example of the processing executed by the main side MPU 62 and the audio/light side MPU 92 of this aspect has been described above.

Note that in this embodiment, when the audio emission control device 90 receives an abnormal hold command, the normal first type hold image is displayed. In some cases, a configuration may be adopted in which a suspended image (for example, a suspended image with a black cross mark) that is not displayed may be displayed. According to this configuration, it is possible to make the player recognize at an early stage that some kind of abnormality has occurred in the game. In addition, in this configuration, when the audio emission control device 90 receives an abnormal hold command, it changes the already displayed held image to a held image that would not be displayed (for example, a black It is also possible to change the image to a reserved image with an x mark, etc.).

Further, in this aspect, when the audio emission control device 90 receives the abnormal hold command, the hold change suggestion effect that has already been set to be executed before receiving the abnormal hold command but has not been executed yet; Determine whether or not a pending change performance exists, and if it is determined that there is a pending change suggestion performance or pending change performance that has not been executed yet, cancel the execution schedule of these pending change suggestion performance or pending change performance. However, the pending change performance whose execution schedule is to be canceled may be limited to the pending promotion performance. Even with such a configuration, the player's discomfort can be alleviated since the suspended promotion effect, which would cause discomfort to the player if executed before the game is stopped, is not executed.

In addition, in this embodiment, the symbol display device 41 is configured to display a pending image, but instead of this configuration, a lamp indicating that special information is pending is provided, and the light emitting mode of the lamp (for example, lighting The degree of expectation for special information corresponding to the lamp may be indicated by the color of the hour, blinking interval, etc.). With this configuration as well, it is possible to execute the above-mentioned hold change performance by changing the light emission mode of the lamp.

In addition, in this aspect, if it is determined in the setting information determination at the start of fluctuation that the setting information is not a numerical value within a predetermined range, the game stop flag is turned ON after avoiding execution of the winning lottery (winning determination process). However, instead of this configuration, the game may be stopped by turning on the game stop flag after executing the winning lottery (win determination process). Even with such a configuration, similarly to the present aspect, it is possible to prevent the game from proceeding with the setting information having an abnormal value that is not within a predetermined range, and the disadvantage to the player from increasing. be able to. However, as in this embodiment, it is better to avoid executing the winning lottery (win determination process) when it is determined that the setting information is not a numerical value within a predetermined range. It is possible to prevent the device from becoming in an uncontrolled state (freeze state or runaway state).

Furthermore, in this aspect, the most anticipated pending image (5th type pending image) that is certain to win the jackpot is not displayed in the first pending display area Ds1 or the second pending display area Ds2. However, if the pachinko machine 10 has a possibility of winning even if the most anticipated pending image is displayed, in other words, even if the most anticipated pending image is displayed, the pachinko machine 10 may not hit the jackpot. In the case of a pachinko machine 10 in which it is not certain that the player will win, the most anticipated pending image may be displayed in the first pending display area Ds1 or the second pending display area Ds2. According to such a configuration, for a player who initially had strong expectations for the held image with the highest expectation level, the held image with the highest expectation level becomes the held image with the lowest expectation level. Even if it changes, it is possible to change the perception that the special information corresponding to the pending image was not highly anticipated.

<Aspect 104>
In the variation start setting information determination executed in the above aspect 103, the setting information stored in the setting information storage area of the main side RAM 64 is changed to a value within a predetermined range (for example, from 1 to 6) due to the influence of noise etc. It is possible to detect that the setting information has been changed from a normal value within the specified range to an abnormal value (such as 7 or B) outside the specified range. If the setting information has been rewritten, for example, if the setting information has been rewritten from "1" to "6", it will not be possible to detect the rewriting of the setting information, and the rewritten setting information will not be updated. There is a problem that a winning lottery (win determination process) is executed based on the winning lottery.

Therefore, in this aspect, the configuration described below is adopted in order to solve this problem.

First, the setting information determination at the time of ball entry performed in this embodiment will be described. The setting information determination upon ball entry performed in this aspect is the same as the determination of setting information upon ball entry performed in aspect 103 described above.

That is, the main MPU 62 of the main control device 60 of this embodiment, as in the above-mentioned embodiment 103, generates special information (jackpot random number counter) when a game ball enters the first starting port 33 or the second starting port 34. C1 value, etc.), the setting information stored in the setting information storage area of the main side RAM 64 is determined to be within a predetermined range before executing a pre-determination process (so-called pre-reading) based on the obtained special information. It is determined whether the value is a numerical value (in this embodiment, a numerical value from 1 to 6).

When it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range, the destination judgment process is executed based on the acquired special information, and the destination judgment process is performed based on the acquired special information. A pending command including the processing result is set as a command to be transmitted to the audio emission control device 90.

On the other hand, if it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is not a numerical value within the predetermined range, that is, the setting information has an abnormal value other than 1 to 6 due to the influence of noise etc. 7, B, etc.), the execution of the first determination process is avoided and the abnormal hold command is set as the command to be transmitted to the audio emission control device 90. The processing (effect) executed by the audio emission control device 90 that has received the abnormal hold command is the same as the above-mentioned aspect 103, and therefore the description thereof will be omitted.

Next, a description will be given of the variation start setting information determination executed in this embodiment.

The main side MPU 62 of the main control device 60 of this embodiment acquires special information (such as the value of the jackpot random number counter C1) when a game ball enters the first starting port 33 or the second starting port 34 and holds it. When storing in the information storage area 64b, the setting information stored in the setting information storage area of the main side RAM 64 is read out, and the read setting information is stored in the pending information storage area 64b together with the special information. Hereinafter, the setting value stored together with the special information triggered by the entry of the game ball into the first starting port 33 or the second starting port 34 will also be referred to as "setting information at the time of ball entry."

Then, when executing a winning lottery based on the acquired special information (value of the jackpot random number counter C1, etc.), the settings stored in the setting information storage area of the main side RAM 64 are It is determined whether the information matches the setting information when entering the ball, which is stored in the execution area AE (FIG. 6) together with the special information that is the target of the winning lottery.

When it is determined that the setting information and the setting information at the time of ball entry match, a winning lottery is executed based on the special information, as in the normal pachinko machine 10.

On the other hand, if it is determined that the setting information and the setting information at the time of ball entry do not match, the audio emission control device issues a game stop command indicating to stop the progress of the game after avoiding the execution of the winning lottery. The information is transmitted to a sub-side control device such as 90, and a process for stopping the progress of the game is executed. As a result, the progress of the game stops, and the pachinko machine 10 becomes in a state where the player cannot continue playing the game. In addition, the audio emission control device 90 that received the game stop command sends a message to notify that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 should be restarted in the setting change mode. Execute processing.

As explained above, according to this aspect, it is determined whether or not the setting information and the setting information at the time of ball entry match in determining the setting information at the start of fluctuation, so that the setting information does not change within a predetermined range due to the influence of noise etc. Even if one of the normal values has been rewritten to another normal value, the rewriting of the setting information can be detected. Specifically, it is set between the timing when the game ball enters the first starting port 33 or the second starting port 34 and the timing when the special information acquired based on the entering ball becomes the target of the winning lottery. If the information has been rewritten from a normal value within a predetermined range to another normal value, the setting information and the setting information at the time of ball entry will no longer match when determining the setting information at the start of fluctuation, so the setting information Rewriting can be detected.

In addition, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, execution of the winning lottery is avoided, so that the setting information is changed to another normal value that is not intended by the administrator. It is possible to prevent a winning lottery from being executed in a state where the winning lottery has been rewritten.

Further, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, the progress of the game is stopped, so the setting information changes to another normal value that is not intended by the administrator. It is possible to prevent the game from continuing in a rewritten state.

Further, according to this aspect, if it is determined that the setting information is not a numerical value within a predetermined range in the setting information determination at the time of ball entry, execution of the previous determination process is avoided, so that the setting information is within the predetermined range. It is possible to prevent the first determination process from being executed with an abnormal value that is not the numerical value of , causing a problem in the result of the first determination process.

Further, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, the progress of the game is stopped, while in the setting information determination at the time of ball entry, the setting information is a value within a predetermined range. If it is determined that this is not the case, the progress of the game is not stopped. The reason and effect of adopting such a configuration are the same as the reason and effect explained in the above-mentioned aspect 103, so the explanation will be omitted.

Next, an example of processing executed by the main MPU 62 in this embodiment will be described. Below, processing different from the processing described in the above aspect 103 will be explained, and description of the same processing as in the above aspect 103 will be omitted. As explained below, in this aspect, the contents of the ball entry process for the starting port and the fluctuation start process are different from the above aspect 103.

[Ball entry processing for starting port]
The ball entry process for the starting port executed by the main side MPU 62 in aspect 104 will be described.

FIG. 97 is a flowchart showing the ball entry process for the starting port executed by the main side MPU 62 of aspect 104. The processing from step S20201 to step S20211 is the same as the ball entry processing for the starting port in mode 103 shown in FIG. 82, and therefore the description thereof will be omitted.

In step S20212a, the special information such as the value of the jackpot random number counter C1 and the setting information stored in the setting information storage area are stored in the first storage area among the free storage areas of the corresponding holding area, that is, the value 1 in step S20210. It is stored in the storage area corresponding to the added pending number. Specifically, when the first starting pending number RaN is set as the processing target, special information such as the value of the jackpot random number counter C1 and setting information stored in the setting information storage area are It is stored in the first storage area among the free storage areas of the reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN to which 1 was added in step S20210. In addition, when the second starting pending number RbN is set as a processing target, special information such as the value of the jackpot random number counter C1 and setting information stored in the setting information storage area are transferred to the second holding area RbN. is stored in the first storage area among the empty storage areas, that is, the storage area corresponding to the second start pending number RbN to which 1 was added in step S20210. After executing step S20212a, the process advances to step S20213. The processing from step S20213 onwards is the same as the ball entry processing for the starting port in aspect 103 shown in FIG. 82, and therefore the description thereof will be omitted.

[Variation start processing]
Next, the variation start process executed by the main MPU 62 in aspect 104 will be described.

FIG. 98 is a flowchart showing the variation start process executed by the main MPU 62 of aspect 104. In step S20701a, the setting information stored in the setting information storage area of the main side RAM 64 and the entry setting information shifted to the execution area AE together with special information such as the value of the jackpot random number counter C1 in the pending information shift process. Determine if they match. If it is determined that the setting information and the ball entry setting information match (step S20701a: YES), the process advances to step S20702. The processing from step S20702 to step S20708 is the same as the fluctuation start processing in mode 103 shown in FIG. 87, and therefore the description thereof will be omitted.

On the other hand, in step S20701a, the setting information stored in the setting information storage area of the main side RAM 64 and the ball entry setting shifted to the execution area AE together with special information such as the value of the jackpot random number counter C1 in the pending information shift process. If it is determined that the information does not match (step S20701a: NO), the process advances to step S20709, and a game stop command is transmitted to the payout control device 70 and the audio emission control device 90, which are the sub-side control devices. After executing step S20709, the process advances to step S20710 and the game stop flag is turned ON. As a result, when the next timer interrupt process (FIG. 81) is executed, the execution of the process group for advancing the game (the process group from step S20104 to step S20116 in FIG. 81) is avoided, and the game progresses. will be stopped. After executing step S20710, this fluctuation start process ends.

<Aspect 105>
In the setting information determination at the start of fluctuation performed in the above aspect 104, depending on the timing at which the setting information is rewritten from a normal value within a predetermined range to another normal value, it is possible to detect that the setting information has been rewritten. may not be possible. For example, if the setting information is rewritten during a period when the symbols are not changing, there is a problem that the rewriting of the setting information cannot be detected.

Therefore, in this aspect, the configuration described below is adopted in order to solve the above problem.

First, the setting information determination at the time of ball entry performed in this embodiment will be described. The setting information determination upon ball entry performed in this aspect is the same as the determination of setting information upon ball entry performed in aspect 103 described above.

That is, the main MPU 62 of the main control device 60 of this embodiment, as in the above-mentioned embodiment 103, generates special information (jackpot random number counter) when a game ball enters the first starting port 33 or the second starting port 34. C1 value, etc.), the setting information stored in the setting information storage area of the main side RAM 64 is determined to be within a predetermined range before executing a pre-determination process (so-called pre-reading) based on the obtained special information. It is determined whether the value is a numerical value (in this embodiment, a numerical value from 1 to 6).

When it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is a numerical value within a predetermined range, the destination judgment process is executed based on the acquired special information, and the destination judgment process is performed based on the acquired special information. A pending command including the processing result is set as a command to be transmitted to the audio emission control device 90.

On the other hand, if it is determined that the setting information stored in the setting information storage area of the main side RAM 64 is not a numerical value within the predetermined range, that is, the setting information has an abnormal value other than 1 to 6 due to the influence of noise etc. 7, B, etc.), the execution of the first determination process is avoided and the abnormal hold command is set as the command to be transmitted to the audio emission control device 90. The processing (effect) executed by the audio emission control device 90 that has received the abnormal hold command is the same as the above-mentioned aspect 103, and therefore the description thereof will be omitted.

Next, a description will be given of the variation start setting information determination executed in this embodiment.

The main side MPU 62 of the main control device 60 of this embodiment acquires special information (such as the value of the jackpot random number counter C1) when a game ball enters the first starting port 33 or the second starting port 34 and holds it. When storing in the information storage area 64b, the setting information stored in the setting information storage area of the main side RAM 64 is read out, and the read setting information is stored in the pending information storage area 64b together with the special information. Hereinafter, the setting value stored together with the special information triggered by the entry of the game ball into the first starting port 33 or the second starting port 34 will also be referred to as "setting information at the time of ball entry."

When executing a winning lottery based on the acquired special information, prior to executing the winning lottery, the input information stored in the execution area AE (Fig. 6) together with the special information targeted for the winning lottery is It is determined whether or not the ball time setting information matches the previous winning determination processing setting information stored in the main side RAM 64 as the setting information at the time when the previous winning lottery (winning determination processing) was executed.

If it is determined that the setting information at the time of ball entry and the setting information at the time of the previous winning determination process do not match, a game stop command is issued that indicates to stop the progress of the game after avoiding the execution of the winning lottery. is transmitted to a sub-side control device such as the sound emission control device 90, and a process for stopping the progress of the game is executed. As a result, the progress of the game stops, and the pachinko machine 10 becomes in a state where the player cannot continue playing the game. In addition, the audio emission control device 90 that received the game stop command sends a message to notify that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 should be restarted in the setting change mode. Execute processing.

On the other hand, if it is determined that the setting information at the time of entering the ball and the setting information at the time of the previous hit determination process match, a winning lottery (hit determination process) is executed, and then the setting information is read from the setting information storage area. , writes the read setting information into the setting information storage area for the previous hit determination process. The setting information written in the setting information storage area at the time of the previous winning determination process (setting information at the time of the previous winning determination process) is used for the determination performed prior to the next winning lottery (setting information and the setting information at the time of the previous winning determination process). (determination of whether or not they match).

As explained above, according to this aspect, in determining the setting information at the start of fluctuation, it is determined whether or not the setting information at the time of ball entry and the setting information at the time of the previous hit determination process match, so the setting information is determined depending on the influence of noise etc. Even if the information has been rewritten from a normal numerical value within a predetermined range to another normal numerical value, the rewriting of the setting information can be detected. Specifically, according to this aspect, the timing of the execution of the previous winning lottery (timing of the start of variation of the symbols) and the timing of the game ball entering the first starting hole 33 or the second starting hole 34 are determined. If the setting information has been rewritten from a normal value within a predetermined range to another normal value during the period, the setting information at the time of entering the ball and the setting information at the time of the previous hit determination process will be the same in determining the setting information at the start of fluctuation. Therefore, rewriting of the setting information can be detected. In other words, according to this aspect, even if the setting information is rewritten from a normal value within a predetermined range to another normal value during a period when the symbol is not changing, the setting information will not be rewritten. can be detected.

In addition, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, execution of the winning lottery is avoided, so that the setting information is changed to another normal value that is not intended by the administrator. It is possible to prevent a winning lottery from being executed in a state where the winning lottery has been rewritten.

Further, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, the progress of the game is stopped, so the setting information changes to another normal value that is not intended by the administrator. It is possible to prevent the game from continuing in a rewritten state.

Further, according to this aspect, if it is determined that the setting information is not a numerical value within a predetermined range in the setting information determination at the time of ball entry, execution of the previous determination process is avoided, so that the setting information is within the predetermined range. It is possible to prevent the first determination process from being executed with an abnormal value that is not the numerical value of , causing a problem in the result of the first determination process.

Further, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, the progress of the game is stopped, and if the value is not within a predetermined range in the determination of the setting information at the time of ball entry, the game progress is stopped. If it is determined, the progress of the game is not stopped. The reason and effect of adopting such a configuration are the same as the reason and effect explained in the above-mentioned aspect 103, so the explanation will be omitted.

Next, an example of processing executed by the main MPU 62 in this embodiment will be described. Below, processing different from the processing described in the above aspect 103 will be explained, and description of the same processing as in the above aspect 103 will be omitted. As explained below, in this aspect, the contents of the ball entry process for the starting port and the fluctuation start process are different from the above aspect 103.

[Ball entry processing for starting port]
The ball entry process for the starting port executed by the main side MPU 62 in aspect 105 will be described.

FIG. 99 is a flowchart showing the ball entry process for the starting port executed by the main side MPU 62 of aspect 105. The processing from step S20201 to step S20211 is the same as the ball entry processing for the starting port in mode 103 shown in FIG. 82, and therefore the description thereof will be omitted.

In step S20212b, the special information such as the value of the jackpot random number counter C1 and the setting information stored in the setting information storage area are stored in the first storage area among the free storage areas of the corresponding holding area, that is, the value 1 in step S20210. It is stored in the storage area corresponding to the added pending number. Specifically, when the first starting pending number RaN is set as the processing target, special information such as the value of the jackpot random number counter C1 and setting information stored in the setting information storage area are It is stored in the first storage area among the free storage areas of the reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN to which 1 was added in step S20210. In addition, when the second starting pending number RbN is set as a processing target, special information such as the value of the jackpot random number counter C1 and setting information stored in the setting information storage area are transferred to the second holding area RbN. is stored in the first storage area among the empty storage areas, that is, the storage area corresponding to the second start pending number RbN to which 1 was added in step S20210. After executing step S20212b, the process advances to step S20213. The processing from step S20213 onwards is the same as the ball entry processing for the starting port in aspect 103 shown in FIG. 82, and therefore the description thereof will be omitted.

[Variation start processing]
Next, the variation start process executed by the main MPU 62 in aspect 105 will be described.

FIG. 100 is a flowchart showing the variation start process executed by the main MPU 62 of aspect 105. In step S20701b, the setting information at the time of ball entry that was shifted to the execution area AE along with special information such as the value of the jackpot random number counter C1 in the pending information shift process and the setting information storage area at the time of the previous hit determination process in the main side RAM 64 are stored. It is determined whether or not the setting information at the time of the previous hit determination process matches. If it is determined that the setting information at the time of ball entry and the setting information at the previous hit determination process match (step S20701b: YES), the process advances to step S20702 and the hit determination process is executed. Thereafter, the process advances to step S20702-2b, where the setting information is read from the setting information storage area of the main side RAM 64, and the read setting information is written into the setting information storage area during the previous hit determination process. After that, the process advances to step S20703. The processing from step S20703 to step S20708 is the same as the fluctuation start processing in mode 103 shown in FIG. 87, and therefore the description thereof will be omitted.

On the other hand, in step S20701b, if it is determined that the setting information at the time of ball entry and the setting information at the previous winning determination process do not match (step S20701b: NO), the process advances to step S20709, and the game stop command is sent to the sub-side control. It is transmitted to the payout control device 70 and the sound emission control device 90, which are devices. After executing step S20709, the process advances to step S20710 and the game stop flag is turned ON. As a result, when the next timer interrupt process (FIG. 81) is executed, the execution of the process group for advancing the game (the process group from step S20104 to step S20116 in FIG. 81) is avoided, and the game progresses. will be stopped. After executing step S20710, this fluctuation start process ends.

<Aspect 106>
In the setting information determination at the start of fluctuation performed in the above aspect 105, depending on the timing at which the setting information is rewritten from a normal value within a predetermined range to another normal value, it is possible to detect that the setting information has been rewritten. may not be possible. For example, in a pachinko machine 10 where the setting information is set to "1", a winning lottery is executed, the setting information at the time of the previous winning determination process becomes "1", and the symbol changes based on the execution of the winning lottery. When the game ball enters the first starting port 33 or the second starting port 34, one piece of special information is held, and the setting information at the time of ball entry becomes "1". After that, the setting information is rewritten from "1" to "6" due to the influence of noise, etc., and when the fluctuation ends after that and the winning lottery is executed for the special information that was on hold, the setting information at the time of entry will be changed. Since both the information and the setting information at the time of the previous hit determination process are "1," it is determined that the setting information at the time of ball entry and the setting information at the time of the previous hit determination process match. There is a problem that the winning lottery is executed when the setting information is "6".

In addition, in the setting information determination at the time of ball entry performed in Aspects 103 to 105 above, the setting information changes from a value within a predetermined range to an abnormal value outside the predetermined range (for example, 7 or B) due to the influence of noise or the like. It is possible to detect that the setting information has been rewritten, but if the setting information has been rewritten from a normal value within a predetermined range to another normal value, the rewriting of the setting information cannot be detected. If this is not possible, there is a problem that the destination determination process is executed based on the rewritten setting information.

Therefore, in this aspect, the configuration described below is adopted in order to solve the above problem.

First, the setting information determination at the time of ball entry performed in this embodiment will be described.

When the main side MPU 62 of the main control device 60 of this aspect acquires special information (such as the value of the jackpot random number counter C1) triggered by the entry of a game ball into the first starting port 33 or the second starting port 34, the main side MPU 62 of the main control device 60 Before executing the advance determination process (so-called pre-reading) based on the acquired special information, the setting information stored in the setting information storage area of the main side RAM 64 and the previous winning lottery (win determination process) are executed. It is determined whether or not the setting information at the time of the previous winning determination process, which is stored in the main side RAM 64, matches the setting information at the time.

Then, when it is determined that the setting information stored in the setting information storage area of the main side RAM 64 and the setting information at the time of the previous hit judgment process match, the previous judgment process ( A pending command including the result of the destination determination process is set as a command to be transmitted to the sub-side control device.

On the other hand, if it is determined that the setting information stored in the setting information storage area of the main side RAM 64 and the setting information at the previous hit judgment process do not match, the execution of the previous judgment process is avoided and the abnormality is suspended. The command is sent to a sub-side control device such as the audio emission control device 90. The abnormal hold command indicates that it has been determined that the setting information has been rewritten to another value at the timing when the game ball enters the first starting port 33 or the second starting port 34, and that the previous determination process has not been executed. This command indicates that it has been avoided. The processing (effect) executed by the audio emission control device 90 that has received the abnormal hold command is the same as the above-mentioned aspect 103, and therefore the description thereof will be omitted.

Next, a description will be given of the variation start setting information determination executed in this embodiment.

The main side MPU 62 of the main control device 60 of this aspect is based on special information (such as the value of the jackpot random number counter C1) acquired when a game ball enters the first starting port 33 or the second starting port 34. When executing a winning lottery, prior to executing the winning lottery, the setting information stored in the setting information storage area and the setting information at the time when the previous winning lottery (win determination processing) was executed are stored. It is determined whether or not the setting information at the time of the previous hit determination process matches the previously set information.

If it is determined that the setting information and the setting information from the previous winning determination process do not match, a game stop command is issued to avoid the execution of the winning lottery and to stop the progress of the game. The information is transmitted to a sub-side control device such as the control device 90, and a process for stopping the progress of the game is executed. As a result, the progress of the game stops, and the pachinko machine 10 becomes in a state where the player cannot continue playing the game. In addition, the audio emission control device 90 that received the game stop command sends a message to notify that the game has been stopped due to an abnormality in the setting information and that the pachinko machine 10 should be restarted in the setting change mode. Execute processing.

On the other hand, if it is determined that the setting information and the setting information from the previous winning judgment process match, after executing the winning lottery (winning judgment processing), the setting information is read from the setting information storage area, and the setting information is read out from the setting information storage area. The setting information is written to the setting information storage area for the previous hit determination process. The setting information written in the setting information storage area at the time of the previous winning determination process (setting information at the time of the previous winning determination process) is used for the determination performed prior to the next winning lottery (setting information and the setting information at the time of the previous winning determination process). (determination of whether or not they match).

As explained above, according to this aspect, it is determined whether the setting information matches the setting information at the time of the previous hit determination process in determining the setting information at the start of variation, so that the setting information does not change to the predetermined value due to the influence of noise etc. Even if a normal value within the range has been rewritten to another normal value, the rewriting of the setting information can be detected. Specifically, according to this aspect, from the time when the previous winning lottery (win determination process) was executed (i.e., when the previous symbol fluctuation started) to immediately before the execution of the current winning lottery (win determination process) (i.e., If the setting information is rewritten from a normal value within a predetermined range to another normal value during the period up to (immediately before the start of the current symbol change), the setting information and the previous hit judgment process are performed in the setting information judgment at the start of the change. Since the current setting information no longer matches, it is possible to detect whether the setting information has been rewritten. That is, according to this aspect, it is possible to detect rewriting of the setting information during all periods during which the game is being played.

In addition, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, execution of the winning lottery is avoided, so that the setting information is changed to another normal value that is not intended by the administrator. It is possible to prevent a winning lottery from being executed in a state where the winning lottery has been rewritten.

Further, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the start of fluctuation, the progress of the game is stopped, so the setting information changes to another normal value that is not intended by the administrator. It is possible to prevent the game from continuing in a rewritten state.

Furthermore, according to this aspect, it is determined whether the setting information at the time of entering the ball matches the setting information at the time of the previous hit determination process, so that the setting information is within a predetermined range due to the influence of noise etc. Even if a normal value has been rewritten to another normal value, the rewriting of the setting information can be detected.

In addition, according to this aspect, when a rewriting of the setting information is detected in the setting information judgment at the time of ball entry, execution of the previous judgment process is avoided, so that the setting information is changed to another normal one that is not intended by the administrator. It is possible to prevent the destination determination process from being executed while the value has been rewritten to a numerical value.

Further, according to this aspect, if a rewriting of the setting information is detected in the setting information determination at the time of starting the fluctuation, the progress of the game is stopped, while when a rewriting of the setting information is detected in the setting information determination at the time of ball entry. does not stop the progress of the game. The reason and effect of adopting such a configuration are the same as the reason and effect explained in the above-mentioned aspect 103, so the explanation will be omitted.

Next, an example of processing executed by the main MPU 62 in this embodiment will be described. Below, processing different from the processing described in the above aspect 103 will be explained, and description of the same processing as in the above aspect 103 will be omitted. As explained below, in this aspect, the contents of the ball entry process for the starting port and the fluctuation start process are different from the above aspect 103.

[Ball entry processing for starting port]
The ball entry process for the starting port executed by the main side MPU 62 of aspect 106 will be described.

FIG. 101 is a flowchart showing the ball entry process for the starting port executed by the main side MPU 62 of aspect 106. The processing from step S20201 to step S20211 is the same as the ball entry processing for the starting port in mode 103 shown in FIG. 82, and therefore the description thereof will be omitted.

In step S20212c, the special information such as the value of the jackpot random number counter C1 and the setting information stored in the setting information storage area are stored in the first storage area among the free storage areas of the corresponding holding area, that is, the value 1 in step S20210. It is stored in the storage area corresponding to the added pending number. Specifically, when the first starting pending number RaN is set as the processing target, special information such as the value of the jackpot random number counter C1 and setting information stored in the setting information storage area are It is stored in the first storage area among the free storage areas of the reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN to which 1 was added in step S20210. In addition, when the second starting pending number RbN is set as a processing target, special information such as the value of the jackpot random number counter C1 and setting information stored in the setting information storage area are transferred to the second holding area RbN. is stored in the first storage area among the empty storage areas, that is, the storage area corresponding to the second start pending number RbN to which 1 was added in step S20210. After executing step S20212c, the process advances to step S20213c.

In step S20213c, it is determined whether or not the setting information stored in the setting information storage area of the main side RAM 64 matches the setting information at the time of the previous hit determination process stored in the setting information storage area at the time of the previous hit determination process. judge. In step S20213c, if it is determined that the setting information and the previous winning determination process setting information match (step S20213c: YES), the process advances to step S20214, and the previous determination process is executed. Thereafter, the process advances to step S20215, a hold command is set, and the ball entry process for the main starting port is ended.

On the other hand, in step S20213c, if it is determined that the setting information and the setting information during the previous hit determination process do not match (step S20213c: NO), the process proceeds to step S20216, and an abnormal hold command is set. Thereafter, the ball entry process for the main starting port is completed.

[Variation start processing]
Next, the variation start process executed by the main MPU 62 in aspect 106 will be described.

FIG. 102 is a flowchart showing the variation start process executed by the main MPU 62 of aspect 106. In step S20701c, the setting information stored in the setting information storage area of the main side RAM 64 matches the setting information for the previous winning judgment process stored in the setting information storage area for the previous winning judgment process of the main side RAM 64. Determine whether or not. If it is determined that the setting information and the setting information during the previous hit determination process match (step S20701c: YES), the process advances to step S20702 and executes the hit determination process. Thereafter, the process advances to step S20702-2c, where the setting information is read from the setting information storage area of the main side RAM 64, and the read setting information is written into the setting information storage area during the previous hit determination process. After that, the process advances to step S20703. The processing from step S20703 to step S20708 is the same as the fluctuation start processing in mode 103 shown in FIG. 87, and therefore the description thereof will be omitted.

On the other hand, in step S20701c, the setting information stored in the setting information storage area of the main side RAM 64 and the setting information at the time of the previous hit determination process stored in the setting information storage area at the time of the previous hit determination process of the main side RAM 64 are If it is determined that they do not match (step S20701c: NO), the process advances to step S20709, and a game stop command is transmitted to the payout control device 70 and the audio emission control device 90, which are the sub-side control devices. After executing step S20709, the process advances to step S20710 and the game stop flag is turned ON. As a result, when the next timer interrupt process (FIG. 81) is executed, the execution of the process group for advancing the game (the process group from step S20104 to step S20116 in FIG. 81) is avoided, and the game progresses. will be stopped. After executing step S20710, this fluctuation start process ends.

<Aspect 107>
In aspects 103 to 106, the fluctuation start setting information determination (step S20701 in FIG. 87, step S20701a in FIG. 98, step S20701b in FIG. 100, step S20701c in FIG. 87, Fig. 98, Fig. 100, and Fig. 102, step S20702)) is adopted, but the execution timing of the setting information judgment at the start of fluctuation does not have to be immediately before the winning lottery (winning judgment processing). good. For example, a configuration may be adopted in which after the fluctuation start time setting information determination is executed, other processing is executed, and then a winning lottery (winning determination processing) is executed. That is, a plurality of other processes may be interposed between the fluctuation start time setting information determination and the winning lottery (win determination processing). In addition, the execution timing of the fluctuation start setting information determination may be after the execution of the winning lottery (win determination processing), and there may be multiple times between the winning lottery (winning determination processing) and the fluctuation start setting information determination. Other processing may also be involved. Even with such a configuration, similarly to aspects 103 to 106, it is possible to prevent the game from continuing with the setting information in an abnormal state that is not intended by the administrator.

<Aspect 108>
In the above aspects 103 to 106, the setting information determination at the time of ball entry (step S20213 in FIGS. 82, 97, and 99, and step S20213c in FIG. 101) is performed in advance determination processing (FIGS. Although the configuration is adopted in which the execution is executed immediately before step S20214)) of Step 101, the execution timing of the setting information determination at the time of ball entry does not have to be immediately before the advance determination process. For example, after executing setting information determination at the time of pitch entry, other processes may be executed, and then a first determination process may be executed. That is, a plurality of other processes may be interposed between the setting information determination at the time of ball entry and the destination determination process. Further, the execution timing of the setting information determination at the time of ball entry may be after the execution of the first determination process, or a plurality of other processes may intervene between the first determination process and the determination of the setting information at the time of ball entry. It's okay. Even with such a configuration, similarly to the above aspects 103 to 106, the setting information indicates whether the setting information is in an abnormal state not intended by the administrator to the first starting port 33 or the second starting port 34 of the game ball. It can be detected when the ball enters the field.

<Aspect 109>
In aspects 103 to 106, the setting information is in an abnormal state in the setting information determination at the start of fluctuation (step S20701 in FIG. 87, step S20701a in FIG. 98, step S20701b in FIG. 100, and step S20701c in FIG. 102). (Not within a predetermined range, does not match), we adopted a configuration that executes processing to stop the progress of the game (processing to turn on the game stop flag), but the setting information is abnormal. If it is determined that this is the case, the configuration may be such that other processing is executed without executing the process of stopping the progress of the predetermined game, or after executing the process of stopping the progress of the predetermined game.

Moreover, in the above aspects 103 to 106, in the setting information determination at the time of ball entry (step S20213 in FIGS. 82, 97, and 99, step S20213c in FIG. However, if it is determined that the setting information is in an abnormal state, a process to set an abnormal hold command is executed. It is also possible to perform a configuration in which other processes are executed without setting the abnormal hold command, or after executing the process of setting the abnormal hold command.

For example, if it is determined that the setting information is in an abnormal state in the determination of the setting information at the start of fluctuation or the determination of the setting information at the time of ball entry, the process of stopping the progress of the predetermined game is not executed or the predetermined game is continued. It may be configured to perform a process of stopping the progress of the process and then notify that an abnormality in the setting information has been detected. Specifically, the speaker 46 of the pachinko machine 10 outputs a voice or alarm such as "The setting information is abnormal. Please restart in the setting change mode." and the various lamps 47 flash at maximum brightness. A character string such as "Setting information is abnormal. Please restart in setting change mode" may be displayed on the display surface 41a of the symbol display device 41. According to such a configuration, the player and the administrator can easily understand that an abnormality in the setting information has been detected in the pachinko machine 10, and the administrator can also After explaining the situation to the player who is playing, the pachinko machine 10 can be restarted in the setting change mode.

For example, if it is determined that the setting information is in an abnormal state in the determination of the setting information at the start of fluctuation or the determination of the setting information at the time of ball entry, the process of stopping the progress of the predetermined game or the predetermined It may be configured such that after executing the process of stopping the progress of the game, information indicating that an abnormality in the setting information has been detected is transmitted to the hall computer installed in the game hall. The information of the pachinko machine 10 in which an abnormality in the setting information has been detected (for example, the machine number of the pachinko machine 10) may be displayed on the screen of the monitor of the hall computer that has received the information. According to such a configuration, the administrator who manages the hall computer can easily understand in which of the many pachinko machines installed in the game hall an abnormality in the setting information has been detected. It becomes possible.

For example, if it is determined that the setting information is in an abnormal state in the determination of the setting information at the start of fluctuation or the determination of the setting information at the time of ball entry, the process of stopping the progress of the predetermined game or the predetermined After executing the process of stopping the progress of the game, information indicating that an abnormality in the setting information has been detected and information indicating the date and time when the abnormality was detected may be stored in the memory. Specifically, information indicating that an abnormality in the setting information has been detected and information indicating the date and time when the abnormality was detected are not deleted even if the above-mentioned RAM clearing process is executed in the storage area of the main side RAM 64. If the information is stored in a storage area or a non-volatile memory such as a flash ROM, and can be displayed on the display surface 41a of the symbol display device 41 when a predetermined operation is received, this information can be Since it is not easily erased and can be checked after the game hall is closed, for example, it becomes a clue to find out the circumstances and causes of the abnormal setting information.

<Aspect 110>
Among the above aspects, in a configuration in which the setting change mode can be executed, the setting information stored in the setting information storage area of the main side RAM 64 is referenced every time the winning determination process (winning lottery) or the previous determination process is executed. However, instead of this configuration, after power supply to the pachinko machine 10 is started ( (If the settings change mode is executed, after the settings change mode ends), before the game can proceed, the settings information stored in the settings information storage area of the main side RAM 64 is referred to, and the relevant settings are changed. By configuring the configuration so that the validity table corresponding to the referenced setting information is used in the subsequent hit determination process or first determination process, the setting information stored in the setting information storage area of the main side RAM 64 can be used for hit determination. It may be configured such that it is not referenced each time a process or a destination determination process is executed. Hereinafter, an example of the process executed by the main MPU 62 of this embodiment will be specifically described.

The main MPU 62 in this embodiment executes main processing and timer interrupt processing. The main process is a process executed when the power is turned on.

[Main processing]
FIG. 103 is a flowchart showing the main processing executed by the main MPU 62 (main CPU 62x) when the power is turned on in aspect 110 of the first embodiment.

In step S30101, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S30102, and internal function register setting processing is executed. After that, the process advances to step S30103.

In step S30103, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

In step S30103, if it is determined that the power restoration flag is ON (step S30103: YES), the process advances to step S30104, and a predetermined calculation is performed based on a predetermined information group stored in the main side RAM 64. By this, the RAM judgment value is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S30105, and it is determined whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S30105 that the RAM determination value is normal (step S30105: YES), the process advances to step S30106.

In step S30106, setting information for lottery settings stored in the main side RAM 64 is read, and it is determined whether the setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so if the setting information is a numerical value within the range from "1" to "6", , it is determined that the setting information is a numerical value within a predetermined range, but on the other hand, if "0" or "7" is stored as the setting information, or if information other than numerical values is stored due to noise etc. determines that the setting information is not a numerical value within a predetermined range. If it is determined in step S30106 that the setting information is a numerical value within a predetermined range (step S30106: YES), the process advances to step S30107.

On the other hand, if it is determined that the power recovery flag is not ON in step S30103 described above (step S30103: NO), if it is determined that the RAM determination value is not normal in step S30105 described above (step S30105: NO), and If it is determined in step S30106 that the setting information is not within the predetermined range (step S30106: NO), the process advances to step S30115 and the RAM abnormality flag is turned ON. In other words, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF, when the RAM judgment value is not normal, or when the setting information is not a numerical value within a predetermined range. This is a flag indicating that the information stored in the main side RAM 64 is not in a normal state.

Below, the flow of processing executed when the RAM abnormality flag is not turned on will be explained, and then the flow of processing executed when the RAM abnormality flag is turned on will be explained.

In step S30107, it is determined whether the setting changing flag is ON. The setting change flag is a flag that is turned ON at the start of a setting change process (setting change mode), which will be described later, and turned OFF at the end of the setting change process (setting change mode). Here, the situation where the setting change flag is ON in step S30107 means that the setting change process (setting change mode) described later was executed when the pachinko machine 10 was last powered on, and the setting change process (setting change mode) was executed. This is a situation where the setting changing flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring while the setting changing mode) is being executed.

If it is determined in step S30107 that the setting change flag is ON (step S30107: YES), the process advances to step S30118, and a setting change process (setting change mode) is executed. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. The details of the setting change process (setting change mode) are the same as the setting change process shown in FIG. 71, so detailed explanation will be omitted. On the other hand, if it is determined in step S30107 that the setting changing flag is not ON (step S30107: NO), the process advances to step S30108.

In step S30108, it is determined whether the RAM clear button is ON. In step S30108, if it is determined that the RAM clear button is not ON (step S30108: NO), the process advances to step S30109 and checks whether the setting key, frame release switch, and door release switch are all ON. judge. Note that "the setting key is ON" means that the setting key is inserted into the setting keyhole and is positioned on the ON side. Further, the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

In step S30109, if it is determined that at least one of the setting key, frame release switch, and door release switch is not ON (step S30109: NO), the process advances to step S30110.

In step S30110, it is determined whether the setting confirmation flag is ON. The setting confirmation flag is a flag that is turned ON at the start of setting confirmation processing (setting confirmation mode), which will be described later, and turned OFF at the end of the setting confirmation processing (setting confirmation mode). Here, the situation where the setting confirmation flag is ON in step S30110 means that the setting confirmation process (setting confirmation mode), which will be described later, was executed when the pachinko machine 10 was last powered on, and the setting confirmation process ( This is a situation where the setting confirmation flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring during execution of the setting confirmation mode).

In step S30110, if it is determined that the setting confirmation flag is not ON (step S30110: NO), the process advances to step S30111, and a normal activation command is transmitted to the audio emission control device 90. The normal startup command is executed when the pachinko machine 10 (main controller 60) is in a normal state without determining that there is a RAM abnormality and without executing any of the settings change processing, setting confirmation processing, and first RAM clear processing, which will be described later. This command indicates that the has been started. As will be described later, upon receiving the normal activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated in a normal state. Specifically, in this aspect, the speaker 46 outputs a voice saying "normal startup". After executing step S30111, the process advances to step S30113, which will be described later.

On the other hand, if it is determined in step S30109 that the setting key, frame release switch, and door release switch are all ON (step S30109: YES), and if the setting confirmation flag is ON in step S30110, If determined (step S30110: YES), the process advances to step S30112. That is, if the RAM clear button is OFF when the power is turned on to the pachinko machine 10, and the setting key, frame release switch, and door release switch are all ON, and the previous power supply of the pachinko machine 10 is Setting confirmation processing (setting confirmation mode) is executed when the machine is turned on, and if the power switch of the pachinko machine 10 is turned off or a power outage occurs while the setting confirmation processing (setting confirmation mode) is being executed, the setting confirmation process is in progress. If the flag remains ON, the process advances to step S30112.

In step S30112, setting confirmation processing is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. The details of the setting confirmation process (setting confirmation mode) are the same as the setting confirmation process shown in FIG. 72, so a detailed explanation will be omitted. After executing step S30112, the process advances to step S30113.

In step S30113, power restoration processing is executed to restore the state to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S30113, the process advances to step S30114, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process advances to step S30123, which will be described later.

On the other hand, in step S30108 described above, if it is determined that the RAM clear button is ON (step S30108: YES), the process advances to step S30117, and the setting key, frame release switch, and door release switch are all turned ON. Determine whether it exists or not. In step S30117, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S30117: YES), the process proceeds to step S30118 described above, and the setting change process described above (setting change mode). Thereafter, the process advances to step S30123, which will be described later. On the other hand, if it is determined in step S30117 that at least one of the setting key, frame release switch, and door release switch is not ON (step S30117: NO), the process advances to step S30119.

In step S30119, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S30119 that the RAM abnormality flag is not ON (step S30119: NO), the process advances to step S30120, and the first RAM clearing process is executed. The first RAM clearing process is a process of erasing (clearing to 0) the information stored in the main side RAM 64 except for the setting information of the lottery settings. That is, when the first RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. After executing step S30120, the process advances to step S30121, and a RAM clear command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. As will be described later, upon receiving the RAM clear command, the audio emission control device 90 causes the speaker 46 to output audio indicating that the first RAM clearing process has been executed. Specifically, in this aspect, a voice such as "The RAM of the main control device has been cleared" is output from the speaker 46. After executing step S30121, the process advances to step S30123, which will be described later.

On the other hand, if it is determined in step S30119 that the RAM abnormality flag is ON (step S30119: YES), the process advances to step S30122, and a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is emitted by voice. It is transmitted to the control device 90. As will be described later, upon receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the main RAM 64 is abnormal. Specifically, in this embodiment, the speaker 46 repeatedly outputs a voice saying "The RAM of the main control device is abnormal. Please start up in the setting change mode." After executing step S30122, the process advances to step S30123. However, in the flow of this explanation, since the RAM abnormality flag is not turned on, the process does not proceed to step S30122 described above.

In step S30123, a validity table setting process is executed. In this aspect, the main side ROM 63 is provided with a win/fail table storage area. Six types of success/failure tables for low probability modes are stored, each corresponding to each of six levels of lottery settings up to ``.''. Then, in the success/failure table setting process, the setting information stored in the setting information storage area of the main side RAM 64 is referred to, and a judgment table for the low probability mode corresponding to the setting information is generated from the validity table storage area of the main side ROM 63. The low probability mode validity table that has been read out is written in the validity table storage area of the main side RAM 64. Specifically, for example, if the value of the setting information stored in the setting information storage area of the main side RAM 64 is "1", the win/fail table for the low probability mode corresponding to lottery setting 1 is stored on the main side. A win/fail table for the low probability mode corresponding to the read lottery setting 1 is read from the win/fail table storage area of the ROM 63 and written into the win/fail table storage area of the main side RAM 64. After executing step S30123, the process advances to step S30124.

In step S30124, a lighting/blinking process is executed which is a process of lighting and blinking all the light emitting units (segment light emitting units A to G and DP light emitting unit) constituting the information display unit 45z. In the lighting/blinking process, all the light emitting parts constituting the information display section 45z are turned on for a predetermined period of time (for example, 3 seconds), and then synchronously flashed for a predetermined period of time (for example, 2 seconds). After executing step S30124, the process advances to step S30125.

In step S30125, interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, an infinite loop is repeated to wait, and timer interrupt processing, which will be described later, is executed periodically (every 4 ms in this embodiment).

Next, the flow of processing executed when the RAM abnormality flag is turned ON in step S30115 will be described.

As described above, if it is determined in step S30103 that the power recovery flag is not ON (step S30103: NO), if it is determined in step S30105 that the RAM determination value is not normal (step S30105: NO), and If it is determined in S30106 that the setting information is not within the predetermined range (step S30106: NO), the process advances to step S30115 and the RAM abnormality flag is turned ON. After that, the process advances to step S30116.

In step S30116, it is determined whether the RAM clear button is ON. In step S30116, if it is determined that the RAM clear button is ON (step S30116: YES), the process advances to step S30117, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine. In step S30117, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S30117: YES), the process proceeds to step S30118 described above, and the setting change process described above (setting change mode). After that, the process advances to step S30122. On the other hand, if it is determined in step S30116 that the RAM clear button is not ON (step S30116: NO), and if it is determined in step S30117 that at least one of the setting key, frame release switch, and door release switch is not ON. In the case (step S30117: NO), the process advances to step S30119.

In step S30119, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S30119 that the RAM abnormality flag is not ON (step S30119: NO), the process advances to step S30120, and the first RAM clearing process described above is executed. After executing step S30120, the process advances to step S30121, and a RAM clear command, which is a command indicating that the first RAM clearing process has been executed, is transmitted to the audio emission control device 90. After executing step S30121, the process advances to step S30122. However, in the flow of this explanation, since the RAM abnormality flag is ON, the process does not proceed to step S30120 described above.

On the other hand, if it is determined in step S30119 that the RAM abnormality flag is ON (step S30119: YES), the process advances to step S30122, and a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is emitted by voice. It is transmitted to the control device 90. As will be described later, upon receiving the RAM abnormality command, the audio emission control device 90 causes the speaker 46 to output a sound indicating that the RAM is abnormal. Specifically, in this embodiment, the speaker 46 repeatedly outputs a voice saying "The RAM of the main control device is abnormal. Please start up in the setting change mode." After executing step S30122, the process advances to step S30123.

In step S30123, the above-described validity table setting process is executed, and then the process proceeds to step S30124, in which the above-described lighting and blinking process is executed. After executing step S30124, the process advances to step S30125, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the infinite loop process is repeated and the process waits, and a timer interrupt process, which will be described later, is executed periodically (every 4 ms in this embodiment).

As explained above, in this embodiment, the operation for executing the setting change process (setting change mode) is to press the RAM clear switch (ON state) and press the setting key (keyhole). This is an operation of turning on the power switch with all the frame opening switches and door opening switches turned on. In addition, the operation for executing the setting confirmation process (setting confirmation mode) is performed when the RAM clear switch is not pressed (OFF state), and the setting key (keyhole), frame release switch, and door open This is an operation to turn on the power switch with all switches turned on. In addition, the operation for executing the first RAM clearing process is to press the RAM clear switch (ON state), and turn off either the setting key (keyhole), frame release switch, or door release switch. This is an operation to turn on the power switch with the camera set to .

An example of the flow of processing realized by executing the above-described main processing will be summarized below.

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (step S30103, step S30105, step S30106), and setting change processing (setting change mode) If an operation has been performed to execute the setting change processing, regardless of whether the conditions for turning on the RAM error flag are met or not, and regardless of the state of the setting confirmation flag, the setting change processing will be executed. (setting change mode) is executed (step S30118).

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S30103, step S30105, step S30106), and the conditions for turning on the RAM abnormality flag are determined. If it is determined that the setting change flag is ON (step S30107: YES), the operation for executing the setting change process (setting change mode) and the setting confirmation process are performed. Regardless of whether the operation for executing (setting confirmation mode) and the operation for executing first RAM clearing processing have been performed, the setting change processing (setting change mode) is executed (step S30118). .

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S30103, step S30105, step S30106), and the conditions for turning on the RAM abnormality flag are determined. If it is determined that the setting changing flag is not ON (step S30107: NO), and an operation for executing the first RAM clearing process has been performed (step S30108). : YES, step S30117: NO, step S30119: NO), regardless of the state of the setting confirmation flag, the first RAM clearing process is executed (step S30120), and a RAM clear command is sent (step S30121).

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S30103, step S30105, step S30106), and the conditions for turning on the RAM abnormality flag are determined. If it is determined that the setting change flag is not ON (step S30107: NO), and an operation for executing the setting confirmation process (setting confirmation mode) is performed, (Step S30108: NO, Step S30109: YES), a setting confirmation process (setting confirmation mode) is executed (Step S30112).

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S30103, step S30105, step S30106), and the conditions for turning on the RAM abnormality flag are determined. When it is determined that the setting change flag is not ON (step S30107: NO), and no operation is performed to execute the setting confirmation process (setting confirmation mode). Even if there is, if the setting confirmation flag is ON (step S30110: YES), a setting confirmation process (setting confirmation mode) is executed (step S30112).

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S30103, step S30105, step S30106), and the conditions for turning on the RAM abnormality flag are determined. If it is determined that the following is true and the RAM abnormality flag is turned ON (step S30115), the first RAM clearing process is not executed even if an operation for executing the first RAM clearing process has been performed. A RAM abnormality command is sent without executing it (step S30122).

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (steps S30103, step S30105, step S30106), and the conditions for turning on the RAM abnormality flag are determined. If it is determined that the following is true and the RAM abnormality flag is turned ON (step S30115), even if the operation for executing the setting confirmation process (setting confirmation mode) has been performed, the setting The RAM abnormality command is sent without executing the confirmation process (setting confirmation mode) (step S30122).

[Timer interrupt processing]
Next, timer interrupt processing will be explained. The timer interrupt process is activated periodically (for example, every 4 msec) by the MPU 62 of the main control device 60.

FIG. 104 is a flowchart showing timer interrupt processing executed by the main MPU 62 in aspect 110 of the first embodiment. In step S30201, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter (jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, electric accessory opening counter C4, etc.) in the main side RAM 64, and the read numerical information is updated. After executing the process of adding 1, the process of overwriting the read-out counter with the numerical information after the addition is executed. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S30201, the process advances to step S30202.

In step S30202, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Thereafter, without proceeding to step S30203, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even when the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power failure monitoring process of step S30202, if it is determined that the drive voltage supplied from the power supply device 85 to the main control device 60 is not lower than the predetermined value, the process directly advances to step S30203.

In step S30203, it is determined whether at least one of the RAM abnormality flag or the game stop flag is ON. As described above, the RAM abnormality flag is a flag that is turned ON when it is determined that the information stored in the main RAM 64 is not normal in the main processing executed when the power is turned on. As will be described later, the game stop flag is a flag that is turned ON in order to stop the progress of the game when shaking or magnetism is detected in the fraud detection process. In step S30203, if it is determined that both the RAM abnormality flag and the game stop flag are not ON (step S30203: NO), the process advances to step S30204. On the other hand, if it is determined in step S30203 that at least one of the RAM abnormality flag or the game stop flag is ON (step S30203: YES), this timer interrupt processing is ended without executing the processing after step S30204. do. That is, if at least one of the RAM abnormality flag or the game stop flag is ON, the processing for enabling the game to proceed after step S30204 will not be executed, and the game will enter the game progress mode in which the game can proceed. is configured not to migrate. Hereinafter, the processing after step S30204, which is the processing for enabling the game to proceed, will be explained.

In step S30204, port output processing is executed. In the port output processing, when the output information has been set in the previous timer interrupt processing, processing is executed to cause the various drive units 36c and 34b to output corresponding to the output information. For example, if information is set to switch the big winning opening 36a to the open state, output of a drive signal to the variable winning a prize drive unit 36c is started, and if information to switch the big winning opening 36a to the closed state is set, The output of the drive signal is stopped. In addition, when the information to switch the electric accessory 34a of the second starting port 34 to the open state is set, the output of the drive signal to the electric accessory drive section 34b is started, and the information to switch the electric accessory 34a to the closed state is set. If set, the output of the drive signal is stopped. After that, the process advances to step S30205.

In step S30205, reading processing is executed. In the reading process, signals other than the incoming ball signal are read, and the read information is stored for use in future processing. After that, the process advances to step S30206.

In step S30206, the signals received from each of the ball entry detection sensors 44a to 44h are read, and ball entry detection processing is executed to perform processing corresponding to the read information. The ball entry detection process is the same as the ball entry detection process shown in FIG. 28, so a detailed explanation will be omitted. After executing step S30206, the process advances to step S30207.

In step S30207, timer update processing is executed to collectively update numerical information of predetermined timer counters provided in the main side RAM 64. After that, the process advances to step S30208.

In step S30208, ball entry processing for the starting ports is executed as the game balls enter the first starting ports 33 and the second starting ports 34. In the ball entry process for the starting port, the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 are set based on the fact that it is determined that the game ball has entered the first starting port 33 or the second starting port 34. At the same time as acquiring the value, the acquired counter value is stored in the pending information storage area 64b of the RAM 64. After executing step S30208, the process advances to step S30209.

In step S30209, ball entry processing for the through gate is executed as the game ball enters (passes through) the through gate 35. In the ball entry process for the through gate, the value of the electric accessory opening counter C4 is acquired based on the fact that it is determined that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It is stored in the power reserve area 64d. After executing step S30209, the process advances to step S30210.

In step S30210, a game round control process is executed to control the game in each game round. In the game round control process, a winning lottery, display control of the first symbol display section 37a, second symbol display section 37b, etc. are performed. After executing step S30210, the process advances to step S30211.

In step S30211, a gaming state transition process for shifting the gaming state is executed. In the gaming state transition process, processing for shifting the gaming state to an opening/closing execution mode, a high probability mode, a high frequency support mode, etc. is executed. After executing step S30211, the process advances to step S30212.

In step S30212, electric utility support processing for controlling the electric accessory 34a is executed. In the electric accessory support process, it is determined whether or not the electric accessory 34a is to be in an open state (an electric accessory opening lottery), and if it is determined to be in an open state, the electric accessory 34a is drive-controlled. After executing step S30212, the process advances to step S30213.

In step S30213, game ball launch control processing is executed. In the game ball firing control process, a process for firing a game ball into the gaming area PA when the operation handle 25 is operated by the player is executed. After executing step S30213, the process advances to step S30214.

In step S30214, command output processing is executed to output (send) the command set as a transmission target in the current timer interrupt processing to each sub-side control device. For example, if commands related to production such as a variation command, a type command, a hold command, etc. are set, these are transmitted to the audio emission control device 90. After executing step S30214, the process advances to step S30215.

In step S30215, fraud detection processing is executed. In the fraud detection process, shaking and magnetism are monitored, and when shaking or magnetism is detected, an alarm sound and voices such as ``We have detected shaking!'' and ``We have detected magnetism!'' are output from the speaker 46. At the same time, the various lamps 47 are made to blink at maximum brightness. In addition, in the fraud detection process, when shaking or magnetism is detected, the above-mentioned game stop flag is turned on. As a result, after the game stop flag is turned ON, execution of the processes from step S30204 to step S30216 is avoided.

In step S30216, game history processing for calculating and displaying game history information is executed. The game history process is the same as the game history process shown in FIG. 29, so a detailed explanation will be omitted. After executing step S30216, this timer interrupt processing ends.

[Ball entry processing for starting port]
Next, the ball entry process for the starting port will be explained. The ball entry process for the starting port is executed by the MPU 62 of the main controller 60 as a timer interrupt process subroutine (FIG. 104: S30208).

FIG. 105 is a flowchart showing the ball entry process for the starting port executed by the main MPU 62 in aspect 110 of the first embodiment. In step S30301, it is determined whether the game ball has entered the first starting port 33 (starting ball) based on the detection state of the detection sensor corresponding to the first starting port 33. In step S30301, if it is determined that the game ball has entered the first starting port 33 (S30301: YES), the process proceeds to step S30302, and the prize ball is set to cause the payout control device 70 to pay out four game balls. Set command. After that, the process advances to step S30303.

In step S30303, an external signal setting process is performed to output a signal to the management control device on the gaming hall side that the game ball has entered the first starting port 33. After that, the process advances to step S30304.

In step S30304, the starting pending number RaN (hereinafter also referred to as the first starting pending number RaN), which is the value stored in the pending number storage area of the first holding area Ra, is read, and the first starting pending number RaN will be described later. Set as a processing target. The first starting pending number RaN indicates the pending number based on the entry of game balls into the first starting port 33. After that, the process advances to step S30309.

In step S30301, if it is determined that the game ball has not entered the first starting port 33 (S30301: NO), the process advances to step S30305, and it is determined whether the game ball has entered the second starting port 34 or not. is determined based on the detection state of the detection sensor corresponding to the second starting port 34.

In step S30305, if it is determined that the game ball has entered the second starting port 34 (S30305: YES), the process advances to step S30306, and the prize ball is used to cause the payout control device 70 to pay out one game ball. Set command. After that, the process advances to step S30307. On the other hand, in step S30305, if it is determined that the game ball has not entered the second starting port 34 (S30305: NO), the ball entering process for the main starting port is ended.

In step S30307, external signal setting processing is performed in order to output a signal to the management control device on the gaming hall side that the game ball has entered the second starting port 34. After that, the process advances to step S30308.

In step S30308, the starting pending number RbN (hereinafter also referred to as the second starting pending number RbN), which is the value stored in the pending number storage area of the second holding area Rb, is read, and the second starting pending number RbN will be described later. Set as a processing target. The second starting pending number RbN indicates the pending number based on the entry of game balls into the second starting port 34. After that, the process advances to step S30309.

In step S30309, it is determined whether the start pending number N (RaN or RbN) set in step S30304 or step S30308 described above is less than the upper limit value (4 in this embodiment). In step S30309, if the starting pending number N is not less than the upper limit (S30309: NO), that is, if the starting pending number N is greater than or equal to the upper limit, the entry process for the main starting port is ended.

On the other hand, in step S30309, if the start pending number N is less than the upper limit (S30309: YES), the process advances to step S30310, where 1 is added to the start pending number N of the corresponding holding area, and then the process advances to step S30311. , 1 is added to the value stored in the total reservation number storage area (hereinafter referred to as total reservation number CRN). The total pending number CRN indicates the total value of the first starting pending number RaN and the second starting pending number RbN. After that, the process advances to step S30312.

In step S30312, each value of the jackpot random number counter C1, jackpot type counter C2, and reach random number counter C3 updated in step S30201 (FIG. 104) is transferred to the first storage area among the free storage areas of the corresponding reservation area, that is, the step In S30310, it is stored in the storage area corresponding to the pending number to which 1 is added. Specifically, when the first start pending number RaN is set as the processing target, each of the jackpot random number counter C1, jackpot type counter C2, and reach random number counter C3 updated in step S30201 (FIG. 104) The value is stored in the first storage area among the free storage areas of the first reservation area Ra, that is, the storage area corresponding to the first start reservation number RaN to which 1 was added in step S30310. In addition, when the second starting pending number RbN is set as the processing target, the values of the jackpot random number counter C1, jackpot type counter C2, and reach random number counter C3 updated in step S30203 (FIG. 104) are It is stored in the first storage area among the empty storage areas of the second reservation area Rb, that is, the storage area corresponding to the second start reservation number RbN to which 1 was added in step S30310. After executing step S30312, the process advances to step S30313.

In step S30313, a destination determination process is executed. The destination determination process is based on the information (pending information) of each value of the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3. This is a process in which a determination is made as to the presence or absence of the pending information before it becomes a target of the winning lottery by the main control device 60. Details of the destination determination process will be described later. After executing step S30313, the process advances to step S30314.

In step S30314, processing for setting a pending command is executed. Specifically, the determination result of the destination determination process executed based on the information (pending information) of each value of the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 is set as a pending command.

The hold command indicates that a game ball has entered the first starting port 33 or the second starting port 34, and the judgment result of the previous judgment process based on the holding information acquired based on the ball entering, is set to the corresponding hold. This is a command to have the sub-side control device confirm the information before it becomes a target of the winning lottery by the main control device 60. The hold command is sent to the audio emission control device 90 in the above-described command output process (FIG. 104: Step S30214).

Further, when the audio emission control device 90 receives a hold command transmitted based on the entry of a game ball into the first starting port 33, the sound emission control device 90 controls the display in the first hold display area Ds1 of the symbol display device 41. A command is sent to the display control device 100 to make the change in response to the increase in the number of pending items. The display control device 100 that has received the command changes the display in the first pending display area Ds1 of the symbol display device 41 in accordance with the increase in the pending number. On the other hand, when receiving the hold command transmitted based on the entry of the ball into the second starting port 34, the audio emission control device 90 changes the display in the second hold display area Ds2 of the symbol display device 41 to indicate the number of pending balls. A command is sent to the display control device 100 to make changes in response to the increase. The display control device 100 that has received the command changes the display in the second reservation display area Ds2 of the symbol display device 41 in accordance with the increase in the number of reservations.

After executing step S30314, the main MPU 62 ends the ball entry process for the main starting port.

[First judgment process]
Next, the destination determination process will be explained. The destination determination process is executed by the MPU 62 of the main controller 60 as a subroutine of the ball entry process for the starting port (FIG. 104: S30314).

FIG. 106 is a flowchart showing the destination determination process executed by the main MPU 62 in aspect 110 of the first embodiment. As described above, the preliminary determination process is based on the pending information, and determines whether the winning lottery is correct or not, determining the type of jackpot, determining whether or not a reach has occurred, etc., based on the pending information. This is a process that is executed before becoming a lottery target.

In step S30401, the value of the jackpot random number counter C1 stored in the storage area is read out when the game ball enters the starting hole in the ball entering process for the starting hole (FIG. 105). After that, the process advances to step S30402, and the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is determined. Specifically, the judgment result of the previous judgment process executed by the ball entering before the current ball entering is read from the corresponding storage area, and it is determined whether there is a probability-variable jackpot that occurs before the winning lottery due to the current ball entering. By determining this, the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is determined.

In step S30402, if it is determined that the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is the low probability mode (S30402: YES), the process advances to step S30403, and the main side RAM 64 is Refer to the low probability mode validity table stored in the validity table storage area. As described above, in this aspect, in the win/fail table setting process (step S30123) of the main process (FIG. 103), 6 numbers corresponding to each of the six lottery settings from "lottery setting 1" to "lottery setting 6" are selected. Among the types of low probability mode win/fail tables, the low probability mode win/fail table corresponding to the setting information indicating the lottery setting is stored in the win/fail table storage area of the main side RAM 64. As a result, in step S30403, the main MPU 62 refers to the low probability mode win/fail table corresponding to the setting information indicating the lottery setting. Specifically, for example, if the value of the setting information stored in the setting information storage area of the main side RAM 64 is "1", the win/fail table for the low probability mode corresponding to lottery setting 1 is stored on the main side. The win/fail table for the low probability mode, which is stored in the win/fail table storage area of the RAM 64 and corresponds to lottery setting 1, is referred to. Thereafter, the process advances to step S30405, and as a result of referring to the low probability mode win/fail table, it is determined whether the information on the value of the jackpot random number counter C1 read this time corresponds to a jackpot. Note that an example of the success/failure table for the six types of low probability modes has already been described in aspect 57, so the description will be omitted here.

On the other hand, in step S30402, if it is determined that the lottery mode at the time when the winning lottery based on the current ball entry is executed as a game round is not the low probability mode (S30402: NO), the process advances to step S30404, and the lottery mode for the high probability mode is Refer to the validity table. Thereafter, the process proceeds to step S30405, and as a result of referring to the high probability mode win/fail table, it is determined whether the value of the jackpot random number counter C1 read this time corresponds to a jackpot. In addition, in this embodiment, the configuration is such that one kind of success/failure table for the high probability mode is referred to regardless of the lottery settings, but similarly to the success/failure table for the low probability mode, a number of high probability modes corresponding to the lottery settings are referred to. It is also possible to prepare a winning/failure table for the lottery setting and refer to the winning/failure table for the high probability mode corresponding to the lottery setting.

In step S30405, if it is determined that the value of the jackpot random number counter C1 read this time corresponds to a jackpot (S30405: YES), the process advances to step S30406, and is stored in the storage area by the ball entering the starting hole this time. The value of the jackpot type counter C2 is read out. After that, the process advances to step S30407, and the distribution table stored in the distribution table storage area 63b is referred to. Specifically, if the jackpot type counter C2 to be distributed this time is acquired based on the entry of the game ball into the first starting port 33, the first starting port distribution table If the game ball is acquired based on the entry of the game ball into the second starting port 34, the distribution table for the second starting port is referred to. After executing step S30407, the process advances to step S30408.

In step S30408, as a result of referring to the distribution table, it is determined whether the value of the jackpot type counter C2 read this time corresponds to a variable probability jackpot. In step S30408, if it is determined that the game corresponds to a variable probability jackpot (S30408: YES), the process proceeds to step S30409, and the probability variable jackpot information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process ends. On the other hand, in step S30408, if it is determined that the probability variable jackpot is not supported (S30408: NO), the process proceeds to step S30410, and normal jackpot information is stored in the previous judgment processing result storage area 64f. Thereafter, the destination determination process ends.

In step S30405, if it is determined that the value of the jackpot random number counter C1 read this time does not correspond to a jackpot (S30405: NO), the process advances to step S30411, and the value is stored in the memory area by the ball entering the starting hole this time. Read the stored value of the reach random number counter C3. Thereafter, the process advances to step S30412, and the reach determination table stored in the reach determination table storage area 63c is referred to. Thereafter, the process proceeds to step S30413, and as a result of referring to the reach determination table, it is determined whether the value of the reach random number counter C3 read this time corresponds to the occurrence of a reach.

In step S30413, if it is determined that it corresponds to the occurrence of a reach (S30413: YES), the process advances to step S30414, and the ready-to-reach occurrence information is stored in the previous determination processing result storage area 64f. Thereafter, the destination determination process ends. On the other hand, if it is determined in step S30413 that it does not correspond to the occurrence of a reach (S30413: NO), the first determination process is directly ended.

[Game time control processing]
Next, the game time control process will be explained. The game time control process is executed by the MPU 62 of the main control device 60 as a timer interrupt process subroutine (FIG. 104: Step S30210).

FIG. 107 is a flowchart showing the game time control process executed by the main MPU 62 in aspect 110 of the first embodiment. In step S30501, it is determined whether the opening/closing execution mode is in progress. Specifically, it is determined whether the opening/closing execution mode flag in the various flag storage area 64e of the RAM 64 is ON. As will be described later, the opening/closing execution mode flag is turned ON at the timing when the fluctuation of the symbols in the game round in which the jackpot is won is finished and the opening/closing execution mode is transferred, and is turned OFF at the timing when the opening/closing execution mode is finished.

In step S30501, if it is determined that the opening/closing execution mode flag is ON (S30501: YES), it is determined that the opening/closing execution mode is in progress, and the main game is played without executing any of the processes after step S30502. Control processing ends. That is, when the opening/closing execution mode is in progress, the game round will not start regardless of whether or not a game ball enters the first starting port 33 or the second starting port 34. . On the other hand, if it is determined in step S30501 that the opening/closing execution mode is not in progress (S30501: NO), the process advances to step S30502.

In step S30502, it is determined whether the main display section 45 is displaying a variable display. Specifically, it is determined whether either the first symbol display section 37a or the second symbol display section 37b is in the process of variable display. This determination is made by determining whether the variable display flag in the various flag storage area 64e of the RAM 64 is ON. The fluctuating display flag is turned ON when a fluctuating display is started for either the first symbol display section 37a or the second symbol display section 37b, and is turned OFF when the fluctuating display ends.

In step S30502, if it is determined that the main display section 45 is not in variable display (S30502: NO), the process proceeds to steps S30503 to S30505 for starting the game round. In step S30503, it is determined whether the total number of reservations CRN is "0". The case where the total reservation number CRN is "0" means that the number of startup reservations for both the first starting port 33 and the second starting port 34 is "0". Therefore, in step S30503, if it is determined that the total pending number CRN is "0" (S30503: YES), the main game round control process is ended. On the other hand, if it is determined in step S30503 that the total pending number CRN is not "0" (S30503: NO), the process advances to step S30504.

In step S30504, a hold information shift process is executed to set the data stored in the first hold area Ra or the second hold area Rb to the state after the start of fluctuation, and the process advances to step S30505. Details of the pending information shift process will be described later.

In step S30505, a fluctuation start process for starting the fluctuation display on the main display section 45 and the fluctuation display on the symbol display device 41 is executed. Note that details of the fluctuation start process will be described later. After that, the process advances to step S30506.

In step S30506, the value of the number of games counter PNC is subtracted by 1. The number of games counter PNC is a counter for counting the number of games played in the high frequency support mode. After executing step S30506, the main game round control process is ended.

On the other hand, if it is determined in step S30502 that the main display section 45 is displaying a variable display (S30502: YES), the process advances to step S30507.

In step S30507, it is determined whether the variable time of the current game round has elapsed. As mentioned above, the fluctuation time is the time from when the symbol row starts to fluctuate until all the symbol rows stop, and is a part of the unit game time. Specifically, in step S30507, it is determined whether the value of the fluctuation time information stored in the fluctuation time counter area (various counter areas 64d) of the RAM 64 has become "0". The value of the variation time information is set in a variation time setting process (step S30603 in FIG. 108), which will be described later. The value of this set variable time information is subtracted by 1 each time the timer interrupt process is activated.

In step S30507, if it is determined that the fluctuation time has not elapsed (S30507: NO), the process advances to step S30508, and a fluctuation display process is executed. The variable display process is a process for changing the display mode on the result display section for the current game round. After executing step S30508, the main game round control process is ended.

If it is determined in step S30507 that the variation time has elapsed (S30507: YES), the process advances to step S30509, and variation end processing is executed. In the variation end process, the stopped symbols determined in the hit determination process (FIG. 109) to be described later are stopped and displayed on the main display section 45 as the result of the current game round. After executing step S30509, the process advances to step S30510.

In step S30510, it is determined whether any jackpot flag stored in the various flag storage areas 64e of the RAM 64 is ON. The jackpot flag is a flag that is turned ON when a jackpot is won in the hit determination process (FIG. 109) described later. In step S30510, if it is determined that any jackpot flag is ON (S30510: YES), the process advances to step S30511 and the opening/closing execution mode flag is turned ON. After that, the main game round control process is ended. On the other hand, if it is determined in step S30510 that none of the jackpot flags is ON (S30510: NO), the process advances to step S30512.

In step S30512, it is determined whether the total number of reservations CRN is "0". In step S30512, if it is determined that the total pending number CRN is "0" (S30512: YES), the process advances to step S30513, and a customer waiting command is set. The customer waiting command is used to make the audio emission control device 90, which is a sub-side control device, recognize that no pending information is stored in the pending information storage area 64b at the time when the symbol variation (gaming round) ends. This is a command that contains information about The customer waiting command set in step S30513 is transmitted to the sound emission control device 90 in the above-described command output process (FIG. 104: step S30214). On the other hand, in step S30512, if it is determined that the total pending number CRN is not "0" (S30512: NO), the main game round control process is ended.

[Variation start processing]
Next, the fluctuation start process will be explained. The fluctuation start process is executed by the MPU 62 of the main control device 60 as a subroutine (FIG. 107: S30505) of the game time control process.

FIG. 108 is a flowchart showing a variation start process executed by the main MPU 62 in aspect 110 of the first embodiment. In step S30601, a hit determination process is executed. In the winning determination process, it is determined whether or not a jackpot has been won based on the value of the jackpot random number counter C1 shifted to the execution area AE in the pending information shift process. Details of the hit determination process will be described later. After executing step S30601, the process advances to step S30602.

In step S30602, variable time setting processing is executed. In the variable time setting process, the variable time which is the time required for the current game round on the first symbol display section 37a or the second symbol display section 37b is set based on the presence or absence of a jackpot or the occurrence of a reach. The details of the variable time setting process are the same as the variable time setting process shown in FIG. 89, so a detailed explanation will be omitted. After executing step S30602, the process advances to step S30603.

In step S30603, it is determined whether the second symbol display section flag in the RAM 64 is ON. In step S30603, if it is determined that the second symbol display section flag in the RAM 64 is not ON (S30603: NO), the process proceeds to step S30604, and a first variation command is set. The first variation command includes information indicating that the current game round is related to pending information acquired based on winnings in the first start opening 33, and whether or not a reach has occurred. information and the variation time information set in step S30602 are included. On the other hand, if it is determined in step S30603 that the second symbol display section flag is ON (S30603: YES), the process proceeds to step S30605, and a second variation command is set. The second variation command includes information indicating that the current game round is related to pending information acquired based on winnings in the second start opening 34, and whether or not a reach has occurred. information and the variation time information set in step S30602 are included. After executing step S30604 or step S30605, the process advances to step S30606.

In step S30606, a type command is set. The type command includes information on the presence or absence of a jackpot and the result of the distribution determination. In other words, the type command includes information on the type of jackpot, such as 16R probability variable jackpot information, 8R probability variable jackpot information, 16R normal jackpot information, 8R normal jackpot information, or information on a losing result.

The variation command and type command set in steps S30604 to S30606 are sent to the audio emission control device 90 in the above-described command output process (FIG. 104: step S30214). The audio emission control device 90 determines the content of the performance in the game round based on the received variation command and type command, and controls various devices so that the determined content of the performance is executed. After executing step S30606, the process advances to step S30607.

In step S30607, the symbol display section corresponding to the current game round of the first symbol display section 37a and the second symbol display section 37b starts displaying a variable symbol. Specifically, when the second symbol display section flag in the RAM 64 is not ON, the symbol display section corresponding to the current game round is identified as the first symbol display section 37a, and variable display is started. When the second symbol display section flag is ON, the symbol display section corresponding to the current game round is identified as the second symbol display section 37b, and variable display is started. After executing step S30607, this variation start process ends.

[Hit judgment processing]
Next, the hit determination process will be explained. The hit determination process is executed by the MPU 62 of the main controller 60 as a subroutine of the variation start process (FIG. 108: S30601).

FIG. 109 is a flowchart showing the hit determination process executed by the main MPU 62 in aspect 110 of the first embodiment. In step S30701, it is determined whether the win/fail lottery mode is the high probability mode. Specifically, it is determined whether the high probability mode flags in the various flag storage areas of the RAM 64 are ON. The high probability mode flag is a flag used by the MPU 62 to specify whether or not the win/fail lottery mode is the high probability mode. , after that, it is turned off when the jackpot is won and the opening/closing execution mode is started. In step S30701, if it is determined that the mode is high probability mode (S30701: YES), the process advances to step S30702.

In step S30702, the validity determination is made with reference to the validity table for the high probability mode. Specifically, it is determined whether the value of the jackpot random number counter C1 stored in the execution area AE matches the value set as a jackpot winning in the high probability mode win/fail table. After that, the process advances to step S30704. On the other hand, if it is determined in step S30701 that the mode is not high probability mode (S30701: NO), the process advances to step S30703.

In step S30703, the validity determination is made with reference to the validity table for the low probability mode stored in the validity table storage area of the main side RAM 64. As described above, in this aspect, in the win/fail table setting process (step S30123) of the main process (FIG. 103), 6 numbers corresponding to each of the six lottery settings from "lottery setting 1" to "lottery setting 6" are selected. Among the types of low probability mode win/fail tables, the low probability mode win/fail table corresponding to the setting information indicating the lottery setting is stored in the win/fail table storage area of the main side RAM 64. As a result, in step S30703, the main MPU 62 refers to the low probability mode success/failure table corresponding to the setting information indicating the lottery setting. Specifically, for example, if the value of the setting information stored in the setting information storage area of the main side RAM 64 is "1", the win/fail table for the low probability mode corresponding to lottery setting 1 is stored on the main side. The success/failure determination is made by referring to the low probability mode success/failure table which is stored in the success/failure table storage area of the RAM 64 and corresponds to lottery setting 1. In the win/fail determination, it is determined whether the value of the jackpot random number counter C1 stored in the execution area AE matches the value set as a jackpot win in the low probability mode win/fail table corresponding to the setting information. do. After that, the process advances to step S30704.

In step S30704, it is determined whether the result of the win/fail determination (winning lottery) in step S30702 or step S30703 is a jackpot win. In step S30704, if the result of the judgment is a jackpot win (S30704: YES), in steps S30705 to S30712, processing for setting the gaming result in the case of a jackpot win and setting a stop result are performed. Execute the process.

In step S30705, it is determined whether the second symbol display section flag in the RAM 64 is ON. In step S30705, if it is determined that the second symbol display section flag is not ON (S30705: NO), proceed to step S30706, and refer to the distribution table for the first starting opening (see FIG. 8(a)). to make a distribution judgment. Specifically, the value of the jackpot type counter C2 stored in the execution area AE is in the numerical range of 16R probability variable jackpot, the numerical range of 8R probability variable jackpot, the numerical range of 16R normal jackpot, or the numerical range of 8R normal jackpot. Determine whether it is included in

On the other hand, if it is determined in step S30705 that the second symbol display section flag is ON (S30705: YES), the process proceeds to step S30707, and the distribution table for the second starting port (see FIG. 8(b)) Make a distribution decision by referring to the . Specifically, the value of the jackpot type counter C2 stored in the execution area AE is in the numerical range of 16R probability variable jackpot, the numerical range of 8R probability variable jackpot, the numerical range of 16R normal jackpot, or the numerical range of 8R normal jackpot. Determine whether it is included in After executing the process of step S30706 or step S30707. The process advances to step S30708.

In step S30708, it is determined whether the type of jackpot distributed in step S30706 or step S30707 is a variable probability jackpot. In step S30708, if it is determined that the game result is a probability variable jackpot (S30708: YES), the process advances to step S30709.

In step S30709, a stop result setting process for a probability variable jackpot is executed. The stop result setting process for a variable probability jackpot means that in the current game round in which a probability variable jackpot will be won, either stop result is displayed on the first symbol display section 37a or the second symbol display section 37b. This is a process for setting whether to end the display. Specifically, by referring to the stop result table for probability-variable jackpots stored in the stop result table storage area 63e, the address information of the stop result data corresponding to the type of jackpot distributed in step S30706 or step S30707 is obtained. The address information is stored in the stop result address storage area of the RAM 64. After executing step S30709, the process advances to step S30710.

In step S30710, a flag (jackpot type flag) corresponding to the type of jackpot distributed in step S30706 or step S30707 is turned ON. Specifically, if it is a 16R probability variable jackpot, the 16R probability variation flag is turned ON, and if it is an 8R probability variation jackpot, the 8R probability variation flag is turned ON. After that, the hit determination process ends.

On the other hand, if it is determined in step S30708 that the type of jackpot distributed in step S30706 or step S30707 is not a probability variable jackpot (S30708: NO), that is, if the type of jackpot distributed is a normal jackpot, step Proceed to S30711.

In step S30711, a stop result setting process for normal jackpot is executed. The normal jackpot stop result setting process means that in the current game round in which the normal jackpot is won, either stop result is displayed on the first symbol display section 37a or the second symbol display section 37b. This is a process for setting whether to end the display. Specifically, by referring to the stop result table for normal jackpots stored in the stop result table storage area 63e, the address information of the stop result data corresponding to the type of jackpot distributed in step S30706 or step S30707 is obtained. The address information is stored in the stop result address storage area of the RAM 64. After executing step S30711, the process advances to step S30712.

In step S30712, a flag (jackpot type flag) corresponding to the type of jackpot distributed in step S30706 or step S30707 is turned ON. Specifically, if it is a 16R normal jackpot, the 16R normal flag is turned ON, and if it is an 8R normal jackpot, the 8R normal flag is turned ON. After that, the hit determination process ends.

In step S30704, if the result of the winning lottery in step S30702 or step S30703 is not a jackpot (S30704: NO), the process proceeds to step S30713, and a stop result setting process for the case of a loss is executed. The stop result setting process for a miss is to end the variable display with either the stop result displayed on the first symbol display section 37a or the second symbol display section 37b in the current game round where the result is a miss. This is the process to set the Specifically, by referring to the stop result table for loss in the stop result table storage area 63e, address information of the stop result data corresponding to the value of the jackpot random number counter C1 stored in the execution area AE is obtained. Then, the address information is stored in the stop result address storage area of the RAM 64. After executing step S30713, the hit determination process ends.

As explained above, according to this aspect, in the main process (FIG. 103) executed upon the start of power supply, the The validity table setting process (FIG. 103: Step S30123) reads the validity table for the probability mode from the validity table storage area of the main side ROM 63 and writes the read validity table for the low probability mode into the validity table storage area of the main side RAM 64. In the hit determination process (FIG. 109), the low probability mode win/fail table stored in the win/fail table storage area of the main side RAM 64 is referred to, so the setting information is referenced when executing the hit determination process. You don't have to. Therefore, for example, even if the setting information is rewritten to another value that the administrator did not intend due to the influence of noise, etc., it is possible to Then, the hit determination process can be executed. Therefore, it is possible to provide a pachinko machine 10 that is less susceptible to noise and the like.

Note that in this aspect, the configuration is such that one type of validity table for high probability mode is used regardless of the setting information, but instead of this configuration, the validity table for high probability mode is The table may also be configured to use six types of high probability mode validity tables corresponding to each of the six levels of setting information. When adopting this configuration, in the main process, a high probability mode validity table corresponding to the setting information stored in the setting information storage area of the main side RAM 64 is read from the validity table storage area of the main side ROM 63, The read out high probability mode win/fail table is written in the win/fail table storage area of the main side RAM 64, and in the hit determination process, if the high probability mode is in progress, the high probability mode win/fail table stored in the win/fail table storage area of the main side RAM 64 is written. It may be configured to refer to the probability mode validity table. According to such a configuration, even in the high probability mode, there is no need to refer to the setting information when executing the hit determination process. Therefore, for example, even if the setting information is rewritten to another value that the administrator did not intend due to the influence of noise, etc., the information will be updated based on the validity table for high probability mode that corresponds to the setting information before being rewritten. Then, the hit determination process can be executed. Therefore, it is possible to provide a pachinko machine 10 that is less susceptible to noise and the like.

Further, in this aspect, a configuration is adopted in which the validity table setting process (step S30123) is always executed in the main process (FIG. 103) executed upon the start of power supply. The table setting process is executed when the setting information is changed in the setting change process (setting change mode) (step S30118), and if the setting change process (setting change mode) is not executed or If the setting information is not changed even if mode) is executed, the validity table setting process may not be executed. In other words, the validity table setting process does not need to be executed if the validity table stored in the validity table storage area of the main side RAM 64 corresponds to the setting information, and at least it is triggered by a change in the configuration information. It may be configured to execute as .

<Aspect 111>
Of the above aspects, in a configuration that can execute settings change mode and settings confirmation mode, during the period in which settings change mode is being executed, from when the settings change mode starts to when the settings information being changed is finalized. During the period, the DP light emitting part of the rightmost 7-segment display 45z4 of the information display section 45z is in a blinking state, and during the 2-second period from when the setting information is finalized until the relevant setting change mode ends, the relevant It is also possible to adopt a configuration in which the DP light emitting section is in a lit state. Further, the configuration may be such that the DP light emitting section of the rightmost 7-segment display 45z4 of the information display section 45z is lit while the setting confirmation mode is being executed. This will be explained in detail below.

FIG. 110 is an explanatory diagram showing how setting information is displayed on the information display section 45z in aspect 111 of the first embodiment. FIG. 110(A) and FIG. 110(B) are explanatory diagrams showing the display mode of the information display section 45z while the setting change mode is being executed. As shown in FIGS. 110(A) and 110(B), during execution of the setting change mode in this aspect, the three 7-segment displays on the left of the information display section 45z (the leftmost 7-segment display 45z1, the left center The 7-segment display 45z2 and the middle right 7-segment display 45z3) function as a type information display area that displays type information of the mode being executed, and display a message "set." indicating that the setting change mode is being executed. Display a string. The rightmost 7-segment display 45z4 of the information display section 45z functions as a numerical information display area for displaying numerical information of setting information, and displays numerical information of setting information of lottery setting.

Here, the setting change mode consists of two periods, specifically, the period during which the setting information can be changed, and the period from the start of the setting change mode until the setting information is finalized. and a fixed period during which the setting information cannot be changed, from when the setting information is finalized until the setting change mode ends.

In this aspect, as shown in FIG. 110(A), during the change period of the setting change mode, the rightmost 7-segment display 45z4 displays numerical information of the currently selected setting information, and The DP light emitting section of the segment display 45z4 is in a blinking state. In the example shown in FIG. 110(A), the rightmost 7-segment display 45z4 displays the numerical value "1" as the numerical information of the currently selected setting information, and the DP of the rightmost 7-segment display 45z4 The light emitting section is in a blinking state.

After that, when the administrator, etc. turns the setting key (keyhole) from the ON side to the OFF side to confirm the setting information, the setting change mode shifts from the change period to the confirmation period, as shown in FIG. 110(B). , the DP light emitting section of the rightmost 7-segment display 45z4 changes from a blinking state to a lit state, and after continuing the lit state for 2 seconds, the four 7-segment displays 45z1 to 45z4 of the information display section 45z turns off and exits the setting change mode. In the example shown in FIG. 110(B), the rightmost 7-segment display 45z4 displays the numerical value "2" as the numerical information of the confirmed setting information, and the DP light emitting unit of the rightmost 7-segment display 45z4 is blinking.

That is, the DP light emitting part of the rightmost 7-segment display 45z4 displays the setting information when the setting key (keyhole) is turned to the OFF side after the setting change mode is started during the period in which the setting change mode is being executed. It is in a flashing state during the change period until it is confirmed, and the setting key (keyhole) is turned from the ON side to the OFF side by the administrator etc. while the setting change mode is being executed. It remains lit during the two second confirmation period from when the information is confirmed until the setting change mode ends.

Next, the display mode of the information display section 45z in the setting confirmation mode will be explained.

FIG. 110(C) is an explanatory diagram showing the display mode of the information display section 45z while the setting confirmation mode is being executed. As shown in FIG. 110(C), during execution of the setting confirmation mode in this aspect, the three 7-segment displays on the left of the information display section 45z (the leftmost 7-segment display 45z1, the middle left 7-segment display 45z2, and The middle right 7-segment display 45z3) functions as a type information display area that displays type information of the mode being executed, and displays a character string "sec." indicating that the setting confirmation mode is being executed. The rightmost 7-segment display 45z4 of the information display section 45z functions as a numerical information display area for displaying numerical information of the setting information, and displays the numerical information of the currently set setting information. In the example shown in FIG. 110(C), the rightmost 7-segment display 45z4 displays the numerical value "2" as the numerical information of the currently set setting information, and the DP of the rightmost 7-segment display 45z4 The light emitting section is in a lit state.

Next, an example of the process executed by the main MPU 62 in this embodiment will be specifically described.

The main MPU 62 in this embodiment executes main processing and timer interrupt processing. The contents of the main processing and timer interrupt processing executed by the main MPU 62 in this embodiment are the same as the main processing (FIG. 103) and timer interrupt processing (FIG. 104) described in embodiment 110, but the main processing (FIG. 103) The details (subroutines) of the setting change processing (step S30118) and setting confirmation processing (step S30112) are different. Therefore, details (subroutines) of the setting change processing and setting confirmation processing executed by the main MPU 62 in this embodiment will be described below.

FIG. 111 is a flowchart showing a setting change process executed by the main MPU 62 (main CPU 62x) in aspect 111 of the first embodiment. This setting change process is executed as a subroutine of step S30118 in FIG. 103.

In step S30801, a setting change mode start command, which is a command indicating that the setting change mode has started, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the settings change mode start command, it executes a process of notifying that the settings change mode has started. Specifically, in this aspect, the speaker 46 outputs a voice saying "Setting change mode has started", and then the speaker 46 repeatedly outputs a voice saying "Setting change mode is in progress". Further, upon receiving the setting change mode start command, the sound emission control device 90 causes the symbol display device 41 to display information indicating that the setting change mode is in progress. Specifically, in this aspect, the audio light emission control device 90 sends a command to the display control device 100 to cause the symbol display device 41 to display a character string such as "Setting change mode in progress", and receives the command. The display control device 100 causes the symbol display device 41 to display a character string such as "Setting change mode in progress." Further, upon receiving the setting change mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Note that, after transmitting the setting change mode start command to the audio emission control device 90, the configuration may be such that information indicating that the setting change mode has been started is sent to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting change mode has started may be configured to display information about the pachinko machine 10 in the setting change mode on the management screen. After executing step S30801, the process advances to step S30802.

In step S30802, the setting changing flag in the main RAM 64 is turned on. As described above, the settings changing flag is a flag that indicates that the settings change process (settings change mode) has started, and a flag that indicates that the settings change process (settings change mode) has not yet ended. It is. After executing step S30802, the process advances to step S30803.

In step S30803, initial setting processing at the start of setting change is executed. In the initial setting process at the start of setting change, initial settings necessary for starting the setting change process are executed. Further, in this aspect, in the initial setting process at the start of setting change, it is determined whether the RAM abnormality flag is ON, and if it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. Make it. After executing step S30803, the process advances to step S30804.

In step S30804, setting information for lottery settings stored in the main side RAM 64 is read and saved as update setting information. Specifically, in this aspect, setting information of the lottery settings stored in the setting information storage area of the main side RAM 64 is read, and the read setting information is transferred to other areas other than the setting information storage area of the main side RAM 64. Copy to the update setting information storage area. After executing step S30804, the process advances to step S30805.

In step S30805, control is started to read the update setting information stored in the update setting information storage area of the main side RAM 64 and display the read update setting information on the information display section 45z. Specifically, as described above, the setting change mode is displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3. The character string "set." indicating that is being executed starts to be displayed, and the rightmost 7-segment display 45z4 starts to display the update setting information, and the DP of the rightmost 7-segment display 45z4 is started to be displayed. Starts the flashing display on the light emitting section. In this way, the change period described above begins. After executing step S30805, the process advances to step S30806.

In step S30806, it is determined whether the update setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so whether the update setting information is a numerical value within the range from "1" to "6"? Determine whether or not. If it is determined in step S30806 that the update setting information is a numerical value within a predetermined range (step S30806: YES), the process advances to step S30808. On the other hand, if it is determined in step S30806 that the update setting information is not a numerical value within the predetermined range (step S30806: NO), for example, if "0" or "7" is stored as the update setting information If information other than numerical values is stored due to noise or the like, the process advances to step S30807 and the update setting information is changed to the initial value. In this aspect, "1" is stored as an initial value in the update setting information. After that, the process advances to step S30808.

In step S30808, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. Inside, a signal indicating a low level is monitored, and when a falling edge of the signal falling from a high level to a low level is detected, it is determined that the setting key (keyhole) has turned to the OFF side. If it is determined in step S30808 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S30808: NO), the process advances to step S30809, and a check is made as to whether the setting change button has been pressed. Determine. If it is determined in step S30809 that the setting change button has been pressed (step S30809: YES), the process advances to step S30810, and the update setting information is updated. Specifically, 1 is added to the numerical information stored as update setting information. However, if the setting change button is pressed in a situation where the numerical information stored as update setting information is "6", the numerical information is updated to "1". Thereafter, the process returns to step S30806 described above, and it is determined whether the updated update setting information is a numerical value within a predetermined range. On the other hand, if it is determined in step S30809 that the setting change button has not been pressed (step S30809: NO), the process returns to step S30806 described above without executing the process in step S30810, and the update setting information is It is determined whether the value is within a predetermined range.

In step S30808 described above, if it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side (step S30808: YES), the process advances to step S30811.

In step S30811, the update setting information stored in the main side RAM 64 is read and saved as setting information. Specifically, in this aspect, the update setting information stored in the update setting information storage area of the main side RAM 64 is read, and the read update setting information is copied to the setting information storage area of the main side RAM 64. do. After executing step S30811, the process proceeds to step S30812, where the rightmost 7-segment display 45z4 starts displaying the setting information, and the display mode of the DP light emitting unit of the rightmost 7-segment display 45z4 is changed from blinking to lit. Switch. After that, the process advances to step S30813 and wait processing is executed. In the wait process, the process waits for 2 seconds without proceeding to the next process. As a result, the character string "set." is lit and displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3 of the information display section 45z. The state in which the finalized setting information is displayed on the rightmost 7-segment display 45z4 and the DP light emitting section of the rightmost 7-segment display 45z4 is displayed continues for two seconds. This two seconds is the above-mentioned confirmation period. Thereafter, the process advances to step S30814, and the control for displaying the setting information on the information display section 45z ends. Specifically, the four seven-segment displays 45z1 to 45z4 constituting the information display section 45z are turned off. After that, the process advances to step S30815.

In step S30815, first RAM clear processing is executed. In the first RAM clearing process, information other than the setting information of the lottery setting stored in the setting information storage area of the main side RAM 64 is erased. When this first RAM clearing process is executed, the above-mentioned setting change flag is also cleared (turned OFF). After executing step S30815, the process advances to step S30816.

In step S30816, a setting change mode end command, which is a command indicating that the setting change mode has ended, is transmitted to the audio emission control device 90. As will be described later, upon receiving the settings change mode end command, the audio emission control device 90 executes a process of notifying that the settings change mode has ended. Specifically, in this aspect, the speaker 46 stops outputting the voice such as "Settings change mode in progress" and outputs the voice such as "Settings change mode has ended" from the speaker 46. Further, the control for notifying that the symbol display device 41 and various lamps 47 are in the setting change mode is ended.

It should be noted that, after transmitting the setting change mode termination command to the audio emission control device 90, information indicating that the setting change mode has been terminated may be transmitted to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting change mode has ended may be configured to display information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen.

After executing step S30816, this setting change process ends. In addition, after executing the setting change notification termination process, the setting information of the changed lottery setting is sent to the hall computer of the gaming hall via an external terminal, and the hall computer that receives the information displays the relevant information on the management screen. It may also be configured to display setting information of the changed lottery settings of the pachinko machine 10.

Next, details of the setting confirmation process in this aspect will be explained.

FIG. 112 is a flowchart showing a setting confirmation process executed by the main MPU 62 (main CPU 62x) in aspect 111 of the first embodiment. This setting confirmation process is executed as a subroutine of step S30112 in FIG. 103.

In step S30901, a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has started, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the setting confirmation mode start command, it executes a process of notifying that the setting confirmation mode has started. Specifically, in this aspect, the speaker 46 outputs a voice saying "setting confirmation mode has started", and then the speaker 46 repeatedly outputs a voice saying "setting confirmation mode is in progress". Further, upon receiving the setting confirmation mode start command, the audio emission control device 90 causes the symbol display device 41 to display information indicating that the setting confirmation mode is in progress. Specifically, in this aspect, the audio emission control device 90 transmits a command for displaying a character string such as “Setting confirmation mode” on the symbol display device 41 to the display control device 100, and receives the command. The display control device 100 causes the symbol display device 41 to display a character string such as "In setting confirmation mode." Further, upon receiving the setting confirmation mode start command, the audio light emission control device 90 controls the various lamps 47 to alternately turn on and off at maximum brightness and blink.

Note that, after transmitting the setting confirmation mode start command to the audio emission control device 90, information indicating that the setting confirmation mode has been started may be transmitted to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting confirmation mode has started may be configured to display information about the pachinko machine 10 in the setting confirmation mode on the management screen. After executing step S30901, the process advances to step S30902.

In step S30902, the setting confirmation flag in the main side RAM 64 is turned ON. As described above, the settings confirmation flag is a flag that indicates that the settings confirmation process (settings confirmation mode) has started, and a flag that indicates that the settings confirmation process (settings confirmation mode) has not yet ended. It is. After executing step S30902, the process advances to step S30903.

In step S30903, control is started to display setting information for lottery settings stored in the setting information storage area of the main side RAM 64 on the information display section 45z. Specifically, as described above, the setting confirmation mode is displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3. The character string "sec." indicating that the process is being executed starts to be displayed, and the rightmost 7-segment display 45z4 starts to display the setting information, and the DP light emitting unit of the rightmost 7-segment display 45z4 is turned on. Starts the lighting display. After executing step S30903, the process advances to step S30904.

In step S30904, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. The inside monitors the signal indicating the low level, and when the falling edge of the signal from high level to low level is detected, it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side. judge. In step S30904, if it is determined that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S30904: NO), step S30904 is executed again. On the other hand, if it is determined in step S30904 that the setting key (keyhole) has shifted from the ON side to the OFF side (step S30904: YES), the process advances to step S30905. That is, until the setting key (keyhole) moves from the ON side to the OFF side, an infinite loop is repeated and the process does not proceed to step S30905, and when the setting key (keyhole) moves from the ON side to the OFF side, the process moves to step S30905. move on.

In step S30905, the control for displaying setting information of lottery settings on the information display section 45z is ended. Specifically, the four seven-segment displays 45z1 to 45z4 constituting the information display section 45z are turned off. As a result, the character string "sec." is lit and displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3 of the information display section 45z. The state in which the setting information is lit and displayed on the rightmost 7-segment display 45z4 and the DP light emitting part of the rightmost 7-segment display 45z4 is lit is the state in which the setting confirmation mode is started. This continues until the key (keyhole) moves to the OFF side. After executing step S30905, the process advances to step S30906.

In step S30906, the setting changing flag in the main RAM 64 is turned OFF. After that, the process advances to step S30907.

In step S30907, a setting confirmation mode end command, which is a command indicating that the setting confirmation mode has ended, is transmitted to the audio emission control device 90. As will be described later, upon receiving the setting confirmation mode termination command, the audio emission control device 90 executes a process of notifying that the setting confirmation mode has been terminated. Specifically, in this aspect, the speaker 46 stops outputting a voice such as "Setting confirmation mode in progress" and causes the speaker 46 to output a voice such as "Setting confirmation mode has ended." Further, the control for notifying that the symbol display device 41 and various lamps 47 are in the setting confirmation mode is ended.

It should be noted that, after transmitting the setting confirmation mode termination command to the audio emission control device 90, a configuration may be adopted in which information indicating that the setting confirmation mode has been terminated is transmitted to the hall computer of the gaming hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting confirmation mode has ended may be configured to display information indicating that the setting confirmation mode of the pachinko machine 10 has ended on the management screen. After executing step S30907, this setting confirmation process ends.

As explained above, according to this aspect, the display mode of the DP light emitting part of the rightmost 7-segment display 45z4 is a blinking display during the change period of the setting change mode, and a lit display after transitioning to the confirmation period. to move to. Further, the display mode of the DP light emitting section of the rightmost 7-segment display 45z4 is a lighting display in the setting confirmation mode. Therefore, according to this aspect, by simply using the DP light emitting section of the rightmost 7-segment display 45z4, which can have at least two display modes, it is possible to determine whether the currently running mode is the setting change mode or the setting confirmation mode. It is possible to make the administrator clearly recognize that the setting information being changed in the setting change mode has been finalized and the change period has transitioned to the finalization period. Further, according to this aspect, the setting information cannot be changed during the determination period of the setting change mode and the setting confirmation mode, and the display mode of the DP light emitting part of the rightmost 7-segment display 45z4 is The display is lit. Therefore, the administrator can recognize that the fact that the display mode of the DP light emitting section of the rightmost 7-segment display 45z4 is lit means that the setting information cannot be changed.

<Aspect 112>
Among the above aspects, in a configuration in which the setting change mode can be executed, when the pachinko machine 10 is started in the setting change mode when the power is turned on, a predetermined LED provided at a position visible from the front of the pachinko machine 10 A configuration may be adopted in which the lamp is turned on and the LED lamp continues to be lit until the power supply to the pachinko machine 10 is cut off. According to this configuration, the administrator of the pachinko machine 10 confirms that the LED lamp of the pachinko machine 10, which should not have been activated in the setting change mode, is lit during business hours of the game hall. In this case, it becomes possible to recognize that the pachinko machine 10 has been illegally started in the setting change mode by someone other than the administrator (for example, an unauthorized person, a cheater). This will be explained in detail below.

FIG. 113 is a front view of the game board 30 in aspect 112. The difference from the game board 30 shown in FIG. 3 is that a setting change mode execution lamp 45x constituted by an LED is provided near the main display section 45. This setting change mode execution lamp 45x turns on when the pachinko machine 10 is started in the setting change mode (when the setting change process is executed), and the setting change mode ends and the game can proceed. Even after transitioning to this state, the lighting state is maintained.

FIG. 114 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 112. The main difference from the pachinko machine 10 shown in FIG. 42 is that the above-mentioned setting change mode execution lamp 45x is connected to the input/output port 45x of the main MPU 62. That is, in this aspect, the setting change mode execution lamp 45x is configured to be controlled not by a sub-side control device such as the sound emission control device 90, but by the main control device 60 that controls the game.

FIG. 115 is a flowchart showing the main processing executed by the main MPU 62 (main CPU 62x) of aspect 112 when the power is turned on. The difference from the main processing of the aspect 110 shown in FIG. The point is to execute. That is, in this aspect, when the setting change process (setting change mode) is executed, the setting change mode execution lamp lighting process (step S12417b) is executed prior to the execution of the setting change process (setting change mode). is configured to be

In the setting change mode execution lamp lighting process of step S12417b, a process of lighting the setting change mode execution lamp 45x described above is executed. After the setting change mode execution lamp lighting process is executed, the setting change mode execution lamp 45x remains lit. After executing step S12417b, the process proceeds to the setting change process (setting change mode) of step S12418 described above.

Therefore, in this aspect, when the setting change process (setting change mode) is executed in the main process, the setting change mode execution lamp 45x is turned on from immediately before the start of execution of the setting change process (setting change mode), and the corresponding setting change mode execution lamp 45x is lit. Even after the setting change process (setting change mode) ends, the setting change mode execution lamp 45x remains lit. As a result, the lighting state of the setting change mode execution lamp 45x continues until the power supply to the pachinko machine 10 is cut off. On the other hand, if the setting change process (setting change mode) is not executed in the main process, the setting change mode execution lamp 45x does not light up and remains in the off state.

As explained above, according to this aspect, the setting change mode execution lamp 45x is turned on when the setting change mode is executed, so the administrator can make sure that the setting change mode execution lamp 45x is lit. By checking whether the setting change mode is being executed in the pachinko machine 10, it is possible to check whether the setting change mode is being executed in the pachinko machine 10. Then, for example, if the administrator confirms that the setting change mode execution lamp 45x is lit in the pachinko machine 10 where the setting change mode is not supposed to be executed when power supply is started, It can be recognized that some kind of fraud has been performed on the pachinko machine 10 so that the setting change mode is executed by someone other than the administrator (for example, a master).

Further, according to this aspect, the setting change mode execution lamp 45x remains lit even after the setting change mode ends, so that the administrator can set the settings in the pachinko machine 10 when power supply is started. It is possible to check whether the change mode has been executed even after the setting change mode has ended. Then, for example, when the administrator confirms that the setting change mode execution lamp 45x is lit in the pachinko machine 10, which should not be in the setting change mode when power supply is started, The player can recognize that some kind of fraud has been performed on the pachinko machine 10 so that the setting change mode is executed by someone other than the administrator (for example, a master).

Further, according to this aspect, since the setting change mode execution lamp 45x is provided at a position that can be seen from the front of the pachinko machine 10, the administrator can, for example, The display mode of the setting change mode execution lamp 45x can be confirmed by simply walking around the passage where players come and go without moving to the back side of the player.

In this aspect, the setting change mode execution lamp 45x is configured to be turned on before the start of the setting change mode, but instead of this configuration, the setting change mode execution lamp 45x may be turned on after the setting change mode ends. It is good also as a structure which maintains the said lighting state. Even with such a configuration, the administrator can confirm whether or not the setting change mode has been executed in the pachinko machine 10 when power supply is started. Then, for example, when the administrator confirms that the setting change mode execution lamp 45x is lit in the pachinko machine 10, which should not be in the setting change mode when power supply is started, The player can recognize that some kind of fraud has been performed on the pachinko machine 10 so that the setting change mode is executed by someone other than the administrator (for example, a master).

Further, in this aspect, the setting change mode execution lamp 45x is configured to remain lit even after the setting change mode ends, but instead of this configuration, the setting change mode execution lamp 45x turns off after the setting change mode ends. It is also possible to have a configuration in which Even with such a configuration, it is possible to check from the front of the pachinko machine 10 whether or not the setting change mode is being executed in the pachinko machine 10.

Furthermore, in this aspect, the setting change mode execution lamp 45x is provided which is lit when the setting change mode is executed, but when a specific process other than the setting change mode is executed. A configuration may also be adopted in which a light-emitting lamp that is turned on is provided. Even with such a configuration, for example, if the administrator confirms that the light emitting lamp is lit in a pachinko machine 10 that is not supposed to be executing a specific process, the administrator can notify a person other than the administrator It is possible to recognize that some kind of fraud has been performed on the pachinko machine 10 so that the specific process is executed by someone (for example, a trickster).

<Aspect 113>
Among the above aspects, the setting change mode is executed in a configuration in which the setting change mode can be executed and the base (during normal mode), accessory ratio, and continuous accessory ratio are calculated and displayed as game history information. If the setting information is changed, the change in the setting information will trigger the change in the accessory ratio and continuous accessory ratio of the basic gaming history information that is the basis for calculating the gaming history information. It may be configured such that the game history basic information necessary for calculating the base is deleted, but the game history basic information necessary for calculating the base (in normal mode) is not deleted.

Below, before explaining the specific configuration of this aspect, the characteristics of each piece of game history information will be explained.

When the setting information of the lottery settings is changed in the setting change mode, the probability of winning a jackpot in the winning lottery changes, so the frequency at which the variable winning device 36 as a special electric accessory changes, and as a result, the setting information changes. The values at which the accessory ratio and continuous accessory ratio converge will change before and after the change. That is, it can be said that the accessory ratio and the continuous accessory ratio are game history information that is affected by changes in setting information. When calculating the accessory ratio and the continuous accessory ratio after the setting information is changed, it is preferable not to use the game history basic information before the setting information is changed as the basis for calculation.

On the other hand, even if the setting information of the lottery setting is changed in the setting change mode, the convergence value of the base (during normal mode) does not change. That is, it can be said that the base (in normal mode) is game history information that is not affected by changes in setting information. In addition, the base (during normal mode) is the ease with which game balls enter each ball entry port (general winning port and starting port) during normal mode, that is, the performance of the game board 30 of the pachinko machine 10. Therefore, if there is no change in the configuration of the nails, general prize openings, etc. on the game board 30, even if the setting information of the lottery setting is changed in the setting change mode, it will converge to the same value. . Therefore, it is preferable to calculate a more accurate convergence value by calculating the base (during normal mode) based on a large amount of data accumulated over a long period of time, regardless of whether or not the setting information has been changed. .

In the following, among gaming history information, gaming history information such as base (in normal mode) that is not affected by changes in setting information is also referred to as "Type 1 gaming history information" and is not affected by changes in setting information. Game history information such as the role model ratio and the continuous role model ratio is also particularly referred to as "second type game history information." The base (in normal mode) is also simply referred to as "base."

Here, in this aspect, when the setting information is changed in the setting change mode, among the game history basic information, the game history basic information that is the basis for calculating the second type game history information is deleted, and the first type The basic game history information, which is the basis for calculating the seed game history information, is configured not to be deleted. The game history basic information that is the basis for calculating the first type game history information (base) is, for example, the number of game balls entering each ball entrance in the normal mode, and the second type game history information The game history basic information that is the basis for calculating the (accessory object ratio/continuous role object ratio) is, for example, the number of game balls entered into each ball entry opening that is stored without distinguishing the gaming state.

As explained above, according to this aspect, when the setting information is changed, the game history basic information, which is the basis for calculating the second type game history information, is deleted from the game history basic information, so that the setting information The game history basic information before the change and the game history basic information after the setting information change coexist, and type 2 game history information is created based on both the game history basic information before and after the setting information change. can be suppressed from being calculated, and the storage capacity of the changed game history basic information to be newly stored can be secured. On the other hand, when the setting information is changed, the game history basic information, which is the basis for calculating the first type game history information, is not deleted, so it will not be deleted regardless of whether the setting information is changed. Highly accurate type 1 game history information can be calculated based on game history basic information accumulated over a long period of time. Therefore, administrators and inspectors can confirm the type 2 gaming history information based on the basic gaming history information after changing the setting information, and also check the accuracy based on the basic gaming history information accumulated over a long period of time. It becomes possible to check the first type game history information with a high level of performance.

<Aspect 114>

Among the above aspects, in a configuration that can execute the setting change mode and calculates and displays the base, accessory ratio, and continuous accessory ratio as game history information, the base is not affected by changes in setting information. (Type 1 game history information) is calculated without dividing it into sections (periods) with changes in setting information as boundaries, and is calculated without dividing into sections (periods) with changes in setting information as the boundary. History information) may be calculated separately for each section (period) with changes in setting information as boundaries. According to such a configuration, the administrator and inspector can check the highly accurate base (Type 1 gaming history information) calculated from a wide range (period) that does not divide into sections, and can also check the setting information. Regarding the accessory ratio and continuous accessory ratio (second type game history information) that are affected by the change, it is possible to check them separately for each section with the change in setting information as the boundary.

<Aspect 115>
Among the above aspects, in a configuration that can execute the setting change mode and calculates and displays the base, accessory ratio, and continuous accessory ratio as game history information, when the setting information is changed, the game Although the history basic information is deleted, the game history information calculated based on the game history basic information may not be deleted. According to such a configuration, it is possible to secure storage capacity for new gaming history basic information to be stored, and the administrator and inspector can also use the gaming history basic information before the setting information is changed. The game history information calculated based on the game history basic information that has been deleted (that is, the game history information before the setting information was changed) is used as the game history basic information that was the basis for calculating the game history information. It is possible to check even after the setting information has been deleted (that is, after the setting information has been changed).

It should be noted that other conditions other than the fact that the setting information has been changed can be used as the trigger for erasing the game history basic information. For example, the game history basic information may be deleted when the measured number N _OUT of items passing through the discharge passage reaches 60,000. According to such a configuration, it is possible to secure storage capacity for new game history basic information to be stored, and the administrator and inspector can also keep track of the number of pieces _NOUT that have passed through the discharge passage when it reaches 60,000. It becomes possible to check the game history information calculated each time the game history information is calculated even after the game history basic information on which the game history information was calculated has been deleted.

<Aspect 116>
Among the above aspects, in a configuration that can execute the setting change mode and calculates and displays the base, accessory ratio, and continuous accessory ratio as game history information, the configuration described below may be adopted. good. The configuration of this embodiment will be specifically explained below.

In this aspect, the second area of the main RAM 64 is provided with a specific storage area designated by predetermined consecutive addresses, and the main CPU 62 The information stored in the specific storage area of the second area of the main side RAM 64 is erased, and the information stored in the storage area other than the specific storage area of the second area of the main side RAM 64 is not erased. It is composed of As mentioned above, the second area of the main RAM 64 stores programs for executing processing for calculating and displaying gaming history information (gaming history processing) and various numerical information (prize ball total value, etc.). This is a storage area used as an area for storing game history basic information such as information on the number of balls entered, game history information such as base, role object ratio, continuous role object ratio, etc.

In this aspect, the main CPU 62x controls the second type of game history basic information acquired as the game progresses, which is the basis for calculating the second type game history information (accessory object ratio, continuous role object ratio). The basic game history information is stored in a specific storage area of the second area of the main side RAM 64, and the first type game history basic information, which is the basis for calculating the first type game history information (base), is stored in the second area of the main side RAM 64. 2 area is stored in a storage area other than the specific storage area.

Therefore, according to this aspect, when the setting information is changed, it is possible to determine whether the basic game history information stored in the second area of the main side RAM 64 is the basic game history information to be deleted or not. You can delete the type 2 game history basic information, which is the basis for calculating the type 2 game history information that is affected by changes to the setting information, all at once, without having to judge whether it is basic information or not. The second type game history basic information, which is the basis for calculating the first type game history information and is not affected by changes, can be left without being deleted. In other words, when erasing basic gaming history information in response to a change in setting information, it is possible to omit the process of discriminating between basic gaming history information to be erased and basic gaming history information not to be erased, thereby simplifying the process. be able to.

Further, according to this aspect, since the specific storage area of the second area of the main side RAM 64 where information is erased when the setting information is changed is a storage area specified by a predetermined continuous address, The process of collectively erasing the second type game history basic information stored in a specific storage area of the second area of the main side RAM 64 can be further simplified.

In addition, in this aspect, the specific storage area of the second area of the main side RAM 64 where information is erased when the setting information is changed is a storage area specified by a predetermined continuous address. The storage area does not necessarily have to be specified by consecutive addresses, but may be a storage area specified by discrete addresses.

<Aspect 117>
Among the above aspects, in the configuration for calculating and displaying game history information, the number of game balls entering each ball entry section during a predetermined period is not used as the basis for calculating game history information (not used for calculation) It may also be a configuration. Hereinafter, this predetermined period will also be referred to as a "non-measurement period." In this configuration, for example, with the game board 30 in an open state, a game ball is directly entered into a prize opening, a starting opening, etc., and an operation test is performed to determine whether the pachinko machine 10 operates normally or not during a non-measurement period. By doing so, it is possible to prevent the influence of the operation test from affecting the game history information. As a result, the administrator and the inspector can confirm accurate gaming history information that is not affected by the operation inspection.

Specifically, for example, during the non-measurement period, the number N _OUT of passing through the discharge passage measured after the supply of power to the pachinko machine 10 is started is a predetermined number (for example, 300 If the above-mentioned operation test of the pachinko machine 10 is performed immediately after the power supply to the pachinko machine 10 is started, the influence of the operation test can be minimized on the game. It is possible to prevent historical information from being accessed. As a result, the administrator can check the game history information that has been affected by the operation test, and can prevent the administrator from misunderstanding that a malfunction has occurred in the pachinko machine 10. .

For example, the non-measurement period may be from the time when the pachinko machine 10 is started in the setting change mode until the number of pieces passing through the discharge passage _NOUT , which is measured after the end of the setting change mode, reaches a predetermined number (for example, 300 pieces). If the above-mentioned period is adopted, the operation inspection of the pachinko machine 10 described above is performed immediately after the setting change mode of the pachinko machine 10 ends, so that the influence of the operation inspection does not affect the game history information. can do. As a result, the administrator can check the game history information that has been affected by the operation test, and can prevent the administrator from misunderstanding that a malfunction has occurred in the pachinko machine 10. .

Also, for example, if a period during which a predetermined switch is pressed is adopted as the non-measurement period, the administrator can start the non-measurement period at any timing by pressing the switch. This makes it possible to perform the above-described operation test of the pachinko machine 10 at any timing while ensuring that the game history information is not affected by the operation test.

Note that various other periods can be adopted as the non-measurement period. For example, the period from when the RAM clearing process is executed until the number of pieces passing through the exhaust passage _NOUT , which is measured after the RAM clearing process is executed, reaches a predetermined number (for example, 300 pieces), or the period when the pachinko machine 10 is powered A period such as a period from when supply is started until a predetermined time (for example, 10 minutes) has passed can be adopted.

<Aspect 118>
Among the above embodiments, in the configuration in which the calculated game history information is displayed on the information display section 45z, an information display section that executes display control of the information display section 45z is provided between the information display section 45z and the main control board 61. A configuration may also be adopted in which a driving IC 45y is provided. An example of a specific configuration will be described below.

FIG. 116 is a block diagram showing the electrical configuration of the pachinko machine 10 in aspect 118 of the first embodiment. As described above, in this embodiment, display control of the four 7-segment displays 45z1, 45z2, 45z3, and 45z4 making up the information display section 45z is performed between the information display section 45z and the main control board 61. An information display unit driving IC 45y is provided. The other configurations are the same as the electrical configuration of the pachinko machine 10 shown in FIG. 114.

The main side MPU 62 provided in the main control board 61 executes the main processing at power-on (FIG. 103), and then executes the timer interrupt processing (FIG. 104) every 4 ms. The timer interrupt process includes a game history process (step S30216), and the game history process calculates the game history information to be displayed on the information display section 45z, and calculates the type and numerical value of the calculated game history information. The information is transmitted to the display control IC 45y. That is, the main MPU 62 calculates the game history information to be displayed on the information display section 45z every 4 ms, and transmits information regarding the type and numerical value of the calculated game history information to the display control IC 45y.

When the information display unit driving IC 45y receives information regarding the type and numerical value of the game history information from the main side MPU 62, the information display unit driving IC 45y controls four ICs so that the information regarding the type and numerical value of the received game history information is displayed on the information display unit 45z. 7-segment displays 45z1, 45z2, 45z3, and 45z4, and maintains the mode displayed by the information display unit 45z until new information regarding the type and numerical value of game history information is received from the main MPU 62. Four 7-segment displays 45z1, 45z2, 45z3, and 45z4 are controlled as follows.

Specifically, for example, when the information display unit driving IC 45y receives information such as “b6.35” as information regarding the type and numerical value of game history information from the main MPU 62, it displays “b6.35” on the information display unit 45z. The four 7-segment displays 45z1, 45z2, 45z3, and 45z4 are controlled so that character strings such as The four 7-segment displays 45z1, 45z2, 45z3, and 45z4 are controlled so that the display unit 45z holds the character string "b6.35" currently displayed.

That is, in this aspect, even if the main MPU 62 becomes unable to newly transmit information regarding the type and numerical value of game history information, the information display unit driving IC 45y is provided. Therefore, the information display section 45z can maintain the display mode based on the information regarding the type and numerical value of the gaming history information that the information display section driving IC 45y last received from the main MPU 62.

Note that the state in which the main MPU 62 is unable to newly transmit information regarding the type and numerical value of game history information means, for example, as explained in aspect 110, an abnormality occurs in the fraud detection process (FIG. 104: step S30215). This is a state in which the game stop flag is turned ON by detecting magnetism or shaking, and execution of the game history process (step S30216) is avoided in the timer interrupt process.

As explained above, according to this aspect, since the information display unit driving IC 45y is provided to maintain the display mode of the information display unit 45z until the next game history information is transmitted from the main side MPU 62, the information display unit driving IC 45y is provided. Until the next game history information is transmitted, the game history information transmitted before the next game history information can be continued to be displayed on the information display section 45z. For example, after a piece of game history information is output from the main MPU 62, the piece of game history information is not displayed on the information display section 45z until the next piece of game history information is transmitted. I will continue. Therefore, for example, the administrator or inspector of the gaming machine can, even if the gaming stop flag is turned on after one gaming history information is output from the main MPU 62 and the next gaming history information is not transmitted. Since the one game history information continues to be displayed on the information display section 45z, it is possible to check the one game history information that continues to be displayed on the information display section 45z.

Further, according to this aspect, the administrator who does not want the game history information to be inspected by the inspector intentionally generates abnormal magnetism or shaking to turn on the game stop flag and avoid execution of the game history process. Even if an attempt is made to prevent the next game history information from being transmitted from the main side MPU 62 and to prevent the game history information from being displayed on the information display section 45z, the information display section driving IC 45y will not change the display mode of the information display section 45z. , the game history information transmitted before the game stop flag was turned ON continues to be displayed on the information display section 45z. Therefore, according to this aspect, the inspector checks the game history information that is continuously displayed on the information display section 45z and that was transmitted from the main side MPU 62 before the game stop flag was turned ON. be able to.

<Aspect 119>
Among the above embodiments, in a configuration in which the calculated game history information and lottery setting setting information are displayed on the information display section 45z, information regarding a malfunction that has occurred in the pachinko machine 10 (for example, an error code) is displayed on the information display section 45z. It may also be configured to be displayed. An example of a specific configuration will be described below.

In this aspect, an error code corresponding to the content of the malfunction occurring in the pachinko machine 10 is set in advance, and when the occurrence of a malfunction in the pachinko machine 10 is detected, the malfunction information storage area provided in the main side RAM 64 is stored. The error code corresponding to the problem is stored. Then, when the error code is stored in the main side RAM 64, a signal for displaying the error code on the information display section 45z is transmitted, and the information display section 45z displays the error code instead of the game history information. , continues displaying the error code until it receives a signal indicating that the problem corresponding to the error code has been resolved.

Further, in this aspect, the main control device 60 and the payout control device 70 are configured to be able to communicate with each other, and the malfunction information storage area of the main side RAM 64 stores information about malfunctions that have occurred in the main control device 60 of the pachinko machine 10. Not only the corresponding error code but also an error code corresponding to a malfunction occurring in the dispensing control device 70 or the dispensing device 71 is stored. Specifically, in this aspect, when a malfunction occurs in the dispensing control device 70 or the dispensing device 71, the dispensing control device 70 sends an error code corresponding to the content of the malfunction to the main control device 60. Send. Then, the main control device 60 that has received the error code from the payout control device 70 writes the received error code into the malfunction information storage area of the main side RAM 64. As a result, an error code corresponding to a malfunction occurring in the payout device 71 or the payout control device 70 is displayed on the information display section 45z instead of the game history information.

In addition, malfunctions that occur in the payout control device 70 or the payout device 71 include, for example, problems such as game balls getting stuck in the internal passage of the payout device 71 and not being able to properly pay out the game balls, and problems that occur when the game balls are being put out. Problems include the inability of a measuring device (sensor) to measure the number of balls, and the malfunction of a valve that controls the opening and closing of the internal passage through which the paid game balls pass. For example, in this aspect, an error code such as "E.341" corresponds to a malfunction in which a valve that controls the opening and closing of an internal passage does not operate normally. , as shown in FIG. 117, the error code is displayed on the information display section 45z.

In addition, in this aspect, an error display button (not shown) is provided near the information display section 45z on the back side of the pachinko machine 10, and the malfunction information storage area of the main side RAM 64 contains a predetermined error message that has occurred most recently. Error codes corresponding to the number of malfunctions (for example, 10 times) are stored. When the above-mentioned error display button is pressed while gaming history information is being displayed on the information display section 45z, the most recently occurring malfunction is displayed instead of the gaming history information for a predetermined period of time (for example, 10 seconds). The error code is displayed on the information display section 45z. Then, each time the error display button is pressed again during the period in which the error code is displayed, the error codes corresponding to the malfunctions that occurred in the past are sequentially displayed one by one on the information display section 45z. . Note that if a predetermined period of time passes without the error display button being pressed while the error code is being displayed, the game history information is displayed on the information display section 45z again.

As explained above, according to this aspect, the information display section 45z is configured to be able to receive a signal for displaying game history information, and also configured to be able to receive a signal for displaying an error code. Therefore, the information display section 45z can display not only game history information but also error codes. Therefore, in the pachinko machine 10 equipped with the information display section 45z capable of displaying game history information, there is no need to provide a separate display means for displaying the error code, so the manufacturing cost of the pachinko machine 10 can be reduced. I can do it.

Further, according to this aspect, the information display unit 45z is configured to be able to receive a signal for displaying an error code corresponding to a malfunction that occurs in the payout control device 70 or the payout device 71. 45z can also display an error code corresponding to a malfunction occurring in the payout control device 70 or the payout device 71. Therefore, in the pachinko machine 10 equipped with the information display section 45z capable of displaying game history information, there is no need to provide a separate display means for displaying an error code corresponding to a malfunction that occurs in the payout control device 70 or the payout device 71. Therefore, the manufacturing cost of the pachinko machine 10 can be reduced.

Note that various configurations can be adopted as a configuration for displaying the error code on the information display section 45z, and for example, the following configuration can be adopted.

- The error code corresponding to the malfunction is displayed on the information display section 45z instead of the game history information until a predetermined time (for example, 5 minutes) has elapsed from the time the malfunction occurred, and after the predetermined time has elapsed, the malfunction will be displayed. A configuration that ends the display of the error code and restarts the display of gaming history information even if the problem has not been resolved. According to this configuration, a situation where gaming history information cannot be confirmed until the problem is resolved can be avoided. can do.

- A configuration in which the error code corresponding to the most recently occurring malfunction is displayed on the information display section 45z instead of the game history information only during the period when the error display button is pressed. According to this configuration, the administrator can press the error display button By pressing , you can check the error code corresponding to the most recently occurring problem at any time, and after checking, you can immediately check the gaming history information by stopping pressing the error display button. It can be displayed on the display section 45z.

・Information display section 45z displays error codes corresponding to malfunctions that occurred a predetermined number of times (for example, 10 times) most recently during the period from the start of power supply to the pachinko machine 10 until the game can be played. According to this configuration, the administrator can use the period until it is possible to proceed with the game to understand the malfunction that has occurred in the pachinko machine 10.

<Aspect 120>
Among the above embodiments, in a configuration in which the setting change mode can be executed, the pachinko machine 10 is set to the setting change mode using the display screen of the symbol display device 41 or the speaker 46 when the power is turned on or while the demo screen is displayed. It may also be configured to notify the activation method and procedure. In addition, while the setting change mode is being executed, the display screen of the symbol display device 41 or the speaker 46 will be explained. It is also possible to use a configuration in which notification is made using the information. According to such a configuration, even an administrator who is not familiar with how to start the pachinko machine 10 in the setting change mode or how to operate the pachinko machine 10 in the setting change mode can appropriately manage the pachinko machine 10. It becomes possible.

In addition, among the above aspects, in a configuration in which the setting confirmation mode can be executed, the settings of the pachinko machine 10 can be confirmed using the display screen of the symbol display device 41 or the speaker 46 when the power is turned on or while the demo screen is displayed. A configuration may also be adopted in which a method or procedure for starting the mode is notified. Further, during execution of the setting confirmation mode, a configuration may be adopted in which a method for ending the setting change mode is notified using the display screen of the symbol display device 41 or the speaker 46. According to such a configuration, even an administrator who is not familiar with how to start the pachinko machine 10 in the setting confirmation mode or how to end the setting confirmation mode can appropriately manage the pachinko machine 10. becomes possible.

<Aspect 121>
In each of the above embodiments, a configuration may be adopted in which various notification processes are executed after power is turned on. This will be explained in detail below.

First, various notification processes when the RAM clear process is executed after the power is turned on will be described.

In this aspect, as described above, when the setting key is in the OFF state (or the setting key is not inserted) and the RAM clear button is in the ON state, the power switch of the pachinko machine 10 is turned on. is turned on (when power supply starts), the main controller 60 of the pachinko machine 10 executes a RAM clear process that erases (clears) information stored in the main RAM 64. Execute. When the RAM clearing process is completed in the main control device 60, the audio emission control device 90, which is a sub-side control device of the pachinko machine 10, performs a RAM clearing process to notify that the RAM clearing process has been executed. Notification processing A is started, and 30 seconds after the start, the RAM clear notification processing A is ended.

In this embodiment, the RAM clear notification process A causes the speaker 46 to repeatedly output a voice saying "RAM has been cleared", and among the various lamps 47, the full color (RGB) LED lamp lights up in red at maximum brightness. , the single-color LED lamp is turned on at maximum brightness, and a character string such as "RAM has been cleared" is displayed in red on the display surface 41a of the symbol display device 41 in the uppermost layer.

In this aspect, the audio emission control device 90 is configured to be able to execute three types of RAM clear notification processes (RAM clear notification processes A, B1, and B2) with different notification modes. The RAM clear notification process A described above is a notification process that is executed when the RAM clear process is executed independently without being triggered by execution of the setting change mode. As described later, the RAM clear notification processing B1 is executed when a RAM clearing process is executed in response to the execution of a setting change mode, and the setting information is changed in a setting change mode executed before the RAM clearing process. This is the notification process that is executed when the notification has not been performed. The RAM clear notification process B2 is executed when the RAM clear process is executed in response to the execution of the setting change mode and the setting information has been changed in the RAM clear setting change mode, as will be described later. This is the notification process.

Furthermore, in this aspect, after the RAM clearing process is completed, the main control device 60 allows interrupts and periodically repeatedly executes the timer interrupt process. Then, door monitoring processing is executed as one processing included in the timer interrupt processing. The door monitoring process is a process of monitoring whether the inner frame 13 and the front door frame 14 are in a closed state or an open state by monitoring the states of the frame open switch and the door open switch. Then, the audio emission control device 90 determines in the door monitoring process that at least one of the frame release switch and the door release switch is in the ON state (at least one of the inner frame 13 and the front door frame 14 is open). During this period, a door open notification process is executed to notify that at least one of the inner frame 13 and the front door frame 14 is in an open state.

In this embodiment, the door open notification process alternately and repeatedly outputs a voice such as "The door is open" and a frame opening sound from the speaker 46, and among the various lamps 47, the full color (RGB) LED lamps are set according to the maximum brightness. The red light is turned on and off repeatedly, the monochrome LED lamp is turned on and off at maximum brightness, and a character string such as "The door is open" is displayed on the display surface 41a of the pattern display device 41 in the top layer. This is the process of displaying the text in red.

In addition, in this aspect, even if at least one of the inner frame 13 and the front door frame 14 is in an open state, the main controller 60 is at a stage before starting execution of the timer interrupt process including the door monitoring process (e.g. Until the RAM clearing process ends), the audio light emission control device 90 does not execute the door open notification process. Furthermore, in this aspect, when another priority notification process is being executed, the audio emission control device 90 gives priority to the execution of the other priority notification process, and controls the inner frame 13 and the front door frame. Even if at least one of the doors 14 is in an open state, the door open notification process is not executed. Other priority notification processes include, for example, the above-mentioned RAM clear notification process, the post-setting confirmation mode notification process, and the RAM abnormality notification process, which will be described later.

Next, an example of a processing flow when RAM clear processing is executed after power-on will be described.

FIG. 118 is a timing chart showing an example of the flow of processing when RAM clear processing is executed after power is turned on. This figure 118 shows whether the RAM clear process is executed, whether the setting change mode is executed, whether the setting confirmation mode is executed, the state of the frame release switch, the state of the door release switch, and the state of the notification process. The type is shown. As described above, the frame release switch is a switch that is ON when the inner frame 13 is in an open state, and the door release switch is a switch that is ON when the front door frame 14 is in an open state. It's a switch.

As shown in FIG. 118, the administrator who wants to have the pachinko machine 10 execute the RAM clearing process can access the RAM clear button and power switch provided on the back side of the pachinko machine 10 by opening the inner frame 13. state, set the setting key to OFF state (or the setting key is not inserted), set the RAM clear button to ON state, and turn on the power switch of the pachinko machine 10 ( time t1).

When the power switch is turned on, power supply to the pachinko machine 10 is started, and the main control device 60 of the pachinko machine 10 starts RAM clear processing (time t2).

When the RAM clear processing is completed, the audio emission control device 90 of the pachinko machine 10 starts the above-mentioned RAM clear notification processing A (time t3).

When 30 seconds have passed since the start of the RAM clear notification process A, the audio emission control device 90 ends the RAM clear notification process A (time t4). At this time, since the frame opening switch is ON (the inner frame 13 is in the open state), the audio light emission control device 90 starts the door opening notification process described above (time t4).

Thereafter, when the administrator closes the inner frame 13 and turns off the frame opening switch, the audio light emission control device 90 ends the door open notification process (time t5).

Note that, as described above, the door monitoring process is not started in the main controller 60 until the RAM clear process is finished, so the audio light emission control device 90 is configured to ensure that at least one of the inner frame 13 and the front door frame 14 is Door open notification processing is not executed even if the door is in an open state. Furthermore, until the RAM clear notification process A, which is the notification process to be prioritized, is completed, the audio emission control device 90 does not allow the door to be opened even if at least one of the inner frame 13 and the front door frame 14 is in an open state. Notification processing is not executed.

Next, various notification processes when the setting change mode is executed after the power is turned on will be described.

In this aspect, as described above, the setting key is in the ON state, the RAM clear button is in the ON state, and both the frame release switch and the door release switch are in the ON state (inner frame 13 and front door frame 14 are open), when the power switch of the pachinko machine 10 is turned on (when power supply starts), the main control device 60 of the pachinko machine 10 changes the settings. Start change mode (setting change processing). The setting change mode is a mode in which the administrator or the like can change the setting information of the pachinko machine 10 by pressing the setting change button.

When the setting change mode is started in the main control device 60, the audio emission control device 90, which is a sub-side control device of the pachinko machine 10, performs a process to notify that the setting change mode is being executed. A notification process is started when a certain setting change mode is being executed. This setting change mode execution notification process continues until the setting change mode ends in the main controller 60.

In this embodiment, the setting change mode execution notification process repeatedly outputs a voice saying "Settings are being changed" from the speaker 46, and lights up the full color (RGB) LED lamp in red at maximum brightness among the various lamps 47. , the monochrome LED lamp is turned on at maximum brightness, and a character string such as "Settings changing" is displayed on the display surface 41a of the symbol display device 41 in a display format of white characters on a black background.

Thereafter, when the setting key is turned off by the administrator or the like, the main control device 60 ends the setting change mode, and the audio emission control device 90 ends the setting change mode execution notification process.

Thereafter, the main control device 60 executes RAM clear processing upon completion of the setting change mode. When the RAM clear processing is completed in the main control device 60, the audio emission control device 90 executes the RAM clear notification processing B1 if the setting information has not been changed in the setting change mode that was executed before the RAM clear processing. If the setting information has been changed in the setting change mode, RAM clear notification processing B2 is started, and 30 seconds after the start, RAM clear notification processing B1 or B2 is ended.

In this embodiment, the RAM clear notification processing B1 causes the speaker 46 to repeatedly output a voice saying "No settings have been changed. RAM has been cleared", and outputs a message about the full color (RGB) LED lamp among the various lamps 47. is lit in red at maximum brightness, the monochrome LED lamp is lit at maximum brightness, and a string such as "Settings have not been changed. RAM has been cleared" is displayed on the display surface 41a of the symbol display device 41. This is the process of displaying the upper layer in red text.

Further, in this embodiment, the RAM clear notification process B2 causes the speaker 46 to repeatedly output a voice such as "Settings have been changed. RAM has been cleared", and among the various lamps 47, the full color (RGB) LED lamp The LED lamp is turned on in red at maximum brightness, and the monochrome LED lamp is turned on at maximum brightness, and a character string such as "Settings have been changed. RAM has been cleared" is displayed on the display surface 41a of the symbol display device 41. This is the process of displaying the upper layer in red text.

Next, an example of a process flow when the setting change mode is executed after power is turned on will be described.

FIG. 119 is a timing chart illustrating an example of the flow of processing when the setting change mode is executed after power is turned on and the setting information is not changed in the setting change mode.

As shown in FIG. 119, the administrator who wants to cause the pachinko machine 10 to execute the setting change mode opens the inner frame 13 and presses the RAM clear button provided on the back side of the pachinko machine 10, the keyhole for settings, The setting change button and power switch are accessible, the setting key is turned on, the RAM clear button is turned on, and the inner frame 13 and front door frame 14 are open (frame Both the open switch and the door open switch are in the ON state), and the power switch of the pachinko machine 10 is turned ON (time t1).

When the power switch is turned on, power supply to the pachinko machine 10 is started, and the main controller 60 of the pachinko machine 10 starts a setting change mode (time t2). When the setting change mode is started in the main control device 60, the audio emission control device 90 starts the above-described setting change mode execution notification process (time t2). The administrator can change the setting information by pressing the setting change button in the setting change mode. FIG. 119 shows a case where the administrator does not change the setting information in the setting change mode.

When the administrator turns the setting key to the OFF side, the main controller 60 ends the setting change mode and executes RAM clear processing (time t3). When the setting change mode ends in the main control device 60, the audio emission control device 90 ends the setting change mode execution notification process (time t3), and when the RAM clear process ends in the main control device 60, the above-mentioned RAM clear Notification processing B1 is started (time t4).

When 30 seconds have passed since the start of the RAM clear notification process B1, the audio emission control device 90 ends the RAM clear notification process B1 (time t5). At this time, since both the frame release switch and the door release switch are ON (both the inner frame 13 and the front door frame 14 are in the open state), the audio light emission control device 90 controls the door release switch described above. The notification process is started (time t5).

After that, the inner frame 13 is closed by the administrator and the frame opening switch is turned OFF (time t6), and the front door frame 14 is further closed and the door opening switch is turned OFF (time t7). , the audio light emission control device 90 ends the door open notification process (time t7).

Note that, as described above, the door monitoring process is not started in the main controller 60 until the RAM clear process is finished, so the audio light emission control device 90 is configured to ensure that at least one of the inner frame 13 and the front door frame 14 is Door open notification processing is not executed even if the door is in an open state. Furthermore, until the RAM clear notification process B1, which is the priority notification process, is completed, the audio emission control device 90 will not be able to open the door even if at least one of the inner frame 13 and the front door frame 14 is open. Notification processing is not executed.

FIG. 120 is a timing chart illustrating an example of a process flow when a setting change mode is executed after power is turned on and setting information is changed in the setting change mode.

The difference from the example shown in FIG. 119 is that the administrator changes the setting information in the setting change mode and terminates the setting change mode, and the audio emission control device 90 uses the termination of the RAM clearing process as a trigger. The difference is that the above-mentioned RAM clear notification process B2 is executed, and other points are the same. That is, in this aspect, when the setting information is changed in the setting change mode, the above-mentioned RAM clear notification process B2 is executed upon completion of the RAM clear process.

Next, various notification processes when the setting confirmation mode is executed after the power is turned on will be described.

In this aspect, as described above, the setting key is in the ON state, the RAM clear button is in the OFF state, and both the frame release switch and the door release switch are in the ON state (inner frame 13 and front door frame 14 are open), when the power switch of the pachinko machine 10 is turned on (when power supply starts), the main control device 60 of the pachinko machine 10 changes the settings. Start confirmation mode (setting confirmation processing). The setting confirmation mode is a mode in which the administrator etc. cannot change the setting information of the pachinko machine 10, but can confirm the setting information. Specifically, while the setting confirmation mode is being executed, Setting information is displayed on an information display section 45z provided on the back side of the pachinko machine 10.

When the setting confirmation mode is started in the main control device 60, the audio emission control device 90, which is a sub-side control device of the pachinko machine 10, performs a process to notify that the setting confirmation mode is being executed. Starts a notification process when a certain setting confirmation mode is being executed. This setting confirmation mode execution notification process continues until the setting confirmation mode ends in the main controller 60.

In this embodiment, the setting confirmation mode execution notification process repeatedly outputs a voice saying "Settings are being confirmed" from the speaker 46, and lights up the full color (RGB) LED lamp in red at maximum brightness among the various lamps 47. This is a process in which the monochrome LED lamp is turned on at maximum brightness, and a character string such as "Settings Confirming" is displayed on the display surface 41a of the symbol display device 41 in a display format of white characters on a black background.

Thereafter, when the setting key is turned OFF by the administrator or the like, the main controller 60 ends the setting confirmation mode, the audio emission control device 90 ends the setting confirmation mode execution notification process, After the setting confirmation mode ends, a notification process is started to notify that the setting confirmation mode has ended. Then, the audio emission control device 90 ends the post-setting confirmation mode notification process 30 seconds after the start of the post-setting confirmation mode notification process.

In this embodiment, the notification process after the setting confirmation mode ends is to repeatedly output a voice saying "Setting confirmation mode has ended" from the speaker 46, and among the various lamps 47, the full color (RGB) LED lamps are turned red at maximum brightness. This is a process in which the monochrome LED lamp is turned on at maximum brightness, and a text string such as "Setting confirmation mode has ended" is displayed in red on the top layer on the display surface 41a of the symbol display device 41. .

Note that in this aspect, the main control device 60 allows interrupts after the setting confirmation mode ends, and periodically repeatedly executes the timer interrupt process. That is, the door monitoring process described above is not started until the setting confirmation mode ends.

Next, an example of a process flow when the setting confirmation mode is executed after power is turned on will be described.

FIG. 121 is a timing chart showing an example of the flow of processing when the setting confirmation mode is executed after power is turned on.

As shown in FIG. 121, the administrator who wants to cause the pachinko machine 10 to execute the setting confirmation mode opens the inner frame 13 and accesses the setting keyhole and power switch provided on the back side of the pachinko machine 10. the setting key is ON, the RAM clear button is OFF, and the inner frame 13 and front door frame 14 are open (both the frame release switch and door release switch is ON), and the power switch of the pachinko machine 10 is turned ON (time t1).

When the power switch is turned on, power supply to the pachinko machine 10 is started, and the main controller 60 of the pachinko machine 10 starts a setting confirmation mode (time t2). When the setting confirmation mode is started in the main control device 60, the audio emission control device 90 starts the above-described setting confirmation mode execution notification process (time t2). The administrator can check the setting information displayed on the information display section 45z in the setting confirmation mode.

When the administrator turns the setting key to the OFF side, the main controller 60 ends the setting confirmation mode (time t3). When the setting confirmation mode ends in the main control device 60, the audio emission control device 90 ends the setting confirmation mode execution notification process (time t3), and starts the above-mentioned notification process after the setting confirmation mode ends (time t3). .

When 30 seconds have elapsed from the start of the post-setting confirmation mode notification process, the audio emission control device 90 ends the post-setting confirmation mode notification process (time t4). At this time, since both the frame release switch and the door release switch are ON (both the inner frame 13 and the front door frame 14 are in the open state), the audio light emission control device 90 controls the door release switch described above. The notification process is started (time t4).

After that, the inner frame 13 is closed by the administrator and the frame opening switch is turned OFF (time t5), and the front door frame 14 is further closed and the door opening switch is turned OFF (time t6). , the audio light emission control device 90 ends the door open notification process (time t6).

Note that, as described above, the door monitoring process is not started in the main controller 60 until the setting confirmation mode is finished, so the audio light emission control device 90 is configured to check whether at least one of the inner frame 13 and the front door frame 14 is Door open notification processing is not executed even if the door is in an open state. Furthermore, even if at least one of the inner frame 13 and the front door frame 14 is in an open state, the audio light emission control device 90 is in a state where at least one of the inner frame 13 and the front door frame 14 is open until the notification process after the end of the setting confirmation mode, which is the priority notification process, is completed. Door open notification processing is not executed.

Next, an example of a process executed by the main MPU 62 of the main controller 60 of this embodiment will be specifically described.

The main MPU 62 in this embodiment executes main processing and timer interrupt processing. The main process is a process executed after power is turned on.

[Main processing]
FIG. 122 is a flowchart showing the main process executed by the main MPU 62 (main CPU 62x) when the power is turned on, according to aspect 121 of the first embodiment.

In step S40101, initial setting processing upon power-on is executed. Specifically, a predetermined value is set in the stack pointer of the main CPU 62x, and the sub-side control devices (sound emission control device 90, display control device 100, payout control device 70, etc.) are enabled. Wait processing is executed for about 1 second, for example, to wait for the state to be reached. Then, access to the main RAM 64 is permitted. Thereafter, the process advances to step S40102, and internal function register setting processing is executed. After that, the process advances to step S40103.

In step S40103, it is determined whether the power recovery flag is ON.

Here, the power recovery flag will be explained. In this aspect, when the power switch of the pachinko machine 10 is turned off or a power outage occurs, various information (information indicating the gaming status, control information, etc.) stored in the register of the main CPU 62x is transferred to the main CPU 62x. It is evacuated to a predetermined area of the side RAM 64. When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Note that after the power supply from the commercial power source is cut off, the power supply is switched to a backup power source such as a capacitor. In this way, the power recovery flag is a flag for identifying, when the power is turned on, whether information for restoring to the state when the power was turned off last time is stored in the main side RAM 64.

In step S40103, if it is determined that the power recovery flag is ON (step S40103: YES), the process proceeds to step S40104, and a predetermined calculation is performed based on a predetermined information group stored in the main side RAM 64. By this, the RAM judgment value is calculated. In this aspect, the checksum value of the main RAM 64 is calculated as the RAM determination value. After that, the process advances to step S40105, and it is determined whether the calculated RAM judgment value (checksum value) is normal or not, that is, the calculated RAM judgment value (checksum value) and the RAM judgment value ( checksum value). If it is determined in step S40105 that the RAM determination value is normal (step S40105: YES), the process advances to step S40106.

In step S40106, setting information for lottery settings stored in the main side RAM 64 is read, and it is determined whether the setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so if the setting information is a numerical value within the range from "1" to "6", , it is determined that the setting information is a numerical value within a predetermined range, but on the other hand, if "0" or "7" is stored as the setting information, or if information other than numerical values is stored due to noise etc. determines that the setting information is not a numerical value within a predetermined range. If it is determined in step S40106 that the setting information is a numerical value within a predetermined range (step S40106: YES), the process advances to step S40107.

On the other hand, if it is determined that the power recovery flag is not ON in step S40103 described above (step S40103: NO), if it is determined that the RAM determination value is not normal in step S40105 described above (step S40105: NO), and If it is determined in step S40106 that the setting information is not within the predetermined range (step S40106: NO), the process advances to step S40115 and the RAM abnormality flag is turned ON. In other words, the RAM abnormality flag is a flag that turns ON when the power recovery flag is OFF, when the RAM judgment value is not normal, or when the setting information is not a numerical value within a predetermined range. This is a flag indicating that the information stored in the main side RAM 64 is not in a normal state.

Below, the flow of processing executed when the RAM abnormality flag is not turned on will be explained, and then the flow of processing executed when the RAM abnormality flag is turned on will be explained.

In step S40107, it is determined whether the setting changing flag is ON. The setting change flag is a flag that is turned ON at the start of a setting change process (setting change mode), which will be described later, and turned OFF at the end of the setting change process (setting change mode). Here, the situation where the setting change flag is ON in step S40107 means that the setting change process (setting change mode) described later was executed when the pachinko machine 10 was last powered on, and the setting change process (setting change mode) was executed. This is a situation where the setting changing flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring while the setting changing mode) is being executed.

If it is determined in step S40107 that the setting changing flag is ON (step S40107: YES), the process advances to step S40118, and setting changing processing (setting changing mode) is executed. In the setting change process (setting change mode), a process of displaying the setting information of the lottery setting on the information display section 45z is executed, and a process of accepting a change of the setting information of the lottery setting is executed. That is, the setting change mode is a mode in which the administrator or the like can change the setting information of the lottery setting of the pachinko machine 10. Details of the setting change process (setting change mode) will be described later. On the other hand, if it is determined in step S40107 that the setting changing flag is not ON (step S40107: NO), the process advances to step S40108.

In step S40108, it is determined whether the RAM clear button is ON. If it is determined in step S40108 that the RAM clear button is not ON (step S40108: NO), the process advances to step S40109 and checks whether the setting key, frame release switch, and door release switch are all ON. judge. Note that "the setting key is ON" means that the setting key is inserted into the setting keyhole and is positioned on the ON side. Further, the frame release switch is a switch that is turned on when the inner frame 13 is in an open state with respect to the outer frame 11, and the door release switch is a switch that is turned on when the front door frame 14 is in an open state with respect to the inner frame 13. This is a switch that is sometimes turned on.

If it is determined in step S40109 that at least one of the setting key, frame release switch, and door release switch is not ON (step S40109: NO), the process advances to step S40110.

In step S40110, it is determined whether the setting confirmation flag is ON. The setting confirmation flag is a flag that is turned ON at the start of setting confirmation processing (setting confirmation mode), which will be described later, and turned OFF at the end of the setting confirmation processing (setting confirmation mode). Here, the situation where the setting confirmation flag is ON in step S40110 means that the setting confirmation process (setting confirmation mode) described later was executed when the pachinko machine 10 was last powered on, and the setting confirmation process (setting confirmation mode) was executed. This is a situation where the setting confirmation flag remains ON due to the power switch of the pachinko machine 10 being turned off or a power outage occurring during execution of the setting confirmation mode).

In step S40110, if it is determined that the setting confirmation flag is not ON (step S40110: NO), the process advances to step S40111, and a normal activation command is transmitted to the audio emission control device 90. The normal startup command is used when the pachinko machine 10 (main controller 60) is in a normal state in which it is not determined that there is an abnormality in the RAM, and in which none of the settings change processing, setting confirmation processing, and RAM clear processing described below is executed. This is a command indicating that it has started. When receiving the normal activation command, the audio emission control device 90 executes a process of notifying that the pachinko machine 10 has been activated in a normal state. Specifically, in this aspect, the speaker 46 outputs a voice saying "normal startup". After executing step S40111, the process advances to step S40113, which will be described later.

On the other hand, if it is determined in step S40109 that the setting key, frame release switch, and door release switch are all ON (step S40109: YES), and if the setting confirmation flag is ON in step S40110, If determined (step S40110: YES), the process advances to step S40112. That is, if the RAM clear button is OFF when the power is turned on to the pachinko machine 10, and the setting key, frame release switch, and door release switch are all ON, and the previous power supply of the pachinko machine 10 is Setting confirmation processing (setting confirmation mode) is executed when the machine is turned on, and if the power switch of the pachinko machine 10 is turned off or a power outage occurs while the setting confirmation processing (setting confirmation mode) is being executed, the setting confirmation process is in progress. If the flag remains ON, the process advances to step S40112.

In step S40112, setting confirmation processing is executed. In the setting confirmation process (setting confirmation mode), a process of displaying setting information of the current lottery setting on the information display section 45z is executed. That is, the setting confirmation mode is a mode in which the administrator or the like can confirm the setting information of the current lottery setting of the pachinko machine 10. Details of the setting confirmation process (setting confirmation mode) will be described later. After executing step S40112, the process advances to step S40113.

In step S40113, power restoration processing is executed to restore the state to the state when the power was turned off last time. Specifically, in the power recovery process, the value of the stack pointer saved in the main side RAM 64 is written to the stack pointer of the main side CPU 62x, and the data saved in the main side RAM 64 is restored to the register of the main side CPU 62x. , the state of the register of the main CPU 62x is restored to the state before the power was cut off. After executing step S40113, the process advances to step S40114, and the power recovery flag in the main side RAM 64 is turned OFF. Thereafter, the process advances to step S40123, which will be described later.

On the other hand, in step S40108 described above, if it is determined that the RAM clear button is ON (step S40108: YES), the process advances to step S40117, and the setting key, frame release switch, and door release switch are all turned ON. Determine whether it exists or not. In step S40117, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S40117: YES), the process proceeds to step S40118 described above, and the setting change process (setting change mode). Thereafter, the process advances to step S40123, which will be described later. On the other hand, if it is determined in step S40117 that at least one of the setting key, frame release switch, and door release switch is not ON (step S40117: NO), the process advances to step S40119.

In step S40119, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S40119 that the RAM abnormality flag is not ON (step S40119: NO), the process advances to step S40120 and RAM clear processing is executed. The RAM clearing process is a process of erasing (clearing to 0) the information stored in the main RAM 64 except for the setting information of the lottery settings. That is, when the RAM clearing process is executed, various flag information indicating the gaming state, various control information, etc. are erased, but the setting information of the lottery setting is not erased, and the setting information is maintained as it is. After executing step S40120, the process advances to step S40121, and a RAM clear command, which is a command indicating that RAM clear processing has been executed, is transmitted to the audio emission control device 90. As will be described later, upon receiving the RAM clear command, the audio emission control device 90 starts one of the above-described RAM clear notification processes A, B1, and B2. After executing step S40121, the process advances to step S40123, which will be described later.

On the other hand, if it is determined in step S40119 that the RAM abnormality flag is ON (step S40119: YES), the process advances to step S40122, and a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is emitted by voice. It is transmitted to the control device 90. As will be described later, upon receiving the RAM abnormality command, the audio emission control device 90 starts RAM abnormality notification processing. After executing step S40122, the process advances to step S40123. However, in the flow of this explanation, since the RAM abnormality flag is not turned on, the process does not proceed to step S40122 described above.

In step S40123, a lighting/blinking process is executed which is a process of lighting and blinking all the light emitting units (segment light emitting units A to G and DP light emitting unit) constituting the information display unit 45z. In the lighting/blinking process, all the light emitting parts constituting the information display section 45z are turned on for a predetermined period of time (for example, 3 seconds), and then synchronously flashed for a predetermined period of time (for example, 2 seconds). After executing step S40123, the process advances to step S40124.

In step S40124, interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, an infinite loop is repeated to wait, and timer interrupt processing, which will be described later, is executed periodically (every 4 ms in this embodiment).

Next, the flow of processing executed when the RAM abnormality flag is turned ON in step S40115 will be described.

As described above, if it is determined in step S40103 that the power recovery flag is not ON (step S40103: NO), if it is determined that the RAM determination value is not normal in step S40105 (step S40105: NO), and If it is determined in S40106 that the setting information is not within the predetermined range (step S40106: NO), the process advances to step S40115 and the RAM abnormality flag is turned ON. After that, the process advances to step S40116.

In step S40116, it is determined whether the RAM clear button is ON. In step S40116, if it is determined that the RAM clear button is ON (step S40116: YES), the process advances to step S40117, and it is determined whether the setting key, frame release switch, and door release switch are all ON. Determine. In step S40117, if it is determined that the setting key, frame release switch, and door release switch are all ON (step S40117: YES), the process proceeds to step S40118 described above, and the setting change process (setting change mode). After that, the process advances to step S40122. On the other hand, if it is determined in step S40116 that the RAM clear button is not ON (step S40116: NO), and if it is determined in step S40117 that at least one of the setting key, frame release switch, and door release switch is not ON. In the case (step S40117: NO), the process advances to step S40119.

In step S40119, it is determined whether the above-mentioned RAM abnormality flag is ON. If it is determined in step S40119 that the RAM abnormality flag is not ON (step S40119: NO), the process advances to step S40120 and the RAM clearing process described above is executed. After executing step S40120, the process advances to step S40121, and a RAM clear command, which is a command indicating that RAM clear processing has been executed, is transmitted to the audio emission control device 90. After executing step S40121, the process advances to step S40122. However, in the flow of this explanation, since the RAM abnormality flag is ON, the process does not proceed to step S40120 described above.

On the other hand, if it is determined in step S40119 that the RAM abnormality flag is ON (step S40119: YES), the process advances to step S40122, and a RAM abnormality command, which is a command indicating that the main side RAM 64 is abnormal, is emitted by voice. It is transmitted to the control device 90. After executing step S40122, the process advances to step S40123.

In step S40123, the above-described lighting and blinking process is executed. After executing step S40123, the process advances to step S40124, and interrupt permission setting is executed to permit generation of timer interrupt processing. Thereafter, the infinite loop process is repeated and the process waits, and a timer interrupt process, which will be described later, is executed periodically (every 4 ms in this embodiment).

As explained above, in this embodiment, the operation for executing the setting change process (setting change mode) is to press the RAM clear switch (ON state) and press the setting key (keyhole). This is an operation of turning on the power switch with all the frame opening switches and door opening switches turned on. In addition, the operation for executing the setting confirmation process (setting confirmation mode) is performed when the RAM clear switch is not pressed (OFF state), and the setting key (keyhole), frame release switch, and door open This is an operation to turn on the power switch with all switches turned on. In addition, to perform the RAM clearing process, press the RAM clear switch (ON state), and turn off either the setting key (keyhole), frame release switch, or door release switch. In this state, turn on the power switch.

An example of the flow of processing realized by executing the above-described main processing will be summarized below.

- When power supply is started, it is determined whether the conditions for turning on the RAM abnormality flag are satisfied (step S40103, step S40105, step S40106), and setting change processing (setting change mode) If an operation has been performed to execute the setting change processing, regardless of whether the conditions for turning on the RAM error flag are met or not, and regardless of the state of the setting confirmation flag, the setting change processing will be executed. (setting change mode) is executed (step S40118).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (step S40103, step S40105, step S40106), and determine the condition for turning on the RAM abnormality flag. If it is determined that the flag is not established and the setting change flag is ON (step S40107: YES), the operation for executing the setting change process (setting change mode) and the setting confirmation process are performed. Setting change processing (setting change mode) is executed regardless of whether an operation for executing (setting confirmation mode) and an operation for executing RAM clear processing have been performed (step S40118).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (step S40103, step S40105, step S40106), and determine the condition for turning on the RAM abnormality flag. If it is determined that the setting change flag is not ON (step S40107: NO), and an operation for executing RAM clear processing has been performed (step S40108: YES, step S40117: NO, step S40119: NO), RAM clear processing is executed regardless of the state of the setting confirmation flag (step S40120), and a RAM clear command is transmitted (step S40121).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (step S40103, step S40105, step S40106), and determine the condition for turning on the RAM abnormality flag. is not established, it is determined that the setting changing flag is not ON (step S40107: NO), and an operation to execute the setting confirmation process (setting confirmation mode) is performed. (Step S40108: NO, Step S40109: YES), a setting confirmation process (setting confirmation mode) is executed (Step S40112).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (step S40103, step S40105, step S40106), and determine the condition for turning on the RAM abnormality flag. If it is determined that the setting change flag is not ON (step S40107: NO), and no operation is performed to execute the setting confirmation process (setting confirmation mode). Even if there is, if the setting confirmation flag is ON (step S40110: YES), a setting confirmation process (setting confirmation mode) is executed (step S40112).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (step S40103, step S40105, step S40106), and determine the condition for turning on the RAM abnormality flag. If it is determined that the RAM abnormality flag is set to ON (step S40115), the RAM clearing process is not executed even if an operation for executing the RAM clearing process has been performed. First, a RAM abnormality command is transmitted (step S40122).

- When power supply is started, determine whether the conditions for turning on the RAM abnormality flag are met (step S40103, step S40105, step S40106), and determine the condition for turning on the RAM abnormality flag. If it is determined that the following is true and the RAM abnormality flag is turned ON (step S40115), even if the operation for executing the setting confirmation process (setting confirmation mode) has been performed, the setting The RAM abnormality command is sent without executing the confirmation process (setting confirmation mode) (step S40122).

[Settings change process]
Next, details of the setting change process in this aspect will be explained.

FIG. 123 is a flowchart showing a setting change process executed by the main MPU 62 (main CPU 62x) in aspect 121 of the first embodiment. This setting change process is executed as a subroutine of step S40118 in FIG. 122.

In step S40201, a setting change mode start command, which is a command indicating that the setting change mode has started, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the settings change mode start command, it starts the above-described settings change mode execution notification process.

Note that, after transmitting the setting change mode start command to the audio emission control device 90, the configuration may be such that information indicating that the setting change mode has been started is sent to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting change mode has started may be configured to display information about the pachinko machine 10 in the setting change mode on the management screen. After executing step S40201, the process advances to step S40202.

In step S40202, the setting changing flag in the main RAM 64 is turned on. As described above, the settings changing flag is a flag that indicates that the settings change process (settings change mode) has started, and a flag that indicates that the settings change process (settings change mode) has not yet ended. It is. After executing step S40202, the process advances to step S40203.

In step S40203, initial setting processing at the start of setting change is executed. In the initial setting process at the start of setting change, initial settings necessary for starting the setting change process are executed. Further, in this aspect, in the initial setting process at the start of setting change, it is determined whether the RAM abnormality flag is ON, and if it is determined that the RAM abnormality flag is ON, the RAM abnormality flag is turned OFF. Make it. After executing step S40203, the process advances to step S40204.

In step S40204, setting information for lottery settings stored in the main side RAM 64 is read and saved as update setting information. Specifically, in this aspect, setting information of the lottery settings stored in the setting information storage area of the main side RAM 64 is read, and the read setting information is transferred to other areas other than the setting information storage area of the main side RAM 64. is stored (copied) in the update setting information storage area. After executing step S40204, the process advances to step S40205.

In step S40205, control is started to read the update setting information stored in the update setting information storage area of the main side RAM 64 and display the read update setting information on the information display section 45z. Specifically, as described above, the setting change mode is displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3. The character string "set." indicating that is being executed starts to be displayed, and the rightmost 7-segment display 45z4 starts to display the update setting information, and the DP of the rightmost 7-segment display 45z4 is started to be displayed. Starts the flashing display on the light emitting section. In this way, the change period described above begins. After executing step S40205, the process advances to step S40206.

In step S40206, it is determined whether the update setting information is a numerical value within a predetermined range. In this aspect, the setting information set in the pachinko machine 10 has six levels from "1" to "6", so whether the update setting information is a numerical value within the range from "1" to "6"? Determine whether or not. If it is determined in step S40206 that the update setting information is a numerical value within a predetermined range (step S40206: YES), the process advances to step S40208. On the other hand, if it is determined in step S40206 that the update setting information is not a numerical value within the predetermined range (step S40206: NO), for example, if "0" or "7" is stored as the update setting information If information other than numerical values is stored due to noise or the like, the process advances to step S40207 and the update setting information is changed to the initial value. In this aspect, "1" is stored as an initial value in the update setting information. After that, the process advances to step S40208.

In step S40208, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. Inside, a signal indicating a low level is monitored, and when a falling edge of the signal falling from a high level to a low level is detected, it is determined that the setting key (keyhole) has turned to the OFF side. If it is determined in step S40208 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S40208: NO), the process advances to step S40209, and a check is made as to whether or not the setting change button has been pressed. Determine. In step S40209, if it is determined that the setting change button has been pressed (step S40209: YES), the process advances to step S40210, and the update setting information is updated. Specifically, 1 is added to the numerical information stored as update setting information. However, if the setting change button is pressed in a situation where the numerical information stored as update setting information is "6", the numerical information is updated to "1". Thereafter, the process returns to step S40206 described above, and it is determined whether the updated update setting information is a numerical value within a predetermined range. On the other hand, if it is determined in step S40209 that the setting change button has not been pressed (step S40209: NO), the process returns to step S40206 described above without executing the process in step S40210, and the update setting information is It is determined whether the value is within a predetermined range.

In step S40208 described above, if it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side (step S40208: YES), the process advances to step S40211.

In step S40211, it is determined whether the update setting information stored in the update setting information storage area of the main side RAM 64 is the same as the setting information stored in the setting information storage area. In step S40211, if it is determined that the update setting information is not the same as the setting information (step S40211: NO), that is, if the setting information has been changed by the administrator etc., the process advances to step S40212, and the setting information has been changed. Turn on the flag. The settings changed flag is a flag for determining whether or not the settings information has been changed when transmitting a settings change mode end command, which will be described later. After executing step S40212, the process advances to step S40213. On the other hand, if it is determined in step S40211 that the update setting information is the same as the setting information (step S40211: YES), that is, if the setting information has not been changed by the administrator or the like, step S40212 is executed. The process advances to step S40213 without any problem.

In step S40213, the update setting information stored in the main RAM 64 is read and saved as setting information. Specifically, in this aspect, the update setting information stored in the update setting information storage area of the main side RAM 64 is read, and the read update setting information is stored in the setting information storage area of the main side RAM 64. do (copy). After executing step S40213, the process proceeds to step S40214, where the rightmost 7-segment display 45z4 starts displaying the setting information, and the display mode of the DP light emitting unit of the rightmost 7-segment display 45z4 is changed from blinking to lit. Switch. After that, the process advances to step S40215 and wait processing is executed. In the wait process, the process waits for 2 seconds without proceeding to the next process. As a result, the character string "set." is lit and displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3 of the information display section 45z. The state in which the finalized setting information is displayed on the rightmost 7-segment display 45z4 and the DP light emitting section of the rightmost 7-segment display 45z4 is displayed continues for two seconds. This two seconds is the confirmation period. Thereafter, the process advances to step S40216, and the control for displaying the setting information on the information display section 45z ends. Specifically, the four seven-segment displays 45z1 to 45z4 constituting the information display section 45z are turned off. After that, the process advances to step S40217.

In step S40217, it is determined whether the above-mentioned setting change completed flag is ON. If it is determined in step S40217 that the settings changed flag is not ON (step S40217: NO), that is, if the settings information has not been changed by the administrator, etc., the process advances to step S40218, and the settings information is not changed. A setting change mode end command A, which is a command indicating that the setting change mode has ended, is sent to the audio emission control device 90 without any delay. After that, the process advances to step S40220. On the other hand, if it is determined in step S40217 that the settings changed flag is ON (step S40217: YES), that is, if the settings information has been changed by the administrator etc., the process advances to step S40219, and the settings information is changed. A setting change mode end command B, which is a command indicating that the setting change mode has ended, is transmitted to the audio emission control device 90. After that, the process advances to step S40220. Note that upon receiving the settings change mode termination command A or B, the audio emission control device 90 ends the settings change mode execution notification process. The difference between the contents of the process to be executed when the audio emission control device 90 receives the setting change mode end command A and the contents of the process to be executed when the sound emission control device 90 receives the setting change mode end command B will be described later.

Note that, after transmitting the setting change mode termination command A or B to the audio emission control device 90, a configuration may be adopted in which information indicating that the setting change mode has been terminated is transmitted to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting change mode has ended may be configured to display information indicating that the setting change mode of the pachinko machine 10 has ended on the management screen.

In step S40220, RAM clear processing is executed. In the RAM clearing process, information other than the setting information of the lottery setting stored in the setting information storage area of the main side RAM 64 is erased. That is, when this RAM clearing process is executed, the above-mentioned setting change in progress flag and setting change completed flag are also cleared (turned OFF). After executing step S40220, the process advances to step S40221.

In step S40221, a RAM clear command, which is a command indicating that RAM clear processing has been executed, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the RAM clear command, it starts one of the above-mentioned RAM clear notification processes A, B1, and B2. Details of the RAM clear notification process executed by the audio emission control device 90 that has received the RAM clear command will be described later.

After executing step S40221, this setting change process ends. In addition, after executing the setting change process, the setting information of the changed lottery settings is sent to the hall computer of the gaming hall via an external terminal, and the hall computer that receives the information displays the relevant pachinko machine on the management screen. It is also possible to display the setting information of the lottery setting after the change of 10.

[Settings confirmation process]
Next, details of the setting confirmation process in this aspect will be explained.

FIG. 124 is a flowchart showing a setting confirmation process executed by the main MPU 62 (main CPU 62x) in aspect 121 of the first embodiment. This setting confirmation process is executed as a subroutine of step S40112 in FIG. 122.

In step S40301, a setting confirmation mode start command, which is a command indicating that the setting confirmation mode has started, is transmitted to the audio emission control device 90. When the audio emission control device 90 receives the setting confirmation mode start command, it starts the above-described setting confirmation mode execution notification process.

Note that, after transmitting the setting confirmation mode start command to the audio emission control device 90, information indicating that the setting confirmation mode has been started may be transmitted to the hall computer of the game hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting confirmation mode has started may be configured to display information about the pachinko machine 10 in the setting confirmation mode on the management screen. After executing step S40301, the process advances to step S40302.

In step S40302, the setting confirmation flag in the main side RAM 64 is turned ON. As described above, the settings confirmation flag is a flag that indicates that the settings confirmation process (settings confirmation mode) has started, and a flag that indicates that the settings confirmation process (settings confirmation mode) has not yet ended. It is. After executing step S40302, the process advances to step S40303.

In step S40303, control is started to display the setting information of the lottery setting stored in the setting information storage area of the main side RAM 64 on the information display section 45z. Specifically, as described above, the setting confirmation mode is displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3. The character string "sec." indicating that the process is being executed starts to be displayed, and the rightmost 7-segment display 45z4 starts to display the setting information, and the DP light emitting unit of the rightmost 7-segment display 45z4 is turned on. Starts the lighting display. After executing step S40303, the process advances to step S40304.

In step S40304, it is determined whether the setting key (keyhole) has shifted from the ON side to the OFF side. Specifically, in this aspect, the signal is High level during the period when the setting key (keyhole) is on the ON side, and the signal is high during the period when the setting key (keyhole) is on the OFF side. The inside monitors the signal indicating the low level, and when the falling edge of the signal from high level to low level is detected, it is determined that the setting key (keyhole) has shifted from the ON side to the OFF side. judge. If it is determined in step S40304 that the setting key (keyhole) has not shifted from the ON side to the OFF side (step S40304: NO), step S40304 is executed again. On the other hand, if it is determined in step S40304 that the setting key (keyhole) has shifted from the ON side to the OFF side (step S40304: YES), the process advances to step S40305. That is, until the setting key (keyhole) moves from the ON side to the OFF side, an infinite loop is repeated and the process does not proceed to step S40305, and when the setting key (keyhole) moves from the ON side to the OFF side, the process proceeds to step S40305. move on.

In step S40305, the control for displaying the setting information of the lottery setting on the information display section 45z is ended. Specifically, the four seven-segment displays 45z1 to 45z4 constituting the information display section 45z are turned off. As a result, the character string "sec." is lit and displayed on the three left 7-segment displays of the left-most 7-segment display 45z1, the middle-left 7-segment display 45z2, and the middle-right 7-segment display 45z3 of the information display section 45z. The state in which the setting information is lit and displayed on the rightmost 7-segment display 45z4 and the DP light emitting part of the rightmost 7-segment display 45z4 is lit is the state in which the setting confirmation mode is started. This continues until the key (keyhole) moves to the OFF side. After executing step S40305, the process advances to step S40306.

In step S40306, the setting changing flag in the main RAM 64 is turned OFF. After that, the process advances to step S40307.

In step S40307, a setting confirmation mode end command, which is a command indicating that the setting confirmation mode has ended, is transmitted to the audio emission control device 90. As will be described later, upon receiving the settings confirmation mode end command, the audio emission control device 90 ends the settings confirmation mode in-execution notification process, and then executes the above-described post-setting confirmation mode notification process for 30 seconds.

After executing step S40307, this setting confirmation process ends. It should be noted that, after transmitting the setting confirmation mode termination command to the audio emission control device 90, a configuration may be adopted in which information indicating that the setting confirmation mode has been terminated is transmitted to the hall computer of the gaming hall via an external terminal. In this case, the hall computer that has received the information indicating that the setting confirmation mode has ended may be configured to display information indicating that the setting confirmation mode of the pachinko machine 10 has ended on the management screen.

[Timer interrupt processing]
Next, timer interrupt processing will be explained. The timer interrupt process is activated periodically (for example, every 4 msec) by the MPU 62 of the main control device 60.

FIG. 125 is a flowchart showing timer interrupt processing executed by the main MPU 62 in aspect 121 of the first embodiment. In step S40401, various random number update processes are executed. In various random number update processes, the current numerical information is read from each counter (jackpot random number counter C1, jackpot type counter C2, reach random number counter C3, electric accessory opening counter C4, etc.) in the main side RAM 64, and the read numerical information is updated. After executing the process of adding 1, the process of overwriting the read-out counter with the numerical information after the addition is executed. Note that if the read numerical information is the maximum value of the counter, a process is executed to overwrite the read-out counter with 0. After executing step S40401, the process advances to step S40402.

In step S40402, a power outage monitoring process is executed. In the power outage monitoring process, the drive voltage supplied from the power supply device 85 to the main control device 60 is monitored, and if it is determined that the drive voltage has fallen below a predetermined value (for example, 10 volts), the power supply of the pachinko machine 10 is It determines that the switch has been turned off or a power outage has occurred, and saves various information stored in the registers of the main CPU 62x (information indicating gaming status, control information, etc.) to a predetermined area of the main RAM 64. . When the saving of these information to the main side RAM 64 is completed, the power recovery flag is turned on and a predetermined calculation is executed based on a predetermined information group stored in the main side RAM 64. A RAM judgment value (for example, a checksum value) is calculated, and the calculated RAM judgment value is stored in the main side RAM 64. Thereafter, without proceeding to step S40403, which will be described later, the infinite loop process is repeated until the supplied drive voltage decreases and the process becomes inoperable. Note that the power supply device 85 of this embodiment is configured such that even when the drive voltage supplied to the main control device 60 drops below a predetermined value, the power supply device 85 is used as a drive voltage in a control system such as the main control device 60. It is configured to output a regulated voltage of volts. As the time during which this stabilizing voltage is output, sufficient time is ensured to execute the process up to storing the above-mentioned RAM judgment value in the main side RAM 64.

On the other hand, in the power outage monitoring process in step S40402, if it is determined that the drive voltage supplied from the power supply device 85 to the main control device 60 is not lower than the predetermined value, the process directly advances to step S40403.

In step S40403, it is determined whether at least one of the RAM abnormality flag or the game stop flag is ON. As described above, the RAM abnormality flag is a flag that is turned ON when it is determined that the information stored in the main RAM 64 is not normal in the main processing executed when the power is turned on. The game stop flag is a flag that is turned ON in order to stop the progress of the game when shaking or magnetism is detected in the fraud detection process. In step S40403, if it is determined that both the RAM abnormality flag and the game stop flag are not ON (step S40403: NO), the process advances to step S40404. On the other hand, if it is determined in step S40403 that at least one of the RAM abnormality flag or the game stop flag is ON (step S40403: YES), this timer interrupt processing is ended without executing the processing after step S40404. do. That is, if at least one of the RAM abnormality flag or the game stop flag is ON, the processing for enabling the game to proceed after step S40404 will not be executed, and the game will enter the game progress mode in which the game can proceed. is configured not to migrate. Hereinafter, the processing after step S40404, which is the processing for enabling the game to proceed, will be explained.

In step S40404, port output processing is executed. In the port output processing, when the output information has been set in the previous timer interrupt processing, processing is executed to cause the various drive units 36c and 34b to output corresponding to the output information. For example, if information is set to switch the big winning opening 36a to the open state, output of a drive signal to the variable winning a prize drive unit 36c is started, and if information to switch the big winning opening 36a to the closed state is set, The output of the drive signal is stopped. In addition, when the information to switch the electric accessory 34a of the second starting port 34 to the open state is set, the output of the drive signal to the electric accessory drive section 34b is started, and the information to switch the electric accessory 34a to the closed state is set. If set, the output of the drive signal is stopped. After that, the process advances to step S40405.

In step S40405, reading processing is executed. In the reading process, signals other than the incoming ball signal are read, and the read information is stored for use in future processing. After that, the process advances to step S40406.

In step S40406, the signals received from each of the ball entry detection sensors 44a to 44h are read, and ball entry detection processing is executed to perform processing corresponding to the read information. The ball entry detection process is the same as the ball entry detection process shown in FIG. 28, so a detailed explanation will be omitted. After executing step S40406, the process advances to step S40407.

In step S40407, timer update processing is executed to collectively update numerical information of predetermined timer counters provided in the main side RAM 64. After that, the process advances to step S40408.

In step S40408, ball entry processing for the starting ports is executed as the game balls enter the first starting ports 33 and the second starting ports 34. In the ball entry process for the starting port, the jackpot random number counter C1, the jackpot type counter C2, and the reach random number counter C3 are set based on the fact that it is determined that the game ball has entered the first starting port 33 or the second starting port 34. At the same time as acquiring the value, the acquired counter value is stored in the pending information storage area 64b of the RAM 64. After executing step S40408, the process advances to step S40409.

In step S40409, ball entry processing for the through gate is executed when the game ball enters (passes through) the through gate 35. In the ball entry process for the through gate, the value of the electric accessory opening counter C4 is acquired based on the fact that it is determined that the game ball has entered (passed) the through gate 35, and the acquired counter value is stored in the RAM 64. It is stored in the power reserve area 64d. After executing step S40409, the process advances to step S40410.

In step S40410, a game round control process is executed to control the game in each game round. In the game round control process, a winning lottery, display control of the first symbol display section 37a, second symbol display section 37b, etc. are performed. After executing step S40410, the process advances to step S40411.

In step S40411, a gaming state transition process for shifting the gaming state is executed. In the gaming state transition process, processing for shifting the gaming state to an opening/closing execution mode, a high probability mode, a high frequency support mode, etc. is executed. After executing step S40411, the process advances to step S40412.

In step S40412, electric utility support processing for controlling the electric accessory 34a is executed. In the electric accessory support process, it is determined whether or not the electric accessory 34a is to be in an open state (an electric accessory opening lottery), and if it is determined to be in an open state, the electric accessory 34a is drive-controlled. After executing step S40412, the process advances to step S40413.

In step S40413, game ball launch control processing is executed. In the game ball firing control process, a process for firing a game ball into the gaming area PA when the operation handle 25 is operated by the player is executed. After executing step S40413, the process advances to step S40414.

In step S40414, door monitoring processing is executed. In the door monitoring process, it is monitored whether the inner frame 13 and the front door frame 14 are in an open state. Details of the door monitoring process will be described later. After executing step S40414, the process advances to step S40415.

In step S40415, fraud detection processing is executed. In the fraud detection process, shaking and magnetism are monitored, and when shaking or magnetism is detected, an alarm sound and voices such as ``We have detected shaking!'' and ``We have detected magnetism!'' are output from the speaker 46. At the same time, the various lamps 47 are made to blink at maximum brightness. In addition, in the fraud detection process, when shaking or magnetism is detected, the above-mentioned game stop flag is turned on. As a result, after the game stop flag is turned ON, execution of the processes from step S40404 to step S40417 is avoided. After executing step S40415, the process advances to step S40416.

In step S40416, command output processing is executed to output (send) the command set as a transmission target in the current timer interrupt processing to each sub-side control device. For example, if commands related to production such as a variation command, a type command, a hold command, etc. are set, these are transmitted to the audio emission control device 90. After executing step S40416, the process advances to step S40417.

In step S40417, game history processing for calculating and displaying game history information is executed. The game history process is the same as the game history process shown in FIG. 29, so a detailed explanation will be omitted. After executing step S40417, this timer interrupt processing ends.

[Door monitoring process]
Next, details of the door monitoring process will be explained.

FIG. 126 is a flowchart showing the door monitoring process. This door monitoring process is executed as a subroutine of step S40414 in FIG. 125.

In step S40501, it is determined whether the door open flag is ON. The door open flag is a flag that turns ON when it is determined that at least one of the frame open switch and the door open switch is ON, as will be described later. In step S40501, if it is determined that the door opening flag is not ON (step S40501: NO), the process advances to step S40502, and it is determined whether at least one of the frame opening switch and the door opening switch is ON.

In step S40502, if it is determined that at least one of the frame release switch and the door release switch is ON (step S40502: YES), that is, if at least one of the inner frame 13 and the front door frame 14 is in the open state, , the process advances to step S40503 and the door open flag is turned ON. After that, the process advances to step S40504, a door opening command is set, and the main door monitoring process ends. On the other hand, if it is determined in step S40502 that both the frame release switch and the door release switch are OFF (step S40502: NO), that is, if both the inner frame 13 and the front door frame 14 are in the closed state, , the main door monitoring process ends without executing steps S40503 and S40504.

In step S40501, if it is determined that the door opening flag is ON (step S40501: YES), the process advances to step S40505, and it is determined whether both the frame opening switch and the door opening switch are OFF. In step S40505, if it is determined that both the frame release switch and the door release switch are OFF (step S40505: YES), that is, if both the inner frame 13 and the front door frame 14 are in the closed state, step Proceed to S40506 and turn off the door open flag. Thereafter, the process advances to step S40507, a door closing command is set, and the main door monitoring process ends. On the other hand, if it is determined in step S40505 that at least one of the frame release switch and the door release switch is ON (step S40505: NO), that is, if at least one of the inner frame 13 and the front door frame 14 is in the open state In this case, the main door monitoring process is ended without executing steps S40506 and S40507.

As explained above, in the door monitoring process, when it is determined that at least one of the frame opening switch and the door opening switch is ON, the door opening flag is turned ON and a door opening command is set. Then, when it is determined that both the frame opening switch and the door opening switch are OFF while the door opening flag is ON, the door opening flag is turned OFF and a door closing command is set.

Next, an example of processing executed by the sound and light side MPU 92 of the sound and light emission control device 90 of this embodiment will be described.

[Timer interrupt processing]
First, the timer interrupt process executed by the audio-optical side MPU 92 will be described.

FIG. 127 is a flowchart showing timer interrupt processing executed in the audio-optical side MPU 92. The timer interrupt process is repeatedly executed at a relatively short cycle (for example, 2 msec). The processing of each step executed in the timer interrupt processing will be described below.

In step S43101, command storage processing is executed. The command storage process is a process for storing the received command in the sound/light side RAM 94 when a command is received from the main side MPU 62 . The sound/light side RAM 94 is provided with a ring buffer to enable storage and reading of commands received from the main side MPU 62, and the commands received from the main side MPU 62 are sequentially stored in the ring buffer and , are sequentially read out according to the stored order. After executing step S43101, the process advances to step S43102.

In step S43102, various notification processes are executed. In various notification processes, notification processes corresponding to commands received from the main MPU 62 are executed. Details of various notification processes will be described later. After executing step S43102, the process advances to step S43103.

In step S43103, a game rendition process is executed. In the game round performance processing, processing related to the performance to be executed during the game round from the start of symbol variation until it stops is performed. After executing step S43103, the process advances to step S43104.

In step S43104, opening/closing execution mode production processing is executed. In the opening/closing execution mode performance processing, processing related to the performance during the opening period, the performance during the opening/closing processing period, and the performance during the ending period is performed. After executing step S43104, the process advances to step S43105.

In step S43105, customer waiting processing is executed. In the customer waiting process, a process for displaying a demonstration video on the symbol display device 41 is executed when a game round has not been executed for a predetermined period of time. After executing step S43105, the process advances to step S43106.

In step S43106, a light emission control process for controlling light emission of various lamps 47 is executed. In the light emission control process, light emission control of the various lamps 47 is performed based on the light emission data read in each of the above-mentioned production processes. After executing step S43106, the process advances to step S43107.

In step S43107, audio output control processing for controlling the audio output of the speaker 46 is executed. In the audio output control process, the audio output of the speaker 46 is controlled based on the audio data read out in the above BGM process and each production process. After executing step S43107, this timer interrupt processing ends.

[Various notification processing]
Next, various notification processes will be explained.

FIG. 128 is a flowchart showing various notification processes. Various notification processes are executed by the MPU 92 of the sound emission control device 90 as a timer interrupt processing subroutine (FIG. 127: S43102).

In step S43201, a setting change mode notification process is executed. In the setting change mode notification process, the setting change mode execution notification process is started based on the reception of the setting change mode start command from the main MPU 62, or the setting change mode notification process is started based on the reception of the setting change mode end command A or B. to end the setting change mode execution notification process. Details of the setting change mode notification process will be described later. After executing step S43201, the process advances to step S43202.

In step S43202, setting confirmation mode notification processing is executed. In the setting confirmation mode notification process, the setting confirmation mode execution notification process is started based on the reception of the setting confirmation mode start command from the main MPU 62, and the setting confirmation mode notification process is started based on the reception of the setting confirmation mode end command. Terminate the currently running notification process. In the settings confirmation mode notification process, the settings confirmation mode notification process is started based on the reception of the settings confirmation mode end command, and after 30 seconds has elapsed, the settings confirmation mode notification process is ended. Details of the setting confirmation mode notification process will be described later. After executing step S43202, the process advances to step S43203.

In step S43203, RAM clear notification processing is executed. In the RAM clear notification process, one of RAM clear notification processes A, B1, and B2 is started based on receiving a RAM clear command from the main MPU 62, and after 30 seconds have elapsed, the RAM clear notification process is started. Terminate it. Details of the RAM clear notification process will be described later. After executing step S43203, the process advances to step S43204.

In step S43204, RAM abnormality notification processing is executed. In the RAM abnormality notification process, the RAM abnormality notification process is started based on receiving the RAM abnormality command from the main MPU 62. Details of the RAM abnormality reporting process will be described later. After executing step S43204, the process advances to step S43205.

In step S43205, door open notification processing is executed. In the door open notification process, the door open notification process is started based on receiving the door open command from the main MPU 62, and is ended based on the reception of the door close command. Details of the door open notification process will be described later. After executing step S43205, the process advances to step S43206.

In step S43206, other notification processing is executed. In other notification processing, for example, when a command indicating that magnetism has been detected is received from the main MPU 62, processing for notifying that magnetism has been detected is executed. After executing step S43206, this various notification processing ends.

[Processing for setting change mode notification]
Next, the setting change mode notification process will be explained.

FIG. 129 is a flowchart showing the setting change mode notification process. The setting change mode notification process is executed by the MPU 92 of the audio emission control device 90 as a subroutine for various notification processes (FIG. 128: S43201).

In step S43301, it is determined whether a setting change mode start command has been received. In step S43301, if it is determined that the settings change mode start command has been received (step S43301: YES), the process advances to step S43302, and the above-described settings change mode execution notification process is started. After executing step S43302, the process advances to step S43303. On the other hand, if it is determined in step S43301 that the settings change mode start command has not been received (step S43301: NO), the process proceeds to step S43303 without executing step S43302.

In step S43303, it is determined whether the setting change mode end command A or the setting change mode end command B has been received. In step S43303, if it is determined that either the setting change mode end command A or the setting change mode end command B has been received (step S43303: YES), the process advances to step S43304, and the setting change mode execution notification process is performed. terminate. After that, the process advances to step S43305, and the setting change mode execution completion flag in the sound/light side RAM 94 is turned ON. This setting change mode executed flag is a flag that is referenced when determining the type (A or B) of the RAM clear notification process, which will be described later, and indicates whether the RAM clear process has been executed with the execution of the setting change mode as a trigger. , or is a flag for identifying whether the RAM clearing process was executed alone. After executing step S43305, the process advances to step S43306, and it is determined whether the received command is a setting change mode termination command B. In step S43306, if it is determined that the received command is the setting change mode end command B (step S43306: YES), the process advances to step S43307, and the sound and light side setting changed flag in the sound and light side RAM 94 is turned ON. . This sound/light side setting changed flag is a flag that is referenced when determining the type (B1 or B2) of RAM clear notification processing, which will be described later, and identifies whether or not the setting information has been changed in the setting change mode. This is a flag for After executing step S43307, this setting change mode notification process ends. On the other hand, if it is determined in step S43306 that the received command is not the settings change mode end command B (step S43306: NO), that is, if the received command is the settings change mode end command A, step S43307 is executed. This setting change mode notification process ends without executing it.

If it is determined in step S43303 that neither the settings change mode end command A nor the settings change mode end command B has been received (step S43303: NO), steps S43304 to S43307 described above are not executed. This setting change mode notification process ends.

[Processing for setting confirmation mode notification]
Next, the setting confirmation mode notification process will be explained.

FIG. 130 is a flowchart showing the setting confirmation mode notification process. The setting confirmation mode notification process is executed by the MPU 92 of the audio emission control device 90 as a subroutine of various notification processes (FIG. 128: S43202).

In step S43401, it is determined whether a setting confirmation mode start command has been received. In step S43401, if it is determined that the setting confirmation mode start command has been received (step S43401: YES), the process advances to step S43402, and the above-described setting confirmation mode execution notification process is started. After executing step S43402, the process advances to step S43403. On the other hand, if it is determined in step S43401 that the setting confirmation mode start command has not been received (step S43401: NO), the process proceeds to step S43403 without executing step S43402.

In step S43403, it is determined whether a setting confirmation mode end command has been received. In step S43403, if it is determined that the setting confirmation mode end command has been received (step S43403: YES), the process advances to step S43404, and the setting confirmation mode execution notification process is ended. After that, the process advances to step S43405, and after the setting confirmation mode ends, notification processing is started. After executing step S43405, the process advances to step S43406, and the notification flag is turned ON after the setting confirmation mode ends. After that, the process advances to step S43407, and the priority notification flag is turned on. This priority notification flag indicates that even if the start conditions for the door open notification process described later are met, if the notification process after the setting confirmation mode is being executed, the notification process after the setting confirmation mode is given priority. This is a flag for not starting the door open notification process. After executing step S43407, the process advances to step S43408. On the other hand, if it is determined in step S43403 that the setting confirmation mode end command has not been received (step S43403: NO), the process proceeds to step S43408 without executing steps S43404 to S43407.

In step S43408, it is determined whether the notification flag is ON after the setting confirmation mode ends. In step S43408, if it is determined that the post-setting confirmation mode notifying flag is ON (step S43408: YES), the process advances to step S43409, and it is determined whether or not it is the end timing of the post-setting confirmation mode notifying process. judge. Specifically, in this aspect, when 30 seconds have elapsed since the post-setting confirmation mode notification process was started, it is determined that it is time to end the post-setting confirmation mode notification process. If it is determined in step S43409 that it is time to end the post-setting confirmation mode notification process (step S43409: YES), the process advances to step S43410, and the post-setting confirmation mode notification process is ended. After that, the process advances to step S43411 and step S43412, and after the setting confirmation mode ends, the notification flag and priority notification flag are turned OFF. Thereafter, the main setting confirmation mode notification process ends. On the other hand, if it is determined in step S43408 that the notifying flag after the end of setting confirmation mode is not ON (step S43408: NO), and if it is determined in step S43409 that it is not the timing to end the notification process after the end of setting confirmation mode, (Step S43409: NO), this setting confirmation mode notification process is ended without executing Steps S43410 to S43412.

[RAM clear notification processing]
Next, the RAM clear notification process will be explained.

FIG. 131 is a flowchart showing the RAM clear notification process. The RAM clear notification process is executed by the MPU 92 of the audio emission control device 90 as a subroutine for various notification processes (FIG. 128: S43203).

In step S43501, it is determined whether a RAM clear command has been received. If it is determined in step S43501 that a RAM clear command has been received (step S43501: YES), the process advances to step S43502, and it is determined whether the setting change mode execution completion flag is ON. That is, it is determined whether the setting change mode was executed before the RAM clearing process executed this time. In step S43502, if it is determined that the setting change mode execution completed flag is not ON (step S43502: NO), that is, if the setting change mode has not been executed before the RAM clearing process executed this time, Proceeding to step S43503, RAM clear notification processing A is started. Thereafter, the process advances to step S43509, which will be described later.

On the other hand, if it is determined in step S43502 that the settings change mode executed flag is ON (step S43502: YES), that is, if the settings change mode was executed before the RAM clear process executed this time, , the process advances to step S43504, where the setting change mode execution completion flag is turned OFF, and then the process advances to step S43505.

In step S43505, it is determined whether the sound/light side setting changed flag is ON. That is, it is determined whether the setting information has been changed in the setting change mode executed before the RAM clearing process. In step S43505, if it is determined that the sound and light side setting changed flag is not ON (step S43505: NO), that is, if the setting information has not been changed in the setting change mode executed before the RAM clear processing In this case, the process advances to step S43506, and RAM clear notification processing B1 is started. Thereafter, the process advances to step S43509, which will be described later. On the other hand, if it is determined in step S43505 that the sound and light side setting changed flag is ON (step S43505: YES), that is, the setting information has been changed in the setting change mode executed before the RAM clearing process. If so, the process advances to step S43507, and RAM clear notification processing B2 is started. Thereafter, the process advances to step S43508, where the sound and light side setting changed flag is turned OFF, and the process advances to step S43509.

In step S43509, the RAM clear notification flag is turned on. After that, the process advances to step S43510, and the priority notification flag is turned on. After that, the process advances to step S43511. On the other hand, if it is determined in step S43501 that the RAM clear command has not been received (step S43501: NO), the process proceeds to step S43511 without executing steps S43502 to S43510.

In step S43511, it is determined whether the RAM clear notification flag is ON. In step S43511, if it is determined that the RAM clear notification flag is ON (step S43511: YES), the process advances to step S43512, and it is determined whether it is the timing to end the RAM clear notification process. Specifically, in this aspect, when 30 seconds have elapsed since one of the RAM clear notification processes A, B1, and B2 was started, it is determined that it is the end timing of the RAM clear notification process. If it is determined in step S43512 that it is time to end the RAM clear notification process (step S43512: YES), the process advances to step S43513, and the notification process in progress among RAM clear notification processes A, B1, and B2 is ended. . After that, the process advances to steps S43514 and S43515, and the RAM clear notification flag and priority notification flag are turned OFF. Thereafter, this RAM clear notification process is ended. On the other hand, if it is determined in step S43511 that the RAM clear notification flag is not ON (step S43511: NO), and if it is determined in step S43512 that it is not the end timing of the RAM clear notification process (step S43512: NO), ), this RAM clear notification process ends without executing steps S43513 to S43515.

In this manner, when a RAM clear command is received, one of the RAM clear notification processes A, B1, and B2 is started, and the priority notification flag is turned ON. Alternatively, even if the front door frame 14 is in an open state, the door open notification process is not started.

[RAM abnormality notification processing]
Next, the RAM abnormality notification process will be explained.

FIG. 132 is a flowchart showing the RAM abnormality notification process. The RAM abnormality notification process is executed by the MPU 92 of the audio emission control device 90 as a subroutine for various notification processes (FIG. 128: S43204).

In step S43601, it is determined whether a RAM abnormality command has been received. If it is determined in step S43601 that a RAM abnormality command has been received (step S43601: YES), the process advances to step S43602, and RAM abnormality notification processing is started. Specifically, the RAM abnormality notification process repeatedly outputs a voice such as "RAM abnormality" from the speaker 46, lights up the full color (RGB) LED lamp in red at maximum brightness among the various lamps 47, and turns on the monochrome LED. This is a process in which the lamp is turned on at maximum brightness and a character string such as "RAM abnormality" is displayed on the display surface 41a of the symbol display device 41 in a display format of white characters on a black background. After executing step S43602, the process advances to step S43603 and the priority notification flag is turned on. Thereafter, this RAM abnormality notification process is ended. On the other hand, if it is determined in step S43601 that no RAM abnormality command has been received (step S43601: NO), this RAM abnormality notification process is ended without executing steps S43602 and S43603.

In this manner, when the RAM abnormality command is received, the RAM abnormality notification process is started and the priority notification flag is turned ON, so that the inner frame 13 or the front door frame 14 is in the open state. Even if the door is opened, the door open notification process is not started. In this aspect, in order to end the RAM abnormality notification process, it is sufficient to turn off the power switch of the pachinko machine 10.

[Door open notification processing]
Next, the door open notification process will be explained.

FIG. 133 is a flowchart showing the door open notification process. The door open notification process is executed by the MPU 92 of the audio emission control device 90 as a subroutine for various notification processes (FIG. 128: S43205).

In step S43701, it is determined whether a door open command has been received. In step S43701, if it is determined that a door open command has been received (step S43701: YES), the process advances to step S43702, and the sound-light side door open flag is turned ON. After that, the process advances to step S43703. On the other hand, if it is determined in step S43701 that the door open command has not been received (step S43701: NO), the process proceeds to step S43703 without executing step S43702.

In step S43703, it is determined whether a door close command has been received. In step S43703, if it is determined that a door closing command has been received (step S43703: YES), the process advances to step S43704, and the sound-light side door opening flag is turned OFF. After that, the process advances to step S43705. On the other hand, if it is determined in step S43703 that the door closing command has not been received (step S43703: NO), the process proceeds to step S43705 without executing step S43704.

In step S43705, it is determined whether the door open notification flag is ON. This door open notification flag is a flag for determining whether the door open notification process is being executed. In step S43705, if it is determined that the door open notification flag is not ON (step S43705: NO), the process advances to step S43706, and it is determined whether the sound-light side door open flag is ON. In step S43706, if it is determined that the sound-light side door opening flag is ON (step S43706: YES), the process advances to step S43707, and it is determined whether the priority notification flag is ON. In step S43707, if it is determined that the priority notification flag is not ON (step S43707: NO), the process proceeds to step S43708, and door open notification processing is started. After that, the process advances to step S43709, and the door open notification flag is turned on. Thereafter, the main door opening notification process is ended. On the other hand, if it is determined in step S43706 that the sound-light side door opening flag is not ON (step S43706: NO), and if it is determined in step S43707 that the priority notification flag is ON (step S43707 :YES), the main door opening notification process is ended without executing steps S43708 and S43709.

If it is determined in step S43705 that the door open notification flag is ON (step S43705: YES), the process advances to step S43710, and it is determined whether the sound-light side door open flag is ON. If it is determined in step S43710 that the sound-light side door open flag is not ON (step S43710: NO), the process advances to step S43711, and the door open notification process ends. After that, the process advances to step S43712, and the door open notification flag is turned OFF. Thereafter, the main door opening notification process is ended. On the other hand, if it is determined in step S43710 that the sound-light side door open flag is ON (step S43710: NO), the main door open notification process is ended without executing steps S43711 and S43712.

According to this aspect described above, excellent effects described below can be achieved.

According to this aspect, when the setting change mode is executed, the RAM clear notification process B1 or B2 is executed for a predetermined period (30 seconds in this aspect), so that the administrator can change the settings in the pachinko machine 10 concerned. It is possible to prevent the occurrence of a situation where the user does not notice that the mode has been executed.

A case will be described in which, unlike this embodiment, a configuration is adopted in which notification is executed only during the period in which the setting change mode is being executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If you start the setting change mode and quickly change the setting information, and then quickly end the setting change mode, the notification period can be shortened, and the setting information can be changed without the administrator etc. noticing. There is a problem that it becomes possible to make unauthorized changes.

In contrast, according to this aspect, even if an unauthorized person quickly ends the setting change mode, the RAM clear notification process B1 or B2 will continue for a predetermined period (30 seconds in this aspect). , an administrator, etc. can notice that the setting change mode has been executed in the pachinko machine 10 by the RAM clear notification process B1 or B2 that lasts for the predetermined period. Therefore, according to this aspect, it is possible to suppress unauthorized changes to the setting information by an unauthorized person. Note that the length of the predetermined period for executing the RAM clear notification process B1 or B2 is not limited to 30 seconds, and may be set to another length. For example, the length of the predetermined period for executing the RAM clear notification process B1 or B2 may be set to 40 seconds.

Further, according to this aspect, when the settings change mode is executed, a predetermined notification process (RAM clear notification process B1 or B2 in this example) is performed for a predetermined period after the settings change mode ends (in this example, 30 seconds). The reason for adopting such a configuration will be explained.

First, unlike this embodiment, a case will be described in which a configuration is employed in which a predetermined notification process is executed for a predetermined period after the start of the setting change mode. In this configuration, for example, if the settings change mode is being executed for a period longer than the predetermined period, the predetermined notification process will end while the settings change mode is being executed; If the settings change mode ends in a period shorter than the predetermined period, the predetermined notification process continues even after the settings change mode ends. That is, the predetermined notification process ends or continues without being linked to the end timing of the setting change mode, which may confuse the administrator.

In contrast, according to this aspect, the predetermined notification process is executed for a predetermined period after the settings change mode ends, so the predetermined notification process is not linked to the end timing of the settings change mode. It never ends or continues. Therefore, while avoiding confusing the administrator, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting change mode has been executed in the pachinko machine 10 concerned.

Further, according to this aspect, since the settings change mode execution notification process is executed while the settings change mode is being executed, the administrator can notify the settings change mode that the settings change mode is being executed by an unauthorized person. This can be noticed even during execution.

Further, according to this aspect, when the setting confirmation mode is executed, the notification process is executed for a predetermined period (30 seconds in this aspect) after the setting confirmation mode ends, so that the administrator can It is possible to suppress the occurrence of a situation where the user does not notice that the setting confirmation mode has been executed.

A case will be described in which, unlike this embodiment, a configuration is adopted in which notification is performed only during the period in which the setting confirmation mode is being executed. In this configuration, for example, if an unauthorized person attempts to illegally check the setting information without being noticed by the administrator or surrounding players, the setting confirmation mode is started to quickly check the setting information, and then, If the setting confirmation mode is ended quickly, the period of the notification can be shortened, and there is a problem that it becomes possible to illegally confirm the setting information without being noticed by the administrator or the like.

In contrast, according to this aspect, even if an unauthorized person quickly ends the settings confirmation mode, the notification process will continue for a predetermined period (30 seconds in this aspect) after the settings confirmation mode ends. , an administrator, etc. can notice that the setting confirmation mode has been executed in the pachinko machine 10 by the notification process after the setting confirmation mode ends for the predetermined period. Therefore, according to this aspect, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person. Note that the length of the predetermined period for executing the notification process after the end of the setting confirmation mode is not limited to 30 seconds, and may be set to another length. For example, the length of the predetermined period for executing the notification process after the end of the setting confirmation mode may be set to 40 seconds.

Further, according to this aspect, when the settings confirmation mode is executed, the predetermined notification process (in this aspect, the notification process after the settings confirmation mode ends) is performed for a predetermined period after the settings confirmation mode ends (in this aspect, the notification process is performed). 30 seconds). The reason for adopting such a configuration will be explained.

First, unlike this embodiment, a case will be described in which a configuration is adopted in which a predetermined notification process is executed for a predetermined period after the start of the setting confirmation mode. In this configuration, for example, if the settings confirmation mode is being executed for a period longer than the predetermined period, the predetermined notification process will end while the settings confirmation mode is being executed; If the setting confirmation mode ends in a period shorter than the predetermined period, the predetermined notification process continues even after the setting confirmation mode ends. That is, the predetermined notification process ends or continues without being linked to the end timing of the setting confirmation mode, which may confuse the administrator.

In contrast, according to this aspect, the predetermined notification process is executed for a predetermined period after the setting confirmation mode ends, so the predetermined notification process is not linked to the end timing of the setting confirmation mode. It never ends or continues. Therefore, while avoiding confusing the administrator, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned.

Further, according to this aspect, since the settings check mode execution notification process is executed while the settings check mode is being executed, the administrator can notify the settings check mode that the settings check mode is being executed by an unauthorized person. This can be noticed even during execution.

Further, according to this aspect, the setting change mode execution notification process and the RAM clear notification process B1 or B2, which are the notification processes executed when the setting change mode is executed, are performed on the inner frame 13 and the front door frame 14. To give priority to door open notification processing executed when at least one door is in an open state. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which door open notification processing is given priority over setting change mode execution notification processing and RAM clear notification processing B1 or B2. In this configuration, for example, if an unauthorized person tries to illegally change the setting information without being noticed by the administrator or surrounding players, at least one of the inner frame 13 and the front door frame 14 is left open and the door is opened. If the door open notification process is executed, even if the setting change mode is executed, the door open notification process will take priority over the setting change mode execution notification process and the RAM clear notification process B1 or B2, and the administrator etc. There is a problem that it becomes possible to illegally change the setting information without being noticed.

In contrast, according to the present aspect, even if an unauthorized person leaves at least one of the inner frame 13 and the front door frame 14 open, the setting change mode execution notification process and the RAM clear notification process B1 or B2 are performed when the door is opened. Since it is given priority over the notification process, it is possible to increase the possibility that the administrator or the like will notice that the setting change mode has been executed in the pachinko machine 10 concerned. Therefore, according to this aspect, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

Specifically, in this aspect, when the setting change mode execution notification process or the RAM clear notification process B1 or B2 is being executed, at least one of the inner frame 13 and the front door frame 14 is in an open state. The configuration is such that door open notification processing is not executed even if there is a door open notification process. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned.

Note that other configurations may be adopted as a configuration in which the setting change mode execution notification process and the RAM clear notification process B1 or B2 are prioritized over the door open notification process. For example, when the setting change mode execution notification process or the RAM clear notification process B1 or B2 is being executed and at least one of the inner frame 13 and the front door frame 14 is in an open state, the door The volume of the open notification process may be lower than that when the setting change mode execution notification process or the RAM clear notification process B1 or B2 is not being executed. According to such a configuration, the setting change mode is executed in the pachinko machine 10 while making the administrator etc. aware that at least one of the inner frame 13 and the front door frame 14 is in an open state. can be made to notice.

Further, according to this aspect, the notification process during execution of the setting confirmation mode and the notification process after the end of the setting confirmation mode, which are the notification processes executed when the setting confirmation mode is executed, are performed on the inner frame 13 and the front door frame 14. To give priority to door open notification processing executed when at least one door is in an open state. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike the present embodiment, a configuration is adopted in which door open notification processing is given priority over notification processing during execution of setting confirmation mode and notification processing after completion of setting confirmation mode. In this configuration, for example, if an unauthorized person tries to illegally check the setting information without being noticed by the administrator or surrounding players, at least one of the inner frame 13 and the front door frame 14 is left open and the door is opened. If the door opening notification process is executed, even if the setting confirmation mode is executed, the door open notification process will take priority over the setting confirmation mode execution notification process and the post-setting confirmation mode notification process, and the administrator etc. There is a problem that it becomes possible to illegally check the setting information without being noticed.

In contrast, according to the present aspect, even if an unauthorized person leaves at least one of the inner frame 13 and the front door frame 14 open, the notification process during execution of setting confirmation mode and the notification process after completion of setting confirmation mode are performed when the door is opened. Since it is given priority over the notification process, it is possible to increase the possibility that the administrator or the like will notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned. Therefore, according to this aspect, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

Specifically, in this aspect, when the notification process during execution of setting confirmation mode or the notification process after completion of setting confirmation mode is executed, at least one of the inner frame 13 and the front door frame 14 is in an open state. The configuration is such that door open notification processing is not executed even if there is a door open notification process. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned.

Note that other configurations may be adopted as a configuration in which the notification process during execution of the setting confirmation mode and the notification process after the end of the setting confirmation mode are prioritized over the door open notification process. For example, when the setting confirmation mode notification process or the post-setting confirmation mode notification process is being executed, and at least one of the inner frame 13 and the front door frame 14 is in an open state, the door The volume of the opening notification process may be set to be lower than that in the case where the notification process during execution of the setting confirmation mode or the notification process after the end of the setting confirmation mode is not executed. According to such a configuration, the setting confirmation mode is executed in the pachinko machine 10 while making the administrator etc. aware that at least one of the inner frame 13 and the front door frame 14 is in an open state. can be made to notice.

Further, according to this aspect, the settings change mode in-execution notification process is executed during the period in which the settings change mode is being executed, and after the settings change mode ends, the notification process is performed in a notification mode different from the notification process of the settings change mode in progress notification process. A certain RAM clear notification process B1 or B2 is executed. The reason for adopting this configuration will be explained.

First, unlike this aspect, the notification mode of the setting change mode in-progress notification process that is executed during the period in which the setting change mode is being executed, and the RAM clear notification process B1 or B2 that is executed after the end of the setting change mode. A case will be described in which a configuration in which the notification mode is the same is adopted. When this configuration is adopted, for example, if the manager of a game hall instructs a worker to change the setting information of the pachinko machine 10 before the game hall starts business, the worker In the pachinko machine 10 that is being worked on, the administrator determines whether the setting change mode is being executed or whether the setting change mode has already ended, using the setting change mode execution notification process and the RAM clear notification process B1 or B2. It cannot be determined from the notification mode. Therefore, there is a problem that the manager cannot promptly give the next instruction to the worker.

In contrast, according to this aspect, the settings change mode in-progress notification process is executed during the period in which the settings change mode is being executed, and after the settings change mode ends, the notification mode is different from the settings change mode in-execution notification process. Since the RAM clear notification processing B1 or B2, which is the notification mode, is executed, the administrator can check the notification mode of the notification executed by the pachinko machine 10 even if he does not closely check the work process of the worker on the pachinko machine 10. By understanding this, it becomes possible to understand whether the setting change mode is being executed or whether the setting change mode has already ended. Therefore, the manager can promptly give the following instructions to the worker.

Further, according to this aspect, the settings check mode in-progress notification process is executed during the execution period of the settings check mode, and after the settings check mode ends, the notification process is performed in a notification mode different from the notification process of the settings check mode in progress notification process. After a certain setting confirmation mode ends, notification processing is executed. The reason for adopting this configuration will be explained.

First, unlike this aspect, we will explain the notification mode of the setting confirmation mode in-progress notification process that is executed while the setting confirmation mode is being executed, and the notification process after the setting confirmation mode ends that is executed after the setting confirmation mode ends. A case will be described in which a configuration in which the notification mode is the same is adopted. When this configuration is adopted, for example, if the manager of a game hall instructs a worker to check the setting information of the pachinko machine 10 before the game hall starts business, the worker In the pachinko machine 10 that is being worked on, the administrator can check whether the setting confirmation mode is being executed or whether the setting confirmation mode has already ended, through the notification process when the setting confirmation mode is in progress and the notification process after the setting confirmation mode has ended. It cannot be determined from the notification mode. Therefore, there is a problem that the manager cannot promptly give the next instruction to the worker.

In contrast, according to this aspect, the settings check mode in-execution notification process is executed during the period in which the settings check mode is being executed, and after the settings check mode ends, the notification mode is different from the settings check mode in-execution notification process. Since the notification process is executed after the setting confirmation mode, which is the notification mode, is finished, the administrator can check the notification mode of the notification executed by the pachinko machine 10 even if he does not closely check the work process of the worker on the pachinko machine 10. By knowing this, it becomes possible to know whether the setting confirmation mode is being executed or whether the setting confirmation mode has already ended. Therefore, the manager can promptly give the following instructions to the worker.

Further, according to this aspect, when the RAM clearing process is executed not at the end of the setting change mode but at the trigger of a predetermined operation for executing the RAM clearing process, the RAM clear notification process A Execute. On the other hand, when the RAM clear processing is executed upon completion of the setting change mode, RAM clear notification processing B1 or B2, which is a different notification mode from the RAM clear notification processing A, is executed. Therefore, even if the administrator does not have to know what kind of operation has been performed on the pachinko machine 10, by understanding the notification mode of the RAM clear notification process in the pachinko machine 10, the administrator can perform the RAM clearing process. It becomes possible to ascertain whether the execution was triggered by a predetermined operation or by the end of the setting change mode.

Specifically, for example, before the game hall opened for business, the manager instructed the worker to have the pachinko machine 10 execute a RAM clearing process, but did not instruct the worker to change the setting information. In such cases, check whether the worker is performing work that differs from the instructions of the administrator by checking the notification mode of the RAM clear notification process, even if you are not directly monitoring the worker's work. be able to.

Further, according to this aspect, when the setting information is not changed in the setting change mode, the RAM clear notification process B1 is executed. On the other hand, when the setting information is changed in the setting change mode, RAM clear notification processing B2, which has a different notification mode from RAM clear notification processing B1, is executed. Therefore, the administrator can change the setting information in the pachinko machine 10 by understanding the notification mode of the RAM clear notification process in the pachinko machine 10 without knowing what kind of operation was performed in the setting change mode. It becomes possible to grasp whether or not the has been changed.

Specifically, for example, if the manager of the game hall instructs a worker to change the setting information of the pachinko machine 10 before the game hall starts operating, the worker does not understand the manager's instructions. It is possible to check whether a different task is being performed by checking the notification mode of the RAM clear notification process. Furthermore, even if the administrator himself changes the configuration information in the configuration change mode, he can confirm whether his work was performed correctly by checking the notification mode of the RAM clear notification process. .

Further, according to this aspect, when the audio emission control device 90 receives a RAM clear command and has not received the setting change mode end command A or B before receiving the RAM clear command, RAM clear notification processing A is executed. On the other hand, when a RAM clear command is received, if a setting change mode end command A or B is received before receiving the RAM clear command, a RAM clear notification process that is different from the RAM clear notification processing A is executed. Execute notification processing B1 or B2. Therefore, even in a configuration in which a RAM clear command cannot be transmitted with different instruction contents included, it is possible to execute RAM clear notification processing triggered by the RAM clear command in different notification modes.

Specifically, as shown in this embodiment, in a configuration in which a RAM clear command is sent after executing a RAM clearing process to erase information stored in the main side RAM 64, the setting is made before executing the RAM clearing process. It is not possible to send a RAM clear command that includes information as to whether or not the change mode has been executed. Therefore, the problem is that it is not possible to cause the audio emission control device 90 that has received the RAM clear command to execute the RAM clear notification process in a notification manner that corresponds to whether or not the setting change mode has been executed before executing the RAM clear process. was there.

In contrast, according to this aspect, when the setting change mode is executed before executing the RAM clear process, the setting change mode end command A or B is transmitted (step S40218 or step S40219 in FIG. 123), and the RAM After executing the clearing process, a RAM clear command is sent (step S40221 in FIG. 123). On the other hand, if the settings change mode is not executed before the RAM clear process is executed, the RAM clear command is sent after the RAM clear process is executed without sending the settings change mode end command A or B (Fig. 122 step S40121). Therefore, it is possible to execute the RAM clear notification process in a notification mode corresponding to whether or not the setting change mode was executed before executing the RAM clear process.

Further, according to this aspect, when the audio emission control device 90 receives a RAM clear command, if the setting change mode end command A has been received before receiving the RAM clear command, the audio emission control device 90 issues a RAM clear notification. Execute process B1. On the other hand, in the case where a RAM clear command is received, if a setting change mode end command B is received before receiving the RAM clear command, a RAM whose notification mode is different from the notification mode of the RAM clear notification process B1. Clear notification processing B2 is executed. Therefore, even in a configuration in which a RAM clear command cannot be transmitted with different instruction contents included, it is possible to execute RAM clear notification processing triggered by the RAM clear command in different notification modes.

Specifically, as shown in this embodiment, in a configuration in which the RAM clear command is sent after executing the RAM clearing process to erase information stored in the main side RAM 64, the time point before executing the RAM clearing process is In this case, it is not possible to send a RAM clear command including the command contents corresponding to the information stored in the main side RAM 64 (in this embodiment, the state of the setting changed flag indicating whether or not the setting information has been changed). Therefore, it is not possible to cause the audio emission control device 90 that received the RAM clear command to execute the RAM clear notification process in a notification manner that corresponds to the information stored in the main RAM 64 at the time before the RAM clear process was executed. There was an issue.

In contrast, according to this aspect, either the settings change mode end command A or the settings change mode end command B is transmitted based on the state of the settings change completed flag, which is information stored in the main side RAM 64. Since the configuration is such that the RAM clear command is sent after executing the RAM clearing process, it corresponds to the state of the setting changed flag, which is information stored in the RAM before executing the RAM clearing process. It becomes possible to execute RAM clear notification processing in a notification mode.

Further, according to this aspect, the audio emission control device 90 executes the notification upon receiving the RAM clear command, but executes the notification upon receiving the setting change mode end command A or B. do not. The reason for adopting such a configuration will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which the audio emission control device 90 executes notification even when receiving the setting change mode termination command A or B. When this configuration is adopted, the audio emission control device 90 will receive the RAM clear command while executing the notification triggered by receiving the setting change mode end command A or B. In this case, the audio emission control device 90 adopts a configuration in which a notification triggered by receiving the setting change mode end command A or B and a notification triggered by receiving the RAM clear command are executed redundantly. Alternatively, a configuration is adopted in which the notification triggered by the reception of the setting change mode end command A or B is terminated when the notification triggered by the receipt of the RAM clear command is started. .

However, if a configuration is adopted in which the notification triggered by receiving the setting change mode end command A or B and the notification triggered by receiving the RAM clear command are executed simultaneously, the administrator There is a problem that the content of any notification cannot be recognized. In addition, if a configuration is adopted in which the notification triggered by the reception of the settings change mode end command A or B is terminated at the same time as the notification triggered by the reception of the RAM clear command, the setting change The notification triggered by the reception of the mode end command A or B (for example, the notification that the settings change mode has ended) ends in a short period of time, and the administrator receives the settings change mode end command A or B. There are problems in that the user is unable to notice the notification triggered by the change, and is unable to recognize that the setting change mode has ended.

In contrast, according to the present aspect, the audio emission control device 90 executes the notification upon receiving the RAM clear command, but not upon receiving the setting change mode end command A or B. Since the notification is not executed, the notification triggered by receiving the setting change mode end command A or B and the notification triggered by receiving the RAM clear command will be executed simultaneously, and the administrator will It is possible to avoid a situation where the content of the notification cannot be recognized.

According to the configuration of this aspect, by executing the RAM clear notification process B1 or B2, which is a notification triggered by receiving the RAM clear command, in addition to the completion of the RAM clear process, setting changes can also be made. Since the administrator is notified that the mode has ended, it becomes possible for the administrator to reliably recognize that the setting change mode has ended in addition to the completion of the RAM clearing process. Therefore, there is no problem even if the notification triggered by the reception of the setting change mode termination command A or B is not executed, and the notification triggered by the reception of the configuration change mode termination command A or B described above is not executed. (For example, notification that the settings change mode has ended) ends in a short period of time, and the administrator is unable to notice the notification triggered by receiving the settings change mode end command A or B. It is also possible to solve the problem of not being able to recognize that the change mode has ended.

Further, according to this aspect, when the audio emission control device 90 receives a RAM clear command and has not received the setting change mode end command A or B before receiving the RAM clear command, RAM clear notification processing A is executed. On the other hand, when a RAM clear command is received, if a setting change mode end command A or B is received before receiving the RAM clear command, the notification mode is different from the notification mode of RAM clear notification process A. Since a certain RAM clear notification process B1 or B2 is executed, the setting change mode end command A or B is received by the administrator who recognized the RAM clear notification process before the audio emission control device 90 receives the RAM clear command. It is possible to determine whether or not the person was doing so. Specifically, it is possible for the administrator who has recognized the RAM clear notification process to know whether the setting change mode was executed before the RAM clear process.

Note that in this aspect, the door monitoring process (step S40414) is not executed until the timer interrupt process (FIG. 125) is started in the main controller 60. The door monitoring process is not executed, and as a result, the setting change mode execution notification process and setting confirmation mode execution notification process are prioritized over the door open notification process. A configuration may be adopted in which the door monitoring process can be executed even during execution of the confirmation mode, and the setting change mode execution notification process and the setting confirmation mode execution notification process are prioritized over the door open notification process. Specifically, for example, the sound emission control device 90 is configured to be able to receive the signals from the frame opening switch and the door opening switch, and after the power supply to the pachinko machine 10 is started, the settings are made in the main control device 60. Even during the period when the change mode or setting confirmation mode is being executed, the sound emission control device 90 is configured to monitor the states of the inner frame 13 and the front door frame 14, and it is configured to perform notification processing and setting confirmation while the setting change mode is being executed. The mode execution notification process may be given priority over the door open notification process.

<Aspect 122>
Among the above aspects, in a configuration in which a predetermined notification process (RAM clear notification process B1 or B2 in the above aspect 121) is executed after the setting change mode ends, the notification process to the pachinko machine 10 during the execution of the predetermined notification process is In the case where the power supply is cut off, a configuration may be adopted in which a predetermined notification process is executed when the power supply to the pachinko machine 10 is restarted. The reason for adopting this configuration will be explained.

First, unlike this aspect, even if the power supply to the pachinko machine 10 is cut off during execution of a predetermined notification process, the power supply to the pachinko machine 10 is restarted. A case will be described in which a configuration is adopted in which the predetermined notification process is not executed in the case where the notification process is executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. After executing the setting change mode to change the setting information and ending the setting change mode, if the power switch of the pachinko machine 10 is turned off to cut off the power supply to the pachinko machine 10, The predetermined notification process can be ended, and the setting information can be changed illegally without being noticed by the administrator or the like. Then, if the power switch of the pachinko machine 10 is turned on again to start supplying power to the pachinko machine 10, the pachinko machine 10 whose setting information has been changed without the administrator's knowledge There is a problem that an unauthorized person may be able to play games on the machine 10.

In contrast, according to this aspect, after an unauthorized person ends the setting change mode, the unauthorized person turns off the power switch of the pachinko machine 10, cuts off the power supply to the pachinko machine 10, and performs the predetermined notification process. Even if the pachinko machine 10 has been terminated, if the power switch of the pachinko machine 10 is turned on to restart the supply of power to the pachinko machine 10 in order to play a game, the predetermined notification process will be completed. It will be executed. Therefore, the administrator or the like can notice that the setting change mode has been executed in the pachinko machine 10 by the predetermined notification process. As a result, according to this aspect, it is possible to prevent unauthorized changes to the setting information by an unauthorized person and to prevent games from being played on the pachinko machine 10 in which the setting information has been illegally changed.

In addition, as a specific configuration for realizing this aspect, for example, a predetermined flag is stored in a predetermined storage area of the sound-light side RAM 94, and the sound-light side RAM 94 is configured such that the power supply to the pachinko machine 10 is interrupted. The configuration is such that it is possible to maintain the state of the predetermined flag even when the flag is down. Then, the predetermined flag is turned on at the start of the predetermined notification process, and the predetermined flag is turned off at the end of the predetermined notification process. Then, if the power switch of the pachinko machine 10 is turned off during execution of a predetermined notification process and the power supply to the pachinko machine 10 is cut off, the predetermined information stored in the sound-light side RAM 94 The flag remains ON. Then, even if the setting change mode is not executed when the power supply to the pachinko machine 10 is restarted, the sound emission control device 90 receives the normal startup command from the main control device 60. (Step S40111 in FIG. 122), if it is determined that the predetermined flag is ON when power supply to the pachinko machine 10 is started, the predetermined notification process is performed. The configuration is to execute. With such a configuration, this aspect can be realized without complicating the processing in the main control device 60.

<Aspect 123>
Among the above aspects, in a configuration in which a predetermined notification process is executed after the setting confirmation mode ends (in the above aspect 121, notification process after the setting confirmation mode ends), the notification process to the pachinko machine 10 is performed while the predetermined notification process is being executed. In the case where the power supply is cut off, a configuration may be adopted in which a predetermined notification process is executed when the power supply to the pachinko machine 10 is restarted. The reason for adopting this configuration will be explained.

First, unlike this aspect, even if the power supply to the pachinko machine 10 is cut off during execution of a predetermined notification process, the power supply to the pachinko machine 10 is restarted. A case will be described in which a configuration is adopted in which the predetermined notification process is not executed in the case where the notification process is executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. If, after executing the setting confirmation mode and confirming the setting information and ending the setting confirmation mode, the power switch of the pachinko machine 10 is turned off to cut off the power supply to the pachinko machine 10, The predetermined notification process can be ended, and the setting information can be illegally checked without being noticed by the administrator or the like. Then, if the power switch of the pachinko machine 10 is turned on again to start supplying power to the pachinko machine 10, the pachinko machine 10 whose setting information has been fraudulently confirmed will be powered on without the administrator's notice. There is a problem that an unauthorized person may be able to play games on the machine 10.

In contrast, according to this aspect, after an unauthorized person ends the setting confirmation mode, the unauthorized person turns off the power switch of the pachinko machine 10, cuts off the power supply to the pachinko machine 10, and performs the predetermined notification process. Even if the pachinko machine 10 has been terminated, if the power switch of the pachinko machine 10 is turned on to restart the supply of power to the pachinko machine 10 in order to play a game, the predetermined notification process will be completed. It will be executed. Therefore, the administrator or the like can notice that the setting confirmation mode has been executed in the pachinko machine 10 by the predetermined notification process. As a result, according to this aspect, it is possible to prevent fraudulent confirmation of setting information by an unauthorized person and to prevent a game from being played on a pachinko machine 10 whose setting information has been fraudulently confirmed.

In addition, as a specific configuration for realizing this aspect, for example, a predetermined flag is stored in a predetermined storage area of the sound-light side RAM 94, and the sound-light side RAM 94 is configured such that the power supply to the pachinko machine 10 is interrupted. The configuration is such that it is possible to maintain the state of the predetermined flag even when the flag is down. Then, the predetermined flag is turned on at the start of the predetermined notification process, and the predetermined flag is turned off at the end of the predetermined notification process. Then, if the power switch of the pachinko machine 10 is turned off during execution of a predetermined notification process and the power supply to the pachinko machine 10 is cut off, the predetermined information stored in the sound-light side RAM 94 The flag remains ON. Then, even if the setting confirmation mode is not executed when power supply to the pachinko machine 10 is restarted, the sound emission control device 90 receives the normal startup command from the main control device 60. (Step S40111 in FIG. 122), if it is determined that the predetermined flag is ON when power supply to the pachinko machine 10 is started, the predetermined notification process is performed. The configuration is to execute. With such a configuration, this aspect can be realized without complicating the processing in the main control device 60.

<Aspect 124>
Among the above aspects, in a configuration that executes a predetermined notification process (in the above aspect 121, a setting change mode execution notification process, RAM clear notification process B1 or B2) when the settings change mode is executed, the predetermined notification process It is also possible to have a configuration in which this is given priority over the performance that is executed in response to a change in the symbol in the special figure unit 37. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which the effects executed by the audio emission control device 90 and the display control device 100 are prioritized over predetermined notification processing. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. For example, if a game ball is introduced into the first starting port 33 to start changing the symbols and perform a performance, even if the setting change mode is executed, the performance will take priority over the predetermined notification process. This poses a problem in that it becomes possible to illegally change configuration information without the administrator or the like noticing.

In contrast, according to this aspect, even if an unauthorized person inserts a game ball into the first starting port 33 and starts changing the symbols, the predetermined notification process takes priority over the performance. , it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned. Therefore, according to this aspect, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

Specifically, in this aspect, when a predetermined notification process is being executed, the performance is not executed even if the symbols are changing in the special drawing unit 37, so the administrator etc. The possibility of being able to notice that the setting change mode has been executed in the device 10 can be increased.

Note that other configurations may be adopted as a configuration in which a predetermined notification process (setting change mode execution notification process or RAM clear notification process B1 or B2) is given priority over the performance. For example, when a predetermined notification process is being executed, even if the symbols are changing in the special figure unit 37, a configuration that does not output a specific sound as part of the effect (as part of the effect) The image may be configured to be displayed. Even with such a configuration, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned. In addition, as another configuration, for example, when a predetermined notification process is being executed and the symbols are changing in the special symbol unit 37, the volume of the specific sound as part of the production may be changed. It may be configured to be smaller than when the predetermined notification process is not executed. According to this configuration, it is possible to make the administrator or the like aware that the symbols are changing in the special symbol unit 37, and also to make him/her aware that the setting change mode has been executed in the pachinko machine 10 concerned.

In addition, in a configuration in which the symbol variation in the special drawing unit 37 is not executed (the winning lottery is not executed) while the setting change mode is being executed, the RAM clear notification process B1 or B2 that is executed after the setting change mode is finished, It may be configured to give priority to the performance.

<Aspect 125>
Among the above aspects, in a configuration that executes a predetermined notification process when the settings confirmation mode is executed (in the above aspect 121, notification process during execution of the settings confirmation mode, notification process after the end of the settings confirmation mode), the predetermined notification process It is also possible to have a configuration in which this is given priority over the performance that is executed in response to a change in the symbol in the special figure unit 37. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which the effects executed by the audio emission control device 90 and the display control device 100 are prioritized over predetermined notification processing. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. For example, if a game ball is introduced into the first starting port 33 to start changing the symbols and execute a performance, even if the setting confirmation mode is executed, the performance will take priority over the predetermined notification process. This poses a problem in that it becomes possible to illegally check the setting information without the administrator or the like noticing.

In contrast, according to the present aspect, even if an unauthorized person inserts a game ball into the ball entry means and starts changing the symbols, the predetermined notification processing takes priority over the performance, so management This increases the possibility that a person or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10. Therefore, according to this aspect, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

Specifically, in this aspect, when a predetermined notification process is being executed, the performance is not executed even if the symbols are changing in the special drawing unit 37, so the administrator etc. The possibility of being able to notice that the setting confirmation mode has been executed in the machine 10 can be increased.

Note that other configurations may be adopted as a configuration in which a predetermined notification process (notification process during execution of setting confirmation mode or notification process after completion of setting confirmation mode) is given priority over performance. For example, when a predetermined notification process is being executed, even if the symbols are changing in the special figure unit 37, a configuration that does not output a specific sound as part of the effect (as part of the effect) The image may be configured to be displayed. Even with such a configuration, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned. In addition, as another configuration, for example, when a predetermined notification process is being executed and the symbols are changing in the special symbol unit 37, the volume of the specific sound as part of the production may be changed. It may be configured to be smaller than when the predetermined notification process is not executed. According to this configuration, it is possible to make the administrator etc. aware that the symbols are changing in the special drawing unit 37, and also to make him/her aware that the setting confirmation mode has been executed in the pachinko machine 10 concerned.

In addition, in a configuration in which the symbol variation in the special symbol unit 37 is not executed (the winning lottery is not executed) while the setting confirmation mode is being executed, the notification process after the setting confirmation mode ends, which is executed after the setting confirmation mode is finished, It may be configured to give priority to the performance.

<Aspect 126>
Among the above aspects, in a configuration in which a predetermined notification process (in the above aspect 121, a setting change mode execution notification process, RAM clear notification process B1 or B2) is executed when the setting change mode is executed, the lower tray 21 A configuration may be adopted in which a lower tray full notification process is executed when the number of stored game balls exceeds a predetermined amount, and the predetermined notification process is given priority over the lower tray full notification process. The lower tray full notification process, for example, causes the speaker 46 to repeatedly output a voice such as "The lower tray is full. Please remove the balls," and displays the message "The lower tray is full. Please remove the balls" on the display surface 41a of the symbol display device 41. This process displays a string such as "Please remove it" in red on the top layer.

The reason why a configuration is adopted in which a predetermined notification process is given priority over a lower tray full notification process will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which the lower tray full notification process is prioritized over a predetermined notification process. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. For example, if the game balls are stored in the lower tray 21 to a predetermined amount or more and the lower tray full notification process is executed, even if the setting change mode is executed, the lower tray is full than the predetermined notification process. There is a problem that priority is given to notification processing, and it becomes possible to illegally change setting information without being noticed by an administrator or the like.

In contrast, according to the present aspect, even if an unauthorized person stores game balls in the lower tray 21 to a predetermined amount or more, the predetermined notification process takes priority over the lower tray full notification process. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned. Therefore, according to this aspect, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

Specifically, in this aspect, if a predetermined notification process is being executed, the lower tray full notification process is executed even if the number of game balls stored in the lower tray 21 is greater than or equal to the predetermined amount. Therefore, it is possible to increase the possibility that the administrator or the like will notice that the setting change mode has been executed in the pachinko machine 10 concerned.

Note that other configurations may be adopted as a configuration in which a predetermined notification process (setting change mode execution notification process or RAM clear notification process B1 or B2) is given priority over the lower tray full notification process. For example, when a predetermined notification process is being executed, even if the number of game balls stored in the lower tray 21 exceeds the predetermined amount, a specific notification as part of the lower tray full notification process may be issued. A configuration that does not output a sound (for example, a voice such as "The lower tray is full. Please remove the balls") (a character string as part of the lower tray full notification process (for example, "The lower tray is full. Please remove the balls)" ” character string) may be displayed on the symbol display device 41). Even with such a configuration, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned. In addition, as another configuration, for example, when a predetermined notification process is being executed and the number of game balls stored in the lower tray 21 exceeds a predetermined amount, the lower tray full notification process The volume of a specific notification sound as a part may be set to be lower than that when the predetermined notification process is not executed. According to this configuration, the administrator etc. are made aware that the number of game balls stored in the lower tray 21 is greater than or equal to a predetermined amount, and also made aware that the setting change mode has been executed in the pachinko machine 10 concerned. be able to.

In addition, in a configuration in which it is not monitored whether the number of game balls stored in the lower tray 21 exceeds a predetermined amount while the setting change mode is being executed, the RAM clear notification process that is executed after the setting change mode ends. B1 or B2 may be configured to be given priority over the lower tray full notification process.

<Aspect 127>
Among the above aspects, in the configuration in which a predetermined notification process (in the above aspect 121, notification process during execution of setting confirmation mode, notification process after completion of setting confirmation mode) is executed when the setting confirmation mode is executed, the lower tray 21 A configuration may be adopted in which a lower tray full notification process is executed when the number of stored game balls exceeds a predetermined amount, and the predetermined notification process is given priority over the lower tray full notification process. The lower tray full notification process, for example, causes the speaker 46 to repeatedly output a voice such as "The lower tray is full. Please remove the balls," and displays the message "The lower tray is full. Please remove the balls" on the display surface 41a of the symbol display device 41. This is a process that displays a string such as "Please remove it" in red text on the top layer.

The reason why a configuration is adopted in which a predetermined notification process is given priority over a lower tray full notification process will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which the lower tray full notification process is prioritized over a predetermined notification process. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. For example, if the game balls are stored in the lower tray 21 to a predetermined amount or more and the lower tray full notification process is executed, even if the setting confirmation mode is executed, the lower tray is full than the predetermined notification process. There is a problem that priority is given to notification processing, and it becomes possible to illegally check setting information without the administrator or the like noticing.

In contrast, according to the present aspect, even if an unauthorized person stores game balls in the lower tray 21 to a predetermined amount or more, the predetermined notification process takes priority over the lower tray full notification process. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned. Therefore, according to this aspect, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

Specifically, in this aspect, if a predetermined notification process is being executed, the lower tray full notification process is executed even if the number of game balls stored in the lower tray 21 is greater than or equal to the predetermined amount. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned.

Note that other configurations may be adopted as a configuration in which a predetermined notification process (notification process during execution of setting confirmation mode or after completion of setting confirmation mode) is given priority over lower tray full notification process. For example, when a predetermined notification process is being executed, even if the number of game balls stored in the lower tray 21 exceeds the predetermined amount, a specific notification as part of the lower tray full notification process may be issued. A configuration that does not output a sound (for example, a voice such as "The lower tray is full. Please remove the balls") (a character string as part of the lower tray full notification process (for example, "The lower tray is full. Please remove the balls)" ” character string) may be displayed on the symbol display device 41). Even with such a configuration, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned. In addition, as another configuration, for example, when a predetermined notification process is being executed and the number of game balls stored in the lower tray 21 exceeds a predetermined amount, the lower tray full notification process The volume of a specific notification sound as a part may be set to be lower than that when the predetermined notification process is not executed. According to this configuration, the administrator etc. are made aware that the number of game balls stored in the lower tray 21 is greater than a predetermined amount, and also made aware that the setting confirmation mode has been executed in the pachinko machine 10 concerned. be able to.

In addition, in a configuration in which it is not monitored whether the number of game balls stored in the lower tray 21 exceeds a predetermined amount while the setting confirmation mode is being executed, the setting confirmation mode that is executed after the setting confirmation mode ends is terminated. The configuration may be such that the post-notification process is given priority over the lower tray full notification process.

<Aspect 128>
Among the above aspects, when the setting change mode is executed, a predetermined notification process (in the above aspect 121, the setting change mode execution notification process, the RAM clear notification process B1 or B2), the firing of the game ball A configuration may be adopted in which firing mode suggestion notification processing is executed when the firing mode is not a predetermined firing mode, and the predetermined notification processing is given priority over the firing mode suggestion notification processing. The firing mode suggestion notification process is a notification process for suggesting that the game ball should be fired in a predetermined firing manner, and includes, for example, a left-handed hitting suggestion notification process and a right-handed hitting suggestion notification process.

The left-handed hitting suggestion notification process is executed in order to suggest that the player should "hit the left" when the player is playing the so-called "right-handed hitting" in a game state in which the player should play the "left-handed hitting". For example, the speaker 46 alternately and repeatedly outputs voices and warning sounds such as "Please hit left-handed," and text such as "Please hit left-handed" is displayed on the display surface 41a of the symbol display device 41. This process displays columns in red in the top layer. Note that "left-handed hitting" is a firing mode in which the game ball is distributed to the left side of the gaming area of the game board 30, and "right-handed hitting" is a firing mode in which the game ball is distributed to the right side of the gaming area of the game board 30. This is a firing mode in which game balls are distributed in the game area.

The right-handed hitting suggestion notification process is a notification that is executed to suggest that the player should play the right-handed game when the player is playing the left-handed game in a game state in which the player should play the right-handed game. For example, the speaker 46 alternately and repeatedly outputs voices and warning sounds such as "Please hit the ball to the right," and a character string such as "Please hit the ball to the right" is displayed on the display surface 41a of the symbol display device 41. This process displays the top layer in red.

The reason why a configuration is adopted in which a predetermined notification process (setting change mode execution notification process, RAM clear notification process B1 or B2) is given priority over the firing mode suggestion notification process will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which firing mode suggestion notification processing is prioritized over predetermined notification processing. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. In addition, if the game ball is fired in a firing mode other than the predetermined firing mode and the firing mode suggestion notification process is executed, even if the setting change mode is executed, the firing mode suggestion notification process will be more effective than the predetermined notification process. There is a problem that priority is given to the setting information, and it becomes possible to illegally change the setting information without the administrator or the like noticing.

On the other hand, according to this aspect, even if an unauthorized person fires a game ball in a firing mode other than the prescribed firing mode, the predetermined notification process takes priority over the firing mode suggestion notification process. The possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 can be increased. Therefore, according to this aspect, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

Specifically, in this aspect, when the predetermined notification process is being executed, the firing mode suggestion notification process is not executed even if the game ball is fired in a firing mode that is not the predetermined firing mode. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned.

Note that other configurations may be adopted as a configuration in which a predetermined notification process (setting change mode execution notification process or RAM clear notification process B1 or B2) is given priority over the firing mode suggestion notification process. For example, when a predetermined notification process is being executed, even if a game ball is fired in a firing mode other than the prescribed firing mode, a specific notification sound as part of the firing mode suggestion notification process will be used. (For example, a configuration that does not output a voice or warning sound such as "Please hit left-handed") It may also be a configuration in which the information is displayed on the device 41. Even with such a configuration, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting change mode has been executed in the pachinko machine 10 concerned. In addition, as another configuration, for example, when a predetermined notification process is executed and a game ball is fired in a firing mode other than the prescribed firing mode, a part of the firing mode suggestion notification process The volume of the specific notification sound may be lower than that when the predetermined notification process is not executed. According to this configuration, it is possible to make the administrator or the like aware that the game balls are being fired in a firing manner other than the predetermined firing manner, and also to be made aware that the setting change mode has been executed in the pachinko machine 10 concerned. I can do it.

In addition, in a configuration in which it is not monitored whether or not the firing mode of the game ball is a predetermined firing mode while the setting change mode is being executed, the RAM clear notification process B1 or B2 that is executed after the setting change mode is It may be configured to give priority to the firing mode suggestion notification process.

Moreover, various methods can be adopted as a method for determining whether or not the firing mode of the game ball is a predetermined firing mode. For example, a method for determining whether or not a player is "hitting to the left" in a game state in which the player is supposed to "hit to the left" is to use The determination can be made based on whether or not the game ball has entered the ball, and if the game ball has entered the predetermined ball entry section, it can be determined that the firing mode of the game ball is not the predetermined launch mode. .

<Aspect 129>
Among the above aspects, when the setting confirmation mode is executed, a predetermined notification process (in the above aspect 121, notification process during execution of the setting confirmation mode, notification process after the end of the setting confirmation mode), the game ball is launched. A configuration may be adopted in which firing mode suggestion notification processing is executed when the firing mode is not a predetermined firing mode, and the predetermined notification processing is given priority over the firing mode suggestion notification processing. The firing mode suggestion notification process is a notification process for suggesting that the game ball should be fired in a predetermined firing manner, and includes, for example, a left-handed hitting suggestion notification process and a right-handed hitting suggestion notification process.

The left-handed hitting suggestion notification process is executed in order to suggest that the player should "hit the left" when the player is playing the so-called "right-handed hitting" in a game state in which the player should play the "left-handed hitting". For example, the speaker 46 alternately and repeatedly outputs voices and warning sounds such as "Please hit left-handed," and text such as "Please hit left-handed" is displayed on the display surface 41a of the symbol display device 41. This process displays columns in red in the top layer. Note that "left-handed hitting" is a firing mode in which the game ball is distributed to the left side of the gaming area of the game board 30, and "right-handed hitting" is a firing mode in which the game ball is distributed to the right side of the gaming area of the game board 30. This is a firing mode in which game balls are distributed in the game area.

The right-handed hitting suggestion notification process is a notification that is executed to suggest that the player should play the right-handed game when the player is playing the left-handed game in a game state in which the player should play the right-handed game. For example, the speaker 46 alternately and repeatedly outputs voices and warning sounds such as "Please hit the ball to the right," and a character string such as "Please hit the ball to the right" is displayed on the display surface 41a of the symbol display device 41. This process displays the top layer in red.

The reason why a configuration is adopted in which predetermined notification processing (notification processing during execution of setting confirmation mode, notification processing after completion of setting confirmation mode) is given priority over firing mode suggestion notification processing will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which firing mode suggestion notification processing is prioritized over predetermined notification processing. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. In addition, if the game ball is fired in a firing mode other than the predetermined firing mode and the firing mode suggestion notification process is executed, even if the setting confirmation mode is executed, the firing mode suggestion notification process will be more effective than the predetermined notification process. There is a problem that priority is given to the setting information, and it becomes possible to illegally check the setting information without the administrator or the like noticing.

On the other hand, according to this aspect, even if an unauthorized person fires a game ball in a firing mode other than the prescribed firing mode, the predetermined notification process takes priority over the firing mode suggestion notification process. It is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned. Therefore, according to this aspect, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

Specifically, in this aspect, when the predetermined notification process is being executed, the firing mode suggestion notification process is not executed even if the game ball is fired in a firing mode that is not the predetermined firing mode. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned.

Note that other configurations may be adopted as a configuration in which a predetermined notification process (setting confirmation mode execution notification process or RAM clear notification process B1 or B2) is given priority over the firing mode suggestion notification process. For example, when a predetermined notification process is being executed, even if a game ball is fired in a firing mode other than the prescribed firing mode, a specific notification sound as part of the firing mode suggestion notification process will be used. (For example, a configuration that does not output a voice or warning sound such as "Please hit left-handed") It may also be a configuration in which the information is displayed on the device 41. Even with such a configuration, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting confirmation mode has been executed in the pachinko machine 10 concerned. In addition, as another configuration, for example, when a predetermined notification process is executed and a game ball is fired in a firing mode other than the prescribed firing mode, a part of the firing mode suggestion notification process The volume of the specific notification sound may be lower than that when the predetermined notification process is not executed. According to this configuration, it is possible to make the administrator etc. aware that the game balls are being fired in a firing manner other than the predetermined firing manner, and also to be made aware that the setting confirmation mode has been executed in the pachinko machine 10 concerned. I can do it.

In addition, in a configuration in which it is not monitored whether or not the firing mode of the game ball is a predetermined firing mode while the setting confirmation mode is being executed, the notification process after the setting confirmation mode ends, which is executed after the setting confirmation mode ends, It may be configured to give priority to the firing mode suggestion notification process.

Moreover, various methods can be adopted as a method for determining whether or not the firing mode of the game ball is a predetermined firing mode. For example, a method for determining whether or not a player is "hitting to the left" in a game state in which the player is supposed to "hit to the left" is to use The determination can be made based on whether or not the game ball has entered the ball, and if the game ball has entered the predetermined ball entry section, it can be determined that the firing mode of the game ball is not the predetermined launch mode. .

<Aspect 130>
Among the above aspects, in a configuration in which when a setting change mode is executed, a predetermined notification process (RAM clear notification process B1 or B2 in the above aspect 121) is executed after the setting change mode is executed, the detection is performed by a magnetic sensor. A configuration may be adopted in which the magnetic detection notification process is executed when the detected magnetism satisfies a predetermined condition, and the magnetic detection notification process is given priority over the predetermined notification process.

The magnetic detection notification process, for example, alternately and repeatedly outputs a voice saying "Magnetism has been detected" and an alarm sound from the speaker 46, and among the various lamps 47, the full color (RGB) LED lamp lights up in red at maximum brightness. The monochrome LED lamp is repeatedly turned on and off at maximum brightness, and a text string such as "Magnetism has been detected" is displayed in red letters on the top layer of the display surface 41a of the pattern display device 41. This is the process to display it.

The reason why the configuration is adopted in which the magnetic detection notification process is prioritized over the predetermined notification process (RAM clear notification process B1 or B2) will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which a predetermined notification process is prioritized over a magnetic detection notification process. In this configuration, for example, after the setting change mode is executed by the administrator, the administrator ends the setting change mode and leaves the pachinko machine 10, and a predetermined notification process is executed in the pachinko machine 10. In this situation, even if an unauthorized person tries to illegally enter the game ball into the first starting port 33 using a magnet, for example, the predetermined notification process will take priority over the magnetic detection notification process. There is a problem that it becomes possible to illegally enter a game ball into the first starting port 33 or the like using a magnet without being noticed by an administrator or the like.

In contrast, according to this aspect, even if an attempt is made to illegally enter a game ball into the first starting port 33 etc. using a magnet in a situation where a predetermined notification is being executed, the magnetic detection notification process Since the information is given priority over the predetermined notification process, it is possible to increase the possibility that the administrator or the like will notice that the magnet has been used illegally in the pachinko machine 10. Therefore, according to this aspect, unauthorized use of the magnet by an unauthorized person can be suppressed.

Specifically, in this aspect, if the magnetism detected by the magnetic sensor satisfies a predetermined condition and the magnetism detection notification process is executed, for example, it is determined that the intensity of the detected magnetism is equal to or higher than a predetermined value, When the magnetic detection notification process is executed, the specified notification process is not executed even if the setting change mode is executed (the magnetism detected by the magnetic sensor during the execution of the specified notification process is (If the conditions are met, the predetermined notification process is terminated.) Therefore, it is possible to increase the possibility that the administrator or the like will notice that the magnet has been used illegally in the gaming machine.

Note that other configurations may be adopted as the configuration in which the magnetic detection notification process is given priority over the predetermined notification process (RAM clear notification process B1 or B2). For example, if the magnetism detected by the magnetic sensor satisfies a predetermined condition and the magnetic detection notification process is executed, a specific notification sound (for example, "The settings have changed A configuration that does not output a voice such as "The settings have been changed. The RAM has been cleared" (a character string as part of the predetermined notification process (for example, a character string such as "The settings have been changed. The RAM has been cleared") ) may be configured to be displayed on the symbol display device 41. Even with such a configuration, it is possible to increase the possibility that the administrator or the like will notice that a magnet has been used illegally in the pachinko machine 10. In addition, as another configuration, for example, when the magnetism detected by the magnetic sensor satisfies a predetermined condition and the magnetic detection notification process is executed, and when the setting change mode is executed, the predetermined notification is The volume of a specific notification sound as part of the process may be lower than that when the magnetic detection notification process is not executed. According to this configuration, it is possible to make the administrator or the like aware that the setting change mode has been executed in the pachinko machine 10, and also to make him/her aware that the magnet has been used illegally in the pachinko machine 10.

Further, the configuration of this aspect is particularly effective in a pachinko machine 10 that does not stop the progress of the game even if the magnetism detected by the magnetic sensor satisfies a predetermined condition.

In addition, in this aspect, processing for advancing the game (such as ball entry processing for the starting hole included in the timer interrupt processing) is not executed while the setting change mode is being executed, so an unauthorized person may use a magnet, etc. Even if the game ball is illegally entered into the first starting port 33 or the like, the game will not proceed. Therefore, the configuration is such that the settings change mode in-progress notification process, which is executed while the settings change mode is being executed, is given priority over the magnetic detection notification process. According to such a configuration, it is possible to prevent an unauthorized person from proceeding with a game using a magnet while making the administrator or the like aware that the setting change mode is being executed in the pachinko machine 10.

<Aspect 131>
Among the above aspects, in a configuration in which when a setting confirmation mode is executed, a predetermined notification process is executed after the setting confirmation mode ends (in the above aspect 121, notification process after the setting confirmation mode ends), the detection is performed by a magnetic sensor. A configuration may be adopted in which the magnetic detection notification process is executed when the detected magnetism satisfies a predetermined condition, and the magnetic detection notification process is given priority over the predetermined notification process.

The magnetic detection notification process, for example, alternately and repeatedly outputs a voice saying "Magnetism has been detected" and an alarm sound from the speaker 46, and among the various lamps 47, the full color (RGB) LED lamp lights up in red at maximum brightness. The monochrome LED lamp is repeatedly turned on and off at maximum brightness, and a text string such as "Magnetism has been detected" is displayed in red letters on the top layer of the display surface 41a of the pattern display device 41. This is the process to display it.

The reason why a configuration is adopted in which magnetic detection notification processing is given priority over predetermined notification processing (notification processing after setting confirmation mode ends) will be explained.

First, a case will be described in which, unlike this embodiment, a configuration is adopted in which a predetermined notification process is prioritized over a magnetic detection notification process. In this configuration, for example, after the setting confirmation mode is executed by the administrator, the administrator terminates the setting confirmation mode and leaves the pachinko machine 10, and a predetermined notification process is executed in the pachinko machine 10. In this situation, even if an unauthorized person tries to illegally enter the game ball into the first starting port 33 using a magnet, for example, the predetermined notification process will take priority over the magnetic detection notification process. There is a problem that it becomes possible to illegally enter a game ball into the first starting port 33 or the like using a magnet without being noticed by an administrator or the like.

In contrast, according to this aspect, even if an attempt is made to illegally enter a game ball into the first starting port 33 etc. using a magnet in a situation where a predetermined notification is being executed, the magnetic detection notification process Since the information is given priority over the predetermined notification process, it is possible to increase the possibility that the administrator or the like will notice that the magnet has been used illegally in the pachinko machine 10. Therefore, according to this aspect, unauthorized use of the magnet by an unauthorized person can be suppressed.

Specifically, in this aspect, if the magnetism detected by the magnetic sensor satisfies a predetermined condition and the magnetism detection notification process is executed, for example, it is determined that the intensity of the detected magnetism is equal to or higher than a predetermined value, When the magnetic detection notification process is executed, the specified notification process is not executed even if the setting confirmation mode is executed (the magnetism detected by the magnetic sensor during the execution of the specified notification process is (If the conditions are met, the predetermined notification process is terminated.) Therefore, it is possible to increase the possibility that the administrator or the like will notice that the magnet has been used illegally in the gaming machine.

Note that other configurations may be adopted as a configuration in which the magnetic detection notification process is prioritized over a predetermined notification process (notification process after setting confirmation mode ends). For example, if the magnetism detected by the magnetic sensor satisfies a predetermined condition and the magnetic detection notification process is executed, a specific notification sound (for example, "Setting confirmation mode A configuration in which a character string as part of a predetermined notification process (e.g., a character string such as "Setting confirmation mode has ended") is not output (a voice such as "The setting confirmation mode has ended") is displayed on the symbol display device 41) Good too. Even with such a configuration, it is possible to increase the possibility that the administrator or the like will notice that a magnet has been used illegally in the pachinko machine 10. In addition, as another configuration, for example, when the magnetism detected by the magnetic sensor satisfies a predetermined condition and the magnetic detection notification process is executed, and the setting confirmation mode is executed, the predetermined notification is The volume of a specific notification sound as part of the process may be lower than that when the magnetic detection notification process is not executed. According to this configuration, it is possible to make the administrator or the like aware that the setting confirmation mode has been executed in the pachinko machine 10, and also to make him/her aware that the magnet has been used illegally in the pachinko machine 10.

Further, the configuration of this aspect is particularly effective in a pachinko machine 10 that does not stop the progress of the game even if the magnetism detected by the magnetic sensor satisfies a predetermined condition.

In addition, in this aspect, processing for advancing the game (such as ball entry processing for the starting hole included in the timer interrupt processing) is not executed while the setting confirmation mode is being executed, so an unauthorized person may use a magnet, etc. Even if the game ball is illegally entered into the first starting port 33 or the like, the game will not proceed. Therefore, the configuration is such that the setting confirmation mode in-execution notification process, which is executed while the setting confirmation mode is being executed, is given priority over the magnetic detection notification process. According to such a configuration, it is possible to prevent an unauthorized person from proceeding with a game using a magnet while making the administrator or the like aware that the setting confirmation mode is being executed in the pachinko machine 10.

<Aspect 132>
The various functions explained in each of the above aspects (for example, the function of storing the number of game balls entering each ball entry hole, and the function of paying out game balls as prize balls based on the number of game balls entering each ball entry hole) A function to calculate the number of game balls paid out as prize balls, a function to store the number of game balls paid out as prize balls, a function to calculate game history information such as the ratio of accessories, a function to store the calculated game history information, A configuration in which the game history management chip 300 realizes at least part of the functions (such as the function of displaying stored game history information, the function of erasing various information stored in various storage means such as RAM and flash memory, etc.) Alternatively, the main CPU 62x (the main MPU 62 excluding the game history management chip 300) may implement the configuration, or the inspection machine 320 may implement the configuration. Also, a configuration in which the game history management chip 300, the main side CPU 62x (the main side MPU 62 excluding the game history management chip 300), and the inspection machine 320 share or cooperate to realize at least some of these various functions. You can also use it as

<Aspect 133>
The first embodiment and other aspects described above can be applied not only to the pachinko machine 10 but also to other types of gaming machines. For example, it can also be applied to reel-type gaming machines such as pachinko-type slot machines. Specifically, for example, the number of game medals obtained by winning during the bonus, the number of game medals obtained by child actors drawn during the normal period, and the number of game medals obtained by winning during the normal period, and during the advantageous period (AT, ART) different from the bonus. For a configuration that calculates the ratio to the number of game medals obtained and displays the ratio on a liquid crystal display device, or a configuration that outputs the ratio to an inspection machine and displays the ratio on the display of the inspection machine. Can be applied.

<Aspect 134>
In the first embodiment and other aspects described above, some or all of the functions realized by software (realized by the CPU executing a program) may be realized by hardware. For example, the gaming history management chip 300 may be configured to include dedicated hardware designed to execute arithmetic processing for calculating gaming history information. According to such a configuration, it is possible to speed up the arithmetic processing for calculating gaming history information, and to prevent the occurrence of fraud such as incorrect gaming history information not being calculated due to unauthorized tampering of the calculation program. Can be suppressed. Note that the hardware may be configured with a digital circuit or an analog circuit. If it is configured with an analog circuit, the calculation processing speed can be further increased than that of a digital circuit.

<Aspect 135>
A configuration may be adopted in which one or more configurations included in the first embodiment and aspects 1 to 134 are replaced or combined as appropriate. Furthermore, one or more configurations included in the first embodiment and aspects 1 to 134 described above may be combined with one or more configurations included in embodiments other than the first embodiment. Also, among the configurations included in the first embodiment and aspects 1 to 134, non-essential configurations can be omitted as appropriate without departing from the spirit thereof.

B. Application to other configurations:
Other types of pachinko machines different from the above embodiments, for example, pachinko machines in which an electric accessory is released a predetermined number of times when a game ball enters a specific area of a special device, or a pachinko machine that releases a game ball a predetermined number of times when a game ball enters a specific area of a special device. The present invention can also be applied to game machines such as pachinko machines that generate jackpots when rights are generated, pachinko machines equipped with other accessories, arranged ball machines, and mahjong balls.

Also, non-pinball type game machines, for example, are equipped with multiple reels with multiple types of symbols attached in the circumferential direction, and rotation of the reels is started by inserting a medal and operating a start lever, and a stop switch is operated. After the reels have stopped after a predetermined period of time has elapsed, if a specific symbol or a specific symbol combination is established on the active line that can be seen from the display window, the player is given benefits such as a payout of medals, etc. The present invention can also be applied to slot machines.

In addition, the game machine main body, which is supported by the outer frame in an openable and closable manner, is equipped with a storage section and a retrieval device, and the start lever is operated after a predetermined number of game balls stored in the storage section are retrieved by the retrieval device. The present invention can also be applied to a gaming machine that is a combination of a pachinko machine and a slot machine, which starts the rotation of the reels by doing so.

Moreover, some of the functions realized by software in the above embodiments may be realized by hardware, or some of the functions realized by hardware may be realized by software.

C. Regarding inventions extracted from each of the above embodiments, etc.:
Hereinafter, the features of the invention group extracted from each of the embodiments described above will be explained, showing effects etc. as necessary. Note that, in the following, for ease of understanding, configurations corresponding to each of the above embodiments are appropriately indicated in parentheses, etc., but the present invention is not limited to the specific configurations shown in parentheses.

<Characteristics Group A>
The feature group A is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature A1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
A gaming machine comprising:
The processing execution means includes:
Information storage means (register 304, memory 309 for storing calculation results) that is stored inside the casing of the gaming machine main body and non-volatilely stores detection information that is information acquired based on detection by the detection means. )and,
transmitting means (CPU 308) for transmitting the information stored in the information storage means to a predetermined device connected to the gaming machine;
A gaming machine characterized by comprising:

According to feature A1, the processing execution means includes an information storage means for non-volatilely storing detection information that is information acquired based on detection by the detection means. Since the detection information is information that has a correlation with the behavior of the game ball in the executed game, the detection information differs from gaming machine to gaming machine and is information unique to the gaming machine. That is, the detection information is information that reflects the characteristics of the gaming machine. According to feature A1, detection information, which is information reflecting the characteristics of the gaming machine, is stored in the information storage means of the processing execution means stored inside the casing of the gaming machine main body. Therefore, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by acquiring detection information from the gaming machine itself. When a gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine can be obtained by a hall computer installed in the gaming hall. However, since gaming machines are distributed from time to time, they may be placed in a state where they are not connected to the hall computer, and in this case, conventional gaming machines are unable to retain information regarding the characteristics of the gaming machine. Can not. The gaming machine of feature A1 stores detection information, which is information that reflects the characteristics of the gaming machine, in the information storage means of the processing execution means stored inside the casing of the gaming machine main body, so that the gaming machine can be used as a hall computer. Even when the gaming machine is not connected, detection information can be obtained from the gaming machine itself. In other words, the gaming machine of feature A1 is in a state where the gaming machine and the detected information are always linked on a one-to-one basis, no matter what state the gaming machine is in (installed in a gaming hall or in circulation). The characteristics of the gaming machine can be managed and inspected. As a result, the soundness of the game can be improved.

[Feature A2]
The gaming machine according to feature A1,
Equipped with a control means (main CPU 62x) for controlling the execution of the game,
A gaming machine characterized in that the processing execution means is operated by the same power source as the control means.

According to feature A2, the processing execution means is operated by the same power source as the control means, so that, for example, when the game machine is installed in a game hall, information regarding the characteristics of the game machine is transmitted by the hall computer. Even if a problem occurs in the power supply system of the hall computer or a problem occurs in the processing of the hall computer, as long as power is being supplied to the gaming machine. , detection information can be acquired. If the control means and the processing execution means are operated by different power sources, or if there is a problem with the power supply to the processing execution means, detection information may be obtained even though the game is being executed by the gaming machine. This may cause problems such as not being able to do so. On the other hand, according to feature A2, since the control means and the processing execution means are operated by the same power source, detection information can be acquired without fail if the game is in a situation where the game can be executed. Therefore, the reliability of detection information can be improved.

[Feature A3]
The gaming machine according to feature A1 or feature A2,
A gaming machine characterized in that the information storage means stores the detection information for each period until a prescribed number (500) of game balls are detected by a predetermined detection means (ejection passage detection sensor 44h).

According to feature A3, since detection information for each period until a specified number of game balls are detected by a predetermined detection means is stored, there is no variation in the time until a specified number of game balls are detected by each gaming machine. Even if there is, it is possible to obtain detection information that does not affect the time variation. That is, even if there is a difference in the frequency with which game balls are fired, it is possible to obtain highly accurate detection information that is not easily influenced by this.

[Feature A4]
The gaming machine according to feature A1 or feature A2,
A gaming machine characterized in that the information storage means stores the detection information for each preset period (every hour).

According to feature A4, since the information storage means stores detection information for each predetermined period, it is possible to perform statistical processing using the concept of time using the detection information.

[Feature A5]
The gaming machine according to feature A1 or feature A2,
A gaming machine characterized in that the information storage means stores the detection information for each period from the start of supply of power to the gaming machine until the power is cut off.

According to feature A5, the information storage means stores detection information for each period from the start of power supply to the gaming machine until the power is cut off, so that, for example, when the gaming machine is in a gaming hall, If installed, it is possible to obtain detection information for each business day of the gaming hall.

[Feature A6]
The gaming machine according to any one of Features A1 to A5,
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
Equipped with
The processing execution means includes:
Prize ball number information for acquiring prize ball number information (prize ball number data) that is information regarding the number of game balls paid out from the payout means (prize ball number) as prize balls set in each of the plurality of detection means. acquisition means,
calculation execution means (CPU 308) for performing a predetermined calculation based on the detection information and the prize ball number information;
Equipped with
A gaming machine characterized in that the information storage means stores calculation result information that is information regarding the calculation results (accessory object ratio, etc.) by the calculation execution means.

According to feature A6, the processing execution means stores calculation result information. Since the calculation result information is information calculated based on the detection information and the prize ball number information, it reflects information regarding the number of prize balls paid out by the gaming machine. Therefore, according to feature A6, the characteristics of the gaming machine regarding the paid-out prize balls can be acquired. As a result, the characteristics of the gaming machine regarding the paid out prize balls can be managed.

<Characteristics Group B>
Feature B group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature B1]
A control means (main CPU 62x) that controls the execution of the game;
calculation execution means (CPU 308) that performs calculation processing based on first information acquired based on the executed game and second information set in advance to acquire third information;
information storage means (computation result storage memory 309) that stores the third information in a non-volatile manner;
A gaming machine comprising:
A gaming machine characterized in that the calculation execution means and the information storage means are operated by the same power source as the control means.

According to feature B1, the first information is information acquired based on the played game, and the third information is information acquired based on the first information. Therefore, the third information includes information regarding the played game. Therefore, since the information storage means stores the third information including information regarding the executed games, the third information stored in the information storage means is used to store information regarding the games executed in the past. It is possible to obtain Therefore, by using the third information, it becomes possible to manage the characteristics related to the game of the gaming machine. Since the calculation execution means and the information storage means are operated by the same power source as the control means, the third information can be acquired if the gaming machine is supplied with power. If the arithmetic execution means and information storage means and the control means are operated by different power sources, and if there is a problem with the power supply to the arithmetic execution means and information storage means, the game may not be executed by the gaming machine. Despite this, a problem arises in that the third information cannot be obtained. On the other hand, according to feature B2, since the calculation execution means, the information storage means, and the control means are operated by the same power source, the third information is always acquired if the game is possible. be able to. Therefore, the reliability of the third information can be improved. As a result, the reliability of testing the gaming machine can be improved, and the soundness of gaming can be improved.

[Feature B2]
The gaming machine according to feature B1,
A gaming machine comprising a transmitting means (CPU 308) for transmitting the third information stored in the information storage means to a predetermined device (inspection machine 320) connected to the gaming machine.

According to feature B2, since the transmitting means is provided for transmitting the third information stored in the information storage means to a predetermined device connected to the gaming machine, the third information can be transmitted using the predetermined device. It becomes possible to manage the characteristics related to the game of the game machine used.

[Feature B3]
The gaming machine according to feature B1 or feature B2,
A firing means (game ball firing mechanism 81) that fires a game ball toward the gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
Equipped with
The first information is information acquired based on detection by the detection means,
The second information is information regarding the number of game balls (number of prize balls) paid out from the payout means as prize balls set in each of the plurality of detection means,
A gaming machine characterized in that the third information is information regarding the number of prize balls paid out by the gaming machine in the executed game.

According to feature B3, the third information is information regarding the number of prize balls paid out by the gaming machine in the executed game. Therefore, using the third information stored in the information storage means, it is possible to manage the characteristics of the gaming machine regarding the actually paid out prize balls.

<Feature C group>
The feature C group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature C1]
A control means (main CPU 62x) that controls the execution of the game;
Information storage means (register 304, memory for storing calculation results 309) that non-volatilely stores first information acquired based on the executed game;
A gaming machine comprising:
A game machine characterized in that the information storage means is stored inside a casing (a board box with a seal affixed) that leaves traces of opening and closing.

According to feature C1, the information storage means is stored inside the casing that leaves traces of opening and closing. Therefore, when the information storage means is physically touched, traces of opening the casing remain. Therefore, if the first information stored in the information storage means is altered through physical contact with the information storage means, it is possible to know that it has been altered from the traces on the casing. Become. Therefore, unauthorized modification of the first information can be prevented. Since some gaming machines are distributed from time to time, various external contacts occur during the distribution process, but since the information storage means is stored inside the casing that leaves traces of opening and closing, the gaming machines Even in a situation where the first information is distributed from time to time, it is possible to prevent unauthorized alteration of the first information by someone. Further, since the first information is information acquired based on the played game, it is possible to manage and inspect the characteristics related to the game of the gaming machine using the first information. Therefore, according to feature C1, by preventing unauthorized alteration of the first information that reflects the gaming characteristics of the gaming machine, it is possible to properly manage and inspect the gaming machine. As a result, the soundness of the game can be improved.

[Feature C2]
The gaming machine according to feature C1,
A gaming machine characterized in that the information storage means is operated by the same power source as the control means.

According to feature C2, since the information storage means is operated by the same power source as the control means, the first information can be acquired as long as power is being supplied to the gaming machine. If the information storage means and the control means are operated by different power sources, and if there is a problem with the power supply to the information storage means, the first information may be lost even though the game is being played by the gaming machine. This may cause problems such as not being able to obtain the information. On the other hand, according to feature C2, since the information storage means and the control means are operated by the same power source, the first information can always be acquired if the game is possible. Therefore, the reliability of the first information can be improved. As a result, the reliability of testing the gaming machine can be improved, and the soundness of gaming can be improved.

[Feature C3]
The gaming machine according to feature C1 or feature C2,
A gaming machine comprising a transmitting means (CPU 308) for transmitting the first information to a predetermined device (inspection machine 320) connected to the gaming machine.

According to feature C3, since the transmitting means is provided for transmitting the first information stored in the information storage means to a predetermined device connected to the gaming machine, the first information can be transmitted using the predetermined device. It becomes possible to manage and inspect the gaming characteristics of the gaming machine used.

<Characteristic group D>
The feature D group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature D1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
a first prize ball number information storage that stores prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means; means (main side ROM63);
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
A gaming machine comprising:
The processing execution means includes:
Prize pitch number information acquisition means for acquiring the prize pitch number information stored in the first prize pitch number storage means;
a second prize pitch number information storage means (prize pitch number data storage memory 306) that stores the prize pitch number information acquired by the prize pitch number information acquisition means;
a number information storage means (register 304) for storing information regarding the number of game balls detected by the detection means;
By performing calculations based on the information regarding the number of game balls stored in the number information storage means and the prize ball number information stored in the second prize ball number information storage means, the game calculation execution means (CPU 308) that calculates game history information (accessories ratio, etc.) that is information regarding the history of
gaming history information storage means (computation result storage memory 309) for storing the gaming history information calculated by the computation execution means;
A gaming machine characterized by comprising:

The prize ball number information set in a gaming machine is generally set to a different value for each type (model) of the gaming machine.

According to feature D1, since the processing execution means acquires the prize ball number information stored in the first prize ball number storage means, different prize ball number information is set for each type (model) of the gaming machine. However, the processing execution means can calculate correct game history information using the prize ball number information set for each type of gaming machine.

If a gaming machine has been illegally modified, the calculated gaming history information may become an unnatural value different from the expected value. Therefore, by checking the game history information, the person inspecting the gaming machine can appropriately determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature D2]
The gaming machine according to feature D1,
comprising prize ball number information transmitting means (CPU62x) for transmitting a signal containing the prize ball number information stored in the first prize ball number information storage means to the processing execution means;
A gaming machine characterized in that the acquisition means acquires the prize ball number information by receiving the signal transmitted from the prize ball number information transmitting means.

According to feature D2, a signal including the prize ball number information stored in the first prize ball number information storage means is transmitted to the processing execution means, so that the processing execution means accesses the first prize ball number storage means. Even if the processing execution means cannot grasp the storage location (memory address) of the prize ball number information stored in the first prize ball number storage means, the processing execution means can acquire the prize ball number information stored in the first prize ball number storage means.

[Feature D3]
The gaming machine according to feature D1 or feature D2,
It is characterized by comprising a gaming history information transmitting means (CPU 308) for transmitting the gaming history information stored in the gaming history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. A gaming machine.

According to feature D3, since the game history information of the gaming machine is transmitted to a predetermined device, the predetermined device can display the gaming history information of the gaming machine. Then, the person inspecting the gaming machine can check the gaming history information displayed on the predetermined device.

[Feature D4]
The gaming machine according to any one of features D1 to D3,
A gaming machine characterized by comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

According to feature D4, since the gaming history information is displayed on the display means of the gaming machine, the gaming machine inspector can check the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. You can check the information.

[Feature D5]
The gaming machine according to any one of features D1 to D4,
The firing means is configured such that the game ball cannot be fired until the processing execution means completes storing the prize ball number information in the second prize ball number information storage means. A gaming machine characterized by:

According to feature D5, the game ball is not fired until the storage of the prize ball number information in the second prize ball number information storage means is completed, so that the game ball is omitted from the calculation target of the game history information by the calculation execution means. It is possible to prevent this from happening.

<Characteristic group E>
The feature E group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature E1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
A gaming machine comprising:
The processing execution means includes:
Prize ball number information storage means (prize ball number data) that stores prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means. memory 306) for storing pitch count data;
a number information storage means (register 304) for storing information regarding the number of game balls detected by the detection means;
Each time the number of game balls (the number of balls passing through the discharge passage N _OUT ) detected by the predetermined detection means (discharge passage detection sensor 44h) stored in the number information storage means reaches a specified value (500 pieces), By performing calculations based on the information regarding the number of game balls stored in the number information storage means and the prize ball number information stored in the prize ball number information storage means, information regarding the game history is obtained. calculation execution means (CPU 308) that calculates game history information (accessory object ratio, etc.);
gaming history information storage means (computation result storage memory 309) for storing the gaming history information calculated by the computation execution means;
A gaming machine characterized by comprising:

According to feature E1, since the game history information is calculated every time the number of game balls detected by a predetermined detection means reaches a specified value, the game history information is calculated every time the number of game balls detected by each gaming machine reaches the specified value. Even if there is variation in the time, game history information that does not affect the variation in time can be calculated. That is, even if there is a difference in the frequency with which game balls are detected, it is possible to calculate highly accurate game history information that is not easily influenced by the frequency. As a result, the person inspecting the gaming machine can check highly accurate gaming history information, and can appropriately determine whether the gaming machine has been tampered with or not. As a result, the soundness of the game can be improved.

[Feature E2]
The gaming machine according to feature E1,
A first calculation execution condition storage means (main side ROM 63) stores information regarding the predetermined detection means (discharge passage detection sensor 44h) and the prescribed values (500 pieces) as a calculation execution condition that is a condition for executing the calculation. ),
The processing execution means includes:
calculation execution condition acquisition means for acquiring the calculation execution conditions stored in the first calculation execution condition storage means;
a second computation execution condition storage means (computation execution condition storage memory 307) that stores the acquired computation execution conditions;
Equipped with
The gaming machine characterized in that the arithmetic execution means executes the arithmetic operation when the arithmetic execution condition stored in the second arithmetic execution condition storage means is satisfied.

Different types of gaming machines (models) have different gaming characteristics, and therefore the optimal conditions for executing calculations for calculating gaming history information will also differ. For this reason, different computation execution conditions are stored for each type of gaming machine (model).

According to feature E2, the processing execution means acquires the operation execution conditions stored in the first operation execution condition storage means, so that the operation execution conditions set for each type of gaming machine (model) are satisfied. The operation can be performed if

[Feature E3]
The gaming machine according to feature E1 or feature E2,
The processing execution means includes:
A gaming machine comprising: erasing means for erasing information regarding the number of game balls stored in the number information storage means after the calculation execution means executes the calculation.

According to feature E3, after the calculation execution means executes the calculation, the information regarding the number of game balls stored in the number information storage means is erased, so that the information regarding the number of game balls is stored in the number information storage means again. It becomes possible to do so. Therefore, the storage capacity required for the number information storage means can be reduced.

[Feature E4]
The gaming machine according to any one of features E1 to E3,
It is characterized by comprising a gaming history information transmitting means (CPU 308) for transmitting the gaming history information stored in the gaming history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. A gaming machine.

According to feature E4, since the game history information of the gaming machine is transmitted to a predetermined device, the predetermined device can display the gaming history information of the gaming machine. Then, the person inspecting the gaming machine can check the gaming history information displayed on the predetermined device.

[Feature E5]
The gaming machine according to any one of features E1 to E4,
A gaming machine characterized by comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

According to feature E5, since the gaming history information is displayed on the display means of the gaming machine, the gaming machine inspector can check the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. You can check the information.

<Characteristic group F>
The feature F group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature F1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
A gaming machine comprising:
The processing execution means includes:
Prize ball number information storage means (prize ball number data) that stores prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means. memory 306) for storing pitch count data;
a number information storage means (register 304) for storing information regarding the number of game balls detected by the detection means;
Every time a predetermined period of time (one hour) elapses, based on the information regarding the number of game balls stored in the number information storage means and the prize ball number information stored in the prize ball number information storage means. calculation execution means (CPU 308) that calculates game history information (accessories ratio, etc.), which is information regarding the history of games, by executing calculations;
gaming history information storage means (computation result storage memory 309) for storing the gaming history information calculated by the computation execution means;
A gaming machine characterized by comprising:

According to feature F1, since the game history information is calculated every time a predetermined time elapses, the game machine inspector can check the game history information calculated by statistical processing using the concept of time. It becomes possible to appropriately judge whether or not the gaming machine has been subjected to unauthorized modifications. As a result, the soundness of the game can be improved.

[Feature F2]
The gaming machine according to feature F1,
a first computation execution condition storage means (main side ROM 63) that stores information regarding a time interval for executing the computation as a computation execution condition that is a condition for executing the computation;
The processing execution means includes:
calculation execution condition acquisition means for acquiring the calculation execution conditions stored in the calculation execution condition storage means;
a second computation execution condition storage means (computation execution condition storage memory 307) that stores the acquired computation execution conditions;
Equipped with
The gaming machine characterized in that the arithmetic execution means executes the arithmetic operation when the arithmetic execution condition stored in the second arithmetic execution condition storage means is satisfied.

Different types of gaming machines (models) have different gaming characteristics, and therefore the optimal conditions for executing calculations for calculating gaming history information will also differ. For this reason, different computation execution conditions are stored for each type of gaming machine (model).

According to feature F2, the processing execution means acquires the operation execution conditions stored in the first operation execution condition storage means, so that the operation execution conditions set for each type of gaming machine (model) are satisfied. The operation can be performed if

[Feature F3]
The gaming machine according to feature F1 or feature F2,
a measuring means for measuring the elapsed time since the calculation was executed;
determining means for determining whether a game is being played by a player;
Equipped with
A gaming machine characterized in that the measuring means suspends measurement of the elapsed time during a period in which it is determined by the determining means that no game is being played.

According to feature F3, the measurement of the elapsed time from the execution of the calculation is interrupted during a period in which it is determined that no game is being played, so the game can be performed only during the period in which the game is actually being played. History information can be calculated.

[Feature F4]
The gaming machine according to any one of features F1 to F3,
It is characterized by comprising a gaming history information transmitting means (CPU 308) for transmitting the gaming history information stored in the gaming history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. A gaming machine.

According to feature F4, since the game history information of the gaming machine is transmitted to a predetermined device, the predetermined device can display the gaming history information of the gaming machine. Then, the person inspecting the gaming machine can check the gaming history information displayed on the predetermined device.

[Feature F5]
The gaming machine according to any one of features F1 to F4,
A gaming machine characterized by comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

According to feature F5, since the gaming history information is displayed on the display means of the gaming machine, the gaming machine inspector can check the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. You can check the information.

<Feature G group>
The feature G group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature G1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
monitoring means (power outage monitoring circuit 86) for monitoring the occurrence of power interruption;
A gaming machine comprising:
The processing execution means includes:
Prize ball number information storage means (prize ball number data) that stores prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means. memory 306) for storing pitch count data;
a number information storage means (register 304) for storing information regarding the number of game balls detected by the detection means;
When the monitoring means detects the occurrence of power cutoff, the information regarding the number of game balls stored in the number information storage means and the prize ball number information stored in the prize ball number information storage means a calculation execution means (CPU 308) that calculates game history information (accessories ratio, etc.), which is information related to the game history, by performing calculations based on;
gaming history information storage means (computation result storage memory 309) for storing the gaming history information calculated by the computation execution means;
A gaming machine characterized by comprising:

According to feature G1, gaming history information is calculated when the occurrence of a power cutoff is detected, so if a power cutoff is detected during the period from the start of power supply to the gaming machine until the power cutoff occurs. Game history information can be calculated based on the number of game balls. That is, since the game history information is calculated for each period from the start to the end of the game hall's business, the game history information is calculated for each business day of the game hall. Therefore, the game machine inspector can easily determine whether or not the characteristics of the game history information have changed over the business days of the game hall, so that the game machine has not been tampered with. It becomes possible to appropriately judge whether As a result, the soundness of the game can be improved.

[Feature G2]
The gaming machine according to feature G1,
A gaming machine comprising a supply means (a capacitor) that supplies power to the arithmetic execution means even after the power supply is cut off.

According to feature G2, since the supply means is provided for supplying power to the calculation execution means even after the power is cut off, the calculation of the game history information by the calculation execution means and the game history information storage means for the game history information It is possible to reliably complete the memorization of the data.

[Feature G3]
The gaming machine according to feature G1 or feature G2,
It is characterized by comprising a gaming history information transmitting means (CPU 308) for transmitting the gaming history information stored in the gaming history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. A gaming machine.

According to feature G3, since the game history information of the gaming machine is transmitted to a predetermined device, the predetermined device can display the gaming history information of the gaming machine. Then, the person inspecting the gaming machine can check the gaming history information displayed on the predetermined device.

[Feature G4]
The gaming machine according to any one of Features G1 to G3,
A gaming machine characterized by comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

According to feature G4, since the gaming history information is displayed on the display means of the gaming machine, the gaming machine inspector can check the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. You can check the information.

<Feature H group>
The feature H group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature H1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
Notifying means for notifying in a predetermined case;
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
A gaming machine comprising:
The processing execution means includes:
Prize ball number information storage means (prize ball number data) that stores prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means. memory 306) for storing pitch count data;
a number information storage means (register 304) for storing information regarding the number of game balls detected by the detection means;
Based on the information regarding the number of game balls stored in the number information storage means and the prize ball number information stored in the prize ball number information storage means, game history information that is information regarding the history of the game. A calculation means (CPU 308) that calculates (accessory ratio, etc.);
gaming history information storage means (computation result storage memory 309) for storing the gaming history information calculated by the calculation means;
Equipped with
A gaming machine characterized in that the notification means provides notification when the game history information stored in the game history information storage means does not satisfy a predetermined condition.

According to feature H1, a notification is given when the gaming history information does not meet the predetermined conditions, so a gaming machine inspector can easily discover gaming machines whose gaming history information does not meet the predetermined conditions. can. By checking the gaming history information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature H2]
The gaming machine according to feature H1,
A game characterized in that the notification means gives notification when a specific value (such as a payout ratio) included in the game history information stored in the game history information storage means is no longer included in a predetermined range. Machine.

According to feature H2, a notification is given when a specific value included in the gaming history information is no longer included in the predetermined range, so the inspector of the gaming machine can check whether the specific value included in the gaming history information is within the predetermined range. It is possible to easily discover gaming machines that are no longer included in the . By checking the gaming history information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature H3]
The gaming machine according to feature H2,
The gaming machine is characterized in that the notification means determines a notification mode (color of an LED lamp) depending on the degree of deviation of the specific value from the predetermined range.

According to feature H3, since the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, an inspector of a gaming machine can determine how far a specific value included in gaming history information is from a predetermined range. It is easy to understand the degree of deviation.

[Feature H4]
The gaming machine according to any one of features H1 to H3,
A gaming machine characterized in that the notification means includes a display means for displaying a predetermined display as the notification.

According to feature H4, since a display means for displaying a predetermined notification is provided, an inspector of the gaming machine can easily know that the gaming history information of the gaming machine does not satisfy the predetermined condition.

[Feature H5]
The gaming machine according to any one of features H1 to H4,
It is characterized by comprising a gaming history information transmitting means (CPU 308) for transmitting the gaming history information stored in the gaming history information storage means to a predetermined device (inspection machine 320) connected to the gaming machine. A gaming machine.

According to feature H5, since the game history information of the gaming machine is transmitted to a predetermined device, the predetermined device can display the gaming history information of the gaming machine. Then, the person inspecting the gaming machine can check the gaming history information displayed on the predetermined device.

[Feature H6]
The gaming machine according to any one of features H1 to H5,
A gaming machine characterized by comprising display means (symbol display device 41) for displaying the game history information stored in the game history information storage means.

According to feature H6, since the gaming history information is displayed on the display means of the gaming machine, the gaming machine inspector can check the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. You can check the information.

<Characteristics Group I>
Feature I group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature I1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a payout means (payout device 71) that pays out a game ball as a prize ball based on the detection of the game ball by the detection means;
a processing execution means (gaming history management chip 300) that executes a predetermined processing;
A gaming machine comprising:
The processing execution means includes:
Prize ball number information storage means (prize ball number data) that stores prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means. memory 306) for storing pitch count data;
Ball entry information storage means (memory 309b for storing ball entry information) that sequentially stores ball entry information, which is information indicating that a game ball has been detected by the detection means, each time a game ball is detected by the detection means. and,
A predetermined device (inspection machine 320) connected to the gaming machine receives the ball-hit information stored in the ball-hit information storage means and the prize balls stored in the prize-ball number information storage means. a transmitting means (CPU 308) for transmitting numerical information;
A gaming machine characterized by comprising:

According to feature I1, since the entering ball information and prize ball number information are transmitted to a predetermined device, the predetermined device receives information regarding the game history based on the ball entering information and prize ball number information. Game history information can be calculated within any range. Therefore, an inspector of a gaming machine can use a predetermined device to check the gaming history information of the gaming machine calculated within an arbitrary range, and can appropriately check whether the gaming machine has been tampered with or not. It becomes possible to judge. As a result, the soundness of the game can be improved.

[Feature I2]
The gaming machine according to feature I1,
Equipped with a date and time information acquisition means (RTC96) that acquires date and time information that is information related to date and time,
A game machine characterized in that, when storing the ball hitting information, the ball hitting information storage means adds and stores the date and time information corresponding to the date and time when the game ball was detected by the detecting means.

According to feature I2, a predetermined device that receives ball entry information with date and time information added can calculate game history information by specifying a date and time range. Therefore, the person inspecting the gaming machine can conduct a detailed inspection based on the gaming history information specifying the date and time range. Furthermore, if a predetermined device displays ball entry information with date and time information added, the person inspecting the gaming machine will also be able to grasp the date and time when a gaming ball was detected by each detection means. .

[Feature I3]
The gaming machine according to feature I1 or feature I2,
A gaming machine comprising display means (symbol display device 41) for displaying the ball-hitting information stored in the ball-hitting information storage means.

According to feature I3, since the ball entry information is displayed on the display means of the gaming machine, an inspector of the gaming machine can check the ball entry information of the gaming machine without using a dedicated device for checking the ball entry information. You can check the information.

<Feature J group>
The feature J group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature J1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
Prize ball number information storage means (main) for storing prize ball number information (prize ball number data) that is information regarding the number of game balls paid out as prize balls (prize ball number) set in each of the plurality of detection means. side ROM63) and
The game progress process is a process for advancing the game based on the detection of the game ball by the detection means (winning lottery process, electric winning lottery process, prize ball payout process, and display of symbols on the main display section 45). (fluctuating display processing, opening/closing processing of the opening/closing door 36b and the electric accessories 34a, etc.), and the detection information of the game balls detected by the detection means and the prize balls stored in the prize ball number information storage means. a processing execution means (main side CPU 62x) that executes a process of calculating game history information (accessories ratio, etc.), which is information related to the game history, by performing calculations based on the numerical information;
a gaming history information storage means (main side RAM 64, flash memory 64x) that is stored in the casing of the gaming machine main body and stores the gaming history information calculated by the processing execution means;
A gaming machine characterized by comprising:

According to feature J1, a game history information storage means for storing game history information is provided. Since the game history information is information that has a correlation with the behavior of the game ball in the game, the game history information differs from game machine to game machine and is information unique to the game machine. That is, the gaming history information is information that reflects the characteristics of the gaming machine. According to feature J1, game history information, which is information reflecting the characteristics of the game machine, is stored in a game history information storage means stored in the casing of the game machine main body. Therefore, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by acquiring gaming history information from the gaming machine itself. When a gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine can be obtained by a hall computer installed in the gaming hall. However, since gaming machines are distributed from time to time, they may be placed in a state where they are not connected to the hall computer, and in this case, with conventional gaming machines, it is not possible to obtain information regarding the characteristics of the gaming machine. Can not. The gaming machine of feature J1 stores gaming history information, which is information that reflects the characteristics of the gaming machine, in the gaming history information storage means stored in the casing of the gaming machine main body, so that the gaming machine is not connected to the hall computer. Even if the game machine is not in a state where the game machine itself is not in use, game history information can be obtained from the game machine main body. That is, according to feature J1, it is possible to link a gaming machine and gaming history information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected. As a result, the soundness of the game can be improved.

Furthermore, according to feature J1, since a single process execution means executes the game progress process and the process of calculating game history information, it is not necessary to provide a separate calculation chip or the like to execute the calculation process. Therefore, the manufacturing cost of the gaming machine can be reduced.

[Feature J2]
The gaming machine according to feature J1,
The processing execution means includes:
a first mode (game mode) in which the game progress process can be executed;
When the first condition is met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection device 320 is connected, a predetermined time has arrived, and a predetermined signal has been received from the hall computer);
is executable,
The game machine is characterized in that, in the second mode, the game progress process is not executed even if the game ball passes through the predetermined area.

According to feature J2, even if the game ball passes through a predetermined area, it is possible to execute the second mode in which the game progress process is not executed, so it is not preferable to execute it in parallel with the game progress process. In the second mode, it is possible to execute processing, processing that is likely to cause problems when executed in parallel with game progress processing, and the like. Furthermore, according to feature J2, since the game progression process is not executed in the second mode, when developing a program for the process to be executed in the second mode, it is important to note that when the game progression process is executed in parallel, Since there is no need to consider countermeasures, it is possible to significantly improve the efficiency of developing a program for processing executed in the second mode.

[Feature J3]
The gaming machine according to feature J2,
The gaming machine characterized in that the second mode is a mode in which the gaming history information is output.

The game history information is information whose contents change when a game ball is detected and a game progress process is executed. Therefore, if a configuration is adopted in which the process of outputting game history information is executed in parallel with the game progress process, the game progress while the inspector of the game machine is inspecting the characteristics of the game machine based on the game history information. As the process is executed, the contents of the game history information may change from time to time, making it difficult to carry out the inspection smoothly. On the other hand, according to feature J3, even if the game ball passes through a predetermined area, the game history information is output in the second mode in which the game progress process is not executed. It is possible to prevent the contents of the game history information from changing while the game is being played. As a result, the person inspecting the gaming machine can smoothly carry out the inspection.

[Feature J4]
The gaming machine according to any one of Feature J1 to Feature J3,
The processing execution means includes:
a first mode (game mode) in which the game progress process can be executed;
When the first condition is met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection device 320 is connected, a predetermined time has arrived, and a predetermined signal has been received from the hall computer);
is executable,
When the first condition is met during the execution of the game progress process in the first mode (when the operation of pressing the mode switching button is executed, the power button is pressed while pressing the mode switching button) When the second condition is met (when the inspection machine 320 is connected to the inspection terminal 65, when a predetermined time has come), the timing when the second condition is satisfied (the symbol fluctuation display process ends) Shift from the first mode to the second mode at the timing when the game progress processing is completed to a predetermined processing stage, such as the timing when the game progress processing is completed, or the timing when all the processing of each game progress processing that is being executed is completed. A gaming machine characterized by being configured to.

According to feature J4, when the first condition is satisfied in the first mode, the mode is configured to shift from the first mode to the second mode at the timing when the second condition is satisfied. Therefore, the second mode It is possible to suppress the occurrence of processing problems when transitioning to .

For example, if a configuration is adopted in which the first mode shifts to the second mode immediately after the first condition is satisfied, regardless of whether the second condition is satisfied, the first mode In this mode, if the first condition that a predetermined operation is executed during the period in which the symbol fluctuating display process is being executed as the game progress process, the second mode, and it becomes difficult to control the timing of stopping the symbols, the fluctuation time of the symbols, etc. On the other hand, according to feature J4, for example, the first condition is that a predetermined operation is performed during a period in which a symbol fluctuation display process as a game progress process is being executed in the first mode. If this is true, the mode will shift to the second mode at the timing when the second condition that the symbol fluctuation display process is not executed is satisfied, that is, at the timing after the symbol being displayed in a fluctuating manner has stopped. . Therefore, it is possible to suppress the occurrence of processing problems such as difficulty in controlling the timing of stopping the symbols, the fluctuation time of the symbols, etc.

[Feature J5]
The gaming machine according to any one of Feature J1 to Feature J4,
The processing execution means includes:
a first mode (game mode) in which the game progress process can be executed;
When the first condition is met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection device 320 is connected, a predetermined time has arrived, and a predetermined signal has been received from the hall computer);
is executable,
If the third condition is satisfied during the second mode (if 10 minutes have passed since the transition to the inspection mode), an operation for transitioning from the second mode to the first mode. Even if the transition operation (the operation of pressing the mode switching button, the operation of pressing the power button while pressing the mode switching button) is not performed, the transition from the second mode to the first mode is not performed. A gaming machine characterized by being configured to shift to a mode.

According to feature J5, if the third condition is satisfied during the second mode, even if the transition operation for transitioning from the second mode to the first mode is not performed, Since the device is configured to transition from the second mode to the first mode, it is possible to prevent the transition operation from not being executed and returning to the first mode. For example, after transitioning to the second mode, the administrator or inspector of the gaming machine forgets to execute the transition operation, and the gaming machine does not return to the first mode in which game progress processing can be executed, and the game It is possible to suppress the occurrence of a situation in which a person cannot play a game with the gaming machine.

[Feature J6]
The gaming machine according to feature J5,
The gaming machine is characterized in that the third condition is that a predetermined time has elapsed from a predetermined time (10 minutes have elapsed from the time when the test mode was entered).

According to feature J6, if a predetermined period of time has elapsed from a predetermined point in time during the second mode, the transition operation for transitioning from the second mode to the first mode has not been performed. However, since the configuration is configured to shift from the second mode to the first mode, it is possible to reliably prevent the shift operation from being executed and returning to the first mode. For example, even if a game machine administrator, inspector, etc. forgets to execute the transition operation after transitioning to the second mode, if a predetermined time elapses from a predetermined point, Since the game machine returns to the first mode, it is possible to suppress the occurrence of a situation in which the player is unable to play a game with the game machine because the game machine does not return to the first mode in which the game progress process can be executed.

[Feature J7]
The gaming machine according to any one of Feature J1 to Feature J6,
a game progress processing information storage means (main side RAM 64) that is stored in the casing of the gaming machine main body and stores information regarding the game progress processing;
Based on the execution of an erase operation (operation of pressing the power button while pressing the RAM clear button), which is an operation for deleting information stored in the game progress processing information storage means, the game erasing means for erasing information stored in the progress processing information storage means;
Equipped with
The processing execution means includes:
a first mode (game mode) in which the game progress process can be executed;
When the first condition is met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection device 320 is connected, a predetermined time has arrived, and a predetermined signal has been received from the hall computer);
is executable,
In a state after shifting to the second mode and before shifting to the first mode (a state in the inspection mode, a state where the power is turned off after shifting to the inspection mode), the erasing means is configured to: A gaming machine characterized in that the information stored in the game progress processing information storage means is not erased even if the erasing operation is executed.

According to feature J7, in a state after shifting to the second mode but before shifting to the first mode, an erasing operation for erasing information stored in the game progress processing information storage means is executed. Even in the case where the information stored in the game progress processing information storage means is not deleted, the information stored in the game progress processing information storage means is not erased. Even if an erasing operation is mistakenly performed in an attempt to migrate the information, it is possible to prevent the information from being erroneously erased.

For example, an erasing operation for erasing information stored in the game progress processing information storage means is an operation of pressing a power button while pressing a button for erasing, and there are two modes: a first mode and a second mode. In a configuration where the operation for transitioning between modes is to press the power button while pressing the transition button, when attempting to transition from the second mode to the first mode, the transition button is pressed. You intend to press the power button while holding down the , but there is a risk that you may accidentally press the power button while holding down the erase button. However, according to feature J7, after transitioning to the second mode but before transitioning to the first mode, an operation of pressing the power button while pressing the erase button may be performed by mistake. Even if the information is accidentally deleted, it is possible to prevent the information from being deleted by mistake.

More specifically, for example, when transitioning from the first mode to the second mode, the game progress processing that was being executed in the first mode is temporarily stopped, and the stopped game progress processing In the case where a configuration is adopted in which information for restarting the game after returning to the second mode is stored in the game progress processing information storage means, if the transition button is pressed in an attempt to return from the second mode to the first mode. If you intend to press the power button while holding down the power button, but you accidentally press the power button while holding down the erase button, the information for restarting the game progress process will be erased, and the second After returning to the mode, it becomes impossible to restart the game progress process, which may put the player at a disadvantage. On the other hand, according to feature J7, in a state after transitioning to the second mode but before transitioning to the first mode, the user accidentally presses the erase button while trying to transition to the first mode. Even if the player presses the power button while pressing the power button, it is possible to prevent the information stored in the game progress processing information storage means from being erased by mistake, thereby causing a disadvantage to the player. It is possible to prevent this from happening.

[Feature J8]
The gaming machine according to any one of Feature J1 to Feature J7,
A gaming machine comprising display means (symbol display device 41) for displaying the gaming history information.

According to feature J8, since the gaming history information is displayed on the display means of the gaming machine, the gaming machine inspector can check the gaming history of the gaming machine without using a dedicated device for checking the gaming history information. You can check the information.

[Feature J9]
The gaming machine according to any one of Feature J1 to Feature J8,
A game machine characterized in that the game history information storage means is constituted by a nonvolatile memory (flash memory 64x) that can retain memory even if the power supply is cut off.

According to feature J9, the gaming history information is retained even if the power supply to the gaming machine is cut off, so no matter what state the gaming machine is in (for example, a distribution state where power is not supplied to the gaming machine, etc.). However, it is possible to always link gaming machines and gaming history information on a one-to-one basis, and the characteristics of the gaming machines can be managed and inspected.

[Feature J10]
The gaming machine according to any one of Feature J1 to Feature J9,
A game machine characterized in that the game history information storage means is stored inside a casing (a board box with a seal affixed) that leaves traces of opening and closing.

According to feature J10, the game history information storage means is stored inside the casing that leaves traces of opening and closing. Therefore, when the gaming history information storage means is physically touched, traces of opening the casing remain. Therefore, if the game history information stored in the game history information storage means is altered through physical contact with the game history information storage means, the alteration can be detected from the traces on the casing. becomes possible. Therefore, unauthorized modification of game history information can be prevented. Since some gaming machines are distributed from time to time, various external contacts occur during the distribution process, but since the gaming history information storage means is stored inside the casing that leaves traces of opening and closing, Even in a situation where gaming machines are distributed from time to time, unauthorized alteration of gaming history information by someone can be suppressed. Furthermore, since the game history information is information acquired based on the games played, it is possible to manage and inspect the game-related characteristics of the gaming machine using the game history information. Therefore, according to feature J10, gaming machines can be properly managed and inspected by preventing unauthorized alteration of gaming history information that reflects the gaming characteristics of gaming machines. As a result, the soundness of the game can be improved.

[Feature J11]
The gaming machine according to any one of Feature J1 to Feature J10,
A gaming machine characterized by comprising: a notification unit that provides notification when the game history information stored in the game history information storage unit does not satisfy a predetermined condition.

According to feature J11, a notification is given when the gaming history information does not meet the predetermined conditions, so the gaming machine inspector can easily discover gaming machines whose gaming history information does not meet the predetermined conditions. can. By checking the gaming history information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature J12]
The gaming machine according to feature J11,
A game characterized in that the notification means gives notification when a specific value (such as a payout ratio) included in the game history information stored in the game history information storage means is no longer included in a predetermined range. Machine.

According to feature J12, a notification is given when a specific value included in the gaming history information is no longer included in the predetermined range, so the inspector of the gaming machine can check whether the specific value included in the gaming history information is within the predetermined range. It is possible to easily discover gaming machines that are no longer included in the . By checking the gaming history information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature J13]
The gaming machine according to feature J12,
The gaming machine is characterized in that the notification means determines a notification mode (color of an LED lamp) depending on the degree of deviation of the specific value from the predetermined range.

According to feature J13, the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, so an inspector of a gaming machine can determine how far a specific value included in gaming history information is from a predetermined range. It is easy to understand the degree of deviation.

[Feature J14]
The gaming machine according to any one of Feature J11 to Feature J13,
A gaming machine characterized in that the notification means includes a display means for displaying a predetermined display as the notification.

According to feature J14, since a display means for displaying a predetermined notification is provided, an inspector of the gaming machine can easily know that the gaming history information of the gaming machine does not satisfy the predetermined condition.

<Feature K group>
The feature K group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature K1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
The game progress process is a process for advancing the game based on the detection of the game ball by the detection means (winning lottery process, electric winning lottery process, prize ball payout process, and display of symbols on the main display section 45). A game progress processing execution means (main side CPU 62x) that executes variable display processing, opening/closing processing of the opening/closing door 36b and electric accessories 34a, etc.
Equipped with
The game progress processing execution means is
a first mode (game mode) in which the game progress process can be executed;
When predetermined conditions are met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection device 320 is connected to the inspection terminal 65) a second mode (inspection mode) which is a mode that is executed when the hall computer is connected, a predetermined time is reached, or a predetermined signal is received from the hall computer;
is executable,
The game machine is characterized in that, in the second mode, the game progress process is not executed even if the game ball passes through the predetermined area.

According to feature K1, even if the game ball passes through a predetermined area, it is possible to execute the second mode in which the game progress process is not executed, so it is not preferable to execute it in parallel with the game progress process. In the second mode, it is possible to execute processing, processing that is likely to cause problems when executed in parallel with game progress processing, and the like. Further, according to feature K1, since the game progress process is not executed in the second mode, when developing a program for the process to be executed in the second mode, when the game progress process is executed in parallel, Since there is no need to consider countermeasures, it is possible to significantly improve the efficiency of developing a program for processing executed in the second mode.

[Feature K2]
The gaming machine according to feature K1,
Detection information is stored in the casing of the gaming machine main body, and is information based on the detection of game balls by the detection means (game history information including ball entry information, number of balls entered, ratio of accessories, etc.) ) (memory 309 for storing calculation results, memory 309a for storing number of balls entering, memory 309b for storing entering ball information, main side RAM 64, flash memory 64x),
The gaming machine, wherein the second mode is a mode in which the detected information is output.

According to feature K2, detection information can be stored and output in the second mode. Since the detection information is information that has a correlation with the behavior of the game ball in the game, the detection information differs from gaming machine to gaming machine and is information unique to the gaming machine. That is, the detection information is information that reflects the characteristics of the gaming machine. According to feature K2, detection information that is information reflecting the characteristics of the gaming machine is stored in a storage means stored in the casing of the gaming machine main body. Therefore, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by acquiring detection information from the gaming machine itself. When a gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine can be obtained by a hall computer installed in the gaming hall. However, since gaming machines are distributed from time to time, they may be placed in a state where they are not connected to the hall computer, and in this case, with conventional gaming machines, it is not possible to obtain information regarding the characteristics of the gaming machine. Can not. The gaming machine of feature K2 stores detection information, which is information that reflects the characteristics of the gaming machine, in the storage means stored in the casing of the gaming machine main body, so even when the gaming machine is not connected to the hall computer, Even if there is, detection information can be obtained from the gaming machine itself. That is, according to feature K2, it is possible to link a gaming machine and detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected. As a result, the soundness of the game can be improved.

Further, the detection information is information whose contents change when a game ball is detected and a game progress process is executed. Therefore, if a configuration is adopted in which the process of outputting detection information is executed in parallel with the game progress process, the game progress process will be performed while the game machine inspector is inspecting the characteristics of the game machine using the sense information. When the test is executed, the content of the detection information changes from time to time, making it difficult to perform the test smoothly. On the other hand, according to feature K2, even if the game ball passes through a predetermined area, the detection information is output in the second mode in which the game progress process is not executed, so the detection information is output. It is possible to prevent the contents of the detection information from changing during the period. As a result, the person inspecting the gaming machine can smoothly carry out the inspection.

[Feature K3]
The gaming machine according to feature K2,
A gaming machine characterized by comprising a display means (symbol display device 41) that displays the detection information output in the second mode.

According to feature K3, since the detection information is displayed on the display means of the gaming machine, the inspector of the gaming machine can confirm the detection information of the gaming machine without using a dedicated device for confirming the detection information. can do.

[Feature K4]
The gaming machine according to feature K2 or feature K3,
The storage means is a non-volatile memory that can retain memory even if the power supply is cut off (computation result storage memory 309, ball entry number storage memory 309a, ball entry information storage memory 309b, flash memory). A gaming machine characterized by being configured with a memory (64x).

According to feature K4, since the detection information is retained even if the power supply to the gaming machine is cut off, it is possible to maintain the detection information even if the power supply to the gaming machine is cut off. Also, it is possible to always link the gaming machine and the detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected.

[Feature K5]
The gaming machine according to any one of Features K2 to K4,
A game machine characterized in that the storage means is stored inside a casing (a board box with a seal affixed) that leaves traces of opening and closing.

According to feature K5, the storage means is stored inside the casing that leaves traces of opening and closing. Therefore, when the storage means is physically touched, traces of opening the casing remain. Therefore, if the detection information stored in the storage means is altered through physical contact with the storage means, it becomes possible to know that the information has been altered from the traces on the casing. Therefore, unauthorized modification of the detected information can be prevented. Since some gaming machines are distributed from time to time, various external contacts occur during the distribution process, but since the storage means is stored inside the casing that leaves traces of opening and closing, the gaming machine Even if the information is circulated from place to place, it is possible to prevent unauthorized alteration of the detected information by someone. Further, since the detection information is information acquired based on the executed game, it becomes possible to manage and inspect the characteristics related to the game of the gaming machine using the detection information. Therefore, according to feature K5, by preventing unauthorized alteration of the detection information that reflects the gaming-related characteristics of the gaming machine, it is possible to properly manage and inspect the gaming machine. As a result, the soundness of the game can be improved.

[Feature K6]
The gaming machine according to any one of Features K2 to K5,
A gaming machine characterized by comprising: a notification unit that provides notification when the detection information stored in the storage unit does not satisfy a predetermined condition.

According to feature K6, since a notification is given when the detected information does not satisfy the predetermined condition, a gaming machine inspector can easily discover a gaming machine whose detected information does not satisfy the predetermined condition. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature K7]
The gaming machine according to feature K6,
The gaming machine is characterized in that the notification means provides notification when a specific value (such as a payout ratio) included in the detection information stored in the storage means is no longer included in a predetermined range.

According to feature K7, a notification is given when a specific value included in the detection information is no longer included in a predetermined range, so the inspector of the gaming machine can check whether the specific value included in the detection information is included in the predetermined range. It is possible to easily find a gaming machine that has disappeared. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature K8]
The gaming machine described in feature K7,
The gaming machine is characterized in that the notification means determines a notification mode (color of an LED lamp) depending on the degree of deviation of the specific value from the predetermined range.

According to feature K8, since the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, an inspector of a gaming machine can determine how far a specific value included in the detected information is from a predetermined range. It is easy to see if there is a discrepancy.

[Feature K9]
The gaming machine according to any one of Features K6 to K8,
A gaming machine characterized in that the notification means includes a display means for displaying a predetermined display as the notification.

According to feature K9, since a display means for displaying a predetermined notification is provided, the person inspecting the gaming machine can easily know that the detection information of the gaming machine does not satisfy the predetermined condition.

<Feature L group>
The feature L group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature L1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
The game progress process is a process for advancing the game based on the detection of the game ball by the detection means (winning lottery process, electric winning lottery process, prize ball payout process, and display of symbols on the main display section 45). A game progress processing execution means (main side CPU 62x) that executes variable display processing, opening/closing processing of the opening/closing door 36b and electric accessories 34a, etc.
Equipped with
The game progress processing execution means is
a first mode (game mode) in which the game progress process can be executed;
When the first condition is met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection device 320 is connected, a predetermined time has arrived, and a predetermined signal has been received from the hall computer);
is executable,
When the first condition is met during the execution of the game progress process in the first mode (when the operation of pressing the mode switching button is executed, the power button is pressed while pressing the mode switching button) When the second condition is met (when the inspection machine 320 is connected to the inspection terminal 65, when a predetermined time has come), the timing when the second condition is satisfied (the symbol fluctuation display process ends) Shift from the first mode to the second mode at the timing when the game progress processing is completed to a predetermined processing stage, such as the timing when the game progress processing is completed, or the timing when all the processing of each game progress processing that is being executed is completed. A gaming machine characterized by being configured to.

According to feature L1, when the first condition is satisfied in the first mode, the mode is configured to shift from the first mode to the second mode at the timing when the second condition is satisfied. Therefore, the second mode It is possible to suppress the occurrence of processing problems when transitioning to .

For example, if a configuration is adopted in which the first mode shifts to the second mode immediately after the first condition is satisfied, regardless of whether the second condition is satisfied, the first mode In this mode, if the first condition that a predetermined operation is executed during the period in which the symbol fluctuating display process is being executed as the game progress process, the second mode, and it becomes difficult to control the timing of stopping the symbols, the fluctuation time of the symbols, etc. On the other hand, according to feature L1, for example, the first condition is that a predetermined operation is performed during a period in which a symbol fluctuation display process as a game progress process is being executed in the first mode. If this is true, the mode will shift to the second mode at the timing when the second condition that the symbol fluctuation display process is not executed is satisfied, that is, at the timing after the symbol being displayed in a fluctuating manner has stopped. . Therefore, it is possible to suppress the occurrence of processing problems such as difficulty in controlling the timing of stopping the symbols, the fluctuation time of the symbols, etc.

[Feature L2]
The gaming machine according to feature L1,
Detection information is stored in the casing of the gaming machine main body, and is information based on the detection of game balls by the detection means (game history information including ball entry information, number of balls entered, ratio of accessories, etc.) ) (memory 309 for storing calculation results, memory 309a for storing number of balls entering, memory 309b for storing entering ball information, main side RAM 64, flash memory 64x),
The gaming machine, wherein the second mode is a mode in which the detected information is output.

According to feature L2, detection information can be stored and output in the second mode. Since the detection information is information that has a correlation with the behavior of the game ball in the game, the detection information differs from gaming machine to gaming machine and is information unique to the gaming machine. That is, the detection information is information that reflects the characteristics of the gaming machine. According to feature L2, detection information that is information reflecting the characteristics of the gaming machine is stored in a storage means stored in the casing of the gaming machine main body. Therefore, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by acquiring detection information from the gaming machine itself. When a gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine can be obtained by a hall computer installed in the gaming hall. However, since gaming machines are distributed from time to time, they may be placed in a state where they are not connected to the hall computer, and in this case, with conventional gaming machines, it is not possible to obtain information regarding the characteristics of the gaming machine. Can not. The gaming machine of feature L2 stores detection information, which is information that reflects the characteristics of the gaming machine, in a storage means stored in the casing of the gaming machine main body, so even when the gaming machine is not connected to the hall computer, Even if there is, detection information can be obtained from the gaming machine itself. That is, according to feature L2, it is possible to link a gaming machine and detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected. As a result, the soundness of the game can be improved.

[Feature L3]
The gaming machine according to feature L2,
A gaming machine characterized by comprising a display means (symbol display device 41) that displays the detection information output in the second mode.

According to feature L3, since the detection information is displayed on the display means of the gaming machine, the inspector of the gaming machine can confirm the detection information of the gaming machine without using a dedicated device for confirming the detection information. can do.

[Feature L4]
The gaming machine according to feature L2 or feature L3,
The storage means is a non-volatile memory that can retain memory even if the power supply is cut off (computation result storage memory 309, ball entry number storage memory 309a, ball entry information storage memory 309b, flash memory). A gaming machine characterized by being configured with a memory (64x).

According to feature L4, the detection information is retained even if the power supply to the gaming machine is cut off, so it is possible to maintain the detection information even if the gaming machine is cut off. Also, it is possible to always link the gaming machine and the detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected.

[Feature L5]
The gaming machine according to any one of Features L2 to L4,
A game machine characterized in that the storage means is stored inside a casing (a board box with a seal affixed) that leaves traces of opening and closing.

According to feature L5, the storage means is stored inside the casing that leaves traces of opening and closing. Therefore, when the storage means is physically touched, traces of opening the casing remain. Therefore, if the detection information stored in the storage means is altered through physical contact with the storage means, it becomes possible to know that the information has been altered from the traces on the casing. Therefore, unauthorized modification of the detected information can be prevented. Since some gaming machines are distributed from time to time, various external contacts occur during the distribution process, but since the storage means is stored inside the casing that leaves traces of opening and closing, the gaming machine Even if the information is circulated from place to place, it is possible to prevent unauthorized alteration of the detected information by someone. Further, since the detection information is information acquired based on the executed game, it becomes possible to manage and inspect the characteristics related to the game of the gaming machine using the detection information. Therefore, according to feature L5, the gaming machine can be properly managed and inspected by preventing unauthorized alteration of the detection information that reflects the gaming-related characteristics of the gaming machine. As a result, the soundness of the game can be improved.

[Feature L6]
The gaming machine according to any one of Features L2 to L5,
A gaming machine characterized by comprising: a notification unit that provides notification when the detection information stored in the storage unit does not satisfy a predetermined condition.

According to feature L6, a notification is given when the detected information does not satisfy a predetermined condition, so a gaming machine inspector can easily discover a gaming machine whose detected information does not satisfy the predetermined condition. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature L7]
The gaming machine according to feature L6,
The gaming machine is characterized in that the notification means provides notification when a specific value (such as a payout ratio) included in the detection information stored in the storage means is no longer included in a predetermined range.

According to feature L7, a notification is given when a specific value included in the detection information is no longer included in a predetermined range, so the inspector of the gaming machine can check whether the specific value included in the detection information is included in the predetermined range. It is possible to easily find a gaming machine that has disappeared. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature L8]
The gaming machine according to feature L7,
The gaming machine is characterized in that the notification means determines a notification mode (color of an LED lamp) depending on the degree of deviation of the specific value from the predetermined range.

According to feature L8, the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, so the inspector of a gaming machine can determine how far a specific value included in the detection information is from a predetermined range. It is easy to see if there is a discrepancy.

[Feature L9]
The gaming machine according to any one of Features L6 to L8,
A gaming machine characterized in that the notification means includes a display means for displaying a predetermined display as the notification.

According to feature L9, since a display means for displaying a predetermined notification is provided, the person inspecting the gaming machine can easily know that the detection information of the gaming machine does not satisfy the predetermined condition.

<Feature M group>
The feature M group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature M1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
The game progress process is a process for advancing the game based on the detection of the game ball by the detection means (winning lottery process, electric winning lottery process, prize ball payout process, and display of symbols on the main display section 45). A game progress processing execution means (main side CPU 62x) that executes variable display processing, opening/closing processing of the opening/closing door 36b and electric accessories 34a, etc.
Equipped with
The game progress processing execution means is
a first mode (game mode) in which the game progress process can be executed;
When the first condition is met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection terminal 65 is connected to the inspection device 320 is connected, a predetermined time has arrived, and a predetermined signal has been received from the hall computer);
is executable,
If the second condition is satisfied during the second mode (if 10 minutes have passed since the transition to the inspection mode), a predetermined condition for transitioning from the second mode to the first mode. Even if the above operation (the operation of pressing the mode switching button, the operation of pressing the power button while pressing the mode switching button) is not performed, the transition from the second mode to the first mode is performed. A gaming machine characterized by being configured to transfer.

According to feature M1, if the second condition is satisfied during the second mode, even if the predetermined operation for transitioning from the second mode to the first mode is not performed. Since the device is configured to shift from the second mode to the first mode, it is possible to prevent the device from returning to the first mode without performing a predetermined operation. For example, after transitioning to the second mode, the administrator, inspector, etc. of the gaming machine forgets to perform a predetermined operation, and the gaming machine does not return to the first mode in which game progress processing can be executed. It is possible to suppress the occurrence of a situation in which a player is unable to play a game with the gaming machine.

[Feature M2]
The gaming machine according to feature M1,
The gaming machine is characterized in that the second condition is that a predetermined time has elapsed from a predetermined time (10 minutes have elapsed from the time when the test mode was entered).

According to feature M2, if a predetermined time has elapsed from a predetermined point in time during the second mode, the predetermined operation for transitioning from the second mode to the first mode has not been performed. Even if a predetermined operation is not performed, it is configured to shift from the second mode to the first mode, so that it is possible to reliably prevent a return to the first mode without performing a predetermined operation. For example, even if a game machine administrator or inspector forgets to perform a predetermined operation after shifting to the second mode, if a predetermined time has elapsed from the predetermined point, the first Since the game machine returns to the first mode, it is possible to suppress the occurrence of a situation in which the game machine does not return to the first mode in which the game progress process can be executed and the player is unable to play the game with the game machine.

[Feature M3]
The gaming machine according to feature M1 or feature M2,
Detection information is stored in the casing of the gaming machine main body, and is information based on the detection of game balls by the detection means (game history information including ball entry information, number of balls entered, ratio of accessories, etc.) ) (memory 309 for storing calculation results, memory 309a for storing number of balls entering, memory 309b for storing entering ball information, main side RAM 64, flash memory 64x),
The gaming machine, wherein the second mode is a mode in which the detected information is output.

According to feature M3, detection information can be stored and output in the second mode. Since the detection information is information that has a correlation with the behavior of the game ball in the game, the detection information differs from gaming machine to gaming machine and is information unique to the gaming machine. That is, the detection information is information that reflects the characteristics of the gaming machine. According to feature M3, detection information that is information reflecting the characteristics of the gaming machine is stored in a storage means stored in the casing of the gaming machine main body. Therefore, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by acquiring detection information from the gaming machine itself. When a gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine can be obtained by a hall computer installed in the gaming hall. However, since gaming machines are distributed from time to time, they may be placed in a state where they are not connected to the hall computer, and in this case, with conventional gaming machines, it is not possible to obtain information regarding the characteristics of the gaming machine. Can not. The gaming machine of feature M3 stores the detection information, which is information that reflects the characteristics of the gaming machine, in the storage means stored in the casing of the gaming machine main body, so even when the gaming machine is not connected to the hall computer, Even if there is, detection information can be obtained from the gaming machine itself. That is, according to feature M3, it is possible to link a gaming machine and detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected. As a result, the soundness of the game can be improved.

Further, according to feature M3, after the inspector of the gaming machine inspects the characteristics of the gaming machine based on the detection information output in the second mode, he forgets to perform a predetermined operation, and the gaming machine stops playing. It is possible to suppress the occurrence of a situation where the player is unable to play a game with the gaming machine without returning to the first mode in which the progress process can be executed.

[Feature M4]
The gaming machine according to feature M3,
A gaming machine characterized by comprising a display means (symbol display device 41) that displays the detection information output in the second mode.

According to feature M4, since the detected information is displayed on the display means of the gaming machine, the inspector of the gaming machine can confirm the detected information of the gaming machine without using a dedicated device for confirming the detected information. can do.

[Feature M5]
The gaming machine according to feature M3 or feature M4,
The storage means is a non-volatile memory that can retain memory even if the power supply is cut off (computation result storage memory 309, ball entry number storage memory 309a, ball entry information storage memory 309b, flash memory). A gaming machine characterized by being configured with a memory (64x).

According to feature M5, even if the power supply to the gaming machine is cut off, the detection information is retained, so that the gaming machine can be placed in any state (for example, in a distribution state where no power is supplied to the gaming machine, etc.). Also, it is possible to always link the gaming machine and the detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected.

[Feature M6]
The gaming machine according to any one of features M3 to M5,
A game machine characterized in that the storage means is stored inside a casing (a board box with a seal affixed) that leaves traces of opening and closing.

According to feature M6, the storage means is stored inside the casing that leaves traces of opening and closing. Therefore, when the storage means is physically touched, traces of opening the casing remain. Therefore, if the detection information stored in the storage means is altered through physical contact with the storage means, it becomes possible to know that the information has been altered from the traces on the casing. Therefore, unauthorized modification of the detected information can be prevented. Since some gaming machines are distributed from time to time, various external contacts occur during the distribution process, but since the storage means is stored inside the casing that leaves traces of opening and closing, the gaming machine Even if the information is circulated from place to place, it is possible to prevent unauthorized alteration of the detected information by someone. Further, since the detection information is information acquired based on the executed game, it becomes possible to manage and inspect the characteristics related to the game of the gaming machine using the detection information. Therefore, according to feature M6, it is possible to properly manage and inspect the gaming machine by preventing unauthorized alteration of the detection information that reflects the gaming-related characteristics of the gaming machine. As a result, the soundness of the game can be improved.

[Feature M7]
The gaming machine according to any one of features M3 to M6,
A gaming machine characterized by comprising: a notification unit that provides notification when the detection information stored in the storage unit does not satisfy a predetermined condition.

According to feature M7, since a notification is given when the detected information does not satisfy the predetermined condition, a gaming machine inspector can easily discover a gaming machine whose detected information does not satisfy the predetermined condition. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature M8]
The gaming machine according to feature M7,
The gaming machine is characterized in that the notification means provides notification when a specific value (such as a payout ratio) included in the detection information stored in the storage means is no longer included in a predetermined range.

According to feature M8, a notification is given when a specific value included in the detection information is no longer included in the predetermined range, so the inspector of the gaming machine can detect if the specific value included in the detection information is included in the predetermined range. It is possible to easily find a gaming machine that has disappeared. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature M9]
The gaming machine according to feature M8,
The gaming machine is characterized in that the notification means determines a notification mode (color of an LED lamp) depending on the degree of deviation of the specific value from the predetermined range.

According to feature M9, the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, so the inspector of a gaming machine can determine how far a specific value included in the detection information is from a predetermined range. It is easy to see if there is a discrepancy.

[Feature M10]
The gaming machine according to any one of features M7 to M9,
A gaming machine characterized in that the notification means includes a display means for displaying a predetermined display as the notification.

According to feature M10, since a display means for displaying a predetermined notification is provided, an inspector of the gaming machine can easily know that the detection information of the gaming machine does not satisfy the predetermined condition.

<Characteristics N group>
The feature N group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature N1]
A firing means (game ball firing mechanism 81) that fires a game ball toward a gaming area;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
The game progress process is a process for advancing the game based on the detection of the game ball by the detection means (winning lottery process, electric winning lottery process, prize ball payout process, and display of symbols on the main display section 45). A game progress processing execution means (main side CPU 62x) that executes variable display processing, opening/closing processing of the opening/closing door 36b and electric accessories 34a, etc.
a storage means (main side RAM 64) that is stored in the casing of the gaming machine main body and stores information regarding the game progress processing;
erasing means for erasing information stored in the storage means based on execution of a predetermined operation (operation of pressing a power button while pressing a RAM clear button);
Equipped with
The game progress processing execution means is
a first mode (game mode) in which the game progress process can be executed;
When predetermined conditions are met (when the operation of pressing the mode switching button is executed, when the operation of pressing the power button while pressing the mode switching button is executed, the inspection device 320 is connected to the inspection terminal 65) a second mode (inspection mode) which is a mode that is executed when the hall computer is connected, a predetermined time is reached, or a predetermined signal is received from the hall computer;
is executable,
In a state after shifting to the second mode and before shifting to the first mode (a state in the inspection mode, a state where the power is turned off after shifting to the inspection mode), the erasing means is configured to: A gaming machine characterized in that the information stored in the storage means is not deleted even if the predetermined operation is executed.

According to feature N1, in a state after transitioning to the second mode but before transitioning to the first mode, when a predetermined operation for erasing information stored in the storage means is performed. Even if there is, the information stored in the storage means is not erased, so if the user accidentally attempts to shift to the first mode after shifting to the second mode but before shifting to the first mode, Even if the above operation is executed, it is possible to prevent the information from being deleted by mistake.

For example, a predetermined operation for erasing information stored in a storage means is an operation of pressing a power button while pressing a button for erasing, and a predetermined operation for deleting information stored in a storage means is an operation of pressing a power button while pressing a button for erasing. In a configuration where the operation for transitioning the mode is pressing the power button while pressing the transition button, it is necessary to press the transition button while trying to transition from the second mode to the first mode. However, there is a risk that you may accidentally press the power button while pressing the erase button. However, according to feature N1, after transitioning to the second mode but before transitioning to the first mode, an operation of pressing the power button while pressing the erase button may be performed by mistake. Even if the information is accidentally deleted, it is possible to prevent the information from being deleted by mistake.

More specifically, for example, when transitioning from the first mode to the second mode, the game progress processing that was being executed in the first mode is temporarily stopped, and the stopped game progress processing If a configuration is adopted in which information for resuming the mode after returning to the second mode is stored in the storage means, if the power is turned off while pressing the transition button in an attempt to return from the second mode to the first mode. If you intend to press the button but accidentally press the power button while pressing the erase button, the information for restarting the game progress process will be erased and you will not be able to switch to the second mode. After returning, the game progress process cannot be resumed, which may put the player at a disadvantage. On the other hand, according to feature N1, in a state after transitioning to the second mode but before transitioning to the first mode, the user accidentally presses the erase button while trying to transition to the first mode. Even if the player presses the power button while pressing the power button, it is possible to prevent the information stored in the storage means from being accidentally deleted, thereby preventing any disadvantage to the player. Can be suppressed.

[Feature N2]
The gaming machine according to feature N1,
Detection information is stored in the casing of the gaming machine main body, and is information based on the detection of game balls by the detection means (game history information including ball entry information, number of balls entered, ratio of accessories, etc.) );
The gaming machine is characterized in that the second mode is a mode in which the detection information (gaming history information including ball entry information, number of balls entered information, role object ratio, etc.) is output.

According to feature N2, detection information can be stored and output in the second mode. Since the detection information is information that has a correlation with the behavior of the game ball in the game, the detection information differs from gaming machine to gaming machine and is information unique to the gaming machine. That is, the detection information is information that reflects the characteristics of the gaming machine. According to feature N2, detection information that is information reflecting the characteristics of the gaming machine is stored in the detection information storage means stored in the casing of the gaming machine main body. Therefore, for example, when inspecting the characteristics of the gaming machine, the characteristics of the gaming machine can be inspected by acquiring detection information from the gaming machine itself. When a gaming machine is installed in a gaming hall, information regarding the characteristics of the gaming machine can be obtained by a hall computer installed in the gaming hall. However, since gaming machines are distributed from time to time, they may be placed in a state where they are not connected to the hall computer, and in this case, with conventional gaming machines, it is not possible to obtain information regarding the characteristics of the gaming machine. Can not. The gaming machine of feature N2 stores the detection information, which is information reflecting the characteristics of the gaming machine, in the detection information storage means stored in the casing of the gaming machine main body, so that the gaming machine is not connected to the hall computer. Detection information can be obtained from the game machine itself even when the game machine is not in use. That is, according to feature N2, it is possible to link a gaming machine and detection information on a one-to-one basis, and the characteristics of the gaming machine can be managed and inspected. As a result, the soundness of the game can be improved.

[Feature N3]
The gaming machine according to feature N2,
A gaming machine characterized by comprising a display means (symbol display device 41) that displays the detection information output in the second mode.

According to feature N3, since the detection information is displayed on the display means of the gaming machine, the inspector of the gaming machine can confirm the detection information of the gaming machine without using a dedicated device for confirming the detection information. can do.

[Feature N4]
The gaming machine according to feature N2 or feature N3,
A game machine characterized in that the detected information storage means is stored inside a casing (a board box to which a seal is affixed) that leaves traces of opening and closing.

According to feature N4, the detection information storage means is stored inside the casing that leaves traces of opening and closing. Therefore, when the detection information storage means is physically touched, traces of opening the casing remain. Therefore, if the detection information stored in the detection information storage means is altered through physical contact with the detection information storage means, it is possible to know that it has been altered from the traces on the casing. Become. Therefore, unauthorized modification of the detected information can be prevented. Since some gaming machines are distributed from time to time, various external contacts occur during the distribution process, but since the detection information storage means is stored inside the casing that leaves traces of opening and closing, Even in situations where devices are being circulated from time to time, it is possible to prevent unauthorized alteration of detected information by someone. Further, since the detection information is information acquired based on the executed game, it becomes possible to manage and inspect the characteristics related to the game of the gaming machine using the detection information. Therefore, according to feature N4, by preventing unauthorized alteration of the detection information that reflects the gaming-related characteristics of the gaming machine, it is possible to properly manage and inspect the gaming machine. As a result, the soundness of the game can be improved.

[Feature N5]
The gaming machine according to any one of features N2 to N4,
A gaming machine characterized by comprising: a notification unit that provides notification when the detection information stored in the detection information storage unit does not satisfy a predetermined condition.

According to feature N5, since a notification is given when the detected information does not satisfy the predetermined condition, a gaming machine inspector can easily discover a gaming machine whose detected information does not satisfy the predetermined condition. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature N6]
The gaming machine according to feature N5,
The gaming machine is characterized in that the notification means gives notification when a specific value (such as a payout ratio) included in the detection information stored in the detection information storage means is no longer included in a predetermined range.

According to feature N6, a notification is given when a specific value included in the detection information is no longer included in a predetermined range, so the inspector of the gaming machine can check whether the specific value included in the detection information is included in the predetermined range. It is possible to easily find a gaming machine that has disappeared. By checking the detection information of the gaming machine, it is possible to determine whether or not the gaming machine has been illegally modified. As a result, the soundness of the game can be improved.

[Feature N7]
The gaming machine according to feature N6,
The gaming machine is characterized in that the notification means determines a notification mode (color of an LED lamp) depending on the degree of deviation of the specific value from the predetermined range.

According to feature N7, since the mode of notification is determined according to the degree of deviation of a specific value from a predetermined range, an inspector of a gaming machine can determine how far a specific value included in the detected information is from a predetermined range. It is easy to see if there is a discrepancy.

[Feature N8]
The gaming machine according to any one of features N5 to N7,
A gaming machine characterized in that the notification means includes a display means for displaying a predetermined display as the notification.

According to feature N8, since a display means for displaying a predetermined notification is provided, the person inspecting the gaming machine can easily know that the detected information of the gaming machine does not satisfy the predetermined condition.

Note that the inventions of the feature group A to feature N described above solve the following problems.

2. Description of the Related Art In gaming machines such as pachinko gaming machines and slot machines, technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of increasing the interest of the games.

In addition to improving the interest of gaming, various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

For example, if a player commits an illegal act (so-called goto act), or if the nails installed on the game board of a pachinko machine are improperly bent and modified, each entry hole, such as the general prize opening or starting opening, may In some cases, the rate of entry of game balls into the ball mouth is different from what was initially expected, and the performance and gameplay that were expected of the pachinko game machine were impaired. However, discovering such fraud has been extremely difficult.

Such fraud may be committed by a player during business hours of the gaming hall. In addition, unauthorized modifications may be carried out by someone after the game hall's business hours. Furthermore, unauthorized modifications may be made to gaming machines while they are being transported before they are installed in gaming halls. Furthermore, unauthorized modifications may be made to gaming machines before they are shipped to gaming halls. Additionally, there is a possibility that unauthorized modifications may be made before then.

In light of this situation, the aim is to discover fraudulent acts and unauthorized modifications to gaming machines and improve the soundness of gaming.

<Characteristics Group O>
The feature group O is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspect 23 of the first embodiment.

[Feature O1]
A gaming machine comprising processing execution means (main CPU 62x) that starts execution of a predetermined process (timer interrupt process) at predetermined intervals (intervals of 4 msec),
The processing execution means is capable of executing a specific process (an arithmetic process that is a process of calculating gaming history information) as one process included in the predetermined process,
The specific process is composed of multiple processing steps (task 1 and task 2 in FIG. 29),
The processing execution means includes:
In one execution of the predetermined process, one of the plurality of process steps constituting the specific process can be executed,
A gaming machine characterized in that all of the plurality of processing steps constituting the specific processing are executed by executing the predetermined processing a plurality of times.

According to feature O1, in one execution of a predetermined process, one processing step out of a plurality of processing steps constituting the specific process can be executed, and by executing the predetermined process multiple times, Since all of the multiple processing steps that make up a specific process are executed, the processing speed of the predetermined process is lower than the configuration in which all of the multiple processing steps that make up the specific process are executed in one execution of the given process. The time required for one execution can be shortened. As a result, the time required to execute a predetermined process once becomes longer than the predetermined interval at which execution of the predetermined process is started, making it impossible to execute the predetermined process at a predetermined interval. It is possible to suppress such things.

[Feature O2]
The gaming machine according to feature O1,
The specific process is composed of a series of processes whose execution order is determined,
The plurality of processing steps are obtained by dividing the series of processing that constitutes the specific processing,
After executing one of the plurality of processing steps (task 1 in FIG. 29), the processing execution means executes the processing step (task 2 in FIG. 29) to be executed next to the one processing step. A gaming machine characterized by specifying.

According to feature O2, a series of processes whose execution order is determined is divided, and in one execution of a predetermined process, after executing one of a plurality of processing steps, Since the processing step to be executed next to the processing step is specified, even if the process is a series of processes that, when incorporated into a predetermined process, the time required to execute the predetermined process will be longer than the predetermined interval. , can be executed by being incorporated into a predetermined process that is executed at predetermined intervals.

[Feature O3]
The gaming machine described in feature O2,
The processing execution means is capable of executing a game progress process, which is a process related to the progress of the game, as a process included in the predetermined process,
A gaming machine characterized in that the specific process is a process (arithmetic process) different from the game progress process.

According to feature O3, when a process different from the game progress process (process other than the game progress process) is incorporated into a predetermined process, the time required for one execution of the predetermined process becomes longer than the predetermined interval. Even in a gaming machine configured such that the game progresses, a process different from the game progress process can be incorporated into a predetermined process executed at a predetermined interval. In addition, processing different from game progress processing does not affect the progress of the game even if all processing stages are not executed in one execution of a predetermined process, so the time required for one execution of a predetermined process can be allocated to the execution time of the game progression process included in the predetermined process, and the degree of freedom in designing the gaming machine can be improved. Note that various arbitrary processes can be adopted as processes different from the game progress process. For example, a process for calculating game history information, which is information about the history of games, It is possible to employ a transmission process or the like that transmits information regarding the game status to the hall computer located at a predetermined timing.

[Feature O4]
The gaming machine described in feature O3,
A gaming machine characterized in that the specific process is a calculation process (arithmetic process) that is a process of calculating game history information that is information related to a game history.

According to feature O4, a game configured such that when a calculation process for calculating game history information is incorporated into a predetermined process, the time required to execute the predetermined process once is longer than a predetermined interval. Even in a machine, the calculation process can be incorporated into a predetermined process executed at predetermined intervals and executed. In addition, the calculation process for calculating game history information does not affect the progress of the game even if all processing steps are not executed in one execution of a predetermined process, so The time can be allocated to the execution time of the game progression process included in the predetermined process, and the degree of freedom in designing the gaming machine can be improved.

<Feature P group>
The feature P group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspect 23 of the first embodiment.

[Feature P1]
A gaming machine comprising processing execution means (main CPU 62x) that starts execution of a predetermined process (timer interrupt process) at predetermined intervals (intervals of 4 msec),
The processing execution means includes:
As one process included in the predetermined process, a specific process (prize ball aggregation process) can be executed,
In one execution of the predetermined process, some processing target candidates (two bits) from among the plurality of processing target candidates (eight bits in the buffer area) are transferred to the particular process (prize ball). aggregation processing), and the specific process can be executed on the set processing target,
A gaming machine characterized in that the specific process is executed for all of the plurality of processing target candidates by executing the predetermined process a plurality of times.

According to feature P1, in one execution of a predetermined process, some processing target candidates from among multiple processing target candidates are set as processing targets for a specific process, and By executing the predetermined process a plurality of times, the specific process is executed for all of the plurality of processing target candidates. Therefore, compared to a configuration in which a specific process is executed on all of a plurality of processing target candidates in one execution of the predetermined process, the time required for one execution of the predetermined process can be reduced. As a result, the time required to execute a predetermined process once becomes longer than the predetermined interval at which execution of the predetermined process is started, making it impossible to execute the predetermined process at a predetermined interval. It is possible to suppress such things.

[Feature P2]
The gaming machine according to feature P1,
A gaming machine characterized in that the plurality of processing target candidates are fixed in advance.

According to feature P2, since the multiple processing target candidates are fixed in advance, there is no need to execute the process of selecting multiple processing target candidates, and the processing can be simplified. As a result, the processing speed can be increased. can be improved. Furthermore, it is possible to reduce the storage capacity for storing information such as programs and parameters necessary for selecting a plurality of processing target candidates.

[Feature P3]
The gaming machine according to feature P1 or feature P2,
The processing target setting means is characterized in that when setting some of the processing target candidates from among the plurality of processing target candidates as processing targets for the specific process, the processing target setting means sets them in a predetermined order. Game machine.

According to feature P3, when setting some processing target candidates from among a plurality of processing target candidates as processing targets for a specific process, they are set in a predetermined order. There is no need to perform a process of determining which processing target candidate to set, which simplifies the process and, as a result, improves the processing speed. Furthermore, it is possible to reduce the storage capacity for storing information such as programs and parameters necessary to execute the determination process.

[Feature P4]
The gaming machine according to any one of features P1 to P3,
Equipped with multiple ball entry sections into which game balls can enter,
Each of the plurality of processing target candidates corresponds to each of the plurality of ball entry parts,
Each processing target candidate is information (ball entry detection information stored in each bit of the buffer area) that is updated based on detection of entry of a game ball into each ball entry section,
The processing execution means executes the predetermined processing a plurality of times (about 18 msec) in a time shorter than the shortest interval (about 18 msec) at which two game balls successively enter one ball entry section and are detected. 4 times), it is possible to execute the specific process on all of the process target candidates.

According to feature P4, the time required to execute a specific process on all processing target candidates is the shortest time required to detect two game balls entering one ball entry area consecutively. Since the interval can be made shorter than the interval of , the information that is updated based on the detection of the entry of a game ball into each ball entry section can be updated based on the detection of the entry of a single game ball. It can be stored as information that is updated based on the information. Specifically, when two game balls enter the ball entry section in succession, the information is updated based on the fact that the first game ball entering the ball entry section is detected. Even if the information is set as a processing target and a specific process is executed, and then the remaining processing target candidates are set as a processing target and a specific process is executed, the next second game All of these specific processes can be completed before the entry of a ball is detected in the ball entry section. In other words, at the time when the information updated based on the detection of the second game ball entering the ball entering section is set as a processing target and a specific process is executed, one game ball has already been detected. The specific processing for the information updated based on the fact that the entry of the second game ball is detected at the ball entry section has been completed, and the entry of the second game ball is detected at the ball entry section. The information updated based on the fact that the new first game ball enters the ball can be treated as the information updated based on the fact that the entry of the new first game ball is detected in the ball entry section. Therefore, the information that is updated based on the detection of the entry of a game ball into each ball entry section is stored as the information that is updated based on the detection of the entry of one game ball. be able to. As a result, for example, information that is updated based on the detection of the game ball entering each ball entry section can be stored as binary information indicating whether or not a ball has entered. In this case, the storage capacity for storing information that is updated based on the detection of the game ball entering each ball entry section can be reduced, and the processing speed of specific processing can be improved. be able to.

<Feature Q group>
The feature Q group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspect 23 of the first embodiment.

[Feature Q1]
a process execution means (main CPU 62x) capable of executing a specific process (game history process) and other processes other than the specific process (process related to game progress);
A storage area (main side RAM 64) in which information can be written,
A gaming machine comprising:
The processing execution means includes a holding means (register) that holds information (register information) for executing the processing,
The specific processing is
a first process (saving process) of writing information (register information) held by the holding means for executing the other process into the storage area;
a second process (return process) for causing the holding means to hold the information written in the storage area in the first process;
A gaming machine characterized by comprising:

According to feature Q1, since the specific process includes the first process of writing information held by the holding means for executing other processes into the storage area, the process execution means At the time of start, if the holding means holds information for executing another process that was being executed immediately before the start of a specific process, the holding means holds information for executing the other process that was held by the holding means Information can be temporarily moved (evacuated) by writing it to a storage area. Therefore, it is possible to erase the information held in the holding means for executing other processes, and cause the holding means to hold the information for executing the specific process when the processing execution means executes a specific process. can. In addition, since the specific process includes a second process in which the information written in the storage area in the first process is held in the storage means, when the specific process ends, the information written in the storage area is The information is held in the holding means again, and other processing that was being executed before the start of the specific process can be executed again from the state immediately before the start of the specific process. Furthermore, since the first process and the second process are included in a specific process, it is a game in which other processes other than the specific process can be executed without problems even if only the program for executing the specific process is deleted. machine can be provided. That is, it becomes possible to easily delete only a program for executing a specific process without modifying a program for executing other processes other than the specific process. As a result, for example, when improving a gaming machine so that it does not perform a specific process, or when developing a new gaming machine based on the gaming machine that does not execute a specific process, design changes can be minimized. It becomes possible to do so.

[Feature Q2]
The gaming machine described in feature Q1,
The processing execution means includes:
In the first process included in the specific process, information for executing the other process is written in a predetermined specific area (second area) of the storage area, and A gaming machine characterized in that writing of information in a specific process is executed only to the specific area (second area) of the storage area.

According to feature Q2, in a first process included in a specific process, the process execution means writes information for executing another process in a predetermined specific area of the storage area, and , information written in a specific process is executed only to a specific area of the storage area, so information written in areas other than the specific area of the storage area may be written in a specific process. can be prevented from being rewritten by the execution of . Therefore, when a process using the other area is executed by the process execution means, it is possible to prevent the specific process from influencing the process.

[Feature Q3]
The gaming machine described in feature Q1 or feature Q2,
The processing execution means includes:
A gaming machine characterized in that writing of information in the other processing is executed only in an area other than the specific area (first area) of the storage area.

According to feature Q3, since information writing in other processes is executed only to areas other than a specific area of the storage area, information written to a specific area of the storage area can be prevented from being rewritten by execution of other processes. Therefore, when a specific process is executed by the process execution means using a specific area, it is possible to prevent other processes from influencing the specific process.

[Feature Q4]
The gaming machine described in any one of Features Q1 to Features Q3,
The specific process is a process different from a game progress process that is a process related to the progress of the game,
The gaming machine characterized in that the other processing is the game progress processing.

According to feature Q4, it is possible to provide a gaming machine in which the game progression process can be executed without problems even if only the program for executing a process different from the game progression process is deleted. That is, it becomes possible to easily delete only the program for executing a process different from the game progress process. As a result, for example, when improving a gaming machine so that it does not execute a process different from the game progression process, or when developing a new gaming machine that does not execute a process different from the game progression process, it is possible to minimize design changes. It becomes possible to limit the Note that various arbitrary processes can be adopted as processes different from the game progress process, such as a process for calculating and displaying game history information, which is information related to the game history, It is possible to employ a transmission process or the like that transmits information regarding the game status to the installed hall computer at a predetermined timing.

[Feature Q5]
The gaming machine described in feature Q4,
The specific process is a game history information related process (game history process) that is a process for calculating and displaying game history information (accessory object ratio, continuous role object ratio), which is information related to the gaming history. A gaming machine with special features.

According to feature Q5, it is possible to provide a gaming machine in which the game progress process can be executed without problems even if only the program for executing the game history information related process is deleted. That is, it becomes possible to easily delete only the program for executing the game history information related process. As a result, for example, when improving a gaming machine so that it does not execute processing related to gaming history information, or when developing a new gaming machine that does not execute processing related to gaming history information, it is possible to minimize design changes. becomes possible.

<Characteristic R group>
The feature R group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspect 23 of the first embodiment.

[Feature R1]
A process execution means (main CPU 62x) capable of executing a plurality of processes including a specific process (game history process);
A storage area (main side RAM 64) in which information can be written,
A gaming machine comprising:
The processing execution means includes:
A gaming machine characterized in that writing of information in the specific process is executed only to a predetermined specific area (second area) of the storage area.

According to feature R1, the processing execution means executes writing of information in a specific process only to a predetermined specific area of the storage area. It is possible to prevent the information written in the area from being rewritten by execution of a specific process. Therefore, when a process using an area other than a specific area of the storage area is executed by the process execution means, it is possible to prevent the specific process from affecting the process. can.

[Feature R2]
The gaming machine according to feature R1,
The processing execution means includes:
Writing of information in a process other than the specific process (process related to game progress) is performed only in an area other than the specific area (first area) of the storage area. A gaming machine with special features.

According to feature R2, the processing execution means executes writing of information in a process other than a specific process only to an area other than the specific area of the storage area. It is possible to prevent information written in a specific area from being rewritten by execution of the other process. Therefore, when a specific process is executed by the process execution means using a specific area, it is possible to prevent other processes from influencing the specific process.

[Feature R3]
The gaming machine according to feature R1 or feature R2,
The processing execution means includes:
comprising a holding means (register) for holding information (register information) for executing a process, and exclusively executing the specific process and the other process,
The specific processing is
a first process (saving process) of writing information (register information) held by the holding means for executing the other process into the specific area;
a second process (return process) for causing the holding means to hold the information written in the specific area in the first process;
A gaming machine characterized by comprising:

According to characteristic R3, since the specific process includes the first process, when the process execution means starts the specific process, the holding means executes the other process that was being executed immediately before the start of the specific process. , the information for executing other processes held by the holding means can be temporarily moved (saved) by writing it into a specific area. Therefore, it is possible to erase the information held in the holding means for executing other processes, and cause the holding means to hold the information for executing the specific process when the processing execution means executes a specific process. can. Furthermore, since the specific process includes a second process, when the specific process ends, the holding means re-holds the information for executing the other process, and the information that was executed before the start of the specific process is stored again. and other processes can be executed again from the state immediately before the start of the specific process. Furthermore, since the first process and the second process are included in a specific process, it is a game in which other processes other than the specific process can be executed without problems even if only the program for executing the specific process is deleted. machine can be provided. That is, it becomes possible to easily delete only a program for executing a specific process without modifying a program for executing other processes other than the specific process. As a result, for example, when improving a gaming machine so that it does not perform a specific process, or when developing a new gaming machine based on the gaming machine that does not execute a specific process, design changes can be minimized. It becomes possible to do so.

[Feature R4]
The gaming machine according to any one of features R1 to R3,
The specific process is a process different from a game progress process that is a process related to the progress of the game,
A gaming machine characterized in that a process other than the specific process is the game progress process.

According to feature R4, the processing execution means executes writing of information in a process different from the game progression process only to a predetermined specific area of the storage area, so that the game progression process is executed. When executed by means, it is possible to prevent a process different from the game progress process from influencing the game progress process.

[Feature R5]
The gaming machine according to feature R4,
The specific process is a game history information related process (game history process) that is a process for calculating and displaying game history information (accessory object ratio, continuous role object ratio), which is information related to the gaming history. A gaming machine with special features.

According to feature R5, the processing execution means executes writing of information in the game history information related processing only to a predetermined specific area of the storage area, so that the game progress processing is executed by the processing execution means. When executed, it is possible to prevent the game history information related process from influencing the game progress process.

<Feature S group>
The feature S group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspect 23 of the first embodiment.

[Feature S1]
a ball entry section into which a game ball can enter;
Ball entry detection means (ball entry detection sensor) for detecting entry of a game ball into the ball entry section;
a parameter storage means (a prize ball aggregation buffer) for storing a predetermined parameter (a prize ball aggregation value);
A gaming machine comprising: processing execution means (main CPU 62x) that starts execution of predetermined processing (timer interrupt processing) at predetermined intervals (intervals of 4 msec),
The processing execution means includes:
As the predetermined processing,
a parameter update process (prize ball aggregation process) for updating the predetermined parameters stored in the parameter storage means, triggered by the entry of a game ball into the ball entry section;
a calculation process (task 1 and task 2 in FIG. 29) for calculating game history information that is information regarding the history of games based on the predetermined parameters stored in the parameter storage means;
is executable,
A gaming machine characterized in that, in one predetermined process, when the parameter update process is executed, the calculation process is not executed.

According to feature S1, when parameter update processing is executed in one predetermined process, calculation processing is not executed. That is, since both the parameter update process and the calculation process are not executed in one predetermined process, the time required for one predetermined process to be executed can be shortened. As a result, the time required to execute a predetermined process once becomes longer than the predetermined interval at which execution of the predetermined process is started, making it impossible to execute the predetermined process at a predetermined interval. It is possible to suppress such things. Furthermore, according to feature S1, parameter update processing in which the game ball entry situation and processing load are correlated is executed with priority over calculation processing in which the game ball entry situation and processing load are not correlated. To suppress the interval between executions of parameter update processing from increasing, and as a result, the processing result (total prize ball value) of the parameter update processing cannot accurately reflect the state of entering game balls. can be suppressed.

[Feature S2]
The gaming machine according to feature S1,
comprising a determination means (processing of step S10810 in FIG. 29) for determining whether or not to execute the calculation process,
The processing execution means includes:
A gaming machine characterized in that the calculation process is executed when the parameter update process is not executed and the determination means determines that the calculation process is to be executed.

According to feature S2, when the parameter update process is not executed and the determination means determines that the calculation process should be executed, the calculation process is executed, so neither the parameter update process nor the calculation process is executed in the predetermined process. In this situation, instead of parameter update processing and calculation processing, other processing independent of these processing (for example, processing to determine the validity of updated parameters or calculation results of calculation processing, etc.) It becomes possible to execute. Furthermore, if the configuration is such that when either parameter update processing or calculation processing is executed in one predetermined process, the time required for one execution of the predetermined process is shorter than the predetermined interval, the situation To reliably prevent the time required for one execution of the predetermined process from becoming longer than a predetermined interval by executing a process whose processing time is shorter than the parameter update process and the calculation process. I can do it.

[Feature S3]
The gaming machine according to feature S1 or feature S2,
Although the processing execution means can calculate a plurality of types of the game history information (accessory object ratio, continuous accessory ratio) in the calculation processing, in the calculation processing in one predetermined processing, The gaming machine is characterized in that it executes a process (task 1 or task 2 in FIG. 29) regarding calculation of the game history information of one type.

According to feature S3, although it is possible to calculate multiple types of game history information in the calculation process, in the calculation process in one predetermined process, only one type of game history information is calculated. Therefore, compared to a configuration in which processing for calculating multiple types of game history information is executed in a calculation process in one predetermined process, the time required for one execution of a predetermined process is shortened. be able to. As a result, the time required to execute a predetermined process becomes longer than the predetermined interval at which execution of the predetermined process starts, making it impossible to execute the predetermined process at a predetermined interval. Can be suppressed. Furthermore, the storage capacity for temporarily storing the calculated game history information can be reduced.

[Feature S4]
The gaming machine according to feature S3,
The processing execution means includes:
By executing the process for calculating the game history information of the one type (task 1 or task 2 in FIG. 29) over the predetermined process a plurality of times, the game history information of the one type is calculated. A gaming machine characterized by:

According to feature S4, the game history information of one type is calculated by executing the process of calculating the game history information of one type over a plurality of predetermined processes. Compared to a configuration in which calculation of one type of gaming history information is completed in the calculation process in a predetermined process, the time required to execute one predetermined process can be reduced. As a result, the time required to execute a predetermined process can be prevented from exceeding the interval between executions of the predetermined process.

Note that the inventions of the feature group O to feature group S solve the following problems.

In gaming machines such as pachinko machines and slot machines, various changes have been made to the structure, control, performance, etc., with the aim of increasing the interest of the game, reducing the processing load on the gaming machine, optimizing processing, and simplifying control. Technical improvements have been made from this point of view.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, further technological improvements are desired for the purpose of increasing the interest of gaming, reducing the processing load on gaming machines, optimizing processing, simplifying control, and providing healthier gaming. It is rare.

<Characteristic T group>
The feature T group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature T1]
A control means (main CPU 62x in aspect 38 of the first embodiment) for controlling the execution of the game;
Information storage means (flash memory 64x) for storing information acquired based on the executed games (game history information such as prize ball total value, role object ratio, information on the number of balls entered, etc.);
an operation means (flash memory clear button) that accepts a predetermined operation;
erasure means (erasure processing IC chip) for erasing the information stored in the information storage means based on the operation means receiving the predetermined operation;
A gaming machine comprising:
The gaming machine is characterized in that the operating means is stored inside a space where traces of opening remain (inside a board box to which a seal is affixed).

According to feature T1, since the operation means is stored inside the space where traces of opening remain, in order to erase information stored in the information storage means of the gaming machine, the operating means must be stored in the space of the gaming machine. The operation means is operated with the machine in the open state, and traces of the opening will remain in the space of the game machine. In other words, based on whether or not there are any traces of opening remaining in the space of the gaming machine, there is a possibility that the space of the gaming machine has been opened and the information stored in the information storage means has been erased. It becomes possible to grasp whether or not.

Here, if a gaming machine has been illegally modified, the effects of the unauthorized modification will appear on the games played, and furthermore, the information stored in the information storage means of the gaming machine will be affected. The effects of the unauthorized modification may appear. A person (hereinafter also referred to as an "inspector") who inspects whether a game machine is playing a normal game or not, checks the information stored in the information storage means to determine whether or not the game machine is playing normally. It is possible to detect unauthorized modifications. For this reason, there are persons (hereinafter also referred to as "unauthorized persons") who desire to prevent inspectors from discovering that the gaming machine has been fraudulently modified by erasing this information. there's a possibility that.

However, according to this feature, in order to erase the information stored in the information storage means, it is necessary to open the space of the gaming machine and operate the operating means. In this case, traces of the opening will remain in the space of the gaming machine, so even if the information stored in the information storage means is erased, there is a possibility that the information was erased to conceal fraud. Traces will remain. Therefore, it is possible to make it difficult to conceal unauthorized modifications made to gaming machines, and in turn, it is possible to suppress the occurrence of motivation to make unauthorized modifications to gaming machines, thereby improving the soundness of gaming. can be done.

Note that gaming machines may be distributed from time to time through transactions, and a person who wishes to newly distribute a gaming machine that has already been used for games (a so-called used gaming machine) must store the information in the information storage means of the gaming machine. In some cases, a person may have a legitimate desire to erase the information that has been posted before distributing it. Therefore, if we build a distribution system that allows only those who have a legitimate desire to erase the information stored in the information storage means of gaming machines to erase the traces of the opening of the space, it will be possible to maintain the health of gaming. This makes it possible to promote smooth distribution of gaming machines while ensuring quality.

[Feature T2]
The gaming machine according to feature T1,
A gaming machine characterized in that the information storage means is capable of retaining memory even if power supply is cut off.

According to feature T2, even if the power supply to the gaming machine is cut off, it is possible to retain information acquired based on the played games. Even when power is not supplied, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature T3]
The gaming machine according to feature T1 or feature T2,
The gaming machine characterized in that the information acquired based on the executed game includes information regarding the number of game balls that have already been paid out as prize balls (total value of prize balls).

According to feature T3, by using information regarding the number of game balls that have already been paid out as prize balls, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature T4]
The gaming machine according to any one of features T1 to T3,
A gaming machine characterized in that the information storage means is stored inside a space in which traces of opening remain (inside a board box to which a seal is affixed).

According to feature T4, since the information storage means is stored inside a space where traces of opening remain, in order to make unauthorized changes to the information stored in the information storage means, it is necessary to The corresponding space of the gaming machine will be brought into an open state, and traces of the opening will remain in the corresponding space of the gaming machine. In other words, based on whether or not there are any traces of opening remaining in the space of the gaming machine, it is determined whether the space of the gaming machine has been opened and the information stored in the information storage means has been fraudulently altered. It becomes possible to grasp whether there is a possibility or not. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to the information stored in the information storage means, and furthermore, a motive for making unauthorized alterations to the information stored in the information storage means arises. It becomes possible to suppress this, and improve the soundness of the game.

<Feature U group>
The feature U group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature U1]
A control means (main CPU 62x in aspect 39 of the first embodiment) that controls the execution of the game;
Information storage means (flash memory 64x) for storing information acquired based on the executed games (game history information such as prize ball total value, role object ratio, information on the number of balls entered, etc.);
A connection means (inspection terminal 65) to which a predetermined device (inspection machine 320) can be connected;
erasing means (erasing IC chip) for erasing the information stored in the information storage means;
A gaming machine comprising:
The erasing means includes means for erasing the information stored in the information storage means based on receiving a predetermined signal (erase command signal) from the predetermined device connected to the connection means. A gaming machine characterized by:

According to feature U1, the erasing means includes means for erasing information stored in the information storage means based on receiving a predetermined signal from a predetermined device connected to the connection means, A person who has the ability to delete information stored in the information storage means can delete the information stored in the information storage means. In other words, it becomes possible to restrict erasure of the information by a person who does not have the predetermined device.

Here, if a gaming machine has been illegally modified, the effects of the unauthorized modification will appear on the games played, and furthermore, the information stored in the information storage means of the gaming machine will be affected. The effects of the unauthorized modification may appear. A person (hereinafter also referred to as an "inspector") who inspects whether a game machine is playing a normal game or not, checks the information stored in the information storage means to determine whether or not the game machine is playing normally. It is possible to detect unauthorized modifications. For this reason, there are persons (hereinafter also referred to as "unauthorized persons") who desire to prevent inspectors from discovering that the gaming machine has been fraudulently modified by erasing this information. there's a possibility that.

However, according to this feature, in order to erase the information stored in the information storage means, a predetermined device that can be connected to the connection means of the gaming machine is required. By restricting the persons who can own the specified device, it is possible to prevent the information stored in the information storage means from being deleted by an unauthorized person, and furthermore, it is possible to prevent unauthorized persons from deleting the information stored in the information storage means. It becomes possible to suppress the occurrence of motivation to make modifications, and it is possible to improve the soundness of the game.

Note that gaming machines may be distributed from time to time through transactions, and a person who wishes to newly distribute a gaming machine that has already been used for games (a so-called used gaming machine) must store the information in the information storage means of the gaming machine. In some cases, a person may have a legitimate desire to erase the information that has been posted before distributing it. Therefore, if we create a distribution system that allows only those who wish to delete information stored in the information storage means of gaming machines for legitimate reasons to own the designated equipment, the soundness of gaming will be improved. This makes it possible to promote smooth distribution of gaming machines while ensuring the same.

[Feature U2]
The gaming machine according to feature U1,
transmission of transmitting the information stored in the information storage means to the predetermined device connected to the connection means, prior to the erasing means deleting the information stored in the information storage means; A gaming machine characterized by comprising means.

According to feature U2, before the erasing means erases the information stored in the information storage means, the transmission means transmits the information stored in the information storage means to a predetermined device connected to the connection means. Even if the information stored in the information storage means is accidentally erased due to an operation against the will of the person who owns the device, the information will be erased from the information storage means. The information can be confirmed by the predetermined device.

[Feature U3]
The gaming machine according to feature U1 or feature U2,
A gaming machine characterized in that the information storage means is capable of retaining memory even if power supply is cut off.

According to feature U3, even if the power supply to the gaming machine is cut off, it is possible to retain information acquired based on the executed game. Even when power is not supplied, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature U4]
The gaming machine according to any one of features U1 to U3,
The gaming machine characterized in that the information acquired based on the executed game includes information regarding the number of game balls that have already been paid out as prize balls (total value of prize balls).

According to feature U4, by using information regarding the number of game balls that have already been paid out as prize balls, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature U5]
The gaming machine according to any one of features U1 to U4,
A gaming machine characterized in that the information storage means is stored inside a space in which traces of opening remain (inside a board box to which a seal is affixed).

According to characteristic U5, since the information storage means is stored inside a space where traces of opening remain, in order to make unauthorized changes to the information stored in the information storage means, it is necessary to The corresponding space of the gaming machine will be brought into an open state, and traces of the opening will remain in the corresponding space of the gaming machine. In other words, based on whether or not there are any traces of opening remaining in the space of the gaming machine, it is determined whether the space of the gaming machine has been opened and the information stored in the information storage means has been fraudulently altered. It becomes possible to grasp whether there is a possibility or not. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to the information stored in the information storage means, and furthermore, a motive for making unauthorized alterations to the information stored in the information storage means arises. It becomes possible to suppress this, and improve the soundness of the game.

<Characteristic group V>
The feature group V is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature V1]
A control means (main CPU 62x in aspect 40 of the first embodiment) for controlling the execution of the game;
Information storage means (flash memory 64x) for storing information acquired based on the executed games (game history information such as prize ball total value, role object ratio, information on the number of balls entered, etc.);
A connection means (inspection terminal 65) to which a predetermined device (inspection machine 320) can be connected;
an operation means (flash memory clear button) that accepts a predetermined operation;
erasing means (erasing IC chip) for erasing the information stored in the information storage means;
A gaming machine comprising:
The operating means is stored inside a space where traces of opening remain (inside a board box with a seal affixed),
The erasing means erases the information from the information storage means based on the operation means receiving the predetermined operation and receiving a predetermined signal (erase command signal) from the predetermined device connected to the connection means. A gaming machine comprising means for erasing the information stored in the game machine.

According to feature V1, since the operating means is stored inside a space where traces of opening remain, in order to erase information stored in the information storage means of the gaming machine, the operating means must be stored in the space of the gaming machine. The operation means is operated with the machine in the open state, and traces of the opening will remain in the space of the game machine. Furthermore, the erasing means includes means for erasing information stored in the information storage means based on receiving a predetermined signal from a predetermined device connected to the connecting means, so that a person who has the predetermined device can , the information stored in the information storage means can be erased. Therefore, based on whether or not there are any traces of opening remaining in the space of the gaming machine, there is a possibility that the space of the gaming machine was opened and the information stored in the information storage means was erased. It becomes possible to grasp whether or not the information is deleted, and it is also possible to restrict erasure of the information by a person who does not have a predetermined device.

Here, if a gaming machine has been illegally modified, the effects of the unauthorized modification will appear on the games played, and furthermore, the information stored in the information storage means of the gaming machine will be affected. The effects of the unauthorized modification may appear. A person (hereinafter also referred to as an "inspector") who inspects whether a game machine is playing a normal game or not, checks the information stored in the information storage means to determine whether or not the game machine is playing normally. It is possible to detect unauthorized modifications. For this reason, there are persons (hereinafter also referred to as "unauthorized persons") who desire to prevent inspectors from discovering that the gaming machine has been fraudulently modified by erasing this information. there's a possibility that.

However, according to this feature, in order to erase the information stored in the information storage means, a predetermined device that can be connected to the connection means of the gaming machine is required. By restricting the persons who can have the predetermined device, it is possible to prevent the information stored in the information storage means from being erased by an unauthorized person. Furthermore, even if an unauthorized person gains possession of a given device, in order to erase the information stored in the information storage means, it is necessary to open the space of the gaming machine and operate it. It is necessary to operate the means. In this case, traces of the opening will remain in the space of the gaming machine, so even if the information stored in the information storage means is erased, there is a possibility that the information was erased to conceal fraud. Traces will remain. Therefore, it is possible to prevent the information stored in the information storage means from being deleted by an unauthorized person, and it is also possible to make it difficult to conceal unauthorized modifications made to the gaming machine. As a result, it becomes possible to further suppress the occurrence of motivation to make unauthorized modifications to the gaming machine, and it is possible to improve the soundness of gaming.

Note that gaming machines may be distributed from time to time through transactions, and a person who wishes to newly distribute a gaming machine that has already been used for games (a so-called used gaming machine) must store the information in the information storage means of the gaming machine. In some cases, a person may have a legitimate desire to erase the information that has been posted before distributing it. Therefore, only those who have a desire to delete information stored in the information storage means of a gaming machine for legitimate reasons can own the designated device and can erase any traces of the opening of the space. If we build a distribution system that can do so, it will be possible to promote smooth distribution of gaming machines while ensuring the soundness of gaming.

[Feature V2]
The gaming machine according to feature V1,
transmission of transmitting the information stored in the information storage means to the predetermined device connected to the connection means, prior to the erasing means deleting the information stored in the information storage means; A gaming machine characterized by comprising means.

According to feature V2, before the erasing means erases the information stored in the information storage means, the transmission means transmits the information stored in the information storage means to a predetermined device connected to the connection means. Even if the information stored in the information storage means is accidentally erased due to an operation against the will of the person who owns the device, the information will be erased from the information storage means. The information can be confirmed by the predetermined device.

[Feature V3]
The gaming machine according to feature V1 or feature V2,
A gaming machine characterized in that the information storage means is capable of retaining memory even if power supply is cut off.

According to feature V3, even if the power supply to the gaming machine is cut off, it is possible to retain information acquired based on the executed games. Even when power is not supplied, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature V4]
The gaming machine according to any one of Features V1 to V3,
The gaming machine characterized in that the information acquired based on the executed game includes information regarding the number of game balls that have already been paid out as prize balls (total value of prize balls).

According to feature V4, by using information regarding the number of game balls that have already been paid out as prize balls, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature V5]
The gaming machine according to any one of Features V1 to V4,
A gaming machine characterized in that the information storage means is stored inside a space in which traces of opening remain (inside a board box to which a seal is affixed).

According to feature V5, since the information storage means is stored inside a space where traces of opening remain, in order to make unauthorized changes to the information stored in the information storage means, it is necessary to The corresponding space of the gaming machine will be brought into an open state, and traces of the opening will remain in the corresponding space of the gaming machine. In other words, based on whether or not there are any traces of opening remaining in the space of the gaming machine, it is determined whether the space of the gaming machine has been opened and the information stored in the information storage means has been fraudulently altered. It becomes possible to grasp whether there is a possibility or not. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to the information stored in the information storage means, and furthermore, a motive for making unauthorized alterations to the information stored in the information storage means arises. It becomes possible to suppress this, and improve the soundness of the game.

<Feature W group>
The feature W group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature W1]
A control means (main CPU 62x in aspect 46 of the first embodiment) for controlling the execution of the game;
Based on first information that is information used to control the execution of the game by the control means (information used for game progress processing stored in the first area of the main side RAM 64) and the executed game. Information storage means for storing second information that is the acquired information (a total prize ball value, game history information such as accessory ratio, information on the number of balls entered, etc., stored in the second area of the main side RAM 64) (main side RAM64) and
erasing means for erasing the information stored in the information storage means;
A gaming machine comprising:
The erasing means includes means for erasing the first information stored in the information storage means when erasing the second information stored in the information storage means. Game machine.

According to feature W1, since the erasing means includes means for erasing the first information when erasing the second information, the second information that is the information acquired based on the executed game is It is possible to suppress the occurrence of a situation in which the first information, which is information used to control the execution of a game, is not deleted and is maintained as it is even though it has been deleted.

Specifically, for example, the second information, which is information acquired based on the game played, is information that serves as collateral for determining the fairness of the game played on the gaming machine. If the second information is deleted, the first information used to control the execution of the game in the gaming machine (for example, information regarding the high probability mode flag or high frequency support mode flag indicating the gaming state) is deleted. It is preferable to erase the information and initialize the gaming state of the gaming machine. According to this feature, since the erasing means includes a means for erasing the first information when erasing the second information, the second information that serves as security for determining the fairness of the game is erased. It is possible to suppress the occurrence of a situation in which the gaming state of the gaming machine is maintained as it is because the first information is not deleted even though the gaming machine has been deleted.

[Feature W2]
The gaming machine according to feature W1,
A gaming machine characterized in that the erasing means includes means for erasing the first information and not erasing the second information among the information stored in the information storage means.

According to feature W2, the erasing means includes a means for erasing the first information and not erasing the second information among the information stored in the information storage means, so that the erasing means erases the first information and does not erase the second information from among the information stored in the information storage means. It becomes possible to erase the first information, which is information used for controlling the execution of the game, while leaving the second information, which is information that has been played.

Specifically, for example, if a problem occurs in the control of the execution of the game, or when the game hall starts or ends business, the first information, which is the information used to control the execution of the game, is deleted. There is a desire to initialize the control of the gaming machine using a game machine, but do not want to erase the second information, which is information acquired based on the played game. According to this feature, the first information, which is the information used to control the execution of the game, is deleted while leaving the second information, which is the information acquired based on the executed game, to control the gaming machine. It becomes possible to execute control initialization.

<Characteristics Group X>
The feature X group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature X1]
A control means (main CPU 62x in aspect 42 of the first embodiment) for controlling the execution of the game;
Based on first information that is information used to control the execution of the game by the control means (information used for game progress processing stored in the first area of the main side RAM 64) and the executed game. Information storage means for storing second information that is the acquired information (a total prize ball value, game history information such as accessory ratio, information on the number of balls entered, etc., stored in the second area of the main side RAM 64) (main side RAM64) and
a first operation means (RAM clear button and power switch) that accepts a first operation (operation of turning on the power of the pachinko machine 10 with the RAM clear button pressed);
erasing means for erasing the information stored in the information storage means;
A gaming machine comprising:
The erasing means erases the first information from among the information stored in the information storage means based on the first operation means receiving the first operation, and erases the first information from among the information stored in the information storage means. A gaming machine characterized by having a means for not erasing information.

According to feature X1, the erasing means erases the first information among the information stored in the information storage means based on the first operation means receiving the first operation, The first information, which is information used to control the execution of the game, can be deleted while leaving the second information, which is information acquired based on the executed game, because the information is not deleted. becomes possible.

Specifically, for example, if a problem occurs in the control of the execution of the game, or when the game hall starts or ends business, the first information, which is the information used to control the execution of the game, is deleted. There is a desire to initialize the control of the gaming machine using a game machine, but do not want to erase the second information, which is information acquired based on the played game. According to this feature, by operating the first operating means, while leaving the second information that is information acquired based on the executed game, the second information that is the information used to control the execution of the game is left behind. It becomes possible to initialize the control of the gaming machine by erasing the information of No. 1.

[Feature X2]
The gaming machine according to feature X1,
comprising a second operation means (second RAM clear button) that accepts a second operation (operation of pressing the second RAM clear button for a predetermined time while the power of the pachinko machine 10 is turned on);
The erasing means includes means for erasing the second information stored in the information storage means based on the second operation being accepted by the second operation means. Game machine.

According to feature X2, the erasing means includes means for erasing the second information stored in the information storage means based on the second operation means accepting the second operation, The second information that cannot be erased by operating the operating means can be erased by operating the second operating means.

[Feature X3]
The gaming machine according to feature X2,
The gaming machine is characterized in that the second operating means (second RAM clear button) is stored inside a space where traces of opening remain (inside a board box to which a seal is affixed).

According to feature X3, since the second operation means is stored inside a space where traces of opening remain, in order to erase the second information stored in the information storage means of the gaming machine, The second operating means is operated with the space of the gaming machine in the open state, and traces of the opening will remain in the space of the gaming machine. In other words, it is possible that the space of the gaming machine was opened and the second information stored in the information storage means was erased, based on whether there are any traces of opening remaining in the space of the gaming machine. It becomes possible to understand whether or not there is a problem.

Here, if the gaming machine has been illegally modified, the effect of the unauthorized modification will appear on the played game, and furthermore, the second data stored in the information storage means of the gaming machine information may be affected by the unauthorized modification. A person (hereinafter also referred to as an "inspector") who inspects whether a game machine is playing a normal game or not, checks the information stored in the information storage means to determine whether or not the game machine is playing normally. It is possible to detect unauthorized modifications. For this reason, there are persons (hereinafter also referred to as "unauthorized persons") who desire to prevent inspectors from discovering that the gaming machine has been fraudulently modified by erasing this information. there's a possibility that.

However, according to this feature, in order to erase the second information stored in the information storage means, it is necessary to open the space of the gaming machine and operate the second operating means. In this case, traces of the opening will remain in the space of the gaming machine, so even if the second information stored in the information storage means is erased, there is a possibility that the information was erased to conceal the fraud. There will be traces left behind. Therefore, it is possible to make it difficult to conceal unauthorized modifications made to gaming machines, and in turn, it is possible to suppress the occurrence of motivation to make unauthorized modifications to gaming machines, thereby improving the soundness of gaming. can be done.

Note that gaming machines may be distributed from time to time through transactions, and a person who wishes to newly distribute a gaming machine that has already been used for games (a so-called used gaming machine) must store the information in the information storage means of the gaming machine. In some cases, the user may have a legitimate desire to delete the second information that has been posted before distributing it. Therefore, if we create a distribution system that allows only those who have a legitimate desire to erase the second information stored in the information storage means of the gaming machine to erase the traces of the opening of the space, It becomes possible to promote smooth distribution of gaming machines while ensuring the soundness of gaming.

<Characteristics Y group>
The feature Y group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature Y1]
A control means (main CPU 62x in aspects 43 and 44 of the first embodiment) that controls the execution of the game;
Based on first information that is information used to control the execution of the game by the control means (information used for game progress processing stored in the first area of the main side RAM 64) and the executed game. Information storage means for storing second information that is the acquired information (a total prize ball value, game history information such as accessory ratio, information on the number of balls entered, etc., stored in the second area of the main side RAM 64) (main side RAM64) and
Operation means (RAM clear button and power switch) that accepts predetermined operations;
erasing means for erasing the information stored in the information storage means;
A gaming machine comprising:
The erasing means is
The operation means performs a first operation (turns on the power of the pachinko machine 10 while pressing the RAM clear button, and returns to a state where the RAM clear button is not pressed within a predetermined time after the power of the pachinko machine 10 is turned on). erasing the first information stored in the information storage means,
A second operation in which the operating means is different from the first operation (operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button and continuing the pressed state for a predetermined period of time) A gaming machine comprising means for erasing the second information stored in the information storage means based on reception of the second information.

According to feature Y1, the erasing means erases the first information stored in the information storage means based on the operation means receiving the first operation, and the erasing means deletes the first information stored in the information storage means based on the operation means accepting the first operation. is provided with means for erasing the second information stored in the information storage means based on reception of a different second operation, so that by performing a different operation on the operation means, the information storage means can be deleted. It becomes possible to select the information to be deleted from among the information stored in the . That is, since the information to be deleted can be selected without providing any other operating means for selecting the information to be deleted, the structure of the gaming machine can be simplified.

Specifically, for example, if a problem occurs in the control of the game execution, or at the start or end of the game hall business, the first information, which is the information used to control the game execution, is deleted. If you want to initialize the control of the gaming machine, execute the first operation, and on the other hand, delete the second information that is information obtained based on the executed game and restart the gaming machine. If you want to distribute it to others, you can perform the second operation. In this way, by performing different operations on the operating means, it becomes possible to select information to be deleted from among the information stored in the information storage means.

[Feature Y2]
The gaming machine according to feature Y1,
The erasing means receives the second operation (the operation of turning on the power of the pachinko machine 10 while pressing the RAM clear button and continuing the pressed state for a predetermined period of time with the RAM clear button). A gaming machine characterized by comprising means for erasing the first information in addition to erasing the second information stored in the information storage means.

According to feature Y2, in addition to erasing the second information stored in the information storage means, the erasing means erases the second information stored in the information storage means based on the operation means receiving the second operation. Since the information erasing means is provided, both the first information and the second information can be erased by performing the second operation on the operating means.

<Characteristics Z group>
The feature Z group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature Z1]
A control means (main CPU 62x in aspect 41 of the first embodiment) for controlling the execution of the game;
Information storage means (flash memory 64x) for storing information acquired based on the executed games (game history information such as prize ball total value, role object ratio, information on the number of balls entered, etc.);
erasing means (erasing IC chip) for erasing the information stored in the information storage means;
a reception means for accepting authentication information (PIN number);
A gaming machine comprising:
The gaming machine is characterized in that the erasing means includes means for erasing the information stored in the information storage means based on the fact that the authentication information received by the accepting means satisfies a predetermined condition.

According to feature Z1, the erasing means includes means for erasing information stored in the information storage means based on the fact that the authentication information received by the receiving means satisfies a predetermined condition. A person who has authentication information that satisfies this requirement can delete information stored in the information storage means. In other words, it is possible to restrict deletion of the information by a person who does not have the authentication information that satisfies the predetermined condition.

Here, if a gaming machine has been illegally modified, the effects of the unauthorized modification will appear on the games played, and furthermore, the information stored in the information storage means of the gaming machine will be affected. The effects of the unauthorized modification may appear. A person (hereinafter also referred to as an "inspector") who inspects whether a game machine is playing a normal game or not, checks the information stored in the information storage means to determine whether or not the game machine is playing normally. It is possible to detect unauthorized modifications. For this reason, there are persons (hereinafter also referred to as "unauthorized persons") who desire to prevent inspectors from discovering that the gaming machine has been fraudulently modified by erasing this information. there's a possibility that.

However, according to this feature, in order to delete information stored in the information storage means, it is necessary to have authentication information that satisfies the predetermined condition. By restricting the persons who can have authentication information that satisfies the predetermined conditions, it is possible to prevent the information stored in the information storage means from being deleted by an unauthorized person. It becomes possible to suppress the occurrence of motivation to make unauthorized modifications to the machine, and the soundness of the game can be improved.

Note that gaming machines may be distributed from time to time through transactions, and a person who wishes to newly distribute a gaming machine that has already been used for games (a so-called used gaming machine) must store the information in the information storage means of the gaming machine. In some cases, a person may have a legitimate desire to erase the information that has been posted before distributing it. Therefore, if we create a distribution system in which only those who wish to delete information stored in the information storage means of gaming machines for legitimate reasons have authentication information that satisfies the predetermined conditions, It becomes possible to promote smooth distribution of gaming machines while ensuring the soundness of gaming.

[Feature Z2]
The gaming machine described in feature Z1,
A gaming machine characterized in that the information storage means is capable of retaining memory even if power supply is cut off.

According to feature Z2, even if the power supply to the gaming machine is cut off, it is possible to retain information acquired based on the played games. Even when power is not supplied, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature Z3]
The gaming machine according to feature Z1 or feature Z2,
The gaming machine characterized in that the information acquired based on the executed game includes information regarding the number of game balls that have already been paid out as prize balls (total value of prize balls).

According to feature Z3, by using information regarding the number of game balls that have already been paid out as prize balls, it is possible to check whether or not a normal game is being executed in the gaming machine.

[Feature Z4]
The gaming machine according to any one of Features Z1 to Z3,
A gaming machine characterized in that the information storage means is stored inside a space in which traces of opening remain (inside a board box to which a seal is affixed).

According to feature Z4, since the information storage means is stored inside a space where traces of opening remain, in order to make unauthorized changes to the information stored in the information storage means, it is necessary to The corresponding space of the gaming machine will be brought into an open state, and traces of the opening will remain in the corresponding space of the gaming machine. In other words, based on whether or not there are any traces of opening remaining in the space of the gaming machine, it is determined whether the space of the gaming machine has been opened and the information stored in the information storage means has been fraudulently altered. It becomes possible to grasp whether there is a possibility or not. Therefore, it is possible to make it difficult to conceal unauthorized alterations made to the information stored in the information storage means, and furthermore, a motive for making unauthorized alterations to the information stored in the information storage means arises. It becomes possible to suppress this, and improve the soundness of the game.

Incidentally, the inventions of the above feature T group to feature Z group solve the following problems.

In gaming machines such as pachinko machines and slot machines, the structure, control, Technical improvements have been made from various perspectives such as direction.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the above-mentioned gaming machines, further improvements have been made for the purpose of increasing the interest of gaming, reducing the processing load of gaming machines, optimizing processing, simplifying control, simplifying structure, and providing healthier gaming. Improvements in technology are desired.

<Characteristic αA group>
The feature αA group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αA1]
a ball entry section into which a game ball can enter;
a signal output means (each ball entry detection sensor 44a to 44h) that outputs a signal based on the entry of a game ball into the ball entry section;
Judgment information output means (for ball entry detection) that judges whether or not a game ball has entered the ball entry section based on the signal and outputs judgment information (ball entry information) that is information based on the judgment. IC62c) and
a control means (main CPU 62x) that controls the progress of the game based on the determination information;
A connection means (inspection terminal 65) capable of connecting a predetermined device;
A gaming machine comprising:
A gaming machine characterized in that the determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means without going through the control means.

According to feature αA1, the determination information output means includes means for outputting determination information to the predetermined device connected to the connection means without going through the control means, so that the predetermined device is not affected by the control means. It becomes possible to receive judgment information that has not yet been received.

For example, if a configuration is adopted in which judgment information is output via the control means to a predetermined device connected to the connection means without adopting the configuration of this feature, a malfunction may occur in the control means. If the malfunction or unauthorized modification has been performed, there is a risk that the determination information output to the predetermined device may be affected by the malfunction or unauthorized modification.

In contrast, according to the present feature, the determination information output means includes means for outputting determination information to a predetermined device connected to the connection means without going through the control means, so that there is no problem in the control means. Even if a malfunction or unauthorized modification occurs, the determination information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connecting means can execute processing based on the determination information that the device is not affected by the defect or unauthorized modification.

[Feature αA2]
The gaming machine according to feature αA1,
each comprising a plurality of said ball entry parts into which a game ball can enter, and said signal output means that outputs a signal based on the entry of a game ball into said ball entry part,
The determination information output means determines whether or not a game ball has entered each of the plurality of ball entry sections based on the signal output from each of the plurality of signal output means, and The determination information (ball entry information), which is information based on the determination and corresponds to each of the plurality of ball entry sections, is transmitted to the predetermined device connected to the connection means using a serial transmission method. A gaming machine characterized by comprising means for outputting an output.

According to feature αA2, the determination information output means includes means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means by a serial transmission method, so that, for example, , compared to a configuration in which the judgment information is output by a parallel transmission method, it is possible to simplify the configuration of the connection means for passing the judgment information to a predetermined device, and also to simplify the configuration of the connection means for passing the judgment information through a predetermined device. The configuration of the device can be simplified.

Specifically, if a configuration is adopted in which judgment information corresponding to each of a plurality of ball entry sections is output using a parallel transmission method, the connection means will output information corresponding to the number of the plurality of ball entry sections. It is necessary to have a department. Similarly, a predetermined device needs to include input sections corresponding to the number of the plurality of ball entry sections. Furthermore, since the number of ball entry parts provided in a gaming machine differs depending on the type of gaming machine (each model), it is necessary to prepare a predetermined device with a different number of terminals for each type of gaming machine (each model). occurs.

In contrast, according to the present feature, the determination information output means is a means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means using a serial transmission method. Therefore, the connection means may be configured to include at least one output section that can output determination information using a serial transmission method, regardless of the number of ball entry sections that the gaming machine is equipped with. Therefore, the configuration of the connecting means can be simplified. Similarly, a predetermined device may be configured to include at least one input section into which determination information outputted by a serial transmission method can be input, regardless of the number of ball entry sections included in the gaming machine. , the configuration of a given device can be simplified. Furthermore, even when a predetermined device is connected to a gaming machine with a different number of ball entry sections, the predetermined device can input determination information corresponding to each of the plurality of ball entry sections using a serial transmission method. I can do it. That is, it becomes possible to use the predetermined device for other gaming machines having different numbers of ball entry sections. As a result, it becomes possible to increase the versatility of a given device.

[Feature αA3]
The gaming machine according to feature αA1 or feature αA2,
The connecting means is configured to be able to connect the predetermined device capable of calculating game history information (game history information such as accessory ratio) that is information regarding the game history based on the determination information. A gaming machine that does.

According to feature αA3, a predetermined device connected to the connection means can calculate game history information based on determination information that is not influenced by the control means. Therefore, an inspector who inspects the performance of a gaming machine can use a predetermined device to check gaming history information that is not affected by the control means. As a result, the soundness of the game can be ensured.

<Characteristic αB group>
The feature αB group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αB1]
a plurality of ball entry sections into which game balls can enter;
a plurality of signal output means (ball entry detection sensors 44a to 44h) each outputting a signal based on the entry of a game ball into each of the plurality of ball entry sections;
Determining whether or not a game ball has entered each of the plurality of ball entry sections based on the signal output from each of the plurality of signal output means, and providing information based on the determination. judgment information output means (ball entry detection IC 62c) that outputs judgment information (ball entry information) that is information corresponding to each of the plurality of ball entry portions;
a control means (main CPU 62x) that controls the progress of the game based on the determination information;
A connection means (inspection terminal 65) capable of connecting a predetermined device;
A gaming machine comprising:
The determination information output means includes means for outputting the determination information corresponding to each of the plurality of ball entry parts to the predetermined device connected to the connection means using a serial transmission method. A gaming machine.

According to feature αB1, the determination information output means includes means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means using a serial transmission method. , compared to a configuration in which the judgment information is output by a parallel transmission method, it is possible to simplify the configuration of the connection means for passing the judgment information to a predetermined device, and also to simplify the configuration of the connection means for passing the judgment information through a predetermined device. The configuration of the device can be simplified.

Specifically, if a configuration is adopted in which judgment information corresponding to each of a plurality of ball entry sections is output using a parallel transmission method, the connection means will output information corresponding to the number of the plurality of ball entry sections. It is necessary to have a department. Similarly, a predetermined device needs to include input sections corresponding to the number of the plurality of ball entry sections. Furthermore, since the number of ball entry parts provided in a gaming machine differs depending on the type of gaming machine (each model), it is necessary to prepare a predetermined device with a different number of terminals for each type of gaming machine (each model). occurs.

In contrast, according to the present feature, the determination information output means is a means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means using a serial transmission method. Therefore, the connection means may be configured to include at least one output section that can output determination information using a serial transmission method, regardless of the number of ball entry sections that the gaming machine is equipped with. Therefore, the configuration of the connecting means can be simplified. Similarly, a predetermined device may be configured to include at least one input section into which determination information outputted by a serial transmission method can be input, regardless of the number of ball entry sections included in the gaming machine. , the configuration of a given device can be simplified. Furthermore, even when a predetermined device is connected to a gaming machine with a different number of ball entry sections, the predetermined device can input determination information corresponding to each of the plurality of ball entry sections using a serial transmission method. I can do it. That is, it becomes possible to use the predetermined device for other gaming machines having different numbers of ball entry sections. As a result, it becomes possible to increase the versatility of a given device.

[Feature αB2]
The gaming machine according to feature αB1,
The connecting means is configured to be able to connect the predetermined device capable of calculating game history information (game history information such as accessory ratio) that is information regarding the game history based on the determination information. A gaming machine that does.

According to feature αB2, a predetermined device connected to the connection means can calculate game history information based on determination information that is not influenced by the control means. Therefore, an inspector who inspects the performance of a gaming machine can use a predetermined device to check gaming history information that is not affected by the control means. As a result, the soundness of the game can be ensured.

[Feature αB3]
The gaming machine according to feature αB1 or feature αB2,
A gaming machine characterized in that the determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means without going through the control means.

According to feature αB3, the determination information output means includes means for outputting determination information to the predetermined device connected to the connection means without going through the control means, so that the predetermined device is not affected by the control means. It becomes possible to receive judgment information that has not yet been received.

For example, if a configuration is adopted in which judgment information is output via the control means to a predetermined device connected to the connection means without adopting the configuration of this feature, a malfunction may occur in the control means. If the malfunction or unauthorized modification has been performed, there is a risk that the determination information output to the predetermined device may be affected by the malfunction or unauthorized modification.

In contrast, according to the present feature, the determination information output means includes means for outputting determination information to a predetermined device connected to the connection means without going through the control means, so that there is no problem in the control means. Even if a malfunction or unauthorized modification occurs, the determination information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connecting means can execute processing based on the determination information that the device is not affected by the defect or unauthorized modification.

<Characteristic αC group>
The feature αC group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αC1]
a ball entry section into which a game ball can enter;
a signal output means (each ball entry detection sensor 44a to 44h) that outputs a signal based on the entry of a game ball into the ball entry section;
Judgment information output means (for ball entry detection) that judges whether or not a game ball has entered the ball entry section based on the signal and outputs judgment information (ball entry information) that is information based on the judgment. IC62c) and
a control means (main CPU 62x) that controls the progress of the game based on the determination information;
A connection means (inspection terminal 65) capable of connecting a predetermined device;
A gaming machine comprising:
The determination information output means outputs the predetermined information only when the relationship with the predetermined device connected to the connection means satisfies a predetermined condition (when a Hi level signal is input from the inspection device 320). A gaming machine comprising: an output control means for outputting the determination information to the device.

According to feature αC1, the determination information output means includes means for outputting determination information to a predetermined device connected to the connection means only when the relationship with the predetermined device satisfies a predetermined condition. Therefore, it is possible to prevent the determination information of the gaming machine from being output to the outside unless the predetermined condition is satisfied. Therefore, it is possible to prevent the determination information of the gaming machine from being analyzed and misused by a malicious person.

[Feature αC2]
The gaming machine according to feature αC1,
The gaming machine characterized in that the predetermined condition includes receiving a predetermined signal from the predetermined device connected to the connection means.

According to feature αC2, if a predetermined condition including receiving a predetermined signal from a predetermined device connected to the connection means is not met, the determination information of the gaming machine is prevented from being output to the outside. Can be suppressed. Therefore, it is possible to prevent the determination information of the gaming machine from being analyzed and misused by a malicious person.

[Feature αC3]
The gaming machine according to feature αC1 or feature αC2,
each comprising a plurality of said ball entry parts into which a game ball can enter, and said signal output means that outputs a signal based on the entry of a game ball into said ball entry part,
The determination information output means determines whether or not a game ball has entered each of the plurality of ball entry sections based on the signal output from each of the plurality of signal output means, and The determination information (ball entry information), which is information based on the determination and corresponds to each of the plurality of ball entry sections, is transmitted to the predetermined device connected to the connection means using a serial transmission method. A gaming machine characterized by comprising means for outputting an output.

According to feature αC3, the determination information output means includes means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means by a serial transmission method, so that, for example, , compared to a configuration in which the judgment information is output by a parallel transmission method, it is possible to simplify the configuration of the connection means for passing the judgment information to a predetermined device, and also to simplify the configuration of the connection means for passing the judgment information through a predetermined device. The configuration of the device can be simplified.

Specifically, if a configuration is adopted in which judgment information corresponding to each of a plurality of ball entry sections is output using a parallel transmission method, the connection means will output information corresponding to the number of the plurality of ball entry sections. It is necessary to have a department. Similarly, a predetermined device needs to include input sections corresponding to the number of the plurality of ball entry sections. Furthermore, since the number of ball entry sections provided in a gaming machine differs depending on the type of gaming machine (each model), a predetermined device with a different number of input sections is prepared for each type of gaming machine (each model). The need arises.

In contrast, according to the present feature, the determination information output means is a means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means using a serial transmission method. Therefore, the connection means may be configured to include at least one output section that can output determination information using a serial transmission method, regardless of the number of ball entry sections that the gaming machine is equipped with. Therefore, the configuration of the connecting means can be simplified. Similarly, a predetermined device may be configured to include at least one input section into which determination information outputted by a serial transmission method can be input, regardless of the number of ball entry sections included in the gaming machine. , the configuration of a given device can be simplified. Furthermore, even when a predetermined device is connected to a gaming machine with a different number of ball entry sections, the predetermined device can input determination information corresponding to each of the plurality of ball entry sections using a serial transmission method. I can do it. That is, it becomes possible to use the predetermined device for other gaming machines having different numbers of ball entry sections. As a result, it becomes possible to increase the versatility of a given device.

[Feature αC4]
The gaming machine according to any one of features αC1 to Features αC3,
The connecting means is configured to be able to connect the predetermined device capable of calculating game history information (game history information such as accessory ratio) that is information regarding the game history based on the determination information. A gaming machine that does.

According to feature αC4, a predetermined device connected to the connection means can calculate game history information based on determination information that is not influenced by the control means. Therefore, an inspector who inspects the performance of a gaming machine can use a predetermined device to check gaming history information that is not affected by the control means. As a result, the soundness of the game can be ensured.

[Feature αC5]
The gaming machine according to any one of features αC1 to feature αC4,
A gaming machine characterized in that the determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means without going through the control means.

According to feature αC5, the determination information output means includes means for outputting determination information to the predetermined device connected to the connection means without going through the control means, so that the predetermined device is not influenced by the control means. It becomes possible to receive judgment information that has not yet been received.

For example, if a configuration is adopted in which judgment information is output via the control means to a predetermined device connected to the connection means without adopting the configuration of this feature, a malfunction may occur in the control means. If the malfunction or unauthorized modification has been performed, there is a risk that the determination information output to the predetermined device may be affected by the malfunction or unauthorized modification.

In contrast, according to the present feature, the determination information output means includes means for outputting determination information to a predetermined device connected to the connection means without going through the control means, so that there is no problem in the control means. Even if a malfunction or unauthorized modification occurs, the determination information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connecting means can execute processing based on the determination information that the device is not affected by the defect or unauthorized modification.

<Characteristic αD group>
The feature αD group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αD1]
a ball entry section into which a game ball can enter;
a signal output means (each ball entry detection sensor 44a to 44h) that outputs a signal based on the entry of a game ball into the ball entry section;
Judgment information output means (for ball entry detection) that judges whether or not a game ball has entered the ball entry section based on the signal and outputs judgment information (ball entry information) that is information based on the judgment. IC62c) and
a control means (main CPU 62x) that controls the progress of the game based on the determination information;
A connection means (inspection terminal 65) capable of connecting a predetermined device;
A gaming machine comprising:
The determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means,
The gaming machine further includes:
For the predetermined device connected to the connection means, the number of prize balls that is information that can specify the number of game balls that will be paid out as prize balls when one game ball enters the ball entry section. A gaming machine characterized by comprising a prize ball number information output means for outputting information.

According to feature αD1, the number-of-prize information output means for outputting the number-of-prize balls information to a predetermined device connected to the connection means is provided, thereby eliminating the trouble of manually inputting the number-of-prize balls information to the predetermined device. In addition, it is possible to prevent incorrect prize ball number information from being input to a predetermined device. As a result, the predetermined device can perform processing based on the determination information and accurate prize ball number information output from the prize ball number information output means.

[Feature αD2]
The gaming machine according to feature αD1,
A gaming machine comprising: type information output means for outputting type information, which is information that allows identification of the type of the ball landing part, to the predetermined device connected to the connection means.

According to feature αD2, since the type information output means is provided for outputting the type information to the predetermined device connected to the connection means, it is possible to save the effort of manually inputting the type information to the predetermined device. , it is possible to prevent incorrect type information from being input to a predetermined device. As a result, the predetermined device can perform processing based on the determination information output from the determination information output means and the accurate type information output from the type information output means. In addition, the type of the ball entry part is, for example, the ball entry part where the signal output means (ball entry detection sensors 44a to 44h) are provided, such as the first starting port, the second starting port, the big prize opening, and the ejection passage. It is a type.

[Feature αD3]
The gaming machine according to feature αD1 or feature αD2,
each comprising a plurality of said ball entry parts into which a game ball can enter, and said signal output means that outputs a signal based on the entry of a game ball into said ball entry part,
The determination information output means determines whether or not a game ball has entered each of the plurality of ball entry sections based on the signal output from each of the plurality of signal output means, and The determination information (ball entry information), which is information based on the determination and corresponds to each of the plurality of ball entry sections, is transmitted to the predetermined device connected to the connection means using a serial transmission method. A gaming machine characterized by comprising means for outputting an output.

According to feature αD3, the determination information output means includes means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means by a serial transmission method, so that, for example, , compared to a configuration in which the judgment information is output by a parallel transmission method, it is possible to simplify the configuration of the connection means for passing the judgment information to a predetermined device, and also to simplify the configuration of the connection means for passing the judgment information through a predetermined device. The configuration of the device can be simplified.

Specifically, if a configuration is adopted in which judgment information corresponding to each of a plurality of ball entry sections is output using a parallel transmission method, the connection means will output information corresponding to the number of the plurality of ball entry sections. It is necessary to have a department. Similarly, a predetermined device needs to include input sections corresponding to the number of the plurality of ball entry sections. Furthermore, since the number of ball entry parts provided in a gaming machine differs depending on the type of gaming machine (each model), it is necessary to prepare a predetermined device with a different number of terminals for each type of gaming machine (each model). occurs.

In contrast, according to the present feature, the determination information output means is a means for outputting determination information corresponding to each of the plurality of ball entry parts to a predetermined device connected to the connection means using a serial transmission method. Therefore, the connection means may be configured to include at least one output section that can output determination information using a serial transmission method, regardless of the number of ball entry sections that the gaming machine is equipped with. Therefore, the configuration of the connecting means can be simplified. Similarly, a predetermined device may be configured to include at least one input section into which determination information outputted by a serial transmission method can be input, regardless of the number of ball entry sections included in the gaming machine. , the configuration of a given device can be simplified. Furthermore, even when a predetermined device is connected to a gaming machine with a different number of ball entry sections, the predetermined device can input determination information corresponding to each of the plurality of ball entry sections using a serial transmission method. I can do it. That is, it becomes possible to use the predetermined device for other gaming machines having different numbers of ball entry sections. As a result, it becomes possible to increase the versatility of a given device.

[Feature αD4]
The gaming machine according to any one of features αD1 to Features αD3,
The prize ball number information output means outputs the prize ball number information based on receiving a predetermined signal (ball entrance information transmission request command) from the predetermined device connected to the connection means. A gaming machine characterized by comprising:

According to feature αD4, the prize ball number information output means includes means for outputting prize ball number information based on receiving a predetermined signal from a predetermined device connected to the connection means, so that it is possible to avoid inappropriate situations. It is possible to suppress the information on the number of prize balls from being output to the outside at certain timings.

[Feature αD5]
The gaming machine according to any one of features αD1 to Features αD4,
A gaming machine characterized in that the prize ball number information output means includes means for outputting the prize ball number information when the predetermined device is connected to the connection means.

According to feature αD5, the prize ball number information output means includes means for outputting prize ball number information when a predetermined device is connected to the connection means, so that the predetermined device is connected to the connection means. After that, information on the number of prize balls can be obtained immediately. Therefore, for example, after the predetermined device is connected to the connection means, it becomes possible to quickly execute a process that requires the prize ball number information.

[Feature αD6]
The gaming machine according to any one of features αD1 to Features αD5,
The connecting means is configured to be able to connect the predetermined device capable of calculating game history information (game history information such as accessory ratio) that is information regarding the game history based on the determination information. A gaming machine that does.

According to feature αD6, a predetermined device connected to the connecting means can calculate game history information based on determination information that is not influenced by the controlling means. Therefore, an inspector who inspects the performance of a gaming machine can use a predetermined device to check gaming history information that is not affected by the control means. As a result, the soundness of the game can be ensured.

[Feature αD7]
The gaming machine according to any one of features αD1 to αD6,
A gaming machine characterized in that the determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means without going through the control means.

According to feature αD7, the determination information output means includes means for outputting determination information to the predetermined device connected to the connection means without going through the control means, so that the predetermined device is not affected by the control means. It becomes possible to receive judgment information that has not yet been received.

For example, if a configuration is adopted in which judgment information is output via the control means to a predetermined device connected to the connection means without adopting the configuration of this feature, a malfunction may occur in the control means. If the malfunction or unauthorized modification has been performed, there is a risk that the determination information output to the predetermined device may be affected by the malfunction or unauthorized modification.

In contrast, according to the present feature, the determination information output means includes means for outputting determination information to a predetermined device connected to the connection means without going through the control means, so that there is no problem in the control means. Even if a malfunction or unauthorized modification occurs, the determination information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connecting means can execute processing based on the determination information that the device is not affected by the defect or unauthorized modification.

[Feature αD8]
The gaming machine according to feature αD2,
The type information output means includes means for outputting the type information based on receiving a predetermined signal (ball entrance information transmission request command) from the predetermined device connected to the connection means. A gaming machine that does.

According to feature αD8, the type information output means includes means for outputting type information based on reception of a predetermined signal from a predetermined device connected to the connection means, so that the type information output means outputs the type information in an inappropriate situation or timing. It is possible to prevent information from being output to the outside.

[Feature αD9]
The gaming machine according to feature αD2 or feature D8,
A gaming machine characterized in that the type information output means includes means for outputting the type information when the predetermined device is connected to the connection means.

According to feature αD9, the type information output means includes means for outputting type information when a predetermined device is connected to the connection means, so that the predetermined device can be outputted immediately after being connected to the connection means. Type information can be obtained. Therefore, for example, after a predetermined device is connected to the connection means, it becomes possible to quickly execute a process that requires the type information.

<Characteristic αE group>
The feature αE group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αE1]
a ball entry section into which a game ball can enter;
a signal output means (each ball entry detection sensor 44a to 44h) that outputs a signal based on the entry of a game ball into the ball entry section;
Judgment information output means (for ball entry detection) that judges whether or not a game ball has entered the ball entry section based on the signal and outputs judgment information (ball entry information) that is information based on the judgment. IC62c) and
a control means (main CPU 62x) that controls the progress of the game based on the determination information;
Calculation means (main side CPU 62x, game history management chip 300) that calculates game history information (game history information such as accessory ratio) that is information regarding the game history based on the determination information;
storage means (flash memory 64x, game history management chip 300) for storing the game history information calculated by the calculation means;
A connection means (inspection terminal 65) capable of connecting a predetermined device;
A gaming machine comprising:
The determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means,
The gaming machine further includes:
A game machine comprising: a game history information output means for outputting the game history information stored in the storage means to the predetermined device connected to the connection means.

According to feature αE1, since the device includes means for outputting game history information stored in the storage means and means for outputting determination information to a predetermined device connected to the connection means, the device is connected to the connection means. The determined predetermined device can receive the gaming history information stored in the storage means, and can also execute processing based on the determination information.

Specifically, for example, a predetermined device can display game history information (hereinafter also referred to as first game history information) stored in the storage means of the gaming machine. Further, the predetermined device calculates gaming history information based on the determination information received during the predetermined inspection period connected to the connection means of the gaming machine, and calculates the gaming history information (hereinafter also referred to as second gaming history information). This makes it possible to display (calls). Therefore, for example, an inspector who inspects a game machine can perform a second game based on the first game history information stored in the storage means included in the game machine and the determination information received by a predetermined device during a predetermined inspection period. It becomes possible to compare with historical information.

Here, if the characteristics of the game in the game machine change due to a malfunction or unauthorized modification (for example, modification of the nails, etc.) to the game machine, the game machine The first gaming history information (gaming history information calculated by the calculation means based on the judgment information in a predetermined period in the past) stored in the storage means provided by the device and the judgment information in the predetermined inspection period by the predetermined device. There may be a difference between the calculated second game history information and the calculated second game history information. Therefore, an inspector who inspects a gaming machine can check whether there is a malfunction or unauthorized modification (for example, modification of a nail) in the gaming machine by paying attention to the difference between the two pieces of gaming history information. I can do it.

[Feature αE2]
The gaming machine described in feature αE1,
For the predetermined device connected to the connection means, the number of prize balls that is information that can specify the number of game balls that will be paid out as prize balls when one game ball enters the ball entry section. A gaming machine characterized by comprising a prize ball number information output means for outputting information.

According to feature αE2, there is provided a prize ball number information output means for outputting prize ball number information to a predetermined device connected to the connection means, thereby eliminating the trouble of manually inputting prize ball number information to a predetermined device. In addition, it is possible to prevent incorrect prize ball number information from being input to a predetermined device. As a result, the predetermined device is able to execute processing based on the determination information output from the determination information output means and accurate prize ball number information output from the prize ball number information output means.

[Feature αE3]
The gaming machine according to feature αE1 or feature αE2,
The connecting means is configured to be able to connect the predetermined device capable of calculating game history information (game history information such as accessory ratio) that is information regarding the game history based on the determination information. A gaming machine that does.

According to feature αE3, a predetermined device connected to the connection means can calculate game history information based on determination information that is not influenced by the control means. Therefore, an inspector who inspects the performance of a gaming machine can use a predetermined device to check gaming history information that is not affected by the control means. As a result, the soundness of the game can be ensured.

[Feature αE4]
The gaming machine according to any one of features αE1 to feature αE3,
A gaming machine characterized in that the determination information output means includes means for outputting the determination information to the predetermined device connected to the connection means without going through the control means.

According to feature αE4, the determination information output means includes means for outputting determination information to the predetermined device connected to the connection means without going through the control means, so that the predetermined device is not affected by the control means. It becomes possible to receive judgment information that has not yet been received.

For example, if a configuration is adopted in which judgment information is output via the control means to a predetermined device connected to the connection means without adopting the configuration of this feature, a malfunction may occur in the control means. If the malfunction or unauthorized modification has been performed, there is a risk that the determination information output to the predetermined device may be affected by the malfunction or unauthorized modification.

In contrast, according to the present feature, the determination information output means includes means for outputting determination information to a predetermined device connected to the connection means without going through the control means, so that there is no problem in the control means. Even if a malfunction or unauthorized modification occurs, the determination information output to a predetermined device is not affected by the malfunction or unauthorized modification. As a result, the predetermined device connected to the connecting means can execute processing based on the determination information that the device is not affected by the defect or unauthorized modification.

<Characteristic αF group>
The feature αF group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αF1]
a first processing group execution unit that repeatedly executes the first processing group (remaining processing of the main processing);
Based on the establishment of a predetermined condition (that a predetermined period of time has elapsed since the start of the previous execution of the second processing group), the second processing group (game progress processing including game round control processing, etc.) is executed as described above. a second processing group execution means that interrupts and executes the first processing group;
A gaming machine comprising:
The first processing group execution means executes the first processing group during a period (remaining time) from the end of execution of one of the second processing groups to the start of execution of the next second processing group. Equipped with a means to repeatedly execute the
The first processing group includes game history information related processing (game history processing) that is processing related to calculation of game history information (accessory object ratio, continuous accessory ratio, etc.) that is information related to gaming history. A gaming machine characterized by:

According to feature αF1, the first processing group including the gaming history information related processing is repeatedly executed during the period from the end of execution of one second processing group to the start of execution of the next second processing group. Therefore, it is possible to prevent the execution of the first processing group including the game history information related processing from being started even though the execution of the second processing group has not been completed. That is, while giving priority to the execution of the second processing group, by repeatedly executing the first processing group including the processing related to gaming history information during the period when the second processing group is not being executed, the gaming history information can be quickly retrieved. It becomes possible to calculate.

Furthermore, if a configuration is adopted in which the game history information related process is included in the second process group and executed without adopting the configuration of this feature, one execution of the second process group is The time required from start to finish becomes long, and for example, the execution of the second processing group ends at the timing when a predetermined condition that triggers the start of the execution of the next second processing group is satisfied. In some cases, the execution of the next second processing group cannot be started until the execution of the one second processing group is completed. In this case, there is a risk that a problem may occur due to a delay in the start of execution of the next second processing group.

On the other hand, according to this feature, since the gaming history information related processing is included in the first processing group and executed, compared to the configuration in which the gaming history information related processing is included and executed in the second processing group. , the time required from the start to the end of one execution of the second processing group can be shortened. Therefore, for example, it is possible to suppress the occurrence of a situation where the execution of a second processing group is not yet completed at the timing when a predetermined condition that triggers the start of execution of the next second processing group is satisfied. This makes it possible to prevent the occurrence of a situation in which execution of the next second processing group cannot be started until the execution of the second processing group is completed. As a result, it is possible to suppress the occurrence of problems due to a delay in starting execution of the next second processing group.

As described above, according to the present feature, while suppressing the occurrence of problems due to a delay in the start of execution of the next second processing group, game history information is By repeatedly executing the first processing group including the processing, it becomes possible to efficiently and quickly calculate game history information.

[Feature αF2]
The gaming machine according to feature αF1,
A gaming machine characterized in that the second processing group includes a game progress process that is a process related to the progress of the game.

According to feature αF2, it is possible to suppress the delay in the start of the execution of the second processing group including the game progress process, which is a process related to the progress of the game, which would cause a problem in the progress of the game. By repeatedly executing the first processing group including the processing related to gaming history information during a period in which the second processing group is not being executed, it is possible to quickly calculate the gaming history information while suppressing this.

[Feature αF3]
The gaming machine according to feature αF1 or feature αF2,
The gaming history information related process includes a plurality of processing steps (multiple types of tasks) that are sequentially executed to complete the calculation of the gaming history information,
The gaming machine, wherein the first processing group execution means executes some of the plurality of processing steps in one execution of the game history information related processing.

According to feature αF3, the first processing group execution means executes some of the plurality of processing steps in one execution of the gaming history information related processing, so for example, the first processing group execution means executes some of the processing steps of the gaming history information related processing. Compared to a configuration in which all of a plurality of processing steps are executed in one execution, the time required from the start to the end of one execution of the game history information related process can be shortened. Specifically, for example, even if a predetermined condition is satisfied during the execution of the game history information related process, the game history information related process being executed will be completed in a short time, so that It is possible to shorten the time until execution of the second processing group is started. As a result, it becomes possible to promptly calculate game history information by repeatedly executing the first processing group while suppressing the occurrence of problems due to delays in starting the execution of the second processing group. .

[Feature αF4]
The gaming machine according to any one of features αF1 to Features αF3,
The gaming machine characterized in that the predetermined condition includes that a predetermined time has elapsed since the start of the previous execution of the second processing group.

According to feature αF4, the predetermined condition includes that a predetermined time has elapsed since the start of the previous execution of the second processing group, so that the second processing group can be executed periodically. Then, in a period after the execution of the second processing group is completed and until a predetermined period of time has elapsed from the start of the execution of the second processing group, the first processing group including the gaming history information related processing is executed. By repeatedly executing the process, it becomes possible to quickly calculate the game history information.

Note that the inventions of the features αA group to features αF group solve the following problems.

In gaming machines such as pachinko machines and slot machines, technical improvements are made from various perspectives such as structure, control, and presentation, with the aim of increasing the interest of the game, reducing the processing load of the gaming machine, and simplifying control. Improvements have been made (for example, Patent Document 1).

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In gaming machines such as those described above, further technological improvements are desired for the purpose of increasing the interest of gaming, reducing the processing load of gaming machines, simplifying control, and providing more healthy gaming.

<Characteristic αG group>
The feature αG group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αG1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculation means for calculating game history information (game history information such as accessory ratio, continuous accessory ratio, etc.) that is information regarding the gaming history based on the detected information;
Display means for displaying information based on the game history information calculated by the calculation means;
A gaming machine comprising:
The storage means includes means for storing the detection information in a plurality of periods with the change in the winning probability as a boundary,
The calculation means includes means for calculating gaming history information for each of the plurality of periods based on the detection information for each of the plurality of periods,
A gaming machine characterized in that the display means includes means for displaying information based on the game history information for each of the plurality of periods.

According to feature αG1, an inspector of a gaming machine can check the display based on the gaming history information for each of a plurality of periods with the change in winning probability in the gaming machine as a boundary. For example, if the display based on gaming history information is the numerical value of the gaming history information itself, the inspector should check whether the gaming history information has fallen within an appropriate range during the process in which the winning probability has been changed in the past for the gaming machine in question. It becomes possible to check whether there was a situation where the

<Characteristic αH group>
The feature αH group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αH1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculation means for calculating game history information (game history information such as accessory ratio, continuous accessory ratio, etc.) that is information regarding the gaming history based on the detected information;
Display means for displaying information based on the game history information calculated by the calculation means;
If the winning probability is changed again before the detected information stored in the storage means is accumulated to a predetermined amount after the winning probability is changed, predetermined information (short-term change information) is displayed. Predetermined information display means;
A gaming machine characterized by comprising:

According to feature αH1, by checking predetermined information, the gaming machine inspector can confirm whether the winning probability has been changed again before the detection information is accumulated to a predetermined amount. As a result, it is possible to prevent the winning probability from being changed based on fraudulent intentions by the administrator of the gaming machine.

For example, if a configuration is adopted in which detection information stored before the winning probability is changed based on a change in the winning probability is erased, before the gaming machine is inspected by an inspector. In this case, the administrator of the gaming machine changes the winning probability again even though there are not many games played on the gaming machine after changing the winning probability, and the winning probability is not stored in the gaming machine. There is a possibility that the detection information that exists will be deleted. However, according to this aspect, if the winning probability is changed again in a short period of time even though there are not many games played on the gaming machine after the winning probability is changed, the above-mentioned Short-term change information will be recorded and displayed. Therefore, by checking the short-term change information, the tester can recognize whether the winning probability may have been changed in a short period of time due to fraudulent intentions such as erasing the detected information. . As a result, it is possible to prevent the winning probability from being changed based on fraudulent intentions by the administrator of the gaming machine.

[Feature αH2]
The gaming machine according to feature αH1,
comprising erasing means for erasing the detection information stored in the storage means,
The storage means includes means for storing the detection information in a plurality of periods with the change in the winning probability as a boundary,
The calculation means includes means for calculating the game history information for each of the plurality of periods based on the detection information for each of the plurality of periods,
The display means includes means for displaying based on the gaming history information for each of the plurality of periods,
The gaming machine characterized in that the erasing means includes means for erasing the detection information in the oldest period among the plurality of periods when the winning probability is changed.

According to feature αH2, an inspector of a gaming machine can check the display based on gaming history information for each of a plurality of periods with the change in winning probability in the gaming machine as a boundary. For example, if the display based on gaming history information is the numerical value of the gaming history information itself, the inspector should check whether the gaming history information has fallen within an appropriate range during the process in which the winning probability has been changed in the past for the gaming machine in question. It becomes possible to check whether there was a situation where the

Furthermore, according to this feature, by checking the predetermined information, the gaming machine inspector can confirm whether the winning probability has been changed again before the detected information has accumulated to a predetermined amount. can. As a result, it is possible to prevent the winning probability from being changed based on fraudulent intentions by the administrator of the gaming machine.

Specifically, for example, before a gaming machine is inspected by an inspector, the administrator of the gaming machine repeatedly changes the winning probability in a short period of time, and then changes the winning probability of the gaming machine to a boundary. There is a possibility that the detection information for multiple periods will be deleted. However, according to this feature, if the winning probability is repeatedly changed in a short period of time, the above-mentioned short-term change information is recorded and displayed. Therefore, by checking the short-term change information, the examiner can recognize that there is a possibility that the probability of winning has been changed in a short period of time due to fraudulent intentions. As a result, it is possible to prevent the winning probability from being changed based on fraudulent intentions by the administrator of the gaming machine.

<Characteristic αI group>
The feature αI group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αI1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculation means for calculating game history information (game history information such as accessory ratio, continuous accessory ratio, etc.) that is information regarding the gaming history based on the detected information;
Display means for displaying information based on the game history information calculated by the calculation means;
erasing means for erasing the detection information stored in the storage means;
A gaming machine comprising:
When the winning probability is changed, the erasing means deletes the winning probability after the detection information stored in the storage means has accumulated to a predetermined amount after the winning probability has been changed. A gaming machine comprising means for erasing the detection information stored in the storage means before the detection information is stored in the storage means.

According to feature αI1, until the detection information stored in the storage means is accumulated to a predetermined amount after the winning probability is changed, the detection information stored in the storage means before the winning probability is changed is Since it is not erased, it is possible to prevent the detection information stored before the winning probability is changed from being intentionally erased by changing the winning probability of the gaming machine. For example, if a configuration is adopted in which the detection information acquired and stored before the winning probability is changed is deleted immediately after the winning probability of the gaming machine is changed, the gaming machine may be inspected by an inspector. Before the winning probability is changed, the administrator of the gaming machine may change the winning probability and erase the detection information that was stored before the winning probability was changed. In contrast, according to this feature, the detection information stored before the winning probability is changed is stored until the detection information acquired and stored after the winning probability is changed to a predetermined amount. is not deleted, it is possible to prevent the winning probability from being changed due to fraudulent intentions by the administrator of the gaming machine.

[Feature αI2]
The gaming machine according to feature αI1,
comprising erasing means for erasing the detection information stored in the storage means,
The storage means includes means for storing the detection information in a plurality of periods with the change in the winning probability as a boundary,
The calculation means includes means for calculating the game history information for each of the plurality of periods based on the detection information for each of the plurality of periods,
The display means includes means for displaying based on the game history information for each of the plurality of periods,
When the winning probability is changed, the erasing means deletes one of the plurality of periods after the detection information stored in the storage means after the winning probability has been changed has accumulated to a predetermined amount. A gaming machine comprising means for erasing the detected information in the oldest period.

According to feature αI2, an inspector of a gaming machine can check the display based on gaming history information for each of a plurality of periods with the change in winning probability in the gaming machine as a boundary. For example, if the display based on gaming history information is the numerical value of the gaming history information itself, the inspector should check whether the gaming history information has fallen within an appropriate range during the process in which the winning probability has been changed in the past for the gaming machine in question. It becomes possible to check whether there was a situation where the

Furthermore, according to this feature, it is possible to prevent detection information from being intentionally erased during multiple periods with the change in winning probability as a boundary due to repeated changes in the winning probability of a gaming machine. can. For example, if a configuration is adopted in which the detection information for the oldest period out of multiple periods with the change in winning probability as the boundary is deleted immediately after the winning probability of the gaming machine is changed, then the gaming machine Before being inspected by an inspector, the administrator of the gaming machine may repeatedly change the probability of winning, thereby erasing the detection information of the gaming machine over a plurality of periods. In contrast, according to this feature, the detection information in the oldest period of the plurality of periods with the change in winning probability as a boundary is the detection information acquired and stored after the winning probability has been changed. Since it is not deleted until the amount has been accumulated, it is possible to prevent the winning probability from being changed due to fraudulent intentions by the administrator of the gaming machine.

<Characteristic αJ group>
The feature αJ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αJ1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculation means for calculating game history information (game history information such as accessory ratio, continuous accessory ratio, etc.) that is information regarding the gaming history based on the detected information;
Display means for displaying information based on the game history information calculated by the calculation means;
A gaming machine comprising:
The storage means includes means for separately storing the detection information for each of the winning probabilities at the time when the detection means detects the game ball,
The calculating means includes means for calculating the gaming history information for each winning probability,
A gaming machine characterized in that the display means includes means for displaying each of the winning probabilities based on the game history information.

According to feature αJ1, for example, if the display based on the gaming history information is the numerical value of the gaming history information itself, the gaming machine inspector can confirm that each gaming history information calculated and displayed for each winning probability is appropriate. You can check whether it is within the specified range. That is, the inspector can confirm whether or not there is a winning probability setting in which the gaming history information does not fall within an appropriate range in the gaming machine.

Note that the inventions of the feature αG group to feature αJ group solve the following problems.

In gaming machines such as pachinko machines and slot machines, technical improvements are made from various perspectives such as structure, control, and presentation, with the aim of increasing the interest of the game, reducing the processing load of the gaming machine, and simplifying control. Improvements have been made (for example, Patent Document 1).

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In gaming machines such as those described above, further technological improvements are desired for the purpose of increasing the interest of gaming, reducing the processing load of gaming machines, simplifying control, and providing more healthy gaming.

<Characteristic αK group>
The feature αK group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αK1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
It has a first display area and a second display area configured by a plurality of display elements (segment light emitting section, CP light emitting section), and predetermined information is displayed in the first display area and the second display area. a display means capable of displaying;
A gaming machine comprising:
The display means is
When displaying the game history information, information regarding the type of the game history information is displayed in the first display area using the display element, and information regarding the type of the game history information is displayed in the second display area. means for displaying numerical information using the display element;
When changing the winning probability, information regarding the type of gaming history information is displayed in a display mode that is not displayed when information regarding the type of gaming history information is displayed in the first display area. means for displaying a display mode using only display elements used at that time, and displaying numerical information regarding the setting of the winning probability in the second display area using the display elements;
A gaming machine characterized by comprising:

According to feature αK1, the second display area of the display means displays numerical information about gaming history information and the second display area of the display means displays numerical information regarding winning probability settings. The display mode will be clearly different. Therefore, for example, the administrator of the gaming machine can clearly distinguish whether numerical information about gaming history information is displayed in the second display area of the display means or numerical information about setting of winning probability is displayed. It can be recognized separately. As a result, the administrator of the gaming machine is prevented from misinterpreting the numerical information displayed in the second display area between the numerical information of the gaming history information and the numerical information regarding the setting of the winning probability. be able to.

Furthermore, according to this feature, display elements in the first display area that are not used when displaying game history information (for example, segment light emitting parts A, B, DP light emitting part of the leftmost 7 segment display 45z1, left middle 7 Since the segment light emitting portion B) of the segment display 45z2 is not used even when changing the winning probability, there are display elements that are not used (hereinafter referred to as unused display elements) in the first display area. . Therefore, for example, even if a problem occurs in an unused display element in the first display area, the display mode in the first display area is not affected. As a result, it is possible to reduce the possibility that the display mode will be affected when a problem occurs in the display element of the first display area.

Furthermore, for example, when a light-emitting element such as an LED is adopted as a display element, the light-emitting element that is an unused display element does not need to emit light, so parts necessary for making the light-emitting element emit light may be omitted. I can do it. Therefore, the cost of the display means can be reduced.

<Characteristic αL group>
The feature αL group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αL1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
A display means having a first display area and a second display area and capable of displaying predetermined information in the first display area and the second display area;
A gaming machine comprising:
The display means is
When displaying the game history information, means for displaying information regarding the type of the game history information in the first display area and displaying numerical information of the game history information in the second display area; ,
means for displaying numerical information regarding the setting of the winning probability in the second display area without displaying anything in the first display area when changing the winning probability;
A gaming machine characterized by comprising:

According to feature αL1, the second display area of the display means is different from the first display area depending on whether the numerical information of the game history information is displayed or when the numerical information regarding the setting of the winning probability is displayed. The display mode will be clearly different. Therefore, for example, the administrator of the gaming machine can clearly distinguish whether numerical information about gaming history information is displayed in the second display area of the display means or numerical information about setting of winning probability is displayed. It can be recognized separately. As a result, the administrator of the gaming machine is prevented from misinterpreting the numerical information displayed in the second display area between the numerical information of the gaming history information and the numerical information regarding the setting of the winning probability. be able to.

Further, according to this feature, for example, the first display area is configured by a plurality of light emitting elements (LEDs), and a predetermined light emitting element emits light to display predetermined information, and all the light emitting elements turn off. Therefore, in the case of a configuration in which nothing is displayed, even if a problem occurs in which some of the light emitting elements constituting the first display area do not emit light, there is a serious problem in which all the light emitting elements do not emit light. Unless this occurs, the display mode of the first display area will be different depending on whether game history information is being displayed or numerical information regarding the setting of winning probability is being displayed. Therefore, according to this feature, even if a malfunction occurs in which some of the light emitting elements constituting the first display area do not emit light, a serious problem such as all light emitting elements not emitting light may occur. As long as no malfunction occurs, it is possible to distinguish and recognize whether the numerical information displayed in the second display area is game history information or numerical information related to the setting of winning probability. That is, if at least some of the light emitting elements in the first display area are emitting light, the administrator determines that the numerical value displayed in the second display area is game history information, and Only when all the light emitting elements constituting the display area are off, it can be determined that the numerical value displayed in the second display area is numerical information regarding the setting of the winning probability.

<Characteristic αM group>
The feature αM group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αM1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means having a predetermined display area and capable of displaying predetermined information in the predetermined display area;
A gaming machine comprising:
The display means is
When displaying the gaming history information, means for displaying numerical information of the gaming history information in a predetermined number of digits (2 digits) in the predetermined display area;
means for displaying numerical information regarding the setting of the winning probability in the predetermined display area in a number of digits (one digit) different from the predetermined number of digits when changing the winning probability;
A gaming machine characterized by comprising:

According to feature αM1, the number of digits of the displayed numerical value is different between when numerical information related to game history information is displayed in a predetermined display area and when numerical information related to winning probability settings is displayed. It will be different. Therefore, for example, the administrator of a gaming machine must clearly distinguish whether numerical information related to gaming history information is displayed in a predetermined display area of the display means or numerical information related to winning probability settings. It can be recognized. As a result, the administrator of the gaming machine may misidentify the numerical information displayed in the predetermined display area of the display means as the numerical information of the gaming history information and the numerical information regarding the winning probability setting. Can be suppressed.

<Characteristic αN group>
The feature αN group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αN1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a changing means capable of changing the probability of winning a predetermined result in the predetermined lottery process to a different probability of winning by accepting a predetermined operation from the outside;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
A display means having a first display area and a second display area and capable of displaying predetermined information in the first display area and the second display area;
A gaming machine comprising:
The display means is
When displaying the game history information, means for displaying information regarding the type of the game history information in the first display area and displaying numerical information of the game history information in the second display area; ,
When changing the winning probability, switching between multiple types of display modes (display pattern A and display pattern B) that are not displayed when displaying information regarding the type of gaming history information in the first display area. means for repeatedly displaying numerical information regarding the setting of the winning probability in the second display area;
A gaming machine characterized by comprising:

According to the feature αN1, the second display area of the display means displays the numerical information of the game history information, and the second display area of the display means displays the numerical information regarding the setting of the winning probability. The display mode will be clearly different. Therefore, for example, the administrator of the gaming machine can clearly distinguish whether numerical information about gaming history information is displayed in the second display area of the display means or numerical information about setting of winning probability is displayed. It can be recognized separately. As a result, the administrator of the gaming machine is prevented from misinterpreting the numerical information displayed in the second display area between the numerical information of the gaming history information and the numerical information regarding the setting of the winning probability. be able to.

Furthermore, according to this feature, the display mode in the first display area dynamically changes during the period when the numerical information regarding the winning probability setting is displayed in the second display area, so that the gaming machine It is possible to alert the administrator that this is an important situation in which changes to the winning probability should be made carefully.

<Characteristic αO group>
The feature αO group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αO1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
Display means for displaying (displaying type information and numerical information) based on the game history information calculated by the calculation means;
The game history on the display means is displayed based on the information amount of the detection information (the number of game balls that passed through the discharge passage during the normal mode (the number of outs during the normal mode)), which is the basis for calculating the game history information. determining means for determining a display mode (lit display or blinking display) based on the information;
A gaming machine characterized by comprising:

According to feature αO1, by checking the display mode on the display means, the administrator of the gaming machine can grasp how much detection information that is the basis for calculating gaming history information has been accumulated; For example, it is possible to determine whether the displayed numerical value of game history information has been calculated with a sufficient amount of statistical data accumulated.

Incidentally, the inventions of the above feature αK group to feature αO group solve the following problems.

In gaming machines such as pachinko machines and slot machines, technical improvements are made from various perspectives such as structure, control, and presentation, with the aim of increasing the interest of the game, reducing the processing load of the gaming machine, and simplifying control. Improvements have been made (for example, Patent Document 1).

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In gaming machines such as those described above, further technological improvements are desired for the purpose of increasing the interest of gaming, reducing the processing load of gaming machines, simplifying control, and providing more healthy gaming.

<Characteristic αP group>
The feature αP group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αP1]
A gaming machine comprising a control means for controlling a game,
The control means includes:
A CPU (main CPU 62x) that includes a plurality of registers including a flag register and a stack pointer and executes a plurality of types of programs including a first program and a second program;
A program storage means (main side ROM 63) having a first program storage area for storing the first program and a second program storage area for storing the second program, which is an area different from the first program storage area. program storage means 63a);
a first stack area corresponding to the first program that can be accessed by a first stack area reference address stored in the stack pointer; and an area different from the first stack area and stored in the stack pointer. a stack means (stack means 64b of the main side RAM 64) having a second stack area corresponding to the second program accessible by a second stack area reference address;
a first data storage area corresponding to the first program whose data can be updated; and a second data storage area which is different from the first data storage area and corresponds to the second program whose data can be updated; (data storage means 64a of the main side RAM 64),
The flag register is a register whose value changes in a predetermined case,
In the processing by the first program, the data in the first stack area and the first data storage area can be updated and referenced, and the data in the second stack area and the second data storage area cannot be updated but can be referenced. has become,
In the processing by the second program, the data in the second stack area and the second data storage area can be updated and referenced, and the data in the first stack area and the first data storage area cannot be updated but can be referenced. has become,
The CPU is
Implementing a first process (game progress process) by executing a program included in the first program,
After performing the first process, execute a program included in the first program to perform a storage process of storing the value of the flag register in the first stack area or the first data storage area;
After performing the storage process, by executing a program included in the second program, the first stack area reference address stored in the stack pointer is stored in the second data storage area, and the storing the second stack area reference address in a stack pointer, and performing a saving process to store the values of each of the plurality of registers in the second data storage area;
After performing the saving process, a second process (gaming history information calculation and display process) is executed by executing a program included in the second program;
After performing the second process, by executing a program included in the second program, the values of each of the plurality of registers are set to the values stored in the second data storage area by the save process, and the performing a return process of storing the first stack area reference address stored in the second data storage area by the save process in the stack pointer;
After performing the return process, by executing a program included in the first program, the value of the flag register among the plurality of registers whose values have been set by the return process is stored in the first program by the storage process. A gaming machine characterized in that a change process is performed to change the value to a value stored in one stack area or the first data storage area.

According to feature αP1, since save processing and return processing are performed, when returning from the second program to the first program, a problem occurs due to the value of the register used in the first program changing. can be avoided.

Furthermore, according to this feature, even if the value of the flag register changes after the storage process is performed but before the save process, the flag register value can be changed by performing the change process. Since the value returns to the same value as immediately after the first process by the first program ends, there is no risk of affecting the process by the first program that is executed after returning from the process by the second program. As a result, it becomes possible to configure multiple programs independently.

Further, according to this feature, the second process can be added without affecting the process by the first program by simply adding a program for implementing the second process to the second program. Therefore, it is possible to easily create a program for implementing the second process independently of the first program.

Further, for example, if the amount of data to be stored in the stack area exceeds the upper limit of the storage capacity of the stack area, a reset process is performed to erase all data stored in the stack area. In this case, if the configuration is such that the values of each of a plurality of registers are stored in the second stack area in the save process, there is a risk that the reset process will be executed. In contrast, according to this feature, the values of each of the plurality of registers are stored in the second data storage area during the saving process, so it is possible to avoid the risk of the stack area being reset.

<Characteristic αQ group>
The feature αQ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αQ1]
A gaming machine comprising a control means for controlling a game,
The control means includes:
A CPU (main CPU 62x) that includes a plurality of registers including a flag register and a stack pointer and executes a plurality of types of programs including a first program and a second program;
A program storage means (main side ROM 63) having a first program storage area for storing the first program and a second program storage area for storing the second program, which is an area different from the first program storage area. program storage means 63a);
a first stack area corresponding to the first program that can be accessed by a first stack area reference address stored in the stack pointer; and an area different from the first stack area and stored in the stack pointer. a stack means (stack means 64b of the main side RAM 64) having a second stack area corresponding to the second program accessible by a second stack area reference address;
a first data storage area corresponding to the first program whose data can be updated; and a second data storage area which is different from the first data storage area and corresponds to the second program whose data can be updated; (data storage means 64a of the main side RAM 64),
The flag register is a register whose value changes in a predetermined case,
In the processing by the first program, the data in the first stack area and the first data storage area can be updated and referenced, and the data in the second stack area and the second data storage area cannot be updated but can be referenced. has become,
In the processing by the second program, the data in the second stack area and the second data storage area can be updated and referenced, and the data in the first stack area and the first data storage area cannot be updated but can be referenced. has become,
The CPU is
Implementing a first process (game progress process) by executing a program included in the first program,
After performing the first process, execute a program included in the first program to perform a storage process of storing the value of the flag register in the first stack area or the first data storage area;
After performing the storage process, by executing a program included in the second program, the second stack area reference address is stored in the stack pointer, and the values of each of the plurality of registers are stored in the second data. Execute the evacuation process to store in the storage area,
After performing the saving process, a second process (gaming history information calculation and display process) is executed by executing a program included in the second program;
After performing the second process, a program included in the second program is executed to set and fix the values of each of the plurality of registers to the values stored in the second data storage area by the save process. performing a return process of storing the first stack area reference address, which is a value, in the stack pointer;
After performing the return process, by executing a program included in the first program, the value of the flag register among the plurality of registers whose values have been set by the return process is stored in the first program by the storage process. A gaming machine characterized in that a change process is performed to change the value to a value stored in one stack area or the first data storage area.

According to feature αQ1, since save processing and return processing are performed, when returning from the second program to the first program, a problem occurs due to the value of the register used in the first program changing. can be avoided.

Furthermore, according to this feature, even if the value of the flag register changes after the storage process is performed but before the save process, the flag register value can be changed by performing the change process. Since the value returns to the same value as immediately after the first process by the first program ends, there is no risk of affecting the process by the first program that is executed after returning from the process by the second program. As a result, it becomes possible to configure multiple programs independently.

Further, according to this feature, the second process can be added without affecting the process by the first program by simply adding a program for implementing the second process to the second program. Therefore, it is possible to easily create a program for implementing the second process independently of the first program.

Further, for example, if the amount of data to be stored in the stack area exceeds the upper limit of the storage capacity of the stack area, a reset process is performed to erase all data stored in the stack area. In this case, if the configuration is such that the values of each of a plurality of registers are stored in the second stack area in the save process, there is a risk that the reset process will be executed. In contrast, according to this feature, the values of each of the plurality of registers are stored in the second data storage area during the saving process, so it is possible to avoid the risk of the stack area being reset.

Further, according to this feature, since the first stack area reference address, which is a fixed value, is stored in the stack pointer in the restoration process, the first stack area reference address stored in the stack pointer in the save process is changed to the second stack area reference address, which is a fixed value. There is no need to save it to the data storage area. Therefore, the processing of the CPU can be simplified, and the storage capacity of the second data storage area required to save the first stack area reference address stored in the stack pointer can be reduced. .

<Characteristic αR group>
The feature αR group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αR1]
A gaming machine comprising a control means for controlling a game,
The control means includes:
A CPU (main CPU 62x) that includes a plurality of registers including a flag register and a stack pointer and executes a plurality of types of programs including a first program and a second program;
A program storage means (main side ROM 63) having a first program storage area for storing the first program and a second program storage area for storing the second program, which is an area different from the first program storage area. program storage means 63a);
a first stack area corresponding to the first program that can be accessed by a first stack area reference address stored in the stack pointer; and an area different from the first stack area and stored in the stack pointer. a stack means (stack means 64b of the main side RAM 64) having a second stack area corresponding to the second program accessible by a second stack area reference address;
a first data storage area corresponding to the first program whose data can be updated; and a second data storage area which is different from the first data storage area and corresponds to the second program whose data can be updated; (data storage means 64a of the main side RAM 64),
The flag register is a register whose value changes in a predetermined case,
In the processing by the first program, the data in the first stack area and the first data storage area can be updated and referenced, and the data in the second stack area and the second data storage area cannot be updated but can be referenced. has become,
In the processing by the second program, the data in the second stack area and the second data storage area can be updated and referenced, and the data in the first stack area and the first data storage area cannot be updated but can be referenced. has become,
The CPU is
Implementing a first process (game progress process) by executing a program included in the first program,
After performing the first process, execute a program included in the first program to perform a storage process of storing the value of the flag register in the first stack area or the first data storage area;
After performing the storage process, a first clear process is performed to set the value of each of the plurality of registers to 0 by executing a program included in the first program;
After performing the first clearing process, executing a program included in the second program to perform a first storing process of storing the second stack area reference address in the stack pointer;
After implementing the first storage process, a second process (gaming history information calculation and display process) is executed by executing a program included in the second program;
After performing the second process, a second storage process is performed in which the first stack area reference address, which is a fixed value, is stored in the stack pointer by executing a program included in the second program;
After performing the second storage process, a second clear process is performed to set the value of each of the plurality of registers to 0 by executing a program included in the second program;
After performing the second clearing process, by executing a program included in the first program, the value of the flag register is stored in the first stack area or the first data storage area by the storage process. A gaming machine characterized by carrying out a change process of changing to a value.

According to feature αR1, the first clearing process is carried out by the program included in the first program, and the second clearing process is carried out by the program included in the second program. It is possible to match the values of the plurality of registers with the values of the plurality of registers immediately after the execution of the second program ends. Therefore, when returning from the second program to the first program, it is possible to avoid problems caused by changes in the values of the respective registers used in the first program.

Furthermore, according to this feature, since the storage process and the change process are performed, the value of the flag register returns to the same value as immediately after the first process by the first program ends. Therefore, there is no risk of affecting the processing performed by the first program after returning from the processing performed by the second program. As a result, it becomes possible to configure multiple programs independently.

Further, according to this feature, the second process can be added without affecting the process by the first program by simply adding a program for implementing the second process to the second program. Therefore, it is possible to easily create a program for implementing the second process independently of the first program.

Furthermore, according to this feature, in the return process, the fixed value of the first stack area reference address is stored in the stack pointer, so in the save process, the first stack area reference address stored in the stack pointer is stored in the stack pointer. There is no need to save the data to the second data storage area. Therefore, the processing of the CPU can be simplified, and the storage capacity of the second data storage area required to save the first stack area reference address stored in the stack pointer can be reduced. .

<Characteristic αS group>
The feature αS group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αS1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a change mode execution means that executes a change mode in which the probability of winning a predetermined result in the predetermined lottery process can be changed to a different probability of winning by accepting a predetermined operation from the outside;
A storage means (main side RAM 64) for storing information regarding the progress of the game;
detection means for detecting an abnormality in the storage means;
initialization means for initializing the storage means when the detection means detects the abnormality;
A gaming machine comprising:
The gaming machine characterized in that the change mode execution means includes means for executing the change mode even if the predetermined operation is not accepted when the initialization is executed.

If the storage device has to be initialized due to an abnormality in the storage device, there is a possibility that the winning probability setting information may have been rewritten with setting information that is different from the setting information originally intended by the administrator. . If the configuration is such that the winning probability setting information is not initialized (changed) even if the storage means is initialized, there is a risk that the setting information may still be maintained as setting information different from the setting information originally intended by the administrator. .

According to feature αS1, when the storage means is initialized due to an abnormality in the storage means, the change mode is executed, so the administrator of the gaming machine can execute the change mode before restarting the game on the game machine. In this case, it becomes possible to change the winning probability setting information to the originally intended setting information.

[Feature αS2]
The gaming machine described in feature αS1,
A gaming machine characterized in that the initializing means includes means for not initializing information related to a gaming state among the information stored in the storage means when initializing the storage means.

According to feature αS2, even if the storage means is initialized, the information regarding the gaming state is not initialized, so the player can resume playing the game while maintaining the gaming state. Therefore, it is possible to prevent the player from being disadvantaged due to the initialization of the storage means.

[Feature αS3]
The gaming machine according to feature αS1 or feature αS2,
A gaming machine characterized by comprising a notification means for notifying that the winning probability has been changed when the winning probability has been changed in the change mode.

If the storage means is initialized due to an abnormality in the storage means and the change mode is executed, the player who was playing the game on the gaming machine will be able to It is expected that there will be doubts as to whether or not the probability of winning has been changed. However, according to this feature, when the probability of winning is changed, the player is notified that the probability of winning has been changed, so the player can confirm whether or not the probability of winning has been changed. More specifically, the player is not made to understand what kind of setting information the current winning probability is, but only whether the winning probability has been changed in the change mode. I can do it. As a result, it is possible to suppress the occurrence of a situation where the player has to restart the game with a feeling of anxiety without knowing whether or not the winning probability has been changed by the administrator.

<Characteristic αT group>
The feature αT group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αT1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a change mode execution means that executes a change mode in which the probability of winning a predetermined result in the predetermined lottery process can be changed to a different probability of winning by accepting a predetermined operation from the outside;
Notifying means for notifying that the winning probability has been changed when the winning probability has been changed in the change mode;
A gaming machine characterized by comprising:

According to the feature αT1, the player can recognize that the winning probability has been changed in the change mode. Specifically, for example, it is possible to make the player only understand whether or not the winning probability has been changed in the change mode, without letting the player know what the current winning probability setting is. can.

[Feature αT2]
The gaming machine according to feature αT1,
A gaming machine characterized by comprising a second notification means that provides notification in a manner different from that provided by the notification means when the winning probability is not changed in the change mote.

According to feature αT2, the player can recognize that the winning probability has not been changed in the change mode.

[Feature αT3]
The gaming machine according to feature αT1 or feature αT2,
The gaming machine characterized in that the second notification means includes means for notifying that the winning probability has not been changed when the winning probability has not been changed in the change mode.

According to feature αT3, the player can clearly recognize that the winning probability has not been changed in the change mode.

<Characteristic αU group>
The feature αU group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αU1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a change mode execution means for executing a change mode in which the probability of winning a predetermined result in the predetermined lottery process can be changed to a different probability of winning by accepting a first operation from the outside;
Information display mode execution means for executing an information display mode in which the progress of the game is stopped and information regarding the winning probability is displayed by accepting a second operation different from the first operation from the outside;
an accessory that continues to operate in a certain manner regardless of the result of the predetermined lottery process;
A gaming machine comprising:
A gaming machine characterized in that the accessory continues to perform the constant operation even during the information display mode.

According to feature αU1, even at the start and end timings of the information display mode in which the progress of the game is stopped, the motion of the accessory continues to operate in a fixed manner without stopping or changing. It is possible to prevent a player from obtaining an unfair advantageous result by shooting a game ball at the timing when the motion stops or changes.

<Characteristic αV group>
The feature αV group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αV1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
a change mode execution means for executing a change mode in which the probability of winning a predetermined result in the predetermined lottery process can be changed to a different probability of winning by accepting a first operation from the outside;
Information display mode execution means for executing an information display mode in which the progress of the game is stopped and information regarding the winning probability is displayed by accepting a second operation different from the first operation from the outside;
an accessory that continues to operate in a certain manner regardless of the result of the predetermined lottery process;
A gaming machine comprising:
The gaming machine is characterized in that, during the information display mode, the accessory is in a predetermined state and stops the certain operation.

According to the feature αV1, for example, it is possible to suppress the occurrence of a malfunction in an accessory that may cause a malfunction if the operation is stopped in a state other than a predetermined state.

Note that the inventions of the features αP group to features αV group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic αW group>
The feature αW group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature αW1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
A gaming machine comprising:
The setting change mode execution means satisfies the first conditions (the setting key, the frame release switch, and the door release switch are all ON, and the RAM clear button is ON) at the time when the power is turned on to the gaming machine. ) is satisfied, the setting change mode is executed, but even if the first condition is satisfied after the power is turned on, the setting change mode is not executed. A gaming machine featuring:

According to feature αW1, in order to cause a gaming machine that has already been powered on to execute the setting change mode, it is necessary to turn off the power of the gaming machine and then turn it on again. Generally, in a gaming hall, it is difficult for anyone other than the administrator of the gaming machine to turn off the power and then turn it back on again by operating a power switch provided on the back of the gaming machine. Therefore, it is possible to prevent the setting of the winning probability of the gaming machine from being changed illegally by a person who is not the administrator of the gaming machine and has fraudulent intentions.

[Feature αW2]
The gaming machine described in feature αW1,
comprising a setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which setting information that is information regarding the setting of the winning probability is displayed, but the setting of the winning probability cannot be changed;
The setting information display mode execution means satisfies a second condition (the setting key, the frame release switch, and the door release switch are all turned on, and the RAM clear button is pressed) at the time when the power is turned on to the gaming machine. OFF) is satisfied, the setting information display mode is executed, but even if the second condition is satisfied after the power is turned on, the setting information display mode is not executed. A gaming machine characterized by comprising:

According to feature αW2, in order to cause a gaming machine that has already been powered on to execute the setting information display mode, it is necessary to turn off the power of the gaming machine and then turn it on again. Generally, in a gaming hall, it is difficult for anyone other than the administrator of the gaming machine to turn off the power and then turn it back on again by operating a power switch provided on the back of the gaming machine. Therefore, it is possible to prevent the setting of the winning probability of the gaming machine from being illegally known by a person who is not the administrator of the gaming machine and has fraudulent intentions.

[Feature αW3]
The gaming machine according to feature αW1 or feature αW2,
A gaming machine characterized by comprising a notification means for notifying when the gaming machine is powered on.

According to feature αW3, it is possible to make it difficult for a person who is not the administrator of a gaming machine with fraudulent intentions to turn off the power of the gaming machine and then turn it on again without being noticed by the surroundings. Therefore, it is possible to further prevent a person who is not the administrator of the gaming machine with fraudulent intentions from changing or confirming the setting of the winning probability of the gaming machine.

<Characteristic αX group>
The feature αX group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αX1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which setting information that is information regarding the setting of the winning probability is displayed, but the setting of the winning probability cannot be changed;
storage means (main side RAM 64) for storing information including the setting information;
a determination process execution unit that executes a predetermined determination process (a process of calculating a RAM determination value and determining whether or not it is normal) based on information stored in the storage unit;
A gaming machine comprising:
The setting information display mode execution means is configured to determine whether the result of the predetermined determination process is a predetermined result (a result that the RAM determination value is not normal) even if the conditions for executing the setting information display mode are satisfied. ), a gaming machine comprising means for not executing the setting information display mode.

If the result of a predetermined judgment process based on the information stored in the storage means is a predetermined result, the setting information stored in the storage means has an abnormal value that is not intended by the administrator of the gaming machine. There is a possibility that it has become. According to feature αX1, it is possible to prevent the setting information display mode from being executed while leaving the possibility that the winning probability setting information stored in the storage means has become an abnormal value that is not intended by the administrator. Can be suppressed.

<Characteristic αY group>
The feature αY group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αY1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
an operating means (RAM clear button) that accepts a predetermined operation (pressing operation);
A storage means (main side RAM 64) for storing information regarding the progress of the game;
erasure processing (RAM clear processing) for erasing the information stored in the storage means when the power is turned on while the operation means has accepted the predetermined operation (RAM clear button is pressed); an erasure processing execution means for executing the
A gaming machine comprising:
The setting change mode execution means is configured to meet a predetermined condition (when the power is turned on, the setting key, the frame release switch, and the door release switch are all turned on), including that the operation means is in a state in which the predetermined operation is accepted. and the RAM clear button is pressed down), comprising means for executing the setting change mode,
The gaming machine characterized in that the erasure processing execution means includes means for executing the erasure processing before or after execution of the setting change mode when the predetermined condition is satisfied.

Generally, when an administrator who manages a gaming machine turns on the power of the gaming machine with the operation means accepting a predetermined operation, an erasure process is executed to erase information stored in the storage means. I am aware of this. Therefore, according to feature αY1, when the administrator is caused to execute the setting change mode by satisfying a predetermined condition including that the operating means is in a state in which the predetermined operation is accepted, the setting change mode This makes it possible to make the user strongly aware that not only is the process executed, but also the erasing process is executed. As a result, for example, if the administrator wants to start up the gaming machine while maintaining the gaming state such as high probability mode and restart the game from the state when the power was turned off last time, in other words, when the gaming machine is started up, the administrator can erase the gaming machine. If the setting change mode should not be executed, it is possible to reliably determine that the setting change mode should not be executed. That is, according to this feature, it is possible to provide a gaming machine whose operation is easy for the administrator to understand.

<Characteristic αZ group>
The feature αZ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature αZ1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
storage means (main side RAM 64) for storing information including setting information that is information regarding the setting of the winning probability;
erasing means for erasing information stored in the storage means;
A gaming machine comprising:
The erasing means is
a first erasing process (first RAM clearing process) of erasing information other than the setting information without erasing the setting information among the information stored in the storage means;
a second erasing process (second RAM clearing process) for erasing information including the setting information from among the information stored in the storage means;
A gaming machine characterized by being capable of executing.

According to feature αZ1, among the information stored in the storage means, in both the processing step where setting information is left and other information is deleted, and the processing step where setting information is also deleted. Corresponding processing steps can be realized. For example, if the setting information is normal and is maintained, but other information is required to be deleted in a processing step, the setting information is not deleted, and the setting information becomes an abnormal value that is not intended by the administrator. It is possible to realize a configuration in which information including setting information is deleted if the processing step has a possibility that the setting information may be deleted.

[Feature αZ2]
The gaming machine described in feature αZ1,
comprising a determination process execution means for executing a predetermined determination process (a process of calculating a RAM determination value and determining whether or not it is normal) based on the information stored in the storage means;
A game characterized in that the erasing means includes means for executing the second erasing process when the result of the predetermined determination process is a predetermined result (result that the RAM determination value is not normal). Machine.

If the result of a predetermined judgment process based on the information stored in the storage means is a predetermined result, the setting information stored in the storage means has an abnormal value that is not intended by the administrator of the gaming machine. There is a possibility that it has become. According to feature αZ2, it is possible to suppress the game from being executed with the possibility that the winning probability setting information stored in the storage means has become an abnormal value that is not intended by the administrator. I can do it.

<Characteristic βA group>
The feature βA group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βA1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
storage means (main side RAM 64) for storing information including setting information that is information regarding the setting of the lottery probability;
a determination process execution unit that executes a predetermined determination process (a process of calculating a RAM determination value and determining whether or not it is normal) based on information stored in the storage unit;
A gaming machine comprising:
The setting change mode execution means performs a predetermined operation to execute the setting change mode (a state in which the setting key, frame release switch, and door release switch are all ON and the RAM clear button is pressed). Even if the operation to turn on the power of the pachinko machine 10 is not accepted, if the result of the predetermined determination process is a predetermined result (result that the RAM determination value is not normal), , a gaming machine comprising means for executing the setting change mode.

If the result of a predetermined determination process based on the information stored in the storage means is a predetermined result, the setting information stored in the storage means has an abnormal value that is not intended by the administrator of the gaming machine. There is a possibility that it has become. According to feature βA1, if the result of the predetermined determination process is a predetermined result, the setting change mode is executed, so that the administrator can change the setting of the winning probability. Therefore, it is possible to prevent the game from being executed with the possibility that the winning probability setting information stored in the storage means has become an abnormal value that is not intended by the administrator.

<Characteristic βB group>
The feature βB group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βB1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
Display means (main display section 45) for displaying information regarding the game including the results of the predetermined lottery process;
A gaming machine comprising:
The display means is
A gaming machine characterized by comprising means for displaying a first display mode (a display pattern in which all LEDs are lit) that is not displayed when displaying information regarding the game while the setting change mode is being executed.

According to feature βB1, it is possible to notify the administrator and the players that the setting change mode is being executed using the display means that displays information regarding the game. Furthermore, for example, in the case of a gaming machine equipped with a display means for displaying information regarding a game, the setting change mode can be changed by simply changing the control program of the gaming machine without changing the hardware configuration of the gaming machine. It is possible to change the configuration to one that can notify the administrator and players that the game is being executed. Therefore, for example, the manufacturing cost of the gaming machine can be reduced compared to a configuration in which a dedicated display means for notifying that the setting change mode is being executed is additionally provided.

[Feature βB2]
The gaming machine according to feature βB1,
comprising a setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which setting information that is information regarding the setting of the winning probability is displayed, but the setting of the winning probability cannot be changed;
The display means is
While the setting information display mode is being executed, a second display mode (a display mode in which all LEDs flash simultaneously) that is not displayed when displaying information regarding the game and is different from the first display mode is displayed. ) A gaming machine characterized by comprising means for displaying.

According to feature βB2, it is possible to notify the administrator and players that the setting information display mode is being executed instead of the setting change mode using the display means that displays information regarding the game. For example, in the case of a gaming machine equipped with a display means for displaying information regarding a game, setting information display mode can be set by simply changing the control program of the gaming machine without changing the hardware configuration of the gaming machine. It is possible to change the configuration to one that can notify the administrator and players that the game is being executed. Therefore, the manufacturing cost of the gaming machine can be reduced, for example, compared to a configuration in which a dedicated display means for notifying that the setting information display mode is being executed is additionally provided.

<Characteristic βC group>
The feature βC group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βC1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
Display means (information display section 45z) that displays information based on the game history information calculated by the calculation means (displays type information and numerical information);
control means for controlling the display means;
A gaming machine comprising:
The display means is constituted by a plurality of light emitting parts,
The control means includes means for controlling all of the plurality of light emitting parts constituting the display means to be in a lit state based on the fact that the gaming machine is powered on. Game machine.

According to feature βC1, when the game machine is powered on, the administrator of the gaming machine checks whether there is any light emitting unit that does not light up due to a malfunction such as a disconnection among the light emitting units that constitute the display means. be able to.

[Feature βC2]
The gaming machine according to feature βC1,
The control means includes means for controlling all of the plurality of light emitting parts constituting the display means to be in a blinking state based on the power being turned on to the gaming machine. Game machine.

According to feature βC2, when the gaming machine administrator turns on the power of the gaming machine, the administrator checks whether there is a light emitting part that is constantly turned on due to a malfunction and does not turn off in the light emitting part that constitutes the display means. can be confirmed.

<Characteristic βD group>
The feature βD group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βD1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
Display means (information display section 45z) that displays information based on the game history information calculated by the calculation means (displays type information and numerical information);
control means for controlling the display means;
an operation means (information display inspection button) that accepts a predetermined operation from the outside;
A gaming machine comprising:
The display means is constituted by a plurality of light emitting parts,
The control means includes means for controlling all of the plurality of light emitting parts constituting the display means to be in a lit state based on the fact that the operation means has received the predetermined operation. A gaming machine that does.

According to feature βD1, the administrator of the gaming machine can, by operating the operating means, check at any time whether there is any light emitting part that does not light up due to a malfunction such as a disconnection among the light emitting parts that constitute the display means. I can do it.

[Feature βD2]
The gaming machine according to feature βD1,
The control means includes means for controlling all of the plurality of light emitting parts constituting the display means to be in a blinking state based on the reception of the predetermined operation by the operation means. A gaming machine that does.

According to feature βD2, by operating the operating means, the administrator of the gaming machine can check at any time whether there is a light emitting part that is constantly turned on due to a malfunction and does not turn off among the light emitting parts that constitute the display means. It can be confirmed.

<Characteristic βE group>
The feature βE group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βE1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising:
The storage means includes means for storing the detection information in a plurality of periods with a predetermined timing as a boundary,
The calculation means includes means for calculating the game history information for each of the plurality of periods based on the detection information for each of the plurality of periods,
A gaming machine characterized in that the display means includes means for switching and displaying a plurality of pieces of the game history information for each of the plurality of periods.

According to feature βE1, an inspector of a gaming machine can check a plurality of pieces of gaming history information for each of a plurality of periods with a predetermined timing as a boundary for the gaming machine. For example, the inspector can check whether there was a situation in which the gaming history information did not fall within an appropriate range during a plurality of periods with a predetermined timing as a boundary in the gaming machine.

[Feature βE2]
The gaming machine according to feature βE1,
The gaming machine, wherein the predetermined timing is a timing at which a date changes.

According to feature βE2, an inspector of a gaming machine can check a plurality of pieces of gaming history information for each date on the gaming machine. For example, the inspector can check for each date whether there was a situation in which the game history information did not fall within an appropriate range.

<Characteristic βF group>
The feature βF group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βF1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
erasing means for erasing the detection information stored in the storage means when a predetermined operation is accepted;
A gaming machine comprising:
The display means displays the game history information after the detection information is erased by the erasing means until a predetermined condition is satisfied (until the measured number N _OUT of objects passing through the discharge passage reaches a predetermined number). A gaming machine characterized by comprising means for not displaying numerical information.

According to feature βF1, if the numerical information of the gaming history information is not displayed on the display means, the inspector of the gaming machine can confirm that the predetermined condition is not satisfied after the detected information is erased by the erasing means. It can be recognized that

Incidentally, the invention of the feature αW group to feature βF group above solves the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic βG group>
The feature βG group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βG1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising:
The calculation means calculates the plurality of objects based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (the measured number of objects _NOUT passing through the discharge passage reaches a predetermined number). comprising means for calculating a plurality of pieces of gaming history information corresponding to each of the periods;
The display means is
Means for switching and displaying the plurality of gaming history information corresponding to each of the plurality of periods, the means for switching and displaying the plurality of pieces of gaming history information corresponding to each of the plurality of periods, the means for switching the display of the gaming history information, the means for switching the display of the plurality of gaming history information corresponding to one of the plurality of periods After transitioning from a display mode that displays gaming history information (a display mode that displays the base corresponding to the section bL) to a display mode that does not display any of the plurality of gaming history information (all lights off), the plurality of periods A gaming machine characterized by comprising means for transitioning to a display mode for displaying the game history information corresponding to another period (a display mode for displaying a base corresponding to the section b1).

According to feature βG1, when switching the display of game history information, the display means changes from a display mode in which game history information corresponding to one of a plurality of periods is displayed to a mode in which any of the plurality of game history information is displayed. After transitioning to a display mode in which no display is displayed, the display mode shifts to a display mode in which gaming history information corresponding to other periods of the plurality of periods is displayed. It is possible to clearly recognize that the displayed game history information has been switched to game history information corresponding to another period. As a result, for example, an administrator or the like is prevented from misrecognizing the period and checking the game history information without noticing that the period of the displayed game history information has been switched to another period. be able to.

<Characteristic βH group>
The feature βH group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βH1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising:
The calculation means calculates the plurality of objects based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (the measured number of objects _NOUT passing through the discharge passage reaches a predetermined number). comprising means for calculating a plurality of pieces of gaming history information corresponding to each of the periods;
The display means is
From a display mode in which the game history information corresponding to one of the plurality of periods is displayed (a display mode in which bL is displayed), the game history information corresponding to the other period among the plurality of periods is displayed. When transitioning to a display mode for displaying (a display mode for displaying b1), a means for shifting the display mode in a first transition mode (a transition mode for transitioning with all lights off for 300 ms);
When transitioning the display mode based on the fulfillment of the predetermined condition, a second transition mode (transition mode in which the display mode is shifted with a 3000 ms hyphen lighting display in between) is used, which is different from the first transition mode. A gaming machine characterized by comprising: means for transitioning a display mode.

According to feature βH1, there is a transition mode in which a display mode in which gaming history information corresponding to one period is displayed is shifted to a display mode in which gaming history information corresponding to another period is displayed, and a transition mode in which a predetermined condition is satisfied. Since the transition mode is different from the transition mode when changing the display mode based on It is possible to clearly distinguish and recognize whether the display mode is to be changed to the displayed mode or whether the display mode is to be changed based on the satisfaction of a predetermined condition. Therefore, for example, it is possible to prevent the administrator or the like from continuing to check the game history information without noticing that a predetermined condition has been met.

<Characteristic βI group>
The feature βI group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βI1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising:
The calculation means calculates the plurality of objects based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (the measured number of objects _NOUT passing through the discharge passage reaches a predetermined number). comprising means for calculating a plurality of pieces of gaming history information corresponding to each of the periods;
The display means is
Means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods based on the elapse of a predetermined display duration time (5000 ms), the means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods, the means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods, If the condition is met, even before the predetermined display duration time of the game history information being displayed has elapsed, the display mode corresponding to the fulfillment of the predetermined condition (hyphen lighting) , all lights out).

According to feature βI1, if a predetermined condition is satisfied while displaying gaming history information, the predetermined condition is met even before the predetermined display duration time of the currently displayed gaming history information has elapsed. Since the display mode changes to correspond to the fulfillment of the condition, the administrator or inspector of the gaming machine can be made aware at an early stage that the predetermined condition is satisfied. Furthermore, for example, after transitioning to a display mode corresponding to the fulfillment of a predetermined condition, it is possible to quickly display gaming history information for each period after the predetermined condition is satisfied. . As a result, the administrator or the like can quickly check the game history information for each period after the predetermined condition is satisfied, and thus can improve the inspection efficiency of gaming machines.

<Characteristic βJ group>
The feature βJ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βJ1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising:
The calculation means calculates the plurality of objects based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (the measured number of objects _NOUT passing through the discharge passage reaches a predetermined number). comprising means for calculating a plurality of pieces of gaming history information corresponding to each of the periods;
The display means is
Means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods based on the elapse of a predetermined display duration time (5000 ms), the means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods, the means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods, If the condition is met, after the predetermined display duration time of the game history information being displayed has elapsed, the display mode corresponding to the fulfillment of the predetermined condition (hyphen lit, all lights off) A gaming machine characterized by comprising means for transitioning to.

According to feature βJ1, even if a predetermined condition is met while displaying the gaming history information, the display of the gaming history information continues until the display duration time of the currently displayed gaming history information has elapsed. For example, when the administrator or inspector of the gaming machine checks the gaming history information being displayed and attempts to transcribe it into the inspection sheet, the display of the gaming history information ends, and the gaming machine It is possible to suppress the occurrence of a situation in which history information cannot be transferred to an inspection sheet.

<Characteristic βK group>
The feature βK group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βK1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a display means (information display section 45z) for displaying the game history information calculated by the calculation means;
A gaming machine comprising:
The calculation means calculates the plurality of objects based on the detection information for each of a plurality of periods with a boundary that a predetermined condition is satisfied (the measured number of objects _NOUT passing through the discharge passage reaches a predetermined number). comprising means for calculating a plurality of pieces of gaming history information corresponding to each of the periods;
The display means is
Means for switching and displaying the plurality of game history information corresponding to each of the plurality of periods according to a predetermined order, the means for switching and displaying the plurality of pieces of game history information corresponding to each of the plurality of periods, when the predetermined condition is satisfied, regardless of the predetermined order. A gaming machine characterized by comprising means for starting display from gaming history information (bL) corresponding to a specific period among a plurality of periods.

According to feature βK1, when a predetermined condition is met, the display starts from the gaming history information corresponding to a specific period out of a plurality of periods, regardless of the predetermined order. The administrator or the inspector can recognize that a predetermined condition has been met, and can also check the gaming history information corresponding to a specific period first.

Note that the inventions of the feature βG group to feature βK group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent acts by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic βL group>
The feature βL group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βL1]
A gaming machine,
a storage means (main side RAM 64) that stores predetermined information (various flag information, etc.) when the supply of power from the outside is cut off;
A return means that executes a return process (power recovery process) for returning the gaming machine to the state before the power supply was cut off, based on the predetermined information, when the supply of power from the outside is started. and,
A display means (information display section 45z) that is composed of a plurality of display elements (segment light emitting section, CP light emitting section) and capable of displaying various information;
Inspection process execution means for executing an inspection process (lighting and blinking process) that is a process of operating the plurality of display elements constituting the display unit in a predetermined manner;
Equipped with
A gaming machine characterized in that the test processing execution means includes means for executing the test processing in response to execution of the return processing.

According to feature βL1, the inspection process is executed when the return process is executed, so the administrator or inspector of the gaming machine can perform an operation to cause the gaming machine to execute the recovery process (for example, by turning the power switch once). By performing an operation (turning it off and then turning it on again), it is possible to cause the gaming machine to execute the inspection process. Then, the administrator or the inspector can inspect whether there is any display element that does not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means.

[Feature βL2]
The gaming machine according to feature βL1,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The gaming machine characterized in that the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode.

According to feature βL2, the inspection process includes the process of controlling all of the plurality of display elements constituting the display means to be in the second display mode, so the administrator or inspector of the gaming machine can It is possible to check whether there is a display element that cannot be set to the second display mode due to a malfunction (for example, a light emitting part that does not light up due to a disconnection) among the plurality of display elements constituting the means.

[Feature βL3]
The gaming machine according to feature βL1 or feature βL2,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. Game machine.

According to feature βL3, since the testing process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode, the gaming machine The administrator or inspector shall determine whether any of the display elements constituting the display means are display elements that cannot be switched from the second display mode to the first display mode due to a malfunction (e.g., are constantly lit). It is possible to check whether there is a light-emitting part that does not turn off.

<Feature βM group>
The feature βM group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βM1]
Operation reception means for accepting operations from the outside (RAM clear button, keyhole for settings, button for changing settings);
processing execution means for executing one of the processing flows branched into a plurality of processing flows based on the operation mode accepted by the operation reception means when the supply of power from the outside is started;
A display means (information display section 45z) that is composed of a plurality of display elements (segment light emitting section, CP light emitting section) and capable of displaying various information;
A gaming machine comprising:
The processing execution means is a process for operating the plurality of display elements constituting the display means in a predetermined manner regardless of which processing flow out of the plurality of branched processing flows is executed. A gaming machine characterized by comprising means for executing inspection processing (lighting and blinking processing).

According to feature βM1, the inspection process is executed no matter which one of the plurality of branched process flows is executed. Even in the case where a certain operation mode is accepted, the gaming machine can be caused to execute the inspection process. Therefore, regardless of the operation mode accepted by the operation receiving means when the power supply is started, the administrator or inspector of the gaming machine should be aware that a predetermined error occurs due to a malfunction in the plurality of display elements constituting the display means. It is possible to check whether there are display elements that do not operate according to the mode. That is, it is possible to prevent the test from being impossible to perform depending on the operation mode accepted by the operation receiving means when power supply is started.

[Feature βM2]
The gaming machine according to feature βM1,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The gaming machine characterized in that the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode.

According to feature βM2, since the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode, the administrator or inspector of the gaming machine can It is possible to check whether there is a display element that cannot be set to the second display mode due to a malfunction (for example, a light emitting part that does not light up due to a disconnection) among the plurality of display elements constituting the means.

[Feature βM3]
The gaming machine according to feature βM1 or feature βM2,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. Game machine.

According to feature βM3, the testing process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode, so that the gaming machine The administrator or inspector shall determine whether any of the display elements constituting the display means are display elements that cannot be switched from the second display mode to the first display mode due to a malfunction (e.g., are constantly lit). It is possible to check whether there is a light-emitting part that does not turn off.

<Feature βN group>
The feature βN group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βN1]
a first processing group execution unit that executes a first processing group (processing from step S12001 to step S12028 in FIGS. 63 and 64) based on the start of external power supply;
a second processing group execution unit that repeatedly executes a second processing group (various processes included in timer interrupt processing, various random number updating processes, power outage monitoring processing) after the execution of the first processing group is completed;
A display means (information display section 45z) that is composed of a plurality of display elements (segment light emitting section, CP light emitting section) and capable of displaying various information;
A gaming machine comprising:
The first processing group execution means includes, as one process included in the first processing group, an inspection process (lighting and blinking) that is a process of operating the plurality of display elements constituting the display means in a predetermined manner. A gaming machine characterized by comprising means for executing (processing).

According to feature βN1, the first processing group including the inspection processing is executed based on the start of external power supply, and after the execution of the first processing group is finished, the second processing group is executed. Since the processing group is repeatedly executed, the test processing can be executed only once after the external power supply is started. If the test processing is included in the second processing group, the test processing will be repeatedly executed, increasing the processing load on the gaming machine. Furthermore, if the testing process is repeatedly executed, there is a risk that the period during which various information can be displayed on the display unit may become shorter. On the other hand, according to this feature, the inspection process can be executed only once after the external power supply starts, so it is possible to reduce the processing load on the gaming machine, and also to reduce the processing load on the gaming machine. The administrator or inspector of the machine can inspect whether there is any display element that does not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means.

[Feature βN2]
The gaming machine according to feature βN1,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The gaming machine characterized in that the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode.

According to feature βN2, since the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode, the administrator or inspector of the gaming machine can It is possible to check whether there is a display element that cannot be set to the second display mode due to a malfunction (for example, a light emitting part that does not light up due to a disconnection) among the plurality of display elements constituting the means.

[Feature βN3]
The gaming machine according to feature βN1 or feature βN2,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. Game machine.

According to feature βN3, the testing process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. The administrator or inspector shall determine whether any of the display elements constituting the display means are display elements that cannot be switched from the second display mode to the first display mode due to a malfunction (e.g., are constantly lit). It is possible to check whether there is a light-emitting part that does not turn off.

<Characteristic βO group>
The feature βO group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the first embodiment.

[Feature βO1]
A game progress processing execution means that executes game progress processing (ball entry detection processing included in timer interrupt processing, ball entry processing for starting opening, game round control processing, etc.) that is processing for enabling the game to proceed; ,
A display means (information display section 45z) that is composed of a plurality of display elements (segment light emitting section, CP light emitting section) and capable of displaying various information;
Inspection process execution means for executing an inspection process (lighting and blinking process) that is a process of operating the plurality of display elements constituting the display unit in a predetermined manner;
A gaming machine comprising:
A gaming machine characterized in that the inspection processing execution means includes means for executing the inspection processing after the supply of power from the outside is started and before execution of the game progress processing is started. .

According to feature βO1, the inspection process is executed after the supply of power from the outside is started and before the execution of the game progress process is started, so the administrator or inspector of the gaming machine can Before it is possible to proceed with the game on the machine, it is possible to check whether there is any display element that does not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means.

If a configuration is adopted in which the inspection process is executed after the execution of the game progress process is started, the player may be unable to complete the game before the administrator or inspector can inspect the display means. It is possible to start. In this case, after a player starts playing a game on a gaming machine, an administrator or an inspector may inspect the display means of the gaming machine and discover a defect in the display element of the display means. If the administrator or inspector discovers a defect in the display element of the display means of the gaming machine, it will be necessary to ask the player to suspend or stop playing in order to repair or replace the display means. . As a result, the player may experience strong discomfort.

In contrast, according to this feature, the administrator or inspector can inspect the display means of the gaming machine before the player can start playing on the gaming machine. , it is possible to prevent the player from feeling uncomfortable due to interruption or cancellation of the game.

[Feature βO2]
The gaming machine according to feature βO1,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The gaming machine characterized in that the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode.

According to feature βO2, since the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode, the administrator or inspector of the gaming machine can It is possible to check whether there is a display element that cannot be set to the second display mode due to a malfunction (for example, a light emitting part that does not light up due to a disconnection) among the plurality of display elements constituting the means.

[Feature βO3]
The gaming machine according to feature βO1 or feature βO2,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. Game machine.

According to feature βO3, the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. The administrator or inspector shall determine whether any of the display elements constituting the display means are display elements that cannot be switched from the second display mode to the first display mode due to a malfunction (e.g., are constantly lit). It is possible to check whether there is a light-emitting part that does not turn off.

<Characteristic βP group>
The feature βP group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βP1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
A display means (information display section 45z) that is composed of a plurality of display elements (segment light emitting section, CP light emitting section) and capable of displaying various information;
gaming history information display processing execution means for executing gaming history information display processing (gaming history processing included in timer interrupt processing), which is processing for displaying information corresponding to the gaming history information on the display means;
Inspection process execution means for executing an inspection process (lighting and blinking process) that is a process of operating the plurality of display elements constituting the display unit in a predetermined manner;
A gaming machine comprising:
The inspection process execution means includes means for executing the inspection process before information corresponding to the game history information is displayed on the display unit by executing the game history information display process. A gaming machine featuring:

According to feature βP1, since the inspection process is executed before the information corresponding to the gaming history information is displayed on the display means, the administrator or inspector of the gaming machine can check whether the gaming machine corresponds to the gaming history information. Before information is displayed on the display means, it can be checked whether there is any display element that does not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means. As a result, information corresponding to the gaming history information displayed on the display means can be displayed without realizing that there is a display element that does not operate normally due to a defect among the plurality of display elements that make up the display means. You can prevent yourself from checking it.

[Feature βP2]
The gaming machine according to feature βP1,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The gaming machine characterized in that the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode.

According to feature βP2, the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode, so that the administrator or inspector of the gaming machine can It is possible to check whether there is a display element that cannot be set to the second display mode due to a malfunction (for example, a light emitting part that does not light up due to a disconnection) among the plurality of display elements constituting the means.

[Feature βP3]
The gaming machine according to feature βP1 or feature βP2,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. Game machine.

According to feature βP3, the testing process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode, so that the gaming machine The administrator or inspector shall determine whether any of the display elements constituting the display means are display elements that cannot be switched from the second display mode to the first display mode due to a malfunction (e.g., are constantly lit). It is possible to check whether there is a light-emitting part that does not turn off.

<Feature βQ group>
The feature βQ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment.

[Feature βQ1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting an external operation;
a display means (information display section 45z) configured by a plurality of display elements (segment light emitting section, CP light emitting section) and capable of displaying setting information that is information regarding the setting of the winning probability during execution of the setting change mode;
Inspection process execution means for executing an inspection process (lighting and blinking process) that is a process of operating the plurality of display elements constituting the display unit in a predetermined manner;
A gaming machine comprising:
A gaming machine characterized in that the test processing execution means includes means for executing the test processing before the setting information is displayed on the display means by executing the setting change mode.

According to feature βQ1, the inspection process is executed before the setting information is displayed on the display means, so the administrator or inspector of the gaming machine can perform the inspection process before the setting information is displayed on the display means of the gaming machine. It is possible to check whether there is any display element that does not operate in a predetermined manner due to a malfunction among the plurality of display elements constituting the display means. As a result, the setting information displayed on the display means may be checked without realizing that among the plurality of display elements that constitute the display means, there is a display element that does not operate normally due to a defect. can be suppressed.

[Feature βQ2]
The gaming machine described in feature βQ1,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The gaming machine characterized in that the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode.

According to feature βQ2, since the inspection process includes a process of controlling all of the plurality of display elements constituting the display means to be in the second display mode, the administrator or inspector of the gaming machine can It is possible to check whether there is a display element that cannot be set to the second display mode due to a malfunction (for example, a light emitting part that does not light up due to a disconnection) among the plurality of display elements constituting the means.

[Feature βQ3]
The gaming machine according to feature βQ1 or feature βQ2,
Each of the plurality of display elements can have a first display mode (unlit state) and a second display mode (lit state) different from the first display mode,
The inspection process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. Game machine.

According to feature βQ3, the testing process includes a process of controlling all of the plurality of display elements constituting the display means to alternately repeat the first display mode and the second display mode. The administrator or inspector shall determine whether any of the display elements constituting the display means are display elements that cannot be switched from the second display mode to the first display mode due to a malfunction (e.g., are constantly lit). It is possible to check whether there is a light-emitting part that does not turn off.

Note that the inventions of the feature βL group to feature βQ group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic βR group>
The feature βR group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βR1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
Storage means (main side RAM 64) for storing predetermined identification information (setting change flag);
When the setting change mode is started, the identification information is set to a first state (ON), and when the setting change mode is ended, the identification information is set to a second state (OFF) different from the first state. identification information transition means for transitioning to;
A gaming machine comprising:
The storage means is capable of maintaining the state of the identification information even when power is cut off from the outside to the gaming machine,
The setting change mode execution means includes:
Perform a predetermined start operation (operation of turning on the power switch of the pachinko machine 10 while the setting key, frame release switch, and door release switch are all ON, and the RAM clear button is pressed). first starting means for starting the setting change mode based on the reception;
a second starting means for starting the setting change mode based on determining that the identification information is in the first state when power supply to the gaming machine is started from the outside;
A gaming machine characterized by comprising:

According to feature βR1, the first starting means starts the setting change mode based on reception of a predetermined starting operation, and the identification information transition means transfers the identification information to the first setting change mode when starting the setting change mode. state, and the identification information is transitioned to the second state when the setting change mode ends. The storage means is capable of maintaining the state of the identification information even when power is cut off from the outside to the gaming machine. Therefore, for example, if the power supply to the gaming machine is cut off while the setting change mode is being executed due to the power switch of the gaming machine being turned off or a power outage occurring, the information will be stored in the storage means. The identification information that is present is maintained in the first state.

According to this feature, the second starting means starts the setting change mode based on determining that the identification information is in the first state when power supply to the gaming machine is started from the outside. Let it start. In other words, according to this feature, when the power supply to the gaming machine is cut off while the settings change mode is being executed, and when the power supply to the gaming machine is restarted, the predetermined starting operation is performed. Even if it is not accepted, the setting change mode will be started.

Therefore, if the power supply to the gaming machine is cut off from the outside while the setting change mode is being executed, in order for the gaming machine to start the setting change mode again, the power supply to the gaming machine must be cut off. This saves the administrator the trouble of having to perform a predetermined start operation again after the restart.

Additionally, if the external power supply to the gaming machine is cut off while the settings change mode is being executed, the winning probability settings of the gaming machine may be in a state that is not intended by the administrator. However, according to this feature, when the power supply to the gaming machine is resumed from the outside, the setting change mode is started without the need for the gaming machine administrator to perform the prescribed start operation again. , it is possible to prevent the setting of the winning probability of the gaming machine from being overlooked while being in a state not intended by the administrator.

<Characteristic βS group>
The feature βS group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βS1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which setting information that is information regarding the setting of the winning probability is displayed, but the setting of the winning probability cannot be changed;
a storage means (main side RAM 64) for storing predetermined identification information (setting confirmation flag);
When the setting information display mode is started, the identification information is set to a first state (ON), and when the setting information display mode is ended, the identification information is set to a second state (ON) different from the first state. identification information transition means for transitioning to OFF);
A gaming machine comprising:
The storage means is capable of maintaining the state of the identification information even when power is cut off from the outside to the gaming machine,
The setting information display mode execution means includes:
Perform a predetermined start operation (operation of turning on the power switch of the pachinko machine 10 when the setting key, frame release switch, and door release switch are all ON, and the RAM clear button is not pressed). first starting means for starting the setting information display mode based on the reception;
a second starting means for starting the setting information display mode based on determining that the identification information is in the first state when power supply to the gaming machine is started from the outside;
A gaming machine characterized by comprising:

According to feature βS1, the first starting means starts the setting information display mode based on reception of a predetermined starting operation, and the identification information transition means changes the identification information to the first setting information display mode when starting the setting information display mode. 1 state, and the identification information is transitioned to a second state when the setting information display mode ends. The storage means is capable of maintaining the state of the identification information even when power is cut off from the outside to the gaming machine. Therefore, for example, if the power supply to the gaming machine is cut off while the setting information display mode is being executed due to the power switch of the gaming machine being turned off or a power outage occurring, the information will be stored in the storage means. The identified identification information is maintained in the first state.

According to this feature, the second starting means sets the setting information display mode based on determining that the identification information is in the first state when power supply to the gaming machine is started from the outside. start. In other words, according to this feature, when the power supply to the gaming machine is cut off while the setting information display mode is being executed, when the power supply to the gaming machine is restarted, the predetermined start Even if no operation is accepted, the setting information display mode will be started.

Therefore, if the power supply to the gaming machine is cut off from the outside while the setting information display mode is being executed, in order to have the gaming machine start the setting information display mode again, it is necessary to turn off the power to the gaming machine. This saves the administrator the trouble of having to perform a predetermined start operation again after the supply is resumed.

<Characteristic βT group>
The feature βT group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βT1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
A first memory that stores setting information that is information related to the setting of the winning probability, and is capable of maintaining the state of the setting information even when the external power supply is cut off. means (setting information storage area of the main side RAM 64);
a second storage means (update setting information storage area of the main side RAM 64) that stores change setting information (update setting information) that is information used during execution of the setting change mode;
a changing means capable of changing the changing setting information during execution of the setting changing mode;
A gaming machine comprising:
The second storage means includes means for storing information corresponding to the setting information as the changing setting information at the time of starting the setting change mode,
The changing means includes means for changing the changing setting information stored in the second storage means by accepting the predetermined changing operation,
The gaming machine characterized in that the first storage means includes means for storing information corresponding to the change setting information as the setting information when the setting change mode ends.

According to feature βT1, when the setting change mode is started, the second storage means stores information corresponding to the setting information as change setting information, and the change means receives a predetermined change operation so as to change the setting information. The changing setting information stored in the second storage means is changed, and the first storing means stores information corresponding to the changing setting information as setting information when the setting changing mode ends. Therefore, even if the external power supply is cut off while the settings change mode is being executed, the settings information stored in the first storage means will remain at the value before the settings change mode was started. can be maintained. As a result, it is possible to prevent the setting information of the winning probability of the gaming machine from becoming a value different from the value intended by the administrator due to the power supply from the outside being cut off while the setting change mode is being executed. be able to. This will be explained in detail below.

Suppose that a configuration is adopted in which configuration information for modification is not used during execution of the configuration change mode, and the configuration information stored in the first storage means is directly changed by accepting a predetermined modification operation. , if the external power supply is cut off while the setting change mode is being executed and the setting information is a value different from the value intended by the administrator of the gaming machine, the gaming machine The winning probability setting information ends up being a value different from the value intended by the administrator.

In contrast, according to the present feature, the setting information itself stored in the first storage means is not changed until the setting change mode ends, and the setting information for change stored in the second storage means is not changed. is changed, so if the external power supply is cut off while the setting change mode is being executed and the change setting information is a value different from the value intended by the administrator of the gaming machine. Even if there is, the setting information stored in the first storage means is maintained at the value before the setting change mode was started. Therefore, it is possible to prevent the setting information of the winning probability of the gaming machine from becoming a value different from the value intended by the administrator due to the power supply from the outside being cut off while the setting change mode is being executed. I can do it.

[Feature βT2]
The gaming machine according to feature βT1,
A gaming machine comprising: display means for displaying the change setting information stored in the second storage means during execution of the setting change mode.

According to feature βT2, the display means displays the change setting information stored in the second storage means while the setting change mode is being executed, so that the administrator can change the change settings displayed on the display means. Predetermined change operations can be performed while checking the information.

<Characteristic βU group>
The feature βU group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βU1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
Storage means for storing setting information that is information regarding the setting of the winning probability, the storage means being capable of maintaining the state of the setting information even when the supply of power from the outside is cut off ( (setting information storage area of the main side RAM 64),
a setting information determining unit that determines whether the setting information satisfies a predetermined condition when external power supply is started (executes the process of step S12007 in FIG. 65);
A game progress processing execution means that executes a game progress process (processing from step S12304 to step S12316 in FIG. 68), which is a process for progressing the game;
A gaming machine comprising:
When the setting information determining means determines that the setting information does not satisfy the predetermined condition (it is determined in step S12007 in FIG. 65 that the setting information is not within a predetermined range), A gaming machine characterized in that the game progress processing is not executed when the RAM abnormality flag is turned ON in step S12015.

According to feature βU1, the storage means maintains the state of the setting information even when the supply of power from the outside is cut off, and the game progress processing execution means starts supplying power from the outside. When the setting information is set, it is determined whether or not the setting information satisfies a predetermined condition, and if it is determined that the setting information does not satisfy the predetermined condition, a game progress process for advancing the game is not executed. Therefore, it is possible to prevent the game progress process from being executed while the setting information stored in the storage means does not satisfy the predetermined conditions, and problems occurring in the game progress in the gaming machine. . As a result, for example, it is possible to prevent unexpected losses from being caused to players and managers.

<Characteristic βV group>
The feature βV group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βV1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
A storage means that can store various information including setting information that is information regarding the setting of the winning probability, and is capable of maintaining the various information even when the external power supply is cut off. Storage means (main side RAM 64),
a setting information determining unit that determines whether the setting information satisfies a predetermined condition when external power supply is started (executes the process of step S12007 in FIG. 65);
Erase processing execution means for executing erasure processing (first RAM clear processing) for erasing all but the setting information among the various types of information stored in the storage means;
A gaming machine comprising:
The erasure processing execution means
Based on reception of a predetermined erasing operation (operation of turning on the power switch of the pachinko machine 10 while the setting key is OFF and the RAM clear button is pressed), the erasing process is performed. a means of carrying out the
If the setting information determining means determines that the setting information does not satisfy the predetermined condition (it is determined in step S12007 of FIG. 65 that the setting information is not within the predetermined range, and the RAM abnormality flag is turned ON in step S12015) ), means for not executing the erasing process even if the predetermined erasing operation is accepted;
A gaming machine characterized by comprising:

According to feature βV1, the storage means maintains the state of the setting information even when the supply of power from the outside is cut off, and the erasure processing execution means maintains the state of the setting information even when the supply of power from the outside is started. If it is determined that the setting information does not meet the predetermined conditions, the deletion process will be performed even if the predetermined deletion operation is accepted. Not executed. Therefore, it is possible to suppress the occurrence of problems caused by the deletion process being executed while the setting information does not satisfy the predetermined conditions. This will be explained in detail below.

If a configuration is adopted in which deletion processing is performed even if it is determined that the setting information does not satisfy a predetermined condition, for example, if the setting information is Even the information indicating that it has been determined that the condition is not met (for example, the RAM abnormality flag) is deleted, and even though the configuration information does not meet the specified condition, the configuration information may be deleted after the deletion process is executed. There is a possibility that a process (for example, a game progress process for progressing the game) that is based on the premise that a predetermined condition is satisfied is executed, resulting in a problem.

On the other hand, according to this feature, if it is determined that the setting information does not satisfy the predetermined conditions, the erasing process is not executed even if the predetermined erasing operation is accepted. It is possible to prevent the erasure process from being executed even though the predetermined condition is not met, and the process from being executed on the assumption that the setting information satisfies the predetermined condition. As a result, it is possible to suppress the occurrence of problems caused by the deletion process being executed while the setting information does not satisfy the predetermined conditions.

<Characteristic βW group>
The feature βW group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βW1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which setting information that is information regarding the setting of the winning probability is displayed, but the setting of the winning probability cannot be changed;
A storage means capable of storing various information including the setting information, and capable of maintaining the various information even when the power supply from the outside is cut off (main side RAM 64 settings) information storage area) and
a setting information determining unit that determines whether the setting information satisfies a predetermined condition when external power supply is started (executes the process of step S12007 in FIG. 65);
A gaming machine comprising:
The setting information display mode execution means includes:
Perform a predetermined start operation (operation of turning on the power switch of the pachinko machine 10 when the setting key, frame release switch, and door release switch are all ON, and the RAM clear button is not pressed). means for executing the setting information display mode based on the reception;
If the setting information determining means determines that the setting information does not satisfy the predetermined condition (it is determined in step S12007 of FIG. 65 that the setting information is not within the predetermined range, and the RAM abnormality flag is turned ON in step S12015) ), means for not executing the setting information display mode even if the predetermined start operation is accepted;
A gaming machine characterized by comprising:

According to feature βW1, the storage means maintains the state of various information including setting information even when the external power supply is cut off, and the setting information display mode execution means maintains the state of various information including the setting information. If it is determined that the predetermined condition is not satisfied, the setting information display mode is not executed even if a predetermined start operation is accepted. Therefore, it is possible to prevent the setting information display mode for displaying the setting information from being executed even though the setting information stored in the storage means does not satisfy the predetermined condition.

<Characteristic βX group>
The feature βX group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βX1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
A storage means that can store various information including setting information that is information regarding the setting of the winning probability, and is capable of maintaining the various information even when the external power supply is cut off. Storage means (main side RAM 64),
When the supply of power from the outside is cut off, a predetermined calculation is performed based on a predetermined information group stored in the storage means, and a first calculation result that is a result of the predetermined calculation is stored in the storage means. an arithmetic execution means (calculates a RAM judgment value in the power outage monitoring process and stores it in the main side RAM 64);
When external power supply is started, the predetermined calculation is executed based on the predetermined information group stored in the storage means, and a second calculation result that is the result of the predetermined calculation is obtained. , a computation result determination unit that determines whether or not the first computation result matches (executes the processing from step S12005 to step S12006 in FIG. 65);
a setting information determining unit that determines whether the setting information satisfies a predetermined condition when external power supply is started (executes the process of step S12007 in FIG. 65);
Based on the calculation result determination means determining that the second calculation result and the first calculation result match, and the setting information determination means determining that the setting information satisfies the predetermined condition. , a predetermined process execution means that executes a predetermined process (the process of steps S12304 to S12316 in FIG. 68, which is the process of advancing the game);
A gaming machine characterized by comprising:

According to feature βX1, the predetermined process execution means executes the predetermined process based on the fact that it is determined that the second calculation result and the first calculation result match, and that the setting information satisfies the predetermined condition. Execute. Therefore, it is possible to prevent a predetermined process from being executed even though the second calculation result and the first calculation result match, but the setting information does not satisfy the predetermined condition. . As a result, it is possible to suppress the occurrence of a problem caused by a predetermined process being executed even though the setting information does not satisfy a predetermined condition. This will be explained in detail below.

If the second calculation result and the first calculation result match, the contents of the predetermined information group stored in the storage means when external power supply was started and the previous power supply are There is a high possibility that the content of the predetermined information group stored in the storage means at the time of the disconnection is the same as that of the predetermined information group stored in the storage means when the power supply from the outside is cut off. It is highly likely that it was maintained normally even under the current conditions. However, even if the predetermined information group stored in the storage means is not maintained normally, the second calculation result and the first calculation result may coincidentally coincide.

Therefore, if a configuration is adopted in which it is determined whether the second calculation result and the first calculation result match, but it is not determined whether the setting information satisfies a predetermined condition, the setting information Even if the second calculation result and the first calculation result do not satisfy the predetermined condition, there is a possibility that the second calculation result coincides with the first calculation result and the predetermined process is executed. If the predetermined process includes, for example, a process that allows the game to proceed, there is a risk that a fatal problem will occur in the game's progress.

In contrast, according to the present feature, the predetermined process is performed based on the fact that it is determined that the second calculation result and the first calculation result match, and that the setting information satisfies the predetermined condition. In other words, the predetermined process is not executed in a state where the second calculation result and the first calculation result match but the setting information does not satisfy the predetermined condition. Therefore, it is possible to prevent a predetermined process from being executed even though the second calculation result and the first calculation result match, but the setting information does not satisfy the predetermined condition. . As a result, it is possible to suppress the occurrence of a problem caused by a predetermined process being executed even though the setting information does not satisfy a predetermined condition.

<Characteristic βY group>
The feature βY group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the first embodiment (for example, aspect 100).

[Feature βY1]
a ball entry section into which a game ball can enter;
Lottery processing execution means for executing a predetermined lottery processing based on the entry of the game ball into the ball entry section;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
By accepting a predetermined operation (operation of inserting a setting key into a setting keyhole and turning it), the first state (OFF side state) is changed to a second state (different from the first state). an operation reception means (keyhole for setting) that can be shifted to the ON side state);
A gaming machine comprising:
The setting change mode execution means includes:
Based on detecting a transition of the operation reception means from the second state to the first state (an OFF edge falling from an ON state to an OFF state) during execution of the setting change mode. A gaming machine comprising: a termination means for terminating the setting change mode.

According to feature βY1, the setting change mode executing means terminates the setting change mode based on detecting a transition of the operation reception means from the second state to the first state while the setting change mode is being executed. Therefore, it is possible to avoid ending the setting change mode immediately after starting it. This will be explained in detail below.

For example, the first starting condition includes that the operation reception means is in the second state (for example, the setting key (keyhole), the frame release switch, and the door release switch are all ON, and the RAM clear button is is pressed and the power switch of the pachinko machine 10 is turned ON), and the second state is determined regardless of whether the operation reception means is in the second state In a configuration in which the settings change mode is started when the start condition (for example, the settings change flag is ON when the power is turned on) is satisfied, if the configuration differs from this feature, the operation reception means A case will be described in which a configuration is adopted in which the setting change mode is ended when it is detected that the device is in the first state. When this configuration is adopted, if the setting change mode is started based on the establishment of the first start condition including that the operation reception means is in the second state, the operation reception means is in the second state. The setting change mode continues until the state changes from to to the first state. However, if the setting change mode is started based on the establishment of the second start condition regardless of whether or not the operation reception means is in the second state, the operation reception means remains set in the first state. A change mode may also be initiated. In this case, immediately after the setting change mode is started, it is detected that the operation accepting means is in the first state, and the setting change mode ends. That is, the setting change mode ends immediately after starting, making it difficult to change the winning probability setting in the setting change mode.

On the other hand, according to the present feature, the setting change mode is terminated based on the detection of the transition from the second state to the first state of the operation receiving means. Even if the setting change mode is started due to the establishment of , and even if the setting change mode is started with the operation reception means in the first state, the administrator of the gaming machine etc. may change the operation reception means to the first state. The setting change mode continues until the first state is shifted to the second state and the second state is shifted again to the first state. Therefore, even if the setting change mode is started while the operation receiving means is in the first state, it is possible to avoid the setting change mode from ending immediately after the setting change mode is started. . As a result, it is possible to prevent the setting change mode from ending immediately after starting, making it difficult to change the winning probability setting.

Furthermore, according to this feature, even if the setting change mode is started due to the establishment of the second start condition, only the person who can shift the state of the operation receiving means can end the setting change mode. I can do it. Therefore, the security of the gaming machine can be improved.

[Feature βY2]
The gaming machine according to feature βY1,
The setting change mode execution means includes:
A first step of starting the setting change mode based on the satisfaction of a first start condition including that the operation receiving means is in the second state (the keyhole for setting is in the ON state). 1 starting means;
The setting change mode is activated based on a second start condition (setting change in progress flag being ON when the power is turned on) irrespective of whether or not the operation accepting means is in the second state. a second starting means for starting;
A gaming machine characterized by comprising:

According to feature βY2, the first starting means starts the setting change mode based on the first starting condition including that the operation accepting means is in the second state, and the second starting means: A setting change mode is started based on the satisfaction of a second start condition regardless of whether or not the operation reception means is in the second state. Therefore, the setting change mode can be started not only when the operation reception means is in the second state but also when the operation reception means is not in the second state.

Note that the inventions of the feature βR group to feature βY group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic βZ group>
The feature βZ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature βZ1]
A gaming machine,
Timekeeping information update means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even in a power outage state where the external power supply to the gaming machine is cut off. 97b1) and
Start-up time information storage means (RTC 97) capable of storing the clock information as start-up time information (start-up date and time information), and capable of retaining the stored start-up time information even during the power-off state. startup time information storage area 97b2);
The startup time information storage means acquires the clock information from the clock information update means based on the start of external power supply to the gaming machine, and uses the acquired clock information as the startup time information. storage processing execution means for performing storage processing, which is processing for storing data in the memory;
an elapsed time calculation means for calculating an elapsed time since the storage process was executed based on the startup time information;
a predetermined process execution means for executing a predetermined process (RTC performance) based on the elapsed time;
Based on the start of external power supply to the gaming machine, multiple types of startup processing with different processing contents (startup processing including the process of sending the normal startup command in Figure 70, setting change mode a startup process including execution of a startup process, a startup process including execution of a settings confirmation mode, etc.);
Equipped with
The storage processing execution means is configured to determine that the type of the startup processing executed by the startup processing execution means is a specific startup processing among the plurality of startup processings (startup processing including execution of a settings change mode, execution of a settings confirmation mode, etc.). A game machine comprising an avoidance means for avoiding execution of the storage process when the storage process is executed (startup process, etc.).

Prior to explaining the effect of feature βZ1, a gaming hall in which a plurality of gaming machines are installed will be explained. Generally, in a game hall, power supply to a plurality of game machines is started all at once (simultaneously). Specifically, for example, if a plurality of gaming machines are installed in so-called island equipment with their respective power switches turned on, and the power switch of the island equipment (hereinafter also referred to as island power switch) is turned on. When this is done, the supply of power is started all at once (simultaneously) to the plurality of gaming machines installed in the island facility.

Based on the operation of the gaming machine in the gaming hall explained above, the gaming machine of feature βZ1 acquires clock information from the timing information updating means based on the start of external power supply to the gaming machine. Then, a storage process is executed in which the acquired clock information is stored in the startup time information storage means as startup time information. Then, based on the startup time information stored in the startup time information storage means, the elapsed time since the storage process was executed is calculated, and a predetermined process is executed based on the calculated elapsed time. The effects of adopting this configuration will be explained.

Suppose that a configuration (e.g., , a configuration in which a predetermined effect is started at the timing when the time included in the clock information reaches 11:00:00) will be described. In this configuration, if there is a discrepancy in the time included in the timing information of each gaming machine installed on the island facility (for example, at a certain moment, the time included in the timing information of gaming machine A is 11 00 minutes 00 seconds and the time included in the clock information of gaming machine B is 10:59 minutes 52 seconds), the timing at which the predetermined process (predetermined performance) starts is set for each game. This varies from machine to machine, giving a sense of discomfort to players who were expecting a certain process (predetermined performance) to start all at once (at the same time) on all the gaming machines installed on the island facility. There are challenges.

On the other hand, according to this feature, each gaming machine installed in the island facility receives timing information from the timing information updating means based on the start of external power supply to the gaming machine. and executes a storage process in which the acquired clock information is stored in the startup time information storage means as startup time information.
Therefore, for example, when the administrator of a gaming hall turns on the island power switch, power supply will start all at once (simultaneously) to multiple gaming machines installed in the island equipment, and Each of the gaming machines that are installed executes storage processing all at once (simultaneously).

According to this feature, each gaming machine installed in the island equipment calculates the elapsed time since the storage process was executed based on the startup time information stored in the startup time information storage means. . As mentioned above, each gaming machine installed on the island facility executes storage processing all at once (simultaneously), so the elapsed time calculated for each gaming machine after the storage processing was executed is different from each gaming machine. Even if there is a difference in the times included in the timekeeping information of the gaming machine, the times will be the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so the mode of execution of the predetermined process executed in each gaming machine is can be the same. Specifically, for example, if a configuration is adopted in which a specific performance is started when the elapsed time reaches a predetermined time, each gaming machine installed on the island facility will simultaneously (simultaneously) start a specific performance. It becomes possible to start.

Furthermore, the gaming machine of this feature includes a startup time information storage means that can retain the stored startup time information even during a power outage state, and a startup process in which a plurality of types of startup processing are executed by the startup processing execution means. and an avoidance means for avoiding execution of the storage process in the case of a specific startup process. The effects of adopting this configuration will be explained.

A case where a configuration without the above-mentioned avoidance means is adopted will be described. In this configuration, when power supply starts to all the gaming machines installed on the island equipment all at once (at the same time), all the gaming machines installed on the island equipment will all be able to store data at the same time (simultaneously). Execute processing. Thereafter, the administrator of the gaming hall may cause one of the gaming machines installed in the island facility to execute a specific startup process (for example, a startup process that includes execution of a settings change mode). After turning off the power switch of the first gaming machine, the first gaming machine is placed in a state where a specific startup process is executed, and the power switch of the first gaming machine is turned on to perform the specific startup process. It may be executed. In this case, the first gaming machine executes the storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the elapsed time calculated for that one gaming machine will be different from the elapsed time calculated for the other gaming machine, and the timing at which a predetermined process (predetermined performance) will start on that one gaming machine will be different. However, there is a problem in that the start timing of a predetermined process (predetermined performance) differs from that of other gaming machines, giving a player who is playing a game on the same gaming machine a sense of discomfort.

On the other hand, according to the present feature, even if the manager of the gaming hall turns off the power switch of the gaming machine concerned and the power is cut off, the startup time information storage means of the gaming machine concerned does not store the information. The startup time information is retained. After that, when the administrator turns on the power switch of the first gaming machine in a state where a specific startup process is executed, the specific startup process is executed in the first gaming machine and the execution of the storage process is avoided. Therefore, the startup time information stored in the startup time information storage means of the gaming machine in question is not overwritten, and the storage process is executed when power supply is started simultaneously with other gaming machines. The startup time information stored in is maintained. As a result, the elapsed time calculated for each gaming machine installed in the island facility including the one gaming machine becomes the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so if the power switch is turned off and then turned on again, The mode of execution of the predetermined process executed in each gaming machine installed in the island facility including the gaming machine can be made the same. Specifically, for example, if a configuration is adopted in which a specific effect is started when the elapsed time reaches a predetermined time, this includes a gaming machine whose power switch is turned off and then turned on again. It becomes possible to start a specific performance all at once (at the same time) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Characteristic γA group>
The feature γA group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γA1]
A gaming machine,
Timekeeping information update means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even in a power outage state where the external power supply to the gaming machine is cut off. 97b1) and
Start-up time information storage means (RTC 97) capable of storing the clock information as start-up time information (start-up date and time information), and capable of retaining the stored start-up time information even during the power-off state. startup time information storage area 97b2);
The startup time information storage means acquires the clock information from the clock information update means based on the start of external power supply to the gaming machine, and uses the acquired clock information as the startup time information. storage processing execution means for performing storage processing, which is processing for storing data in the memory;
an elapsed time calculation means for calculating an elapsed time since the storage process was executed based on the startup time information;
a predetermined process execution means for executing a predetermined process (RTC performance) based on the elapsed time;
an operation reception means (keyhole for setting) that accepts a predetermined operation;
Equipped with
The memory processing execution means is an avoidance means for avoiding execution of the memory processing if the operation reception means has accepted the predetermined operation when external power supply to the gaming machine is started. A gaming machine characterized by comprising:

Prior to explaining the effect of feature γA1, a gaming hall in which a plurality of gaming machines are installed will be explained. Generally, in a game hall, power supply to a plurality of game machines is started all at once (simultaneously). Specifically, for example, if a plurality of gaming machines are installed in so-called island equipment with their respective power switches turned on, and the power switch of the island equipment (hereinafter also referred to as island power switch) is turned on. When this is done, the supply of power is started all at once (simultaneously) to the plurality of gaming machines installed in the island facility.

Based on the above-described operation of gaming machines in gaming halls, the gaming machine of feature γA1 acquires timekeeping information from the timing information updating means based on the start of external power supply to the gaming machine. Then, a storage process is executed in which the acquired clock information is stored in the startup time information storage means as startup time information. Then, based on the startup time information, the elapsed time since the storage process was executed is calculated, and a predetermined process is executed based on the calculated elapsed time. The effects of adopting this configuration will be explained.

Suppose that a configuration (e.g., , a configuration in which a predetermined effect is started at the timing when the time included in the clock information reaches 11:00:00) will be described. In this configuration, if there is a discrepancy in the time included in the timing information of each gaming machine installed on the island facility (for example, at a certain moment, the time included in the timing information of gaming machine A is 11 00 minutes 00 seconds and the time included in the clock information of gaming machine B is 10:59 minutes 52 seconds), the timing at which the predetermined process (predetermined performance) starts is set for each game. This varies from machine to machine, giving a sense of discomfort to players who were expecting a certain process (predetermined performance) to start all at once (at the same time) on all the gaming machines installed on the island facility. There are challenges.

On the other hand, according to this feature, each gaming machine installed in the island facility receives timing information from the timing information updating means based on the start of external power supply to the gaming machine. and executes a storage process in which the acquired clock information is stored in the startup time information storage means as startup time information. Therefore, for example, when the administrator of a gaming hall turns on the island power switch, power supply will start all at once (simultaneously) to multiple gaming machines installed in the island equipment, and Each of the gaming machines that are installed executes storage processing all at once (simultaneously).

According to this feature, each gaming machine installed in the island equipment calculates the elapsed time since the storage process was executed based on the startup time information stored in the startup time information storage means. . As mentioned above, each gaming machine installed on the island facility executes storage processing all at once (simultaneously), so the elapsed time calculated for each gaming machine after the storage processing was executed is different from each gaming machine. Even if there is a difference in the times included in the timekeeping information of the gaming machine, the times will be the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so the mode of execution of the predetermined process executed in each gaming machine is can be the same. Specifically, for example, if a configuration is adopted in which a specific performance is started when the elapsed time reaches a predetermined time, each gaming machine installed on the island facility will simultaneously (simultaneously) start a specific performance. It becomes possible to start.

Furthermore, the gaming machine of this feature has a startup time information storage means that can retain the stored startup time information even during a power outage state, and a startup time information storage means that can retain the stored startup time information even during a power outage state, and when the external power supply to the gaming machine is started. and avoidance means for avoiding execution of the storage process when the operation reception means has accepted a predetermined operation. The effects of adopting this configuration will be explained.

A case where a configuration without the above-mentioned avoidance means is adopted will be described. In this configuration, when power supply starts to all the gaming machines installed on the island equipment all at once (at the same time), all the gaming machines installed on the island equipment will all be able to store data at the same time (simultaneously). Execute processing. After that, the manager of the gaming hall temporarily turns off the power switch of one of the multiple gaming machines installed in the island facility for various reasons, and then turns that one gaming machine into a designated location. The power switch of the gaming machine may be turned on while the gaming machine is in a state where the operation of the gaming machine is accepted. In this case, the first gaming machine executes the storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the elapsed time calculated for that one gaming machine will be different from the elapsed time calculated for the other gaming machine, and the timing at which a predetermined process (predetermined performance) will start on that one gaming machine will be different. However, there is a problem in that the start timing of a predetermined process (predetermined performance) differs from that of other gaming machines, giving a player who is playing a game on the same gaming machine a sense of discomfort.

On the other hand, according to the present feature, even if the manager of the gaming hall turns off the power switch of the gaming machine concerned and the power is cut off, the startup time information storage means of the gaming machine concerned does not store the information. The startup time information is retained. After that, if the administrator turns on the power switch while leaving the first gaming machine in a state where it accepts a predetermined operation, execution of the storage process is avoided, so the startup time information storage means of the first gaming machine is saved. The stored startup time information is not overwritten, and the startup time information stored in a storage process executed when power supply to other gaming machines is started all at once (at the same time) is maintained. As a result, the elapsed time calculated for each gaming machine installed in the island facility including the one gaming machine becomes the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so if the power switch is turned off and then turned on again, The mode of execution of the predetermined process executed in each gaming machine installed in the island facility including the gaming machine can be made the same. Specifically, for example, if a configuration is adopted in which a specific effect is started when the elapsed time reaches a predetermined time, this includes a gaming machine whose power switch is turned off and then turned on again. It becomes possible to start a specific performance all at once (at the same time) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Characteristic γB group>
The feature γB group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γB1]
A gaming machine,
A ball entry means into which a game ball can enter;
lottery processing execution means for executing a predetermined lottery processing based on the entry of game balls into the ball entry means;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
Timekeeping information update means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even in a power outage state where the external power supply to the gaming machine is cut off. 97b1) and
Start-up time information storage means (RTC 97) capable of storing the clock information as start-up time information (start-up date and time information), and capable of retaining the stored start-up time information even during the power-off state. startup time information storage area 97b2);
The startup time information storage means acquires the clock information from the clock information update means based on the start of external power supply to the gaming machine, and uses the acquired clock information as the startup time information. storage processing execution means for performing storage processing, which is processing for storing data in the memory;
an elapsed time calculation means for calculating an elapsed time since the storage process was executed based on the startup time information;
a predetermined process execution means for executing a predetermined process (RTC performance) based on the elapsed time;
Equipped with
The setting change mode execution means includes:
a determining means for determining whether a predetermined starting condition is satisfied when external power supply to the gaming machine is started;
Setting change mode starting means for starting the setting change mode based on the establishment of the predetermined start condition;
Equipped with
The gaming machine characterized in that the storage processing execution means includes avoidance means for avoiding execution of the storage processing when the setting change mode is started.

Prior to explaining the effect of feature γB1, a gaming hall in which a plurality of gaming machines are installed will be explained. Generally, in a game hall, power supply to a plurality of game machines is started all at once (simultaneously). Specifically, for example, if a plurality of gaming machines are installed in so-called island equipment with their respective power switches turned on, and the power switch of the island equipment (hereinafter also referred to as island power switch) is turned on. When this is done, the supply of power is started all at once (simultaneously) to the plurality of gaming machines installed in the island facility.

Based on the operation of the gaming machine in the gaming hall explained above, the gaming machine of feature γB1 acquires timing information from the timing information updating means based on the start of external power supply to the gaming machine. Then, a storage process is executed in which the acquired clock information is stored in the startup time information storage means as startup time information. Then, based on the startup time information, the elapsed time since the storage process was executed is calculated, and a predetermined process is executed based on the calculated elapsed time. The effects of adopting this configuration will be explained.

Suppose that a configuration (e.g., , a configuration in which a predetermined effect is started at the timing when the time included in the clock information reaches 11:00:00) will be described. In this configuration, if there is a discrepancy in the time included in the timing information of each gaming machine installed on the island facility (for example, at a certain moment, the time included in the timing information of gaming machine A is 11 00 minutes 00 seconds and the time included in the clock information of gaming machine B is 10:59 minutes 52 seconds), the timing at which the predetermined process (predetermined performance) starts is set for each game. This varies from machine to machine, giving a sense of discomfort to players who were expecting a certain process (predetermined performance) to start all at once (at the same time) on all the gaming machines installed on the island facility. There are challenges.

On the other hand, according to this feature, each gaming machine installed in the island facility receives timing information from the timing information updating means based on the start of external power supply to the gaming machine. and executes a storage process in which the acquired clock information is stored in the startup time information storage means as startup time information.
Therefore, for example, when the administrator of a gaming hall turns on the island power switch, power supply will start all at once (simultaneously) to multiple gaming machines installed in the island equipment, and Each of the gaming machines that are installed executes storage processing all at once (simultaneously).

According to this feature, each gaming machine installed in the island equipment calculates the elapsed time since the storage process was executed based on the startup time information stored in the startup time information storage means. . As mentioned above, each gaming machine installed on the island facility executes storage processing all at once (simultaneously), so the elapsed time calculated for each gaming machine after the storage processing was executed is different from each gaming machine. Even if there is a difference in the times included in the timekeeping information of the gaming machine, the times will be the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so the mode of execution of the predetermined process executed in each gaming machine is can be the same. Specifically, for example, if a configuration is adopted in which a specific performance is started when the elapsed time reaches a predetermined time, each gaming machine installed on the island facility will simultaneously (simultaneously) start a specific performance. It becomes possible to start.

Furthermore, the game machine with this feature includes a startup time information storage means that can retain stored startup time information even during a power outage state, and avoids executing storage processing when a setting change mode is started. and avoidance means. The effects of adopting this configuration will be explained.

A case where a configuration without the above-mentioned avoidance means is adopted will be described. In this configuration, when power supply starts to all the gaming machines installed on the island equipment all at once (at the same time), all the gaming machines installed on the island equipment will all be able to store data at the same time (simultaneously). Execute processing. After that, the administrator of the gaming hall turns on the power to one of the gaming machines installed in the island facility in order to execute the setting change mode and change the setting of the winning probability of the gaming machine. After the switch is once turned off, the power switch of the one gaming machine may be turned on to start the setting changing mode with the start condition for starting the setting changing mode of the gaming machine being satisfied. In this case, the first gaming machine executes the storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the elapsed time calculated for that one gaming machine will be different from the elapsed time calculated for the other gaming machine, and the timing at which a predetermined process (predetermined performance) will start on that one gaming machine will be different. However, there is a problem in that the start timing of a predetermined process (predetermined performance) differs from that of other gaming machines, giving a player who is playing a game on the same gaming machine a sense of discomfort.

On the other hand, according to the present feature, even if the manager of the gaming hall turns off the power switch of the gaming machine concerned and the power is cut off, the startup time information storage means of the gaming machine concerned does not store the information. The startup time information is retained. After that, when the administrator turns on the power switch after satisfying the start conditions for starting the settings change mode on the first game machine, the first game machine starts the settings change mode and executes the storage process. Therefore, the startup time information stored in the startup time information storage means of the gaming machine concerned is not overwritten, and the processing is executed when power supply to other gaming machines is started simultaneously (at the same time). The startup time information stored in the storage process is maintained. As a result, the elapsed time calculated for each gaming machine installed in the island facility including the one gaming machine becomes the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so if the power switch is turned off and then turned on again, The mode of execution of the predetermined process executed in each gaming machine installed in the island facility including the gaming machine can be made the same. Specifically, for example, if a configuration is adopted in which a specific effect is started when the elapsed time reaches a predetermined time, this includes a gaming machine whose power switch is turned off and then turned on again. It becomes possible to start a specific performance all at once (at the same time) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Characteristic γC group>
The feature γC group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γC1]
A gaming machine,
A ball entry means into which a game ball can enter;
lottery processing execution means for executing a predetermined lottery processing based on the entry of game balls into the ball entry means;
Setting change mode execution means for executing a setting change mode in which the winning probability setting in the predetermined lottery process can be changed by accepting a predetermined change operation (operation of pressing a setting change button) from the outside;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which setting information that is information regarding the setting of the winning probability is displayed, but the setting of the winning probability cannot be changed;
Timekeeping information update means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even in a power outage state where the external power supply to the gaming machine is cut off. 97b1) and
Start-up time information storage means (RTC 97) capable of storing the clock information as start-up time information (start-up date and time information), and capable of retaining the stored start-up time information even during the power-off state. startup time information storage area 97b2);
The startup time information storage means acquires the clock information from the clock information update means based on the start of external power supply to the gaming machine, and uses the acquired clock information as the startup time information. storage processing execution means for performing storage processing, which is processing for storing data in the memory;
an elapsed time calculation means for calculating an elapsed time since the storage process was executed based on the startup time information;
a predetermined process execution means for executing a predetermined process (RTC performance) based on the elapsed time;
Equipped with
The setting information display mode execution means includes:
a determining means for determining whether a predetermined starting condition is satisfied when external power supply to the gaming machine is started;
Setting information display mode starting means for starting the setting information display mode based on the establishment of the predetermined starting condition;
Equipped with
A gaming machine characterized in that the storage processing execution means includes avoidance means for avoiding execution of the storage processing when the setting information display mode is started.

Prior to explaining the effect of feature γC1, a gaming hall in which a plurality of gaming machines are installed will be explained. Generally, in a game hall, power supply to a plurality of game machines is started all at once (simultaneously). Specifically, for example, if a plurality of gaming machines are installed in so-called island equipment with their respective power switches turned on, and the power switch of the island equipment (hereinafter also referred to as island power switch) is turned on. When this is done, the supply of power is started all at once (simultaneously) to the plurality of gaming machines installed in the island facility.

Based on the operation of the gaming machine in the gaming hall explained above, the gaming machine of feature γC1 acquires timekeeping information from the timing information updating means based on the start of external power supply to the gaming machine. Then, a storage process is executed in which the acquired clock information is stored in the startup time information storage means as startup time information. Then, based on the startup time information, the elapsed time since the storage process was executed is calculated, and a predetermined process is executed based on the calculated elapsed time. The effects of adopting this configuration will be explained.

Suppose that a configuration (e.g., , a configuration in which a predetermined effect is started at the timing when the time included in the clock information reaches 11:00:00) will be described. In this configuration, if there is a discrepancy in the time included in the timing information of each gaming machine installed on the island facility (for example, at a certain moment, the time included in the timing information of gaming machine A is 11 00 minutes 00 seconds and the time included in the clock information of gaming machine B is 10:59 minutes 52 seconds), the timing at which the predetermined process (predetermined performance) starts is set for each game. This varies from machine to machine, giving a sense of discomfort to players who were expecting a certain process (predetermined performance) to start all at once (at the same time) on all the gaming machines installed on the island facility. There are challenges.

On the other hand, according to this feature, each gaming machine installed in the island facility receives timing information from the timing information updating means based on the start of external power supply to the gaming machine. and executes a storage process in which the acquired clock information is stored in the startup time information storage means as startup time information.
Therefore, for example, when the administrator of a gaming hall turns on the island power switch, power supply will start all at once (simultaneously) to multiple gaming machines installed in the island equipment, and Each of the gaming machines that are installed executes storage processing all at once (simultaneously).

According to this feature, each gaming machine installed in the island equipment calculates the elapsed time since the storage process was executed based on the startup time information stored in the startup time information storage means. . As mentioned above, each gaming machine installed on the island facility executes storage processing all at once (simultaneously), so the elapsed time calculated for each gaming machine after the storage processing was executed is different from each gaming machine. Even if there is a difference in the times included in the timekeeping information of the gaming machine, the times will be the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so the mode of execution of the predetermined process executed in each gaming machine is can be the same. Specifically, for example, if a configuration is adopted in which a specific performance is started when the elapsed time reaches a predetermined time, each gaming machine installed on the island facility will simultaneously (simultaneously) start a specific performance. It becomes possible to start.

Furthermore, the game machine of this feature includes a startup time information storage means that can retain the stored startup time information even during a power outage state, and a startup time information storage means that can perform storage processing when the setting information display mode is started. and an avoidance means to avoid it. The effects of adopting this configuration will be explained.

A case where a configuration without the above-mentioned avoidance means is adopted will be described. In this configuration, when power supply starts to all the gaming machines installed on the island equipment all at once (at the same time), all the gaming machines installed on the island equipment will all be able to store data at the same time (simultaneously). Execute processing. After that, the administrator of the gaming hall executes the setting information display mode and checks the setting of the winning probability of the gaming machine by checking one of the gaming machines installed in the island facility. After the power switch is turned OFF, the start condition for starting the setting information display mode on the first gaming machine is satisfied, and then the power switch of the first gaming machine is turned ON to start the setting information display mode. There is. In this case, the first gaming machine executes the storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the elapsed time calculated for that one gaming machine will be different from the elapsed time calculated for the other gaming machine, and the timing at which a predetermined process (predetermined performance) will start on that one gaming machine will be different. However, there is a problem in that the start timing of a predetermined process (predetermined performance) differs from that of other gaming machines, giving a player who is playing a game on the same gaming machine a sense of discomfort.

On the other hand, according to the present feature, even if the manager of the gaming hall turns off the power switch of the gaming machine concerned and the power is cut off, the startup time information storage means of the gaming machine concerned does not store the information. The startup time information is retained. After that, when the administrator turns on the power switch with the start condition for starting the setting information display mode on the first gaming machine, the setting information display mode starts on the first gaming machine and the storage process is performed. Since the execution is avoided, the startup time information stored in the startup time information storage means of the one gaming machine is not overwritten, and when power supply is started at the same time as the other gaming machines. The startup time information stored in the executed storage process is maintained. As a result, the elapsed time calculated for each gaming machine installed in the island facility including the one gaming machine becomes the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so if the power switch is turned off and then turned on again, The mode of execution of the predetermined process executed in each gaming machine installed in the island facility including the gaming machine can be made the same. Specifically, for example, if a configuration is adopted in which a specific effect is started when the elapsed time reaches a predetermined time, this includes a gaming machine whose power switch is turned off and then turned on again. It becomes possible to start a specific performance all at once (at the same time) in each gaming machine installed in the island facility. As a result, it is possible to improve the interest of the game.

<Characteristic γD group>
The feature γD group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 102 of the first embodiment.

[Feature γD1]
A gaming machine,
Timekeeping information update means (timekeeping register of RTC97) that can update timekeeping information (current date and time information) including information that can specify the time even in a power outage state where the external power supply to the gaming machine is cut off. 97b1) and
Start-up time information storage means (RTC 97) capable of storing the clock information as start-up time information (start-up date and time information), and capable of retaining the stored start-up time information even during the power-off state. startup time information storage area 97b2);
The startup time information storage means acquires the clock information from the clock information update means based on the start of external power supply to the gaming machine, and uses the acquired clock information as the startup time information. storage processing execution means for performing storage processing, which is processing for storing data in the memory;
an elapsed time calculation means for calculating an elapsed time since the storage process was executed based on the startup time information;
a predetermined process execution means for executing a predetermined process (RTC performance) based on the elapsed time;
Equipped with
The storage processing execution means stores the time included in the timekeeping information in the timekeeping information updating means in the startup time information storage means when external power supply to the gaming machine is started. A game machine comprising an avoidance means for avoiding execution of the storage process if a predetermined time (30 minutes) has not elapsed since the time included in the start time information.

Prior to explaining the effect of feature γD1, a gaming hall in which a plurality of gaming machines are installed will be explained. Generally, in a game hall, power supply to a plurality of game machines is started all at once (simultaneously). Specifically, for example, if a plurality of gaming machines are installed in so-called island equipment with their respective power switches turned on, and the power switch of the island equipment (hereinafter also referred to as island power switch) is turned on. When this is done, the supply of power is started all at once (simultaneously) to the plurality of gaming machines installed in the island facility.

Based on the above-described operation of the gaming machine in the gaming hall, the gaming machine of feature γD1 acquires timekeeping information from the timing information updating means based on the start of external power supply to the gaming machine. Then, a storage process is executed in which the acquired clock information is stored in the startup time information storage means as startup time information. Then, based on the startup time information, the elapsed time since the storage process was executed is calculated, and a predetermined process is executed based on the calculated elapsed time. The effects of adopting this configuration will be explained.

Suppose that a configuration (e.g., , a configuration in which a predetermined effect is started at the timing when the time included in the clock information reaches 11:00:00) will be described. In this configuration, if there is a discrepancy in the time included in the timing information of each gaming machine installed on the island facility (for example, at a certain moment, the time included in the timing information of gaming machine A is 11 00 minutes 00 seconds and the time included in the clock information of gaming machine B is 10:59 minutes 52 seconds), the timing at which the predetermined process (predetermined performance) starts is set for each game. This varies from machine to machine, giving a sense of discomfort to players who were expecting a certain process (predetermined performance) to start all at once (at the same time) on all the gaming machines installed on the island facility. There are challenges.

On the other hand, according to this feature, each gaming machine installed in the island facility receives timing information from the timing information updating means based on the start of external power supply to the gaming machine. and executes a storage process in which the acquired clock information is stored in the startup time information storage means as startup time information.
Therefore, for example, when the administrator of a gaming hall turns on the island power switch, power supply will start all at once (simultaneously) to multiple gaming machines installed in the island equipment, and Each of the gaming machines that are installed executes storage processing all at once (simultaneously).

According to this feature, each gaming machine installed in the island equipment calculates the elapsed time since the storage process was executed based on the startup time information stored in the startup time information storage means. . As mentioned above, each gaming machine installed on the island facility executes storage processing all at once (simultaneously), so the elapsed time calculated for each gaming machine after the storage processing was executed is different from each gaming machine. Even if there is a difference in the times included in the timekeeping information of the gaming machine, the times will be the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so the mode of execution of the predetermined process executed in each gaming machine is can be the same. Specifically, for example, if a configuration is adopted in which a specific performance is started when the elapsed time reaches a predetermined time, each gaming machine installed on the island facility will simultaneously (simultaneously) start a specific performance. It becomes possible to start.

Furthermore, the gaming machine of this feature has a startup time information storage means that can retain the stored startup time information even during a power outage state, and a startup time information storage means that can retain the stored startup time information even during a power outage state, and when the external power supply to the gaming machine is started. If a predetermined time (for example, 30 minutes) has not elapsed from the time included in the clock information in the clock information update means and the time included in the startup time information stored in the startup time information storage means, storage processing is performed. and an avoidance means for avoiding execution of. The effects of adopting this configuration will be explained.

A case where a configuration without the above-mentioned avoidance means is adopted will be described. In this configuration, when power supply starts to all the gaming machines installed on the island equipment all at once (at the same time), all the gaming machines installed on the island equipment will all be able to store data at the same time (simultaneously). Execute processing. After that, the manager of the gaming hall temporarily turned off the power switch of one of the multiple gaming machines installed in the island facility for various reasons, and then turned off the power switch of one of the gaming machines installed in the island facility again. The power switch may be turned on. Specifically, for example, in order to execute the setting change mode and change the winning probability setting of the gaming machine, the power switch of one of the gaming machines installed on the island facility may be turned off. After once being turned off, the power switch of the one gaming machine may be turned on to start the setting changing mode, with the starting conditions for starting the setting changing mode of the gaming machine being satisfied. In this case, the first gaming machine executes the storage process again based on the fact that the power switch is turned on and power supply is started. In this case, the elapsed time calculated for that one gaming machine will be different from the elapsed time calculated for the other gaming machine, and the timing at which a predetermined process (predetermined performance) will start on that one gaming machine will be different. However, there is a problem in that the start timing of a predetermined process (predetermined performance) differs from that of other gaming machines, giving a player who is playing a game on the same gaming machine a sense of discomfort.

On the other hand, according to the present feature, even if the manager of the gaming hall turns off the power switch of the gaming machine concerned and the power is cut off, the startup time information storage means of the gaming machine concerned does not store the information. The startup time information is retained. After that, if the administrator turns on the power switch of that one gaming machine within a predetermined period of time (for example, 30 minutes), the execution of the storage process is avoided, so it is stored in the startup time information storage means of that one gaming machine. The startup time information stored in the game machine is not overwritten, and the startup time information stored in the storage process executed when power supply to other gaming machines is started simultaneously is maintained. As a result, the elapsed time calculated for each gaming machine installed in the island facility including the one gaming machine becomes the same (or substantially the same).

According to this feature, each gaming machine installed in the island facility executes a predetermined process based on the calculated elapsed time, so if the power switch is turned off and then turned on again, The mode of execution of the predetermined process executed in each gaming machine installed in the island facility including the gaming machine can be made the same. Specifically, for example, if a configuration is adopted in which a specific effect is started when the elapsed time reaches a predetermined time, this includes a gaming machine whose power switch is turned off and then turned on again. It becomes possible to start a specific performance all at once (at the same time) in each gaming machine installed in the island facility.

That is, the administrator turns on the island power switch of the island equipment to start supplying power all at once (simultaneously) to the plurality of gaming machines installed in the island equipment, and then waits for a predetermined period of time (for example, 30 minutes), among the multiple gaming machines installed on the island facility, turn off the power switch of the one gaming machine whose winning probability setting is to be changed, and then If the start condition for starting the setting change mode is satisfied and the power switch of the one gaming machine is turned on to start the setting changing mode, the winning probability setting of the one gaming machine can be changed. In addition to being possible, it is possible to simultaneously (simultaneously) start a specific performance on each gaming machine installed in the island facility, including the gaming machine in question whose power switch was once turned OFF and then turned ON again. becomes possible. As a result, it is possible to improve the interest of the game.

[Feature γD2]
The gaming machine according to feature γD1,
A gaming machine comprising: changing means for changing the length of the predetermined time.

According to feature γD2, the length of the predetermined time can be changed as appropriate depending on the number and size of gaming machines installed in the gaming hall. It is possible to suppress the occurrence of a situation in which a predetermined period of time elapses before the work of changing the winning probability setting for a gaming machine is completed.

<Characteristic γE group>
The feature γE group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 101 of the first embodiment.

[Feature γE1]
A gaming machine,
A startup processing execution means for executing one of a plurality of types of startup processing having different processing contents based on the start of external power supply to the gaming machine;
When a specific startup process among the plurality of types of startup processes is executed by the startup process execution means (when the startup process including the process of sending a RAM abnormality command is executed by the main controller), the next Notifying means for notifying information regarding the type of the starting process to be executed by the starting process execution means when power supply starts (notifying "Please start in setting change mode");
A gaming machine characterized by comprising:

According to feature γE1, since information regarding the type of startup process to be executed when the next power supply starts is notified, the administrator of the gaming machine can restart the power supply after terminating the power supply to the gaming machine. , when starting power supply to the gaming machine, the notified type of startup process can be executed. Therefore, the manageability of the gaming machine can be improved.

Specifically, for example, when power supply to one of the plurality of gaming machines installed on the island facility is terminated, and power supply to that one gaming machine is restarted. If the startup process of the notified type is not executed, the timing of the start of a specific effect executed on one gaming machine may deviate from the timing of the start of specific effects executed on a plurality of other gaming machines. In such a configuration, it is possible to prevent the administrator from causing one gaming machine to execute another type of startup process, and as a result, the administrator can prevent the start of a specific effect executed on the one gaming machine. It is possible to prevent the timing of the game from being deviated from the timing of the start of a specific performance executed in a plurality of other gaming machines.

[Feature γE2]
The gaming machine according to feature γE1,
The notification means is characterized by comprising means for continuing notification of information regarding the type of startup process until the external power supply to the gaming machine is cut off (until the power switch is turned off). Game machine.

According to feature γE2, the notification of information regarding the type of startup process is continued until the external power supply to the gaming machine is cut off. This effect will be explained. If the configuration is such that the notification of information regarding the type of startup process ends after a predetermined time (for example, 10 seconds), for example, in a large game hall, the administrator turns on the island power switch of the island equipment. After the external power supply to the gaming machine is started, the notification ends before the administrator reaches the gaming machine, and the startup processing execution means is forced to execute it when the next power supply starts. The administrator may not be able to grasp the type of startup process that should be performed. On the other hand, according to feature γE2, the notification of information regarding the type of startup process continues until the external power supply to the gaming machine is cut off, so that It is possible to avoid a situation in which the notification ends and the administrator is unable to grasp the type of startup processing to be executed by the startup processing execution means at the start of the next power supply.

Note that the inventions of the feature βZ group to feature γE group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic γF group>
The feature γF group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspects 103 to 106 of the first embodiment.

[Feature γF1]
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
a setting information determining means for executing a setting information determining process for determining whether the setting information satisfies a predetermined condition;
A game stop means that executes a game stop process (a process of turning on a game stop flag) that is a process of stopping the progress of a predetermined game;
Equipped with
The setting information determining means includes:
a first setting information determining means that executes the setting information determination process upon entry of a game ball into the ball entering means (performs setting information determination at the time of ball entry);
a second setting information determining means that executes the setting information determining process in conjunction with the execution of the special information determining process (performing a setting information determination at the start of variation);
Equipped with
The game stopping means is
If the second determination processing execution means determines that the setting information does not satisfy the predetermined condition, the game stop processing is executed, but the first determination processing execution means determines that the setting information does not meet the predetermined condition. A gaming machine characterized by comprising means for not executing the game stop processing when it is determined that a condition is not satisfied.

According to feature γF1, if it is determined that the setting information does not satisfy a predetermined condition in the setting information judgment process executed in conjunction with the execution of the special information judgment process, a process of stopping the progress of a predetermined game is executed. On the other hand, if it is determined that the setting information does not satisfy a predetermined condition in a setting information determination process executed upon entry of a game ball into the ball entering means, a process for stopping the progress of a predetermined game is performed. Not executed. The reason for adopting such a configuration will be explained.

First, unlike this feature, even if it is determined that the setting information does not satisfy a predetermined condition in the setting information judgment process executed when the game ball enters the ball entering means, the predetermined game is not executed. A case will be described in which a configuration is adopted that executes processing to stop progress. In this configuration, for example, a game ball enters the ball entry means during the privilege granting period (while the opening/closing execution mode is being executed), and the setting information is set to a predetermined condition in the setting information determination process that is executed with the entry of the ball as a trigger. If it is determined that the above conditions are not satisfied, the bonus grant period will be interrupted and the progress of the game will be stopped, causing great discomfort and disadvantage to the player.

On the other hand, according to this feature, even if it is determined that the setting information does not satisfy the predetermined condition in the setting information determination process executed in response to the entry of the game ball into the ball entering means, Since the process of stopping the progress of a predetermined game is not executed, the benefit granting period (opening/closing execution mode) that has already started before the game ball enters which triggered the setting information determination process is interrupted. There is no. As in this feature, even if the progress of the game is stopped when it is determined that the setting information does not satisfy the predetermined conditions in the setting information judgment process executed in conjunction with the execution of the special information judgment process, the bonus Since it is not during the grant period, the discomfort or disadvantage caused to the player is due to the fact that the setting information satisfies the predetermined conditions in the setting information judgment process executed when the game ball enters the ball entering means. It is not larger than the case where it is determined that there is no game and the process of stopping a predetermined game is executed. Therefore, according to this feature, it is possible to stop the progress of the game while reducing the discomfort and disadvantage to the player. Further, it is possible to prevent the game from continuing in a state where the setting information does not satisfy the predetermined conditions.

[Feature γF2]
The gaming machine according to feature γF1,
The second setting information determining means includes means for executing the setting information determining process prior to executing the special information determining process,
The gaming machine is
A gaming machine comprising: avoidance means for avoiding execution of the special information determination process when the second determination process execution means determines that the setting information does not satisfy the predetermined condition.

According to feature γF2, an avoidance unit is provided for avoiding execution of the special information determination process when the second determination process execution unit determines that the setting information does not satisfy the predetermined condition. It is possible to prevent the special information determination process from being executed in a state where the condition is not satisfied.

[Feature γF3]
The gaming machine according to feature γF1 or feature γF2,
comprising a destination determination process execution means for executing a destination determination process for determining whether or not the special information satisfies the benefit granting conditions before the special information becomes a target of the special information determination process;
The first setting information determining means includes means for executing the setting information determining process, triggered by the entry of a game ball into the ball entering means, prior to execution of the first determining process,
The gaming machine is
A gaming machine comprising: avoidance means for avoiding execution of the first determination process when the first setting information determination means determines that the setting information does not satisfy the predetermined condition.

According to feature γF3, since the first setting information determining means includes an avoidance means for avoiding execution of the first determination process when the first setting information determining means determines that the setting information does not satisfy the predetermined condition, the first setting information determining means does not satisfy the predetermined condition. It is possible to prevent the destination determination process from being executed in a state in which no information is available.

[Feature γF4]
The gaming machine according to any one of features γF1 to feature γF3,
A gaming machine comprising: a specific performance execution unit that executes a specific performance when the first setting information determination unit determines that the setting information does not satisfy the predetermined condition.

According to feature γF4, the specific effect execution means is provided for executing a specific effect when the first setting information determining means determines that the setting information does not satisfy a predetermined condition. It is possible to reduce the discomfort caused to the player due to the fact that the predetermined condition is not satisfied due to the influence of the player.

<Characteristic γG group>
The feature γG group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 104 of the first embodiment.

[Feature γG1]
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
With the execution of the special information determination process, the setting information stored in the setting information storage means and the special information that is the target of the special information determination process are stored as the setting information at the time when the special information is acquired. setting information determining means for determining whether or not the special information acquisition setting information (setting information at the time of entering the ball) matches the special information acquired;
A gaming machine characterized by comprising:

According to feature γG1, as the special information determination process is executed, the configuration information stored in the configuration information storage means and the special information that is the target of the special information determination process are stored as the configuration information at the time when the special information is acquired. A setting information determining means is provided for determining whether or not the special information acquisition setting information that has been set matches. If the setting information is rewritten to another value not intended by the administrator due to the influence of noise or the like, the setting information and the setting information at the time of special information acquisition will not match. Therefore, according to this feature, rewriting of the setting information can be detected as the special information determination process is executed.

[Feature γG2]
The gaming machine according to feature γG1,
The setting information determining means includes means for determining whether or not the setting information and the special information acquisition setting information match, prior to executing the special information determining process,
The gaming machine is
A gaming machine comprising: avoidance means for avoiding execution of the special information determination process when the setting information determination means determines that the setting information and the special information acquisition setting information do not match.

According to feature γG2, there is provided an avoidance means for avoiding execution of the special information determination process when it is determined that the setting information and the setting information at the time of special information acquisition do not match, so that the setting information may be affected by noise etc. It is possible to prevent the special information determination process from being executed while the information has been rewritten to an unintended value.

[Feature γG3]
The gaming machine according to feature γG1 or feature γG2,
If the setting information determining means determines that the setting information and the special information acquisition setting information do not match, a process of stopping the progress of a predetermined game (a process of turning on a game stop flag) is executed. A gaming machine characterized by comprising means.

According to feature γG3, there is provided a means for executing a process of stopping the progress of a predetermined game when it is determined that the setting information and the setting information at the time of special information acquisition do not match, so that the setting information is not affected by noise or the like. It is possible to prevent the game from proceeding with the value being rewritten to another value not intended by the administrator.

<Characteristic γH group>
The feature γH group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 105 of the first embodiment.

[Feature γH1]
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
Along with the execution of the special information determination process, special information acquisition setting information (admission setting information) that is stored as the setting information at the time when the special information that is the target of the special information determination process is acquired. and setting information determination for determining whether or not the setting information at the time of the previous execution (setting information at the time of the previous hit determination process) stored as the setting information at the time of execution of the special information determination process executed last time matches. means and
A gaming machine characterized by comprising:

According to feature γH1, with the execution of special information determination processing, special information acquisition setting information stored as the setting information at the time when the special information that is the target of the special information determination processing is acquired; A setting information determining means is provided for determining whether or not the setting information at the time of previous execution, which is stored as the setting information at the time of execution of the special information judgment process executed last time, matches. If the setting information is rewritten to another value not intended by the administrator due to the influence of noise or the like, the setting information at the time of special information acquisition and the setting information at the time of the previous execution will not match. Therefore, according to this feature, rewriting of the setting information can be detected as the special information determination process is executed.

[Feature γH2]
The gaming machine according to feature γH1,
The setting information determining means includes means for determining whether or not the setting information at the time of special information acquisition and the setting information at the time of previous execution match, prior to execution of the special information determining process,
The gaming machine is
The present invention is characterized by comprising an avoidance unit that avoids execution of the special information determination process when the configuration information determination unit determines that the configuration information at the time of special information acquisition and the configuration information at the time of the previous execution do not match. Game machine.

According to feature γH2, an avoidance means is provided to avoid execution of the special information determination process when it is determined that the setting information at the time of special information acquisition and the setting information at the time of the previous execution do not match, so that the setting information is not affected by noise or the like. Therefore, it is possible to prevent the special information determination process from being executed with the value being rewritten to another value that is not intended by the administrator.

[Feature γH3]
The gaming machine according to feature γH1 or feature γH2,
A process of stopping the progress of a predetermined game (a process of turning on a game stop flag) when the setting information determining means determines that the setting information at the time of special information acquisition and the setting information at the time of the previous execution do not match. A gaming machine characterized by comprising means for executing.

According to feature γH3, there is provided a means for executing a process of stopping the progress of a predetermined game when it is determined that the setting information at the time of special information acquisition and the setting information at the time of the previous execution do not match, so that the setting information is free from noise, etc. It is possible to prevent the game from proceeding with the value being rewritten to another value not intended by the administrator due to the influence of the above.

<Characteristic γI group>
The feature γI group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 106 of the first embodiment.

[Feature γI1]
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
Along with execution of the special information determination process, the setting information stored in the setting information storage means and the previous execution time stored as the setting information at the time of execution of the previously executed special information determination process. Setting information determining means for determining whether or not the setting information (setting information at the time of the previous hit determination process) matches.
A gaming machine characterized by comprising:

According to feature γI1, with the execution of the special information determination process, the setting information stored in the setting information storage means and the previous execution stored as the setting information at the time of execution of the previously executed special information determination process The setting information determining means is provided for determining whether or not the time setting information and the time setting information match. If the setting information is rewritten to another value not intended by the administrator due to the influence of noise or the like, the setting information and the setting information at the previous execution will not match. Therefore, according to this feature, rewriting of the setting information can be detected as the special information determination process is executed.

[Feature γI2]
The gaming machine according to feature γI1,
The setting information determining means includes means for determining whether or not the setting information and the previous execution setting information match, prior to executing the special information determining process,
The gaming machine is
A gaming machine comprising: avoidance means for avoiding execution of the special information determination process when the setting information determination means determines that the setting information and the previous execution setting information do not match.

According to feature γI2, there is an avoidance means for avoiding execution of the special information determination process when it is determined that the setting information and the setting information at the time of the previous execution do not match, so that the setting information is not affected by noise etc. It is possible to prevent the special information determination process from being executed while the value has been rewritten to another unintended value.

[Feature γI3]
The gaming machine according to feature γI1 or feature γI2,
Means for executing processing for stopping the progress of a predetermined game (processing for turning on a game stop flag) when the setting information determining means determines that the setting information and the setting information at the time of the previous execution do not match. A gaming machine characterized by comprising:

According to feature γI3, there is provided a means for executing a process of stopping the progress of a predetermined game when it is determined that the setting information and the setting information at the time of the previous execution do not match, so that the setting information is not managed due to the influence of noise etc. It is possible to prevent the game from proceeding with the value being rewritten to another value not intended by the user.

<Characteristic γJ group>
The feature γJ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 106 of the first embodiment.

[Feature γJ1]
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
In response to the entry of a game ball into the ball entry means, the setting information at the time of entry of the game ball into the ball entry means and the setting information at the time of execution of the previously executed special information determination process. a setting information determining means for determining whether or not the setting information at the time of the previous execution (setting information at the time of the previous hit determination process) stored as .
A gaming machine characterized by comprising:

According to feature γJ1, when a game ball enters the ball entry means, the setting information at the time of entry of the game ball into the ball entry means and the information at the time of execution of the previously executed special information determination process are determined. A setting information determining means is provided for determining whether or not the setting information stored as the setting information at the time of previous execution matches. If the setting information is rewritten to another value not intended by the administrator due to the influence of noise, etc., the setting information at the time the game ball enters the ball will not match the setting information at the previous execution. . Therefore, according to this feature, rewriting of the setting information can be detected when the game ball enters the ball entering means. As a result, various processes are executed based on the assumption that the setting information has been rewritten to other values not intended by the administrator due to the influence of noise etc., triggered by the entry of the game ball into the ball entry means. becomes possible.

[Feature γJ2]
The gaming machine according to feature γJ1,
comprising a destination determination process execution means for executing a destination determination process for determining whether or not the special information satisfies the benefit granting conditions before the special information becomes a target of the special information determination process;
The setting information determining means is a means for determining whether or not the setting information at the time of the ball landing of the game ball matches the setting information at the previous execution, prior to execution of the previous determination process. Prepare,
The gaming machine is
comprising an avoidance means for avoiding execution of the previous determination process when the setting information determining means determines that the setting information at the time of the ball landing of the game ball and the setting information at the previous execution time do not match. A gaming machine featuring:

According to feature γJ2, since the setting information is provided with an avoidance means that avoids execution of the previous determination process when it is determined that the setting information at the time of entering the game ball and the setting information at the previous execution do not match, the setting information is not affected by noise, etc. It is possible to prevent the destination determination process from being executed while the value is being rewritten to another value that is not intended by the administrator due to the influence of the above.

[Feature γJ3]
The gaming machine according to feature γJ1 or feature γJ2,
A specific effect execution means is provided for executing a specific effect when the setting information determining means determines that the setting information at the time of the ball landing of the game ball and the setting information at the time of acquiring the special information do not match. A gaming machine featuring:

According to feature γJ3, since it is provided with a specific performance execution means that executes a specific performance when it is determined that the setting information when the game ball enters the game ball and the setting information at the time of the previous execution do not match, for example, when the game ball It is possible to reduce the discomfort caused to the player due to the fact that it is determined that the setting information at the time of entering the ball and the setting information at the time of the previous execution do not match, by the specific effect.

<Characteristic γK group>
The feature γK group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspects 103 to 106 of the first embodiment.

[Feature γK1]
A gaming machine,
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
a setting information determining means for executing a setting information determining process for determining whether the setting information satisfies a predetermined condition;
Suspension display means for displaying a suspension display indicating that the special information that is acquired by the special information acquisition means and is suspended until it becomes a target of the special information determination process;
Effect execution means for executing a hold change effect, which is an effect of changing the display mode of the hold display, triggered by a determination that the setting information does not satisfy the predetermined condition;
A gaming machine characterized by comprising:

If the setting information does not satisfy a predetermined condition, a problem may occur in the progress of the game or the progress of the game may be stopped. According to feature γK1, when it is determined that the setting information does not satisfy a predetermined condition, a hold change effect, which is an effect that changes the display mode of the hold display, is executed, so that the player is not exposed to the hold change effect. In addition, it is possible to reduce the discomfort experienced by the player due to the fact that the setting information is determined not to satisfy the predetermined conditions through the hold change performance.

[Feature γK2]
The gaming machine according to feature γK1,
The hold display means is capable of displaying the hold display in a plurality of display modes (blue, green, red, gold, rainbow color),
When the expectation level of each display mode of the pending display is defined as the high probability that the result will be advantageous to the player when the pending display of each display mode is displayed,
A game characterized in that the performance execution means includes means for executing, as the suspension change performance, a suspension demotion performance that changes the display mode of the suspension display that is already displayed to a display format with a lower expectation level. Machine.

If the setting information does not satisfy a predetermined condition, a problem may occur in the progress of the game or the progress of the game may be stopped. According to feature γK2, when it is determined that the setting information does not satisfy a predetermined condition, a hold demotion effect is performed that changes the display mode of the already displayed hold display to a display mode with a lower expectation level. Since this is executed, it is possible to prevent the progress of the game from stopping while the pending display in a highly anticipated display mode is displayed. Therefore, it is possible to reduce the player's sense of disappointment that the progress of the game has stopped. This will be explained in more detail below.

First, a case will be described in which, unlike this feature, a configuration is adopted in which the suspended demotion effect is not executed even if it is determined that the setting information does not satisfy a predetermined condition. In this configuration, for example, if it is determined that the setting information does not satisfy a predetermined condition in a situation where a pending display with a highly anticipated display mode is being displayed, the player can Despite having strong expectations for the special information corresponding to the pending display, the progress of the game may stop before the special information determination process is executed for the special information. The player feels strong anger, disappointment, and even disbelief at the fact that the game has stopped because the special information determination process was not executed based on the special information corresponding to the suspended display of the highly anticipated display mode. I end up having a feeling.

In contrast, with this feature, if it is determined that the setting information does not meet the predetermined conditions, a suspended display is performed, so the suspended display of the display mode with high expectations becomes the suspended display of the display format with low expectations. Change. Therefore, although the player initially had strong expectations for the pending display in the display format with high expectations, the pending display in the display format with high expectations is the same as the pending display in the display format with low expectations. By changing to , the user realizes that the special information corresponding to the pending display was not highly anticipated. Even if the game is subsequently stopped before the special information corresponding to the pending display is subject to special information determination processing, the player already has strong expectations for the special information corresponding to the pending display. Therefore, even if the game stops before the special information corresponding to the pending display is subject to special information determination processing, the player does not have to feel so angry or disappointed. Therefore, according to this feature, it is possible to reduce the player's anger and disappointment due to the game being stopped.

[Feature γK3]
The gaming machine according to feature γK2,
The effect execution means includes means for changing the display mode of the already displayed pending display to a display mode (blue) with the lowest expectation level among the plurality of display modes as the pending demotion effect. A gaming machine featuring:

According to feature γK3, the effect execution means changes the display mode of the already displayed pending display to the least expected display mode (blue) among the plurality of types of display modes as the pending demotion effect. Therefore, the player initially had strong expectations for the pending display in the display format with the highest expectations, but the pending display in the display format with the highest expectations became the display format with the lowest expectations. By changing to the pending display, the user will change his/her perception that the special information corresponding to the pending display was the one with the lowest level of expectation. Thereafter, even if the game is stopped before the special information corresponding to the pending display is subject to special information determination processing, the player does not have to feel so angry or disappointed. Therefore, according to this feature, it is possible to further reduce the player's anger and disappointment due to the game being stopped.

[Feature γK4]
The gaming machine according to any one of Feature γK2 to Feature γK3,
The suspension display means includes means for continuing to display the suspension display corresponding to the special information even after the special information has been subjected to the special information determination process,
The effect execution means includes a hold change suggestion effect execution unit that executes a hold change suggestion effect, which is a effect suggesting that the display mode of the hold display may change, prior to the hold change effect,
The hold display means displays a hold display of the most expected display mode (rainbow color) among the plurality of types of display modes in response to the special information after the special information becomes a target of the special information determination process. A gaming machine characterized by comprising means for displaying the pending display only when the display is to be continued.

According to feature γK4, the hold display means displays the hold display of the most expected display mode (rainbow color) among the multiple types of display modes after the special information becomes the target of the special information determination process. means for displaying only when a pending display corresponding to the above is to be continuously displayed. The reason for adopting such a configuration will be explained below.

First, we will discuss a case where, unlike this feature, a configuration is adopted in which the most anticipated display mode of pending display can be displayed even at a stage before the pending special information is subject to special information determination processing. explain. In this configuration, when the pending change suggestion effect is executed in a situation where the pending display of the display mode with the highest degree of expectation is displayed for special information before becoming the target of special information determination processing, the pending change The player who has recognized the suggestion effect will not be able to change the hold display in the display mode with the highest expectations to the hold display in the display mode with the highest expectation. It is possible to predict that the change production will change the pending display of the display mode with the highest expectation level to the pending display of the display mode with the lowest expectation level, and the game for the suspension change suggestion production can be predicted. This will reduce people's expectations.

In contrast, according to this feature, before the special information that is being held is subject to special information determination processing, there is always room for the pending display to change to a display mode with a higher expectation level. Therefore, even if a pending change suggestion performance is executed, the player who recognizes the pending change suggestion performance will not be able to perform the pending change suggestion performance that is executed after the pending change suggestion performance. It is not possible to determine whether the display mode is to be changed to a hold display with a high expectation level or to a hold display mode with a low expectation level. Therefore, according to this feature, it is possible to suppress a decrease in the player's expectations regarding the reservation change suggestion performance.

[Feature γK5]
The gaming machine according to any one of features γK1 to feature γK4,
A gaming machine comprising: a game stopping means that executes processing for stopping the progress of a predetermined game based on a determination that the setting information does not satisfy the predetermined condition.

According to feature γK5, processing is executed to stop the progress of a predetermined game when it is determined that the setting information does not satisfy the predetermined condition, so that the game can be played while the setting information does not satisfy the predetermined condition. It is possible to prevent the disadvantage of the player from increasing due to the continuation of the progress.

<Characteristic γL group>
The feature γL group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from aspects 103 to 106 of the first embodiment.

[Feature γL1]
A gaming machine,
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determination processing execution means that executes special information determination processing for determining whether the special information satisfies a benefit provision condition;
a benefit granting unit that grants a benefit to a player when it is determined in the special information determination process that the special information satisfies the benefit granting conditions;
Winning probability changing means (setting change mode) capable of changing the setting of the winning probability, which is the probability that the special information is determined to satisfy the benefit granting conditions in the special information determination process;
Setting information storage means for storing setting information that is information that determines the setting of the winning probability;
a setting information determining means for executing a setting information determining process for determining whether the setting information satisfies a predetermined condition;
Suspension display means for displaying a suspension display indicating that the special information that is acquired by the special information acquisition means and is suspended until it becomes a target of the special information determination process;
Effect execution means for executing a hold change effect, which is an effect that changes the display mode of the hold display;
When it is determined that the configuration information does not satisfy the predetermined condition, the configuration information is already scheduled to be executed at a time before it is determined that the configuration information does not satisfy the predetermined condition, but has not yet been executed. Cancellation means for canceling the execution schedule of the suspended change production;
A gaming machine characterized by comprising:

If the setting information does not satisfy a predetermined condition, a problem may occur in the progress of the game and the progress of the game may be stopped. According to feature γL1, when it is determined that the setting information does not satisfy the predetermined condition, the execution schedule has already been scheduled at the time before it was determined that the setting information does not satisfy the predetermined condition, but it has not yet been executed. Since the execution schedule of the pending change effect that has not been executed is canceled, even though players' expectations have increased for the pending display whose display format has changed due to the pending change effect, the special information corresponding to the pending display will be canceled. It is possible to prevent the player from feeling distrustful due to the game being stopped without the special information determination process being executed.

[Feature γL2]
The gaming machine according to feature γL1,
The hold display means is capable of displaying the hold display in a plurality of display modes (blue, green, red, gold, rainbow color),
When the expectation level of each display mode of the pending display is defined as the high probability that the result will be advantageous to the player when the pending display of each display mode is displayed,
The performance execution means is capable of executing, as the suspension change performance, a suspension promotion performance that changes the display mode of the already displayed suspension display to a display mode with a higher degree of expectation,
When it is determined that the setting information does not satisfy the predetermined condition, the cancellation means is already scheduled to be executed at a time before it is determined that the setting information does not satisfy the predetermined condition. A gaming machine comprising means for canceling the execution schedule of the suspended promotion performance that has not yet been executed.

If the setting information does not satisfy a predetermined condition, a problem may occur in the progress of the game and the progress of the game may be stopped. According to feature γL2, when it is determined that the configuration information does not satisfy a predetermined condition, the configuration information that was already scheduled to be executed before it was determined that the configuration information does not satisfy the predetermined condition but has not yet been executed. Since the execution schedule of the pending promotion performance that has not been performed is canceled, the pending promotion performance will not respond to the pending display even though the player's expectations have increased for the pending display that has changed to a display mode with higher expectations due to the pending promotion performance. It is possible to prevent the player from having a strong sense of distrust due to the game being stopped without special information determination processing being executed for the special information.

Note that the inventions of the feature γF group to feature γL group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic γM group>
The feature γM group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 110 of the first embodiment.

[Feature γM1]
a setting information changing means (setting change mode) capable of changing setting information that is information that determines one privilege granting condition from among a plurality of privilege granting conditions (a group of jackpot random number counter values set in the win/fail table);
A benefit provision condition storage means (main side RAM 64) that stores the first benefit grant condition corresponding to the setting information, triggered by at least the setting information being changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether or not the special information satisfies the first benefit provision condition stored in the benefit provision condition storage means;
a benefit granting means for granting a benefit to the player when it is determined that the special information satisfies the first benefit granting condition;
A gaming machine characterized by comprising:

According to feature γM1, at least the privilege granting condition storage means stores one privilege granting condition corresponding to the setting information triggered by a change in the setting information, and the special information is stored in the privilege granting condition storage means. The special information determination means does not refer to the setting information when determining whether the special information satisfies the benefit granting conditions. It's okay. Therefore, for example, even if the setting information is rewritten to another value unintended by the administrator due to the influence of noise etc., even if the setting information is rewritten to another value not intended by the administrator, the one benefit granting condition stored in the benefit granting condition storage means It is possible to make a determination regarding the special information based on one benefit provision condition corresponding to the setting information before being rewritten. Therefore, it is possible to provide a gaming machine that is less susceptible to noise and the like.

<Characteristic γN group>
The feature γN group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 110 of the first embodiment.

[Feature γN1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
a change operation receiving means (setting change button) for accepting a change operation to change the setting information in the setting information change mode;
a confirmation operation receiving means (setting keyhole) that accepts a confirmation operation (operation of turning the setting change keyhole to the OFF side) to confirm the setting information in the setting information change mode;
Setting information display mode execution means for executing a setting information display mode (setting confirmation mode) in which the setting information is displayed but the setting information cannot be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
A display means (DP light emitting section of the rightmost 7-segment display 45z4 of the information display section 45z) that can have at least a first display mode (blinking state) and a second display mode (lighting state);
A gaming machine comprising:
The setting information change mode is
a first period that is a period during which the change operation can be accepted and is a period until the confirmation operation is accepted;
a second period that is a period after accepting the confirmation operation and is a period until the setting information change mode in which the change operation cannot be accepted ends;
It is composed of
The display means (DP light emitting section of the rightmost 7 segment display 45z4 of the information display section 45z) is
means for changing to the first display mode (flashing state) during the first period of the setting information change mode;
means for changing to the second display mode (lit state) during the second period of the setting information change mode;
means for changing to the second display mode (lit state) in the setting information display mode;
A gaming machine characterized by comprising:

According to feature γN1, the display means has a first display mode during the first period of the setting information change mode, a second display mode during the second period of the setting information change mode, and a display section that displays the setting information. Means for achieving a second display mode in the display mode is provided. Therefore, according to this feature, by simply using a display means that can have at least two display modes, it is clear to the administrator whether the currently running mode is the setting information change mode or the setting information display mode. In addition, it is possible to make the administrator clearly recognize that the setting information being changed in the setting information change mode has been finalized and the first period has shifted to the second period. Further, according to this feature, in both the second period of the setting information change mode and the setting information display mode, the setting information cannot be changed, and the display means is in the second display mode. There is. Therefore, the administrator can understand that the fact that the display means is in the second display mode means that the setting information cannot be changed.

<Characteristic γO group>
The feature γO group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 111 of the first embodiment.

[Feature γO1]
A gaming machine,
processing execution means that executes a plurality of processes upon the start of power supply to the gaming machine;
A display means that can have a predetermined display mode (lit state);
Equipped with
The processing execution means may execute a specific process (setting change mode) as one of the plurality of processes, or may not execute the specific process,
The gaming machine characterized in that the display means includes means that takes on the predetermined display mode when the specific process is executed.

According to feature γO1, since the display means is provided with means for changing to a predetermined display mode when a specific process is executed, the administrator of the gaming machine can check whether the display means is in a predetermined display mode or not. By checking this, it becomes possible to check whether or not a specific process is being executed in the gaming machine. For example, if the administrator confirms that the display means of a gaming machine that is not supposed to execute a specific process when power supply is started is in a predetermined display mode, the administrator may It can be recognized that some kind of fraud has been performed on the gaming machine so that a specific process is executed by someone else (for example, a trickster).

[Characteristic γO2]
The gaming machine according to feature γO1,
A gaming machine characterized in that the display means is provided at a position that is visible from the front of the gaming machine.

According to feature γO2, since the display means is provided at a position that is visible from the front of the gaming machine, the administrator does not have to move to the back side of the gaming machine, for example, in a gaming hall that is open for business. Also, it is possible to check the display mode of the display means simply by walking around the aisles where players come and go.

[Feature γO3]
The gaming machine according to feature γO1 or feature γO2,
A gaming machine characterized in that the display means includes means for maintaining the predetermined display mode even after the specific processing is completed.

According to feature γO3, the display means includes means for maintaining a predetermined display mode even after a specific process is completed, so that the administrator can perform a specific process on the gaming machine when power supply is started. It becomes possible to check whether or not the specific process has been executed even after the specific process has been completed.

[Feature γO4]
The gaming machine according to any one of features γO1 to feature γO3,
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
Equipped with
The gaming machine characterized in that the display means includes means for displaying in the predetermined display mode when the setting information change mode is executed as the specific process.

According to feature γO4, the display means includes means for changing to a predetermined display mode when the setting information change mode is executed as a specific process, so that the administrator can check whether the display means is in the predetermined display mode. By checking whether or not the setting information change mode has been executed in the gaming machine, it is possible to check whether or not the setting information change mode has been executed in the gaming machine. Then, for example, if the administrator confirms that the display means is in a predetermined display mode in a gaming machine that should not be in the setting information change mode when power supply is started, It can be recognized that some kind of fraud has been performed on the gaming machine so that the setting information change mode is executed by someone other than the administrator (for example, a trickster).

<Characteristic γP group>
The feature γP group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 113 of the first embodiment.

[Feature γP1]
a setting information changing means (setting change mode) capable of changing setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means (main CPU 62x) that calculates game history information (game history information such as role object ratio, continuous role object ratio, base, etc.) that is information regarding the game history based on the detected information;
Erasing means for erasing the detected information;
A gaming machine comprising:
The calculation means is
a first calculation means for calculating first type game history information (base), which is the game history information that is not affected by changes in the setting information;
a second calculation means for calculating second type game history information (accessory object ratio, continuous accessory ratio) that is the gaming history information that is affected by the change in the setting information;
Equipped with
The erasing means is
With the change of the setting information as a trigger, among the detection information, the detection information that is the basis for calculating the second type game history information is deleted, and the detection information that is the basis for calculating the first type game history information is deleted. A gaming machine characterized by having a means for not erasing information.

According to feature γP1, when the setting information is changed, among the detected information, the detection information that is the basis for calculating the second type game history information is deleted, so that the detected information and the setting information before the setting information change are deleted. It is possible to prevent the detection information after the change from coexisting and the type 2 game history information being calculated based on the detection information both before and after the change in the setting information. It is possible to secure the storage capacity for the detection information after changing the setting information to be stored. On the other hand, when the setting information is changed, among the detected information, the detected information that is the basis for calculating the first type game history information is not deleted, so it will not be deleted for a long period of time regardless of whether the setting information is changed. Highly accurate first type game history information can be calculated based on the accumulated detection information. Therefore, administrators and inspectors can check the second type game history information based on the detected information after changing the setting information, and also check the highly accurate first type game history information based on the detected information accumulated over a long period of time. It becomes possible to check the seed game history information.

<Characteristic γQ group>
The feature γQ group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 114 of the first embodiment.

[Feature γQ1]
a setting information changing means (setting change mode) capable of changing setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means (main CPU 62x) that calculates game history information (game history information such as role object ratio, continuous role object ratio, base, etc.) that is information regarding the game history based on the detected information;
A gaming machine comprising:
The calculation means is
a first calculation means for calculating first type game history information (base), which is the game history information that is not affected by changes in the setting information;
a second calculation means for calculating second type game history information (accessory object ratio, continuous accessory ratio) that is the gaming history information that is affected by the change in the setting information;
Equipped with
The first calculation means includes means for calculating the first type game history information (base) without dividing it into sections with the change of the setting information as a boundary,
The second calculation means is characterized by comprising means for dividing and calculating the second type game history information (accessory object ratio, continuous accessory ratio) for each section with the change of the setting information as a boundary. Game machine.

According to feature γQ1, the first calculation means includes means for calculating the first type game history information (base) without dividing it into sections with changes in setting information as boundaries, and the second calculation means includes means for calculating the first type game history information (base) without dividing it into sections with changes in setting information as boundaries Since it is equipped with a means to calculate type 2 game history information (accessory object ratio, continuous role object ratio) for each section with the change of setting information as the boundary, administrators and inspectors can calculate it over a wide range without dividing it into sections. You can check highly accurate type 1 game history information (base) calculated from (period), as well as type 2 game history information (accessory ratio, continuous accessory ratio) that is affected by changes in setting information. ), it is possible to check the changes in the setting information separately for each section.

<Characteristic γR group>
The feature γR group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 115 of the first embodiment.

[Feature γR1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
Detection information storage means (main side RAM 64) that stores detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of game balls by the detection means. )and,
Calculating means (main CPU 62x) that calculates game history information (game history information such as role object ratio, continuous role object ratio, base, etc.) that is information regarding the game history based on the detected information;
gaming history information storage means (main side RAM 64) for storing the calculated gaming history information;
An erasing means that does not erase the gaming history information calculated based on the detected information even though the detected information is erased when a predetermined condition is satisfied (the setting information is changed). ,
A gaming machine characterized by comprising:

According to feature γR1, even though the detected information is deleted when a predetermined condition is met, the game history information calculated based on the detected information is not deleted, so it is necessary to newly store it. In addition to securing storage capacity for detection information, administrators and inspectors can also store gaming history information calculated based on detection information that has been deleted and that was detected before a predetermined condition was met. , it becomes possible to confirm even after the detection information that was the basis for calculating the game history information has been deleted.

[Feature γR2]
The gaming machine according to feature γR1,
a setting information changing means (setting change mode) capable of changing setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
Equipped with
The predetermined condition includes that the setting information has been changed,
The erasing means includes means for erasing the detected information in response to a change in the setting information, but not erasing the gaming history information calculated based on the detected information. A gaming machine that does.

According to feature γR2, even though the detected information is deleted when the setting information is changed, the game history information calculated based on the detected information is not deleted, so it is necessary to newly store it. It is possible to secure storage capacity for detection information, and administrators and inspectors can also use gaming history information calculated based on detection information that has been deleted and that was before the setting information was changed. , it becomes possible to confirm the game history information even after the detection information that was the basis for calculating the game history information has been deleted (that is, after the setting information has been changed).

<Characteristic γS group>
The feature γS group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 116 of the first embodiment.

[Feature γS1]
a setting information changing means (setting change mode) capable of changing setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
A storage means (main side RAM 64) capable of storing various information;
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
A control means (main control means) for storing detection information (game history basic information such as entering ball information, entering ball number information, prize ball total value, etc.), which is information based on the detection of a game ball by the detecting means, in the storage means (main control means); side CPU62x) and
Calculation means for calculating game history information (game history information such as role object ratio, continuous role object ratio, base, etc.) that is information regarding the game history based on the detected information;
erasing means for erasing information stored in the storage means;
A gaming machine comprising:
The calculation means is
a first calculation means for calculating first type game history information (base) that is game history information that is not affected by changes in the setting information;
a second calculation means for calculating second type game history information (accessory object ratio, continuous accessory ratio) that is gaming history information affected by changes in the setting information;
Equipped with
The storage means is
a first storage means (a specific area specified by a predetermined continuous address in area 2 of the main side RAM 64);
a second storage means (an area other than the specific area of area 2 of the main side RAM 64);
Equipped with
The erasing means is
comprising means for erasing the information stored in the first storage means and not erasing the information stored in the second storage means in response to a change in the setting information;
The control means includes:
Among the detection information, means for storing in the first storage means second type detection information that is a basis for calculating the second type game history information (accessory object ratio, continuous accessory ratio);
Among the detection information, means for storing in the second storage means the first type detection information that is the basis for calculating the first type game history information (base);
A gaming machine characterized by comprising:

According to feature γS1, the erasing means includes means for erasing the information stored in the first storage means and not erasing the information stored in the second storage means in response to a change in the setting information, and The means stores, in the first storage means, the second type detection information that is the basis for calculating the second type game history information (accessory object ratio, continuous role object ratio) among the detected information; , means for storing the first type detection information, which is the basis for calculating the first type game history information (base), in the second storage means, so that when the setting information is changed, it is stored in the storage means. The basis for calculating type 2 game history information that is affected by changes in setting information in a batch without having to determine whether the detected information is to be deleted or not to be deleted. It is possible to delete the second type detection information, which is the basis for calculating the first type game history information, which is not affected by changes in the setting information, and leave the second type detection information, which is the basis for calculating the first type game history information, without being deleted. That is, when deleting detection information triggered by a change in setting information, it is possible to omit the process of determining the detection information to be deleted and the detection information not to be deleted, and the process can be simplified.

[Feature γS2]
The gaming machine according to feature γS1,
A gaming machine characterized in that the first storage means is a specific storage area specified by a predetermined continuous address of a predetermined memory area.

According to feature γS2, since the first storage means is a specific storage area designated by a predetermined continuous address of a predetermined memory area, the second type detection information stored in the first storage means is stored in a batch. The deletion process can be simplified.

<Characteristic γT group>
The feature γT group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 117 of the first embodiment.

[Feature γT1]
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculation means for calculating game history information (game history information such as role object ratio, continuous role object ratio, base, etc.) that is information regarding the game history based on the detected information;
Display means (information display section 45z) for displaying the game history information;
A gaming machine comprising:
The calculation means calculates a predetermined period (a period until the number _NOUT of objects passing through the discharge passage measured after the start of power supply to the gaming machine reaches a predetermined number, a period during which a predetermined button is pressed, etc.). A gaming machine comprising means for calculating the gaming history information based on the detected information in the excluded period.

According to feature γT1, since the calculation means includes means for calculating game history information based on detection information in a period excluding a predetermined period, the detection information based on the detection of a game ball in a predetermined period is It does not serve as the basis for calculating game history information. Therefore, for example, an operation test may be conducted during the predetermined period to check whether or not the gaming machine operates normally by directly inserting game balls into the prize opening, starting opening, etc. with the gaming board in an open state. By doing so, it is possible to prevent the influence of the operation test from affecting the game history information. As a result, the administrator and the inspector can confirm accurate gaming history information that is not affected by the operation inspection.

[Feature γT2]
The gaming machine according to feature γT1,
A game machine characterized in that the predetermined period includes a period until the number of game balls detected by a predetermined detection means (a discharge passage detection sensor provided in the discharge passage) reaches a predetermined number.

According to feature γT2, the predetermined period includes the period until the number of game balls detected by the predetermined detection means reaches the predetermined number, so the number of game balls detected by the predetermined detection means is Detection information in the period until the predetermined number is reached does not serve as the basis for calculating game history information. Therefore, for example, the predetermined detection means detects an operation test in which a game ball is directly entered into a prize opening, a starting opening, etc. with the gaming board in an open state to check whether the gaming machine operates normally. By performing the operation test during a period until the number of played game balls reaches a predetermined number, it is possible to prevent the influence of the operation test from affecting the game history information.

[Feature γT3]
The gaming machine according to feature γT1 or feature γT2,
Equipped with an operation reception means for accepting a predetermined operation,
The gaming machine, wherein the predetermined period includes a period during which the operation accepting means is accepting the predetermined operation.

According to feature γT3, the predetermined period includes a period in which the operation reception means is accepting a predetermined operation, so the detection information during the period in which the operation reception means is accepting a predetermined operation is the basis for calculating the game history information. It is not. Therefore, for example, the operation receiving means may perform an operation test in which the game board is opened and a game ball is directly entered into the prize opening, the starting opening, etc. to check whether the gaming machine operates normally. By performing the operation during the period when the operation is being accepted, it is possible to prevent the influence of the operation test from affecting the game history information. Furthermore, when the administrator wants to inspect the operation of the gaming machine without affecting the gaming history information, the administrator only has to perform a predetermined operation on the operation reception means. This makes it possible to perform the operation test at the appropriate timing.

<Characteristic γU group>
The feature γU group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 118 of the first embodiment.

[Feature γU1]
Information output means (main side MPU 62) that outputs information;
Display means (information display section 45z) for displaying information output from the information output means;
maintenance means (information display section driving IC 45y) that maintains the display mode of the display means until the next information is output from the information output means;
A gaming machine characterized by comprising:

According to feature γU1, since the maintenance means is provided to maintain the display mode of the display means until the next information is output from the information output means, the next information is not displayed until the next information is output from the information output means. Previously outputted information can be continued to be displayed on the display means. For example, after one piece of information is output from the information output means, the one piece of information continues to be displayed on the display means until the next piece of information is output. Therefore, for example, the administrator or inspector of a gaming machine can display one piece of information on the display means even if the information output means does not output the next piece of information due to a malfunction or the like. Therefore, it is possible to check the information that continues to be displayed on the display means.

[Feature γU2]
The gaming machine according to feature γU1,
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means;
Calculation means for calculating game history information (game history information such as role object ratio, continuous role object ratio, base, etc.) that is information regarding the game history based on the detected information;
Equipped with
A gaming machine characterized in that the information output means includes means for sequentially outputting the calculated game history information.

According to feature γU2, the information output means includes means for sequentially outputting the calculated game history information, so that the game history information can be displayed on the display means, and the next game history information can be displayed from the information output means. The game history information that was output before the next game history information can be continued to be displayed on the display means until it is output. For example, after one game history information is output from the information output means, the one game history information continues to be displayed on the display means until the next game history information of the one game history information is output. become. Therefore, for example, even if the information output means does not output the next gaming history information after one piece of gaming history information is output due to a malfunction or the like, the administrator or inspector of the gaming machine can Since the information continues to be displayed on the display means, it is possible to check the game history information that continues to be displayed on the display means.

<Characteristic γV group>
The feature γV group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 119 of the first embodiment.

[Feature γV1]
A gaming machine,
A plurality of detection means (ball entry detection sensors 44a to 44h) that detect game balls passing through a predetermined area;
a storage means (main side RAM 64) for storing detection information (game history basic information such as ball entry information, number of balls entered information, prize ball total value, etc.) that is information based on the detection of a game ball by the detection means; ,
Calculating means for calculating game history information (game history information such as role object ratio, continuous role object ratio, ball launch rate, etc.) that is information regarding the game history based on the detected information;
a malfunction information storage means (main side RAM 64) that stores malfunction information (error code) that is information regarding malfunctions that have occurred in the gaming machine;
Display means (information display section 45z) for displaying information;
Equipped with
The display means is
means for receiving a signal for displaying the gaming history information;
means for receiving a signal for displaying the defect information;
A gaming machine characterized by comprising:

According to feature γV1, the display means includes means for receiving a signal for displaying the game history information and means for receiving a signal for displaying defect information, so that the display means can display the game history information. In addition to this, it is also possible to display defect information. Therefore, in a gaming machine equipped with a display means capable of displaying game history information, there is no need to provide a separate display means for displaying defect information, so that the manufacturing cost of the gaming machine can be reduced.

[Feature γV2]
The gaming machine according to feature γV1,
A payout means for paying out game balls (a payout control device 70, a payout device 71),
a malfunction detection means for detecting a malfunction occurring in the dispensing means;
Equipped with
The malfunction information storage means includes means for storing the malfunction information that has occurred in the dispensing means,
A gaming machine characterized in that the display means includes means for receiving a signal for displaying the malfunction information that has occurred in the payout means.

According to feature γV2, the display means is provided with a means for receiving a signal for displaying malfunction information that has occurred in the payout means. Therefore, in a gaming machine equipped with a display means capable of displaying game history information, Since there is no need to provide a separate display means for displaying information on the problem that has occurred, the manufacturing cost of the gaming machine can be reduced.

Note that the inventions of the feature γM group to feature γV group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

<Characteristic γW group>
The feature γW group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature γW1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for executing a predetermined notification (RAM clear notification process) when the setting information change mode is executed;
A gaming machine comprising:
A gaming machine characterized in that the notification execution means includes means for executing the predetermined notification for a predetermined period (30 seconds).

According to feature γW1, since a predetermined notification is executed over a predetermined period of time, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting information change mode has been executed in the gaming machine.

A case will be described in which, unlike this feature, a configuration is adopted in which notification is performed only during the period in which the setting information change mode is being executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If you start the setting information change mode and quickly change the setting information, and then quickly end the setting information change mode, the notification period can be shortened, and the settings can be done without being noticed by the administrator. There is a problem that information can be changed illegally.

On the other hand, according to this feature, even if an unauthorized person quickly ends the setting information change mode, the specified notification will continue for the specified period, so the administrator etc. Through this predetermined notification, it can be noticed that the setting information change mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

[Feature γW2]
The gaming machine according to feature γW1,
The gaming machine characterized in that the notification execution means includes means for executing the predetermined notification for a predetermined period (30 seconds) after the setting information change mode ends.

According to feature γW2, a predetermined notification is performed for a predetermined period after the setting information change mode ends. The reason for adopting such a configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration is adopted in which a predetermined notification is executed over a predetermined period after the start of the setting information change mode. In this configuration, for example, if the setting information change mode is being executed for a period longer than the predetermined period, the predetermined notification will end while the setting information change mode is being executed; If the setting information change mode ends in a period shorter than the predetermined period, the predetermined notification will continue even after the setting information change mode ends. In other words, the predetermined notification may end or continue without being linked to the end timing of the setting information change mode, which may confuse the administrator.

In contrast, according to this feature, the predetermined notification is executed for a predetermined period after the setting information change mode ends, so the predetermined notification is not linked to the end timing of the setting information change mode. It never ends or continues. Therefore, it is possible to avoid a situation in which the administrator does not notice that the setting information change mode has been executed in the gaming machine, while avoiding confusing the administrator.

[Feature γW3]
The gaming machine according to feature γW2,
The gaming machine characterized in that the notification execution means includes means for executing a second notification (setting change mode execution notification process) during execution of the setting information change mode.

According to feature γW3, since the second notification is executed while the setting information change mode is being executed, the administrator can notify that the setting information change mode is being executed by an unauthorized person while the setting information change mode is being executed. It is also possible to notice.

<Characteristic γX group>
The feature γX group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature γX1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for performing a predetermined notification (notification process after completion of setting confirmation mode) when the setting information display mode is executed;
A gaming machine comprising:
A gaming machine characterized in that the notification execution means includes means for executing the predetermined notification for a predetermined period (30 seconds).

According to feature γX1, since a predetermined notification is executed over a predetermined period of time, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting information display mode has been executed in the gaming machine.

A case will be described in which, unlike this feature, a configuration is adopted in which notification is performed only during the period in which the setting information display mode is being executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. If you start the settings information display mode to quickly check the settings information, and then quickly exit the settings information display mode, you can shorten the notification period and complete the settings without the administrator noticing. There is a problem that it becomes possible to check information fraudulently.

On the other hand, according to this feature, even if an unauthorized person quickly ends the setting information display mode, the specified notification will continue for the specified period, so the administrator etc. This predetermined notification allows the player to notice that the setting information display mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

[Feature γX2]
The gaming machine according to feature γX1,
The gaming machine characterized in that the notification execution means includes means for executing the predetermined notification for a predetermined period (30 seconds) after the setting information display mode ends.

According to feature γX2, a predetermined notification is performed for a predetermined period after the setting information display mode ends. The reason for adopting such a configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration is adopted in which a predetermined notification is executed for a predetermined period after the start of the setting information display mode. In this configuration, for example, if the settings information display mode is being executed for a period longer than the predetermined period, the predetermined notification will end while the settings information display mode is being executed. If the setting information display mode ends in a period shorter than the predetermined period, the predetermined notification continues even after the setting information display mode ends. That is, the predetermined notification may end or continue without being linked to the end timing of the setting information display mode, which may confuse the administrator.

In contrast, according to this feature, the predetermined notification is executed for a predetermined period after the setting information display mode ends, so the predetermined notification is not linked to the end timing of the setting information display mode. It never ends or continues. Therefore, it is possible to avoid a situation where the administrator does not notice that the setting information display mode has been executed in the gaming machine while avoiding confusing the administrator.

[Feature γX3]
The gaming machine according to feature γX2,
The gaming machine characterized in that the notification execution means includes means for executing a second notification (notification process during execution of setting confirmation mode) during execution of the setting information display mode.

According to feature γX3, since the second notification is executed while the setting information display mode is being executed, the administrator can notify that the setting information display mode is being executed by an unauthorized person while the setting information display mode is being executed. It is also possible to notice.

<Characteristic γY group>
The feature γY group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature γY1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (setting change mode execution notification processing, RAM clear notification processing B1, B2) when the setting information change mode is executed;
Movable means (inner frame 13, front door frame 14) movable from a first state (closed state) to a second state (open state);
a second notification execution unit that executes a second notification (door open notification process) when the movable unit is in the second state (open state);
Priority means for giving priority to the first notification over the second notification;
A gaming machine characterized by comprising:

According to feature γY1, the first notification executed when the setting information change mode is executed is given priority over the second notification executed when the movable means is in the second state. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the second notification is given priority over the first notification is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. However, if the movable means is placed in the second state and the second notification is executed, even if the setting information change mode is executed, the second notification will take priority over the first notification, and the administrator etc. There is a problem in that it is possible to make unauthorized changes to configuration information without the person being noticed.

On the other hand, according to this feature, even if an unauthorized person puts the movable means in the second state, the first notification has priority over the second notification, so the administrator etc. can set the The possibility of noticing that the information change mode has been executed can be increased. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

[Feature γY2]
The gaming machine according to feature γY1,
The priority means is a means (a priority notification flag) that prevents execution of the second notification even when the movable means is in the second state when the first notification is being executed. A gaming machine characterized by having a function of turning on the game machine.

According to feature γY2, when the first notification is being executed, the second notification is not executed even if the movable means is in the second state, so that the administrator etc. The possibility of being able to notice that the setting information change mode has been executed on the machine can be increased.

[Feature γY3]
The gaming machine according to feature γY1,
When the first notification is being executed and the movable means is in the second state, the priority means sets the volume of the second notification to the first notification. A game machine characterized by comprising means for making the notification smaller than when the notification is not executed.

According to feature γY3, when the first notification is being executed and the movable means is in the second state, the volume of the second notification is changed to the volume of the second notification when the first notification is being executed. Since the setting information change mode is made smaller than when the setting information change mode has been executed in the gaming machine, the administrator etc. can be made aware that the movable means is in the second state and also that the setting information change mode has been executed in the gaming machine. .

<Characteristic γZ group>
The feature γZ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature γZ1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (notification process during execution of setting confirmation mode, notification process after completion of setting confirmation mode) when the setting information display mode is executed;
Movable means (inner frame 13, front door frame 14) movable from a first state (closed state) to a second state (open state);
a second notification execution unit that executes a second notification (door open notification process) when the movable unit is in the second state (open state);
Priority means for giving priority to the first notification over the second notification;
A gaming machine characterized by comprising:

According to feature γZ1, the first notification executed when the setting information display mode is executed is given priority over the second notification executed when the movable means is in the second state. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the second notification is given priority over the first notification is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. However, if the movable means is set to the second state and the second notification is executed, even if the setting information display mode is executed, the second notification will take priority over the first notification, and the administrator etc. There is a problem in that it becomes possible to illegally check the setting information without being noticed.

On the other hand, according to this feature, even if an unauthorized person puts the movable means in the second state, the first notification has priority over the second notification, so the administrator etc. can set the The possibility of noticing that the information display mode has been executed can be increased. Therefore, according to this feature, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

[Feature γZ2]
The gaming machine according to feature γZ1,
The priority means is a means (a priority notification flag) that prevents execution of the second notification even when the movable means is in the second state when the first notification is being executed. A gaming machine characterized by having a function of turning on the game machine.

According to feature γZ2, when the first notification is executed, the second notification is not executed even if the movable means is in the second state, so that the administrator etc. The possibility of being able to notice that the setting information display mode has been executed on the machine can be increased.

[Feature γZ3]
The gaming machine according to feature γZ1,
When the first notification is being executed and the movable means is in the second state, the priority means sets the volume of the second notification to the first notification. A game machine characterized by comprising means for making the notification smaller than when the notification is not executed.

According to feature γZ3, when the first notification is being executed and the movable means is in the second state, the volume of the second notification is changed to the volume of the second notification when the first notification is being executed. Since the setting information display mode is made smaller than when it is not, it is possible to make the administrator etc. aware that the movable means is in the second state and also that the setting information display mode has been executed in the gaming machine. .

<Characteristic δA group>
The feature δA group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δA1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (setting change mode execution notification process) during a period in which the setting information change mode is being executed;
a second notification execution unit that executes a second notification (RAM clear notification processing A, B1, B2) having a notification mode different from the first notification after the setting information change mode ends;
A gaming machine characterized by comprising:

According to feature δA1, the first notification is executed during the period in which the setting information change mode is being executed, and after the setting information change mode ends, the second notification is performed in a notification mode different from the notification mode of the first notification. Execute. The reason for adopting this configuration will be explained.

First, unlike this feature, the notification mode of the first notification executed during the execution period of the setting information change mode and the notification mode of the second notification executed after the end of the setting information change mode are different. A case where the same configuration is adopted will be explained. When this configuration is adopted, for example, if the manager of a game hall instructs a worker to change the setting information of a game machine before the game hall starts operating, the worker The administrator can determine whether the setting information change mode is currently being executed or whether the setting information change mode has already ended in the game machine that is running the game machine based on the notification mode of the first notification and the second notification. Can not do it. Therefore, there is a problem that the manager cannot promptly give the next instruction to the worker.

In contrast, according to this feature, the first notification is executed during the period in which the setting information change mode is being executed, and after the setting information change mode ends, the notification mode is different from the notification mode of the first notification. Since the second notification is executed, the administrator can change the setting information by understanding the notification mode of the notification executed by the gaming machine, even if the administrator does not closely check the work process of the worker on the gaming machine. It becomes possible to know whether the mode is currently being executed or whether the setting information change mode has already ended. Therefore, the manager can promptly give the following instructions to the worker.

[Feature δA2]
The gaming machine according to feature δA1,
A gaming machine characterized in that the notification execution means includes means for executing the second notification for a predetermined period (30 seconds).

According to feature δA1, since the second notification is executed over a predetermined period of time, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting information change mode has been executed in the gaming machine. .

A case will be described in which, unlike this feature, a configuration is adopted in which notification is performed only during the period in which the setting information change mode is being executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If you start the setting information change mode and quickly change the setting information, and then quickly end the setting information change mode, the notification period can be shortened, and the settings can be done without being noticed by the administrator. There is a problem that information can be changed illegally.

In contrast, according to this feature, even if an unauthorized person quickly ends the setting information change mode, the second notification will continue for a predetermined period, so the administrator etc. Through the second notification, the user can notice that the setting information change mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

<Characteristic δB group>
The feature δB group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δB1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (setting confirmation mode execution notification process) during a period in which the setting information display mode is being executed;
a second notification execution unit that executes a second notification (notification process after the setting confirmation mode ends) having a notification mode different from the notification mode of the first notification after the setting information display mode ends;
A gaming machine characterized by comprising:

According to the feature δB1, the first notification is executed during the execution period of the setting information display mode, and after the setting information display mode ends, the second notification is performed in a notification mode different from the notification mode of the first notification. Execute. The reason for adopting this configuration will be explained.

First, unlike this feature, the notification mode of the first notification executed during the execution period of the setting information display mode and the notification mode of the second notification executed after the end of the setting information display mode are different. A case where the same configuration is adopted will be explained. When this configuration is adopted, for example, if the manager of a gaming hall instructs a worker to check the setting information of the gaming machine before the opening of the gaming hall, the worker The administrator can determine whether the setting information display mode is currently being executed or whether the setting information display mode has already ended in the gaming machine that is running the game machine, based on the notification mode of the first notification and the second notification. Can not do it. Therefore, there is a problem that the manager cannot promptly give the next instruction to the worker.

In contrast, according to this feature, the first notification is executed during the period in which the setting information display mode is being executed, and after the setting information display mode ends, the notification mode is different from the notification mode of the first notification. Since the second notification is executed, the administrator can display the setting information by understanding the notification mode of the notification executed by the gaming machine, even if the administrator does not closely check the work process of the worker on the gaming machine. It becomes possible to know whether the mode is currently being executed or whether the setting information display mode has already ended. Therefore, the manager can promptly give the following instructions to the worker.

[Feature δB2]
The gaming machine according to feature δB1,
A gaming machine characterized in that the notification execution means includes means for executing the second notification for a predetermined period (30 seconds).

According to feature δB1, since the second notification is executed over a predetermined period of time, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting information display mode has been executed in the gaming machine. .

A case will be described in which, unlike this feature, a configuration is adopted in which notification is performed only during the period in which the setting information display mode is being executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. If you start the settings information display mode to quickly check the settings information, and then quickly exit the settings information display mode, you can shorten the notification period and complete the settings without the administrator noticing. There is a problem that it becomes possible to check information fraudulently.

In contrast, according to this feature, even if an unauthorized person quickly ends the setting information display mode, the second notification will continue for a predetermined period, so the administrator etc. Through the second notification, the player can notice that the setting information display mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

<Characteristic δC group>
The feature δC group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δC1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
Predetermined processing execution means for executing predetermined processing (RAM clearing processing);
notification execution means that executes a predetermined notification (RAM clear notification process) triggered by the execution of the predetermined process;
A gaming machine comprising:
The predetermined processing execution means includes:
means for executing the predetermined process in response to a predetermined operation without being triggered by the end of the setting information change mode;
means for executing the predetermined process upon completion of the setting information change mode;
Equipped with
The notification execution means is
Means for executing the predetermined notification (RAM clear notification process A) in a first notification mode when the predetermined process is executed not with the end of the setting information change mode but with the predetermined operation as a trigger; and,
means for executing the predetermined notification in a notification mode (RAM clear notification processing B1, B2) different from the first notification mode when the predetermined process is executed upon completion of the setting information change mode; ,
A gaming machine characterized by comprising:

According to the feature δC1, when a predetermined process is executed in response to a predetermined operation without being triggered by the end of the setting information change mode, a predetermined notification is executed in the first notification mode, and the predetermined process is set. When executed upon completion of the information change mode, a predetermined notification is performed in a notification mode different from the first notification mode. Therefore, even if the administrator does not have to know what kind of operation was performed on the gaming machine, by understanding the notification mode of the specified notification on the gaming machine, the administrator can confirm that the specified processing is performed according to the specified operation. This makes it possible to determine whether the execution was triggered by the setting information change mode or by the end of the setting information change mode.

Specifically, for example, if, before the start of business at a game hall, the manager instructs the worker to have the game machine perform a predetermined process, but does not instruct the worker to change the setting information. Even if you are not directly monitoring the worker's work, it is possible to check whether the worker is performing work that differs from the instructions of the manager, based on the notification mode of the predetermined notification. can.

[Feature δC2]
The gaming machine according to feature δC1,
The notification execution means is
If the setting information is not changed in the setting information change mode that triggered the execution of the predetermined process, the predetermined notification (RAM clear notification) is made in a second notification mode different from the first notification mode. means for executing process B1);
When the setting information is changed in the setting information change mode that triggered the execution of the predetermined process, the predetermined notification is performed in a third notification mode different from the first notification mode and the second notification mode. means for executing notification (RAM clear notification processing B2);
A gaming machine characterized by comprising:

According to feature δC2, when the setting information is not changed in the setting information change mode that triggered the execution of the predetermined process, the predetermined notification is executed in a second notification mode different from the first notification mode. , execute a predetermined notification in a third notification mode different from the first notification mode and the second notification mode when the setting information is changed in the setting information change mode that triggered the execution of the predetermined process; do. Therefore, even if the administrator does not know what kind of operation has been performed on the gaming machine, by understanding the notification mode of the prescribed notification on the gaming machine, the administrator can determine the trigger for execution of the prescribed process. It becomes possible to grasp whether or not the setting information has been changed in the setting information change mode.

Specifically, for example, if the manager of the game hall instructs a worker to change the setting information of the game machine before the game hall starts operating, the worker may change the setting information of the game machine in a manner that differs from the manager's instructions. It is possible to confirm whether work is being performed or not based on the notification mode of the predetermined notification. In addition, even if the administrator himself changes the setting information in the setting information change mode, he can confirm whether his work was performed correctly by checking the notification mode of the specified notification. .

<Characteristic δD group>
The feature δD group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δD1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for executing a predetermined notification when the setting information change mode is executed;
A gaming machine comprising:
The notification execution means is
means for executing the predetermined notification (RAM clear notification process B1) in a first notification mode when the setting information is not changed in the setting information change mode;
means for executing the predetermined notification (RAM clear notification process B2) in a second notification mode different from the first notification mode when the setting information is changed in the setting information change mode;
A gaming machine characterized by comprising:

According to the feature δD1, when the setting information is not changed in the setting information change mode, a predetermined notification is executed in the first notification mode, and when the setting information is changed in the setting information change mode, the first notification is executed. Since the predetermined notification is executed in a second notification mode different from the mode, the administrator can perform the predetermined notification in the gaming machine without knowing what kind of operation was performed in the setting information change mode. By understanding the notification mode, it becomes possible to understand whether or not the setting information has been changed in the gaming machine.

Specifically, for example, if the manager of the game hall instructs a worker to change the setting information of the game machine before the game hall starts operating, the worker may change the setting information of the game machine in a manner that differs from the manager's instructions. It is possible to confirm whether work is being performed or not based on the notification mode of the predetermined notification. In addition, even if the administrator himself changes the setting information in the setting information change mode, he can confirm whether his work was performed correctly by checking the notification mode of the specified notification. .

[Feature δD2]
The gaming machine according to feature δD1,
A gaming machine characterized in that the notification execution means includes means for executing the predetermined notification for a predetermined period (30 seconds).

According to feature δD2, since a predetermined notification is executed over a predetermined period of time, it is possible to suppress the occurrence of a situation where the administrator does not notice that the setting information change mode has been executed in the gaming machine.

A case will be described in which, unlike this feature, a configuration is adopted in which notification is performed only during the period in which the setting information change mode is being executed. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If you start the setting information change mode and quickly change the setting information, and then quickly end the setting information change mode, the notification period can be shortened, and the settings can be done without being noticed by the administrator. There is a problem that information can be changed illegally.

On the other hand, according to this feature, even if an unauthorized person quickly ends the setting information change mode, the specified notification will continue for the specified period, so the administrator etc. Through this predetermined notification, it can be noticed that the setting information change mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

[Feature δD3]
The gaming machine according to feature δD2,
The gaming machine characterized in that the notification execution means includes means for executing the predetermined notification for a predetermined period (30 seconds) after the setting information change mode ends.

According to feature δD3, a predetermined notification is performed for a predetermined period after the setting information change mode ends. The reason for adopting such a configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration is adopted in which a predetermined notification is executed over a predetermined period after the start of the setting information change mode. In this configuration, for example, if the setting information change mode is being executed for a period longer than the predetermined period, the predetermined notification will end while the setting information change mode is being executed; If the setting information change mode ends in a period shorter than the predetermined period, the predetermined notification will continue even after the setting information change mode ends. In other words, the predetermined notification may end or continue without being linked to the end timing of the setting information change mode, which may confuse the administrator.

In contrast, according to this feature, the predetermined notification is executed for a predetermined period after the setting information change mode ends, so the predetermined notification is not linked to the end timing of the setting information change mode. It never ends or continues. Therefore, it is possible to avoid a situation in which the administrator does not notice that the setting information change mode has been executed in the gaming machine, while avoiding confusing the administrator.

[Feature δD4]
The gaming machine according to feature δD3,
The gaming machine characterized in that the notification execution means includes means for executing a second notification during execution of the setting information change mode.

According to feature δD4, since the second notification is executed while the setting information change mode is being executed, the administrator can notify that the setting information change mode is being executed by an unauthorized person while the setting information change mode is being executed. It is also possible to notice.

<Characteristic δE group>
The feature δE group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δE1]
Transmitting means for transmitting a notification trigger command (RAM clear command) that is a command that triggers execution of a predetermined notification;
notification execution means for executing the predetermined notification when the notification trigger command is received;
A gaming machine comprising:
The notification execution means is
In the case where the notification trigger command is received, if the predetermined command (setting change mode end command A or B) is not received before receiving the notification trigger command, the predetermined command is executed in the first notification mode. means for executing notification (RAM clear notification processing A);
When the notification trigger command is received, if the predetermined command (setting change mode end command A or B) is received before receiving the notification trigger command, the notification mode differs from the first notification mode. means for executing the predetermined notification (RAM clear notification processing B1, B2) in a notification mode;
A gaming machine characterized by comprising:

According to feature δE1, when a notification trigger command is received, and if a predetermined command has not been received before receiving the notification trigger command, a predetermined notification is executed in the first notification mode, and the notification is When a trigger command is received, and if a predetermined command has been received before receiving the notification trigger command, the predetermined notification is executed in a notification mode different from the first notification mode. Therefore, even in a configuration in which the notification trigger command cannot be transmitted with different command contents included, it is possible to execute predetermined notifications triggered by the notification trigger command in different notification modes.

Specifically, for example, in a configuration in which a notification trigger command is transmitted after executing RAM clear processing to erase information stored in RAM, it is determined whether a predetermined condition is satisfied before executing RAM clear processing. It is not possible to send a notification trigger command including the contents of . Therefore, there is a problem in that the notification execution means that has received the notification trigger command cannot execute a predetermined notification in a notification mode corresponding to whether or not a predetermined condition is satisfied before executing the RAM clearing process.

In contrast, in this feature, for example, a predetermined command is not transmitted or is transmitted depending on whether or not a predetermined condition is satisfied before executing the RAM clearing process, and after executing the RAM clearing process, If the configuration is such that a notification trigger command is transmitted, it becomes possible to execute a predetermined notification in a notification mode corresponding to whether or not a predetermined condition is satisfied before executing the RAM clearing process.

[Feature δE2]
The gaming machine according to feature δE1,
Information storage means (main side RAM 64) capable of storing various information;
Erasing means for performing erasing processing (RAM clear processing) for erasing the various information stored in the information storage means;
a second transmitting means for transmitting the predetermined command when a predetermined condition is satisfied (when a setting change mode is executed) before executing the erasing process;
Equipped with
A gaming machine characterized in that the transmitting means includes means for transmitting the notification trigger command after executing the erasing process.

According to feature δE2, a predetermined command is transmitted when a predetermined condition is satisfied before the erasure process is executed, and a notification trigger command is transmitted after the erasure process is executed. Therefore, it is possible to perform a predetermined notification in a notification mode corresponding to whether or not a predetermined condition is satisfied before executing the erasing process.

<Characteristic δF group>
The feature δF group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δF1]
Transmitting means for transmitting a notification trigger command (RAM clear command) that is a command that triggers execution of a predetermined notification;
notification execution means for executing the predetermined notification when the notification trigger command is received;
A gaming machine comprising:
The notification execution means is
When the notification trigger command is received, and if the first command (setting change mode end command A) is received before receiving the notification trigger command, the predetermined notification ( means for executing RAM clear notification processing B1);
In the case where the notification trigger command is received, if a second command (setting change mode end command B) different from the first command is received before receiving the notification trigger command, the first means for executing the predetermined notification (RAM clear notification processing B2) in a second notification mode different from the notification mode;
A gaming machine characterized by comprising:

According to feature δF1, when a notification trigger command is received, if the first command is received before receiving the notification trigger command, a predetermined notification is executed in the first notification mode, and the notification is When a trigger command is received, if a second command different from the first command is received before receiving the notification trigger command, in a second notification mode different from the first notification mode. Execute predetermined notification. Therefore, even in a configuration in which the notification trigger command cannot be transmitted with different command contents included, it is possible to execute predetermined notifications triggered by the notification trigger command in different notification modes.

Specifically, for example, in a configuration in which the notification trigger command is transmitted after executing RAM clear processing to erase information stored in RAM, information stored in RAM at the time before execution of RAM clear processing is (For example, information indicating whether or not setting information has been changed) It is not possible to transmit a notification trigger command including the corresponding command content. Therefore, there was a problem in that the notification execution means that received the notification trigger command could not execute a predetermined notification in a notification mode corresponding to the information stored in the RAM at the time before executing the RAM clearing process.

According to this feature, for example, the first command or the second command is transmitted in accordance with the information stored in the RAM, and the notification trigger command is transmitted after the RAM clearing process is executed. If so, it becomes possible to execute a predetermined notification in a notification mode corresponding to the information stored in the RAM at the time before the execution of the RAM clearing process.

[Feature δF2]
The gaming machine according to feature δF1,
Information storage means (main side RAM 64) capable of storing various information including predetermined information (state of setting changed flag);
Erasing means for performing erasing processing (RAM clear processing) for erasing the various information stored in the information storage means;
Before executing the erasing process, transmit which one of a plurality of commands including the first command and the second command is based on the predetermined information stored in the information storage means. a second transmitting means for determining the command and transmitting the determined command;
Equipped with
A gaming machine characterized in that the transmitting means includes means for transmitting the notification trigger command after executing the erasing process.

According to the feature δF2, which command is transmitted from among a plurality of commands including the first command and the second command based on predetermined information stored in the information storage means before executing the erasing process. The determined command is transmitted, and after the deletion process is executed, a notification trigger command is transmitted. Therefore, it is possible to execute the predetermined notification in a notification mode corresponding to the predetermined information stored in the information storage means at the time before the erasing process is executed.

<Characteristic δG group>
The feature δG group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 121 of the first embodiment.

[Feature δG1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first transmitting means for transmitting a first command (setting change mode end command) when the setting information change mode ends;
Predetermined process execution means for executing a predetermined process (RAM clearing process) upon completion of the setting information change mode;
a second transmitting means for transmitting a second command (RAM clear command) upon completion of the predetermined processing;
notification execution means for executing a predetermined notification upon receiving a predetermined command;
A gaming machine comprising:
The notification executing means includes means for executing the predetermined notification upon receiving the second command, but not executing the predetermined notification upon receiving the first command. A gaming machine characterized by:

According to feature δG1, the notification execution means executes the predetermined notification upon receiving the second command, but does not execute the predetermined notification upon receiving the first command. The reason for adopting such a configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration is adopted in which the notification execution means executes a predetermined notification even when the notification execution means receives the first command. When this configuration is adopted, the notification execution means receives the second command while executing a predetermined notification triggered by receiving the first command. In this case, the notification execution means adopts a configuration in which a predetermined notification triggered by receiving the first command and a predetermined notification triggered by reception of the second command are executed redundantly. Alternatively, a configuration is adopted in which the predetermined notification triggered by the reception of the first command is terminated at the same time as the start of the predetermined notification triggered by the reception of the second command. .

However, if a configuration is adopted in which a predetermined notification triggered by the reception of the first command and a predetermined notification triggered by the reception of the second command are executed redundantly, the administrator However, there is a problem in that the system cannot recognize the content of any notification. Furthermore, if a configuration is adopted in which the predetermined notification triggered by the reception of the first command is terminated at the same time as the start of the predetermined notification triggered by the reception of the second command, the A predetermined notification triggered by the reception of the first command (for example, notification that the setting information change mode has ended) ends in a short period of time, and the notification triggered by the administrator receiving the first command There is a problem in that the user is unable to notice the predetermined notification, and is unable to recognize that the setting information change mode has ended, for example.

In contrast, according to the present feature, the notification executing means executes the predetermined notification upon receiving the second command, but executes the predetermined notification upon receiving the first command. As a result, the predetermined notification triggered by the reception of the first command and the predetermined notification triggered by the reception of the second command are executed redundantly, and the administrator It is possible to avoid a situation where the content of the notification cannot be recognized.

In the configuration of this feature, for example, by executing a predetermined notification triggered by receiving the second command, in addition to the completion of a predetermined process, the setting information change mode is also terminated. By notifying the administrator, the administrator can reliably recognize that not only the predetermined process has been completed, but also that the setting information change mode has ended. Therefore, there is no problem even if the predetermined notification triggered by the reception of the first command is not executed, and the predetermined notification triggered by the reception of the first command described above (for example, setting The notification that the information change mode has ended ended in a short period of time, and the administrator was unable to notice the specified notification triggered by receiving the first command, and the setting information change mode ended. It can also solve the problem of not being able to recognize what you have done.

[Feature δG2]
The gaming machine according to feature δG1,
The notification execution means is
When the second command is received, and the first command (setting change mode end command A or B) is not received before receiving the second command, the first notification mode means for executing the predetermined notification (RAM clear notification process A);
In the case where the second command is received, if the first command (setting change mode end command A or B) is received before receiving the second command, the first notification mode means for executing the predetermined notification (RAM clear notification processing B1, B2) in a different notification mode;
A gaming machine characterized by comprising:

According to feature δG2, when the notification execution means receives the second command and has not received the first command before receiving the second command, the notification execution means performs the notification in the first notification mode. When a predetermined notification is executed and a second command is received, if the first command is received before receiving the second command, the notification mode is different from the first notification mode. Since the predetermined notification is executed, it is possible for the administrator who has recognized the predetermined notification to know whether or not the notification execution means had received the first command before receiving the second command. can. Specifically, for example, it is possible to have the administrator who has recognized the predetermined notification understand whether or not the setting information change mode was executed before the predetermined process.

<Characteristic δH group>
The feature δH group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 122 of the first embodiment.

[Feature δH1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for executing a predetermined notification (RAM clear notification process);
A gaming machine comprising:
The notification execution means is
a first execution unit that executes the predetermined notification (RAM clear notification process) after the setting information change mode is completed when the setting information change mode is executed;
a second execution means for executing the predetermined notification when the supply of power to the gaming machine is cut off while the predetermined notification is being executed and the supply of power to the gaming machine is restarted; and,
A gaming machine characterized by comprising:

According to feature δH1, when the setting information change mode is executed, a predetermined notification is executed after the setting information change mode ends. Then, when the power supply to the gaming machine is cut off while the predetermined notification is being executed, the predetermined notification is executed when the power supply to the gaming machine is restarted. The reason for adopting this configuration will be explained.

First, unlike this feature, even if the power supply to the gaming machine is cut off while a predetermined notification is being executed, the predetermined notification will be executed when the power supply to the gaming machine is restarted. A case will be described in which a configuration in which the notification is not performed is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If you run the setting information change mode, change the setting information, and end the setting information change mode, turn off the power switch of the gaming machine to cut off the power supply to the gaming machine. The predetermined notification can be terminated, and the setting information can be changed illegally without being noticed by the administrator or the like. After that, if the power switch of the gaming machine is turned on again to start supplying power to the gaming machine, the gaming machine whose setting information has been illegally changed can be used without the administrator's notice. There is a problem that it becomes possible for unauthorized persons to play games.

In contrast, according to this feature, after an unauthorized person ends the setting information change mode, the unauthorized person turns off the power switch of the gaming machine, cuts off the power supply to the gaming machine, and ends the predetermined notification. Even if the user tries to play a game on the gaming machine, if the power switch of the gaming machine is turned on and the supply of power to the gaming machine is restarted, the prescribed notification will be executed. . Therefore, the administrator or the like can notice that the setting information change mode has been executed in the gaming machine by the predetermined notification. As a result, according to this feature, it is possible to prevent unauthorized changes to the setting information by an unauthorized person and to prevent a game from being played on a gaming machine in which the setting information has been illegally changed.

[Feature δH2]
The gaming machine according to feature δH1,
A storage means (main side RAM 64) for storing predetermined identification information (RAM clear notification flag);
When the predetermined notification starts, the identification information is set to a first state (ON), and when the predetermined notification ends, the identification information is set to a second state (OFF) different from the first state. identification information transition means for transitioning to;
Equipped with
The storage means is capable of maintaining the state of the identification information even when power supply to the gaming machine is cut off,
The second execution means includes means for executing the predetermined notification when it is determined that the identification information is in the first state when power supply to the gaming machine is started. A gaming machine with special features.

According to the feature δH1, the identification information transition means changes the identification information to the first state at the start of the predetermined notification, and transitions the identification information to the second state at the end of the predetermined notification. The storage means can maintain the state of the identification information even when the power supply to the gaming machine is cut off. Therefore, for example, if the power switch of a gaming machine is turned off during the execution of a predetermined notification and the power supply to the gaming machine is cut off, the identification information stored in the storage means is maintained in condition.

According to this feature, the second execution means executes the predetermined notification when determining that the identification information is in the first state when power supply to the gaming machine is started. In other words, according to this feature, when the power supply to the gaming machine is cut off while a predetermined notification is being executed, when the power supply to the gaming machine is restarted, the setting information is changed. Even if the mode is not being executed, the predetermined notification will be executed. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting information change mode has been executed in the gaming machine. As a result, according to this feature, it is possible to prevent unauthorized changes to the setting information by an unauthorized person and to prevent a game from being played on a gaming machine in which the setting information has been illegally changed.

<Characteristic δI group>
The feature δI group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 123 of the first embodiment.

[Feature δI1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for executing a predetermined notification (notification processing after completion of setting confirmation mode);
A gaming machine comprising:
The notification execution means is
a first execution unit that executes the predetermined notification (post-setting confirmation mode notification process) when the setting information display mode is executed, after the setting information display mode ends;
a second execution means for executing the predetermined notification when the supply of power to the gaming machine is cut off while the predetermined notification is being executed and the supply of power to the gaming machine is restarted; and,
A gaming machine characterized by comprising:

According to feature δI1, when the setting information display mode is executed, a predetermined notification is executed after the setting information display mode ends. Then, when the power supply to the gaming machine is cut off while the predetermined notification is being executed, the predetermined notification is executed when the power supply to the gaming machine is restarted. The reason for adopting this configuration will be explained.

First, unlike this feature, even if the power supply to the gaming machine is cut off while a predetermined notification is being executed, the predetermined notification will be executed when the power supply to the gaming machine is restarted. A case will be described in which a configuration in which the notification is not performed is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. If you execute the setting information display mode, check the setting information, and end the setting information display mode, turn off the power switch of the gaming machine to cut off the power supply to the gaming machine. The predetermined notification can be terminated, and the setting information can be fraudulently confirmed without being noticed by the administrator or the like. After that, if the power switch of the gaming machine is turned on again to start supplying power to the gaming machine, the gaming machine whose setting information has been fraudulently confirmed can be used without the administrator's notice. There is a problem that it becomes possible for unauthorized persons to play games.

In contrast, according to this feature, after an unauthorized person ends the setting information display mode, the unauthorized person turns off the power switch of the gaming machine, cuts off the power supply to the gaming machine, and ends the prescribed notification. Even if the user tries to play a game on the gaming machine, if the power switch of the gaming machine is turned on and the supply of power to the gaming machine is restarted, the prescribed notification will be executed. . Therefore, the administrator or the like can notice that the setting information display mode has been executed in the gaming machine by the predetermined notification. As a result, according to this feature, it is possible to prevent an unauthorized person from fraudulently confirming the setting information and from playing a game on a gaming machine whose setting information has been fraudulently confirmed.

[Feature δI2]
The gaming machine according to feature δI1,
A storage means (main side RAM 64) for storing predetermined identification information (RAM clear notification flag);
When the predetermined notification starts, the identification information is set to a first state (ON), and when the predetermined notification ends, the identification information is set to a second state (OFF) different from the first state. identification information transition means for transitioning to;
Equipped with
The storage means is capable of maintaining the state of the identification information even when power supply to the gaming machine is cut off,
The second execution means includes means for executing the predetermined notification when it is determined that the identification information is in the first state when power supply to the gaming machine is started. A gaming machine with special features.

According to the feature δI1, the identification information transition means changes the identification information to the first state at the start of the predetermined notification, and transitions the identification information to the second state at the end of the predetermined notification. The storage means can maintain the state of the identification information even when the power supply to the gaming machine is cut off. Therefore, for example, if the power switch of a gaming machine is turned off during the execution of a predetermined notification and the power supply to the gaming machine is cut off, the identification information stored in the storage means is maintained in condition.

According to this feature, the second execution means executes the predetermined notification when determining that the identification information is in the first state when power supply to the gaming machine is started. In other words, according to this feature, when the power supply to the gaming machine is cut off while a predetermined notification is being executed, and when the power supply to the gaming machine is restarted, the setting information is displayed. Even if the mode is not being executed, the predetermined notification will be executed. Therefore, it is possible to increase the possibility that the administrator or the like will be able to notice that the setting information display mode has been executed in the gaming machine. As a result, according to this feature, it is possible to prevent an unauthorized person from fraudulently confirming the setting information and from playing a game on a gaming machine whose setting information has been fraudulently confirmed.

<Characteristic δJ group>
The feature δJ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 124 of the first embodiment.

[Feature δJ1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for executing a predetermined notification (setting change mode execution notification processing, RAM clear notification processing B1, B2) when the setting information change mode is executed;
a variation start means (special figure unit 37) that starts variation of the symbol when the special information becomes a target of determination by the special information determination means;
Effect execution means (sound emission control device 90, display control device 100, etc.) that executes an effect using the variation of the symbol as a trigger;
Priority means for prioritizing the predetermined notification over the performance;
A gaming machine characterized by comprising:

According to the feature δJ1, a predetermined notification that is executed when the setting information change mode is executed is given priority over an effect that is executed triggered by a change in the symbol. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration is adopted in which presentation is prioritized over predetermined notification. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. In addition, if the game ball enters the ball entry means and the pattern starts to change and the effect is executed, even if the setting information change mode is executed, the effect will take priority over the predetermined notification, There is a problem that setting information can be changed illegally without being noticed by an administrator or the like.

On the other hand, according to this feature, even if an unauthorized person inserts a game ball into the ball entry means and starts changing the symbols, the predetermined notification will take priority over the performance, so the administrator can etc. can increase the possibility that the player will notice that the setting information change mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

[Feature δJ2]
The gaming machine according to feature δJ1,
The gaming machine characterized in that the priority means includes means for not performing the performance even if the symbols are changing when the predetermined notification is being performed.

According to feature δJ2, if a predetermined notification is being executed, the performance will not be executed even if the symbols are changing, so that the administrator etc. can execute the setting information change mode in the gaming machine. You can increase your chances of noticing things.

[Feature δJ3]
The gaming machine according to feature δJ1,
The performance execution means includes means for outputting a specific sound as at least a part of the performance,
The gaming machine is characterized in that the priority means includes means for not outputting the specific sound even if the symbol is changing when the predetermined notification is being executed.

According to feature δJ3, when a predetermined notification is executed, a specific sound is not output even if the symbol is changing, so an administrator etc. can execute the setting information change mode on the gaming machine. This can increase the possibility that you will be able to notice what has happened to you.

[Feature δJ4]
The gaming machine according to feature δJ1,
The performance execution means includes means for outputting a specific sound as at least a part of the performance,
When the predetermined notification is being executed and the symbol is changing, the priority means may set the volume of the specific sound to be lower than when the predetermined notification is not being executed. A gaming machine characterized by comprising a means for.

According to feature δJ4, when a predetermined notification is being executed and the symbol is changing, the volume of the specific sound is made lower than when the predetermined notification is not being executed. It is possible to make the administrator or the like aware that the setting information change mode has been executed in the gaming machine while making the administrator aware that the symbols are changing.

<Characteristic δK group>
The feature δK group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 125 of the first embodiment.

[Feature δK1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
notification execution means for executing a predetermined notification (notification process during execution of setting confirmation mode, notification process after completion of setting confirmation mode) when the setting information display mode is executed;
a variation start means (special figure unit 37) that starts variation of the symbol when the special information becomes a target of determination by the special information determination means;
Effect execution means (sound emission control device 90, display control device 100, etc.) that executes an effect using the variation of the symbol as a trigger;
Priority means for prioritizing the predetermined notification over the performance;
A gaming machine characterized by comprising:

According to the feature δK1, a predetermined notification that is executed when the setting information display mode is executed is given priority over an effect that is executed triggered by a change in the symbol. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration is adopted in which presentation is prioritized over predetermined notification. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. In addition, if the game ball enters the ball entry means and the symbols start to change and the effect is executed, even if the setting information display mode is executed, the effect will take priority over the predetermined notification, There is a problem that it becomes possible to illegally check the setting information without being noticed by the administrator.

In contrast, according to this feature, even if an unauthorized person inserts a game ball into the ball entry means and starts changing the symbols, the predetermined notification will take priority over the performance, so the administrator can etc. can increase the possibility that the player will be able to notice that the setting information display mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

[Feature δK2]
The gaming machine according to feature δK1,
The gaming machine characterized in that the priority means includes means for not performing the performance even if the symbols are changing when the predetermined notification is being performed.

According to feature δK2, if a predetermined notification is being executed, the performance will not be executed even if the symbols are changing, so that the administrator etc. cannot execute the setting information display mode on the gaming machine. You can increase your chances of noticing things.

[Feature δK3]
The gaming machine according to feature δK1,
The performance execution means includes means for outputting a specific sound as at least a part of the performance,
The gaming machine is characterized in that the priority means includes means for not outputting the specific sound even if the symbol is changing when the predetermined notification is being executed.

According to feature δK3, when a predetermined notification is executed, a specific sound is not output even if the symbol is changing, so that an administrator etc. can execute the setting information display mode on the gaming machine. This can increase the possibility that you will be able to notice what has happened to you.

[Feature δK4]
The gaming machine according to feature δK1,
The performance execution means includes means for outputting a specific sound as at least a part of the performance,
When the predetermined notification is being executed and the symbol is changing, the priority means may set the volume of the specific sound to be lower than when the predetermined notification is not being executed. A gaming machine characterized by comprising a means for.

According to feature δK4, when a predetermined notification is being executed and the symbol is changing, the volume of the specific sound is made lower than when the predetermined notification is not being executed. It is possible to make the administrator or the like aware that the setting information display mode has been executed in the gaming machine while making the administrator aware that the symbols are changing.

<Characteristic δL group>
The feature δL group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 126 of the first embodiment.

[Feature δL1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (setting change mode execution notification processing, RAM clear notification processing B1, B2) when the setting information change mode is executed;
A storage means (lower tray 21) capable of storing game balls;
a second notification execution unit (sound emission control device 90, display control device 100, etc.) that executes a second notification when the number of game balls stored in the storage unit exceeds a predetermined amount;
Priority means for giving priority to the first notification over the second notification;
A gaming machine characterized by comprising:

According to the feature δL1, the first notification executed when the setting information change mode is executed is changed from the second notification executed when the number of game balls stored in the storage means exceeds a predetermined amount. Also prioritize. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the second notification is given priority over the first notification is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If the storage means stores more than a predetermined amount of game balls and executes the second notification, even if the setting information change mode is executed, the second notification will be given priority over the first notification. However, there is a problem in that it becomes possible to illegally change the setting information without the administrator or the like noticing.

On the other hand, according to this feature, even if an unauthorized person stores more than a predetermined amount of game balls in the storage means, the first notification has priority over the second notification, so the administrator, etc. It is possible to increase the possibility that the player will be able to notice that the setting information change mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

[Feature δL2]
The gaming machine according to feature δL1,
The priority means is means for not causing the second notification to be executed when the first notification is being executed even if the number of game balls stored in the storage unit is greater than or equal to a predetermined amount. A gaming machine characterized by comprising:

According to feature δL2, when the first notification is being executed, the second notification is not executed even if the number of game balls stored in the storage means exceeds a predetermined amount, so management This increases the possibility that a person or the like will be able to notice that the setting information change mode has been executed in the gaming machine.

[Feature δL3]
The gaming machine according to feature δL1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
The priority means is means for not outputting the specific notification sound even if the number of game balls stored in the storage means exceeds a predetermined amount when the first notification is executed. A gaming machine characterized by comprising:

According to feature δL3, when the first notification is executed, a specific notification sound is not output even if the number of game balls stored in the storage means exceeds a predetermined amount, so management This increases the possibility that a person or the like will be able to notice that the setting information change mode has been executed in the gaming machine.

[Feature δL4]
The gaming machine according to feature δL1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
When the first notification is being executed and the number of game balls stored in the storage means is greater than or equal to a predetermined amount, the priority means may adjust the volume of the specific notification sound to A gaming machine characterized by comprising means for making the first notification smaller than when the first notification is not executed.

According to feature δL4, when the first notification is being executed and the number of game balls stored in the storage means is equal to or greater than the predetermined amount, the volume of the specific notification sound is changed to the first notification sound. The notification will be smaller than when it is not being executed, so the setting information change mode of the game machine can be changed while making the administrator aware that the number of game balls stored in the storage means has exceeded the predetermined amount. It can make you aware that it has been carried out.

<Feature δM group>
The feature δM group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 127 of the first embodiment.

[Feature δM1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (notification process during execution of setting confirmation mode, notification process after completion of setting confirmation mode) when the setting information display mode is executed;
A storage means (lower tray 21) capable of storing game balls;
a second notification execution unit (sound emission control device 90, display control device 100, etc.) that executes a second notification when the number of game balls stored in the storage unit exceeds a predetermined amount;
Priority means for giving priority to the first notification over the second notification;
A gaming machine characterized by comprising:

According to the feature δM1, the first notification executed when the setting information display mode is executed is replaced by the second notification executed when the number of game balls stored in the storage means exceeds a predetermined amount. Also prioritize. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the second notification is given priority over the first notification is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. If the storage means stores more than a predetermined amount of game balls and executes the second notification, even if the setting information display mode is executed, the second notification will take priority over the first notification. However, there is a problem in that it becomes possible to illegally check the setting information without the administrator or the like noticing.

On the other hand, according to this feature, even if an unauthorized person stores more than a predetermined amount of game balls in the storage means, the first notification has priority over the second notification, so the administrator, etc. It is possible to increase the possibility that the player will be able to notice that the setting information display mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

[Feature δM2]
The gaming machine according to feature δM1,
The priority means is means for not causing the second notification to be executed when the first notification is being executed even if the number of game balls stored in the storage unit is greater than or equal to a predetermined amount. A gaming machine characterized by comprising:

According to feature δM2, when the first notification is being executed, the second notification is not executed even if the number of game balls stored in the storage means is greater than or equal to the predetermined amount, so management This increases the possibility that a person or the like will be able to notice that the setting information display mode has been executed in the gaming machine.

[Feature δM3]
The gaming machine according to feature δM1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
The priority means is means for not outputting the specific notification sound even if the number of game balls stored in the storage means exceeds a predetermined amount when the first notification is executed. A gaming machine characterized by comprising:

According to feature δM3, when the first notification is executed, a specific notification sound is not output even if the number of game balls stored in the storage means exceeds a predetermined amount, so management This increases the possibility that a person or the like will be able to notice that the setting information display mode has been executed in the gaming machine.

[Feature δM4]
The gaming machine according to feature δM1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
When the first notification is being executed and the number of game balls stored in the storage means is greater than or equal to a predetermined amount, the priority means may adjust the volume of the specific notification sound to A gaming machine characterized by comprising means for making the first notification smaller than when the first notification is not executed.

According to the feature δM4, when the first notification is executed and the number of game balls stored in the storage means exceeds a predetermined amount, the volume of the specific notification sound is changed to the first notification sound. Since the notification is smaller than when it is not being executed, the setting information display mode of the game machine is changed while making the administrator etc. aware that the number of game balls stored in the storage means exceeds the predetermined amount. It can make you aware that it has been carried out.

<Feature δN group>
The feature δN group is extracted from each of the above-described embodiments, modifications, or a combination thereof, and is mainly extracted from the aspect 128 of the first embodiment.

[Feature δN1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (setting change mode execution notification process, RAM clear notification process B1, B2) when the setting information change mode is executed;
If the firing mode of the game ball is not the predetermined firing mode (if "hitting to the right" is performed in a game state where "hitting to the left" should be performed, "hitting to the left" is performed in a game state where "hitting to the right" should be performed) a second notification execution means (sound emission control device 90, display control device 100, etc.) that executes a second notification (left-handed hitting suggestion notification process, right-handed hitting suggestion notification process) when
Priority means for giving priority to the first notification over the second notification;
A gaming machine characterized by comprising:

According to the feature δN1, the first notification executed when the setting information change mode is executed is given priority over the second notification executed when the game ball launch mode is not the predetermined launch mode. . The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the second notification is given priority over the first notification is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally change the setting information without the administrator or surrounding players noticing. If the game ball is fired in a firing mode other than the predetermined firing mode and the second notification is executed, the second notification will take priority over the first notification even if the setting information change mode is executed. This poses a problem in that it becomes possible for settings information to be changed illegally without being noticed by an administrator or the like.

On the other hand, according to this feature, even if the game ball is fired in a firing mode other than the predetermined firing mode, the first notification has priority over the second notification, so the administrator etc. It is possible to increase the possibility of noticing that the setting information change mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized changes to the setting information by an unauthorized person.

[Feature δN2]
The gaming machine according to feature δN1,
The priority means includes means for preventing the execution of the second notification even if the game ball launch mode is not the predetermined launch mode when the first alert is executed. A gaming machine with special features.

According to feature δN2, if the first notification is being executed, the second notification will not be executed even if the game ball launch mode is not the predetermined launch mode, so the administrator etc. It is possible to increase the possibility of noticing that the setting information change mode has been executed in the gaming machine.

[Feature δN3]
The gaming machine according to feature δN1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
The priority means includes means for not outputting the specific notification sound even if the game ball launch mode is not the predetermined launch mode when the first notification is executed. A gaming machine with special features.

According to feature δN3, when the first notification is executed, a specific notification sound is not output even if the game ball launch mode is not the predetermined launch mode, so the administrator etc. It is possible to increase the possibility of noticing that the setting information change mode has been executed in the gaming machine.

[Feature δN4]
The gaming machine according to feature δN1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
When the first notification is being executed and the game ball launch mode is not the predetermined launch mode, the priority means sets the volume of the specific notification sound to the first notification sound volume. A game machine characterized by comprising means for making the notification smaller than when the notification is not executed.

According to the feature δN4, when the first notification is executed and the firing mode of the game ball is not the predetermined firing mode, the volume of the specific notification sound is changed by the first notification. The setting information change mode is made smaller than when the setting information change mode has been executed in the game machine, so that the administrator etc. can be made aware that the game ball launch mode is not the predetermined launch mode, and that the setting information change mode has been executed in the game machine. I can do it.

<Characteristic δO group>
The feature δO group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 129 of the first embodiment.

[Feature δO1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
a first notification execution unit that executes a first notification (notification process during execution of setting confirmation mode, notification process after completion of setting confirmation mode) when the setting information display mode is executed;
If the firing mode of the game ball is not the predetermined firing mode (if "hitting to the right" is performed in a game state where "hitting to the left" should be performed, "hitting to the left" is performed in a game state where "hitting to the right" should be performed) a second notification execution means (sound emission control device 90, display control device 100, etc.) that executes a second notification (left-handed hitting suggestion notification process, right-handed hitting suggestion notification process) when
Priority means for giving priority to the first notification over the second notification;
A gaming machine characterized by comprising:

According to feature δO1, the first notification executed when the setting information display mode is executed is given priority over the second notification executed when the game ball launch mode is not a predetermined launch mode. . The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the second notification is given priority over the first notification is adopted. In this configuration, for example, if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") tries to illegally check the setting information without the administrator or surrounding players noticing. If the game ball is fired in a firing mode other than the predetermined firing mode and the second notification is executed, the second notification will take priority over the first notification even if the setting information display mode is executed. There is a problem in that it becomes possible to illegally check the setting information without the administrator or the like noticing.

On the other hand, according to this feature, even if the game ball is fired in a firing mode other than the predetermined firing mode, the first notification has priority over the second notification, so the administrator etc. It is possible to increase the possibility of noticing that the setting information display mode has been executed in the gaming machine. Therefore, according to this feature, it is possible to suppress unauthorized confirmation of setting information by an unauthorized person.

[Feature δO2]
The gaming machine according to feature δO1,
The priority means includes means for preventing the execution of the second notification even if the game ball launch mode is not the predetermined launch mode when the first alert is executed. A gaming machine with special features.

According to feature δO2, if the first notification is being executed, the second notification will not be executed even if the game ball launch mode is not the predetermined launch mode, so the administrator etc. It is possible to increase the possibility of noticing that the setting information display mode has been executed in the gaming machine.

[Feature δO3]
The gaming machine according to feature δO1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
The priority means includes means for not outputting the specific notification sound even if the game ball launch mode is not the predetermined launch mode when the first notification is executed. A gaming machine with special features.

According to feature δO3, when the first notification is executed, a specific notification sound is not output even if the game ball launch mode is not the predetermined launch mode, so the administrator etc. It is possible to increase the possibility of noticing that the setting information display mode has been executed in the gaming machine.

[Feature δO4]
The gaming machine according to feature δO1,
The second notification execution means includes means for outputting a specific notification sound as at least a part of the second notification,
When the first notification is being executed and the game ball launch mode is not the predetermined launch mode, the priority means sets the volume of the specific notification sound to the first notification sound volume. A game machine characterized by comprising means for making the notification smaller than when the notification is not executed.

According to the feature δO4, when the first notification is executed and the firing mode of the game ball is not the predetermined firing mode, the volume of the specific notification sound is changed by the first notification. The setting information display mode is made smaller than when the setting information display mode is not executed in the game machine, so that the administrator, etc. is made aware that the game ball launch mode is not the predetermined launch mode, and that the setting information display mode has been executed in the game machine. I can do it.

<Characteristic δP group>
The feature δP group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 130 of the first embodiment.

[Feature δP1]
Setting information change mode execution means for executing a setting information change mode (setting change mode) in which setting information that is information that defines one benefit granting condition from among a plurality of benefit granting conditions can be changed;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
When the setting information change mode is executed, first notification execution means executes a first notification (RAM clear notification processing B1, B2) after the setting information change mode ends;
a magnetic detection means for detecting magnetism;
a second notification execution unit (sound emission control device 90, display control device 100, etc.) that executes a second notification when the magnetism detected by the magnetic detection unit satisfies a predetermined condition;
Priority means for giving priority to the second notification over the first notification;
A gaming machine characterized by comprising:

According to the feature δP1, the second notification executed when the detected magnetism satisfies a predetermined condition is given priority over the first notification executed after the setting information change mode ends. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the first notification is given priority over the second notification is adopted. In this configuration, for example, after the setting information change mode is executed by the administrator, the administrator terminates the setting information change mode and leaves the gaming machine, and the first notification is executed in the gaming machine. Under the circumstances, even if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") attempts to fraudulently insert a game ball into the ball entry means using, for example, a magnet, the first There is a problem that the first notification is given priority over the second notification, and it becomes possible to illegally insert game balls into the ball entry means using a magnet without the administrator etc. noticing. .

In contrast, according to this feature, even if an attempt is made to illegally enter a game ball into the ball entry means using a magnet in a situation where the first notification is being executed, the second notification will Since this notification has priority over notification No. 1, it is possible to increase the possibility that an administrator or the like will notice that a magnet has been used illegally in the gaming machine. Therefore, according to this feature, unauthorized use of the magnet by an unauthorized person can be suppressed.

[Feature δP2]
The gaming machine according to feature δP1,
The gaming machine is characterized in that the priority means includes means for preventing the first notification from being executed even if the setting information change mode is executed when the second notification is executed. .

According to feature δP2, when the second notification is executed, the first notification is not executed even if the setting information change mode is executed, so that the administrator etc. cannot use the gaming machine illegally. The possibility of noticing that a magnet has been used can be increased.

[Feature δP3]
The gaming machine according to feature δP1,
The first notification execution means includes means for outputting a specific notification sound as at least a part of the first notification,
The gaming machine is characterized in that the priority means includes means for not outputting the specific notification sound when the second notification is executed even if the setting information change mode is executed. .

According to feature δP3, when the second notification is executed, a specific notification sound is not output even if the setting information change mode is executed, so that an administrator or the like cannot illegally use the gaming machine. The possibility of noticing that a magnet has been used can be increased.

[Feature δP4]
The gaming machine according to feature δP1,
The first notification execution means includes means for outputting a specific notification sound as at least a part of the first notification,
The priority means is when the second notification is executed, and when the setting information change mode is executed, the volume of the specific notification sound is changed to the volume of the specific notification sound when the second notification is not executed. A game machine characterized by comprising means for making the size smaller than the size of the game machine.

According to feature δP4, when the second notification is executed and the setting information change mode is executed, the volume of the specific notification sound is changed from that when the second notification is not executed. Since the size of the magnet is also made small, it is possible to make the administrator or the like aware that the setting information change mode has been executed, and also to make the administrator aware that the magnet has been used illegally in the gaming machine.

<Characteristic δQ group>
The feature δQ group is extracted from each of the above-described embodiments, modifications, or combinations thereof, and is mainly extracted from the aspect 131 of the first embodiment.

[Feature δQ1]
Setting information that executes a setting information display mode (setting confirmation mode) that displays setting information that is information that determines one benefit granting condition from among a plurality of benefit granting conditions, but makes it impossible to change the setting information. Display mode execution means;
A ball entry means into which a game ball can enter;
special information acquisition means for acquiring special information triggered by the entry of a game ball into the ball entry means;
special information determining means for determining whether the special information satisfies the benefit granting conditions corresponding to the setting information;
a benefit granting unit that grants a benefit to the player when it is determined that the special information satisfies the benefit granting conditions;
When the setting information display mode is executed, first notification execution means executes a first notification (post-setting confirmation mode notification process) after the setting information display mode ends;
a magnetic detection means for detecting magnetism;
a second notification execution unit (sound emission control device 90, display control device 100, etc.) that executes a second notification when the magnetism detected by the magnetic detection unit satisfies a predetermined condition;
Priority means for giving priority to the second notification over the first notification;
A gaming machine characterized by comprising:

According to the feature δQ1, the second notification performed when the detected magnetism satisfies a predetermined condition is given priority over the first notification performed after the setting information display mode ends. The reason for adopting this configuration will be explained.

First, a case will be described in which, unlike this feature, a configuration in which the first notification is given priority over the second notification is adopted. In this configuration, for example, after the setting information display mode is executed by the administrator, the administrator ends the setting information display mode and leaves the gaming machine, and the first notification is executed in the gaming machine. Under the circumstances, even if a person who is not the administrator and has fraudulent intentions (hereinafter also referred to as an "unauthorized person") attempts to fraudulently insert a game ball into the ball entry means using, for example, a magnet, the first There is a problem that the first notification is given priority over the second notification, and it becomes possible to illegally insert game balls into the ball entry means using a magnet without the administrator etc. noticing. .

In contrast, according to this feature, even if an attempt is made to illegally enter a game ball into the ball entry means using a magnet in a situation where the first notification is being executed, the second notification will Since this notification has priority over notification No. 1, it is possible to increase the possibility that an administrator or the like will notice that a magnet has been used illegally in the gaming machine. Therefore, according to this feature, unauthorized use of the magnet by an unauthorized person can be suppressed.

[Feature δQ2]
The gaming machine described in feature δQ1,
The gaming machine is characterized in that the priority means includes means for preventing the first notification from being executed even if the setting information display mode is executed when the second notification is executed. .

According to feature δQ2, when the second notification is executed, the first notification is not executed even if the setting information display mode is executed, so that the administrator etc. cannot use the gaming machine in an unauthorized manner. The possibility of noticing that a magnet has been used can be increased.

[Feature δQ3]
The gaming machine described in feature δQ1,
The first notification execution means includes means for outputting a specific notification sound as at least a part of the first notification,
The gaming machine is characterized in that the priority means includes means for not outputting the specific notification sound when the second notification is executed even if the setting information display mode is executed. .

According to feature δQ3, when the second notification is executed, a specific notification sound is not output even if the setting information display mode is executed, so that an administrator or the like cannot illegally use the gaming machine. The possibility of noticing that a magnet has been used can be increased.

[Feature δQ4]
The gaming machine described in feature δQ1,
The first notification execution means includes means for outputting a specific notification sound as at least a part of the first notification,
The priority means is when the second notification is executed, and when the setting information display mode is executed, the volume of the specific notification sound is set to the volume level when the second notification is not executed. A game machine characterized by comprising means for making the size smaller than the size of the game machine.

According to feature δQ4, when the second notification is executed and the setting information display mode is executed, the volume of the specific notification sound is set to be higher than when the second notification is not executed. Since the size of the magnet is also made small, it is possible to make the administrator or the like aware that the setting information display mode has been executed, and also to make the administrator aware that the magnet has been used illegally in the gaming machine.

Note that the inventions of the feature γ group to feature δQ group solve the following problems.

In gaming machines such as pachinko machines and slot machines, we aim to improve the interest of gaming, reduce the processing load on gaming machines, optimize processing, simplify control, simplify structure, and improve the efficiency of gaming machine development. Technical improvements have been made from various viewpoints such as structure, control, performance, etc., with the aim of providing gaming machines that are less prone to malfunctions and that are user-friendly.

Various technical improvements have also been made with the aim of improving the soundness of gaming, such as discovering and deterring fraudulent actions by players and unauthorized modifications to gaming machines.

In the gaming machines mentioned above, we aim to improve the interest of gaming, reduce the processing load of gaming machines, optimize processing, simplify control, simplify structure, improve the efficiency of gaming machine development, and prevent defects from occurring. Further improvements in technology are desired for the purpose of providing gaming machines that are difficult to play, providing gaming machines that are considerate to players, and providing healthier gaming.

Note that a configuration may be adopted in which one or more configurations included in the feature group A to feature δQ group are appropriately combined. Thereby, it becomes possible to produce a synergistic effect by the combined configuration.

Below, the basic configuration of a gaming machine to which each of the above features can be applied or is applied to each feature will be shown.

Pachinko gaming machine: A launcher that launches a game ball toward a game area based on a player's launch operation, and a starting ball that is provided in the game area and allows game balls flowing down the game area to enter. a game ball, an information acquisition unit that acquires special information based on the entry of a game ball into the starting ball entry unit, and an acquisition information storage unit that stores the special information acquired by the information acquisition unit. Machine.

A reel-type gaming machine such as a slot machine: a picture display means for variably displaying a plurality of pictures, a start means for starting the variable display of the plurality of pictures due to the operation of a start operation means, and operation of a stop operation means. A gaming machine comprising: a stop means for stopping the variable display of the plurality of symbols due to the change in time or the passage of a predetermined time; and a benefit granting means for granting a benefit to a player according to the symbols after the stop.

The present invention is not limited to the above-described embodiments and modifications, but can be realized in various configurations without departing from the spirit thereof. For example, the technical features of the embodiments and modifications corresponding to the technical features of each form described in the column of the summary of the invention may be used to solve some or all of the above-mentioned problems, or to solve the above-mentioned problems. In order to achieve some or all of the effects, it is possible to replace or combine them as appropriate. Further, unless the technical feature is described as essential in this specification, it can be deleted as appropriate.

10...Pachinko machine 11...Outer frame 12...Pachinko machine body 13...Inner frame 14...Front door frame 15...Hinge 16...Hinge 17...Cylinder lock 18. ..Window part 19...Glass unit 20...Upper plate 21...Lower plate 22...Ejection port 23...Lever 24...Production operation button 25...Operation handle 25a... Touch sensor 25b... Weight button 25c... Variable resistor 26... Game ball firing button 30... Game board 31... Guidance rail 31a... Inner rail part 31b... Outer rail part 32 ...General winning opening 32a...First winning opening 32b...Second winning opening 32c...Third winning opening 33...First starting opening 34...Second starting opening 34a... Electric accessory 34b...Electric accessory drive part 35...Through gate 36...Variable prize winning device 36a...Big prize opening 36b...Opening/closing door 36c...Variable winning prize drive part 37... Special figure unit 37a...First symbol display section 37b...Second symbol display section 37c...First reserve display section 37d...Second reserve display section 38...Public symbol unit 39... Round display section 40...Variable display unit 41...Symbol display device 42...Nail 43...Out port 45...Main display section 45z...Game history information display section (information display section)
46... Speaker 47... Various lamps 51... First control unit 52... Second control unit 53... Third control unit 54... Tank 55... Tank rail 56... Case rail 60...Main control device 61...Main control board 62...Main side MPU
62x...Main CPU
63...Main side ROM
64...Main side RAM
64x... Flash memory 70... Payout control device 71... Payout device 80... Launch control device 81... Game ball launch mechanism 85... Power supply device 86... Power outage monitoring circuit 90.. .Sound light emission control device 91...Sound light emission control board 96...RTC
100...Display control device 300...Game history management chip 302...Buffer 304...Register 306...Memory for storing prize ball number data 307...Memory for storing calculation execution conditions 307a... Memory for storing execution conditions 308...CPU
309...Memory for storing calculation results 309a...Memory for storing number of balls entering 309b...Memory for storing entering ball information 320...Inspection machine 321...CPU
328...Display section 329...Connection cable

Claims (1)

special information acquisition means for acquiring special information when an acquisition opportunity based on a gaming operation occurs ;
a lottery determination means for executing a win/fail determination with a predetermined probability using the special information;
Setting value determining means for selecting and determining a setting value of the predetermined probability used for the validity determination from among a plurality of stages within a predetermined range;
means for storing predetermined setting information in a predetermined storage area based on the predetermined setting value being determined ;
Judgment reference information, which is information corresponding to the predetermined setting information and is referred to when judging the validity of the special information by the lottery judging means , using the predetermined setting information stored based on the determination of the setting value. means for determining and remembering the
A gaming machine comprising:
The lottery determination means refers to the reference information at the time of determination and determines the special information before starting the variation of symbols based on the occurrence of the acquisition opportunity ,
The gaming machine further includes:
Setting range determining means for determining whether the predetermined setting information is included in a value within the predetermined range;
an abnormality response processing means that determines that there is an abnormality and executes an abnormality response process when it is determined that the predetermined setting information is not included in the value within the predetermined range;
Equipped with
The determination by the setting range determining means as to whether or not the predetermined setting information is included in a value within the predetermined range is also performed at a stage after the progress of the game is started;
The gaming machine further includes:
storage content determining means for determining whether or not the storage content of the game storage area including the predetermined storage area is normal;
initializing means for initializing a predetermined range of the game storage area when the setting value determining means newly determines the setting value;
Equipped with
If the storage content determining means determines that the storage content of the game storage area is not normal, the game cannot proceed unless initialization is performed by the initialization means.
A gaming machine characterized by:

Images